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 S