Gene list
Applied filters:
COG category: Unclassified
Organism: Salmonella typhimurium LT2, SGSC1412
Number of genes found: 57
Show UniProt / TrEMBL protein name | View as list | View in Fasta format (Protein) | ||||
# Salmonella typhimurium LT2, SGSC1412 >gid:863052 PSLT001 putative cytoplasmic protein GTGTTTAAGTACTGGCCCACATTTGTACAGCAGTGGGAAAACTCGCTGAA AGCCGCACAGAAGGGGCTGGAAATCTGGAAATCAGCGAGGGCGGATGCCT GGCTTGCGTATCACAACGGTATTTTTGCCACCAGTCATTATGAAGGCGCG CTCACCAGTGAAGATATCAGTAGTGCGGCGGCCGCCGCCCTGAAAGGGCA TAAAATCAGGGGTGGAAACGTGAACACGAAAAGCATACTGGATGGCAGTA ACCGACTGGCACATACGCTTGCGCTGCAGGGCTAG >gid:863074 PSLT025 putative cytoplasmic protein ATGGATGCTGAATTTCAGAAACAGGGGCTCACCGACCTAACAGAAACAGA TCTGCAGGCCGTTGTAACTCCCGGGGAGACACTCCGGTTACTGCCGACAC TGGCGCGGTTACTGCATGTTTTGCGAGAAAAACCAGAGGCCTTCTCCCTC TCAGCAGCTTCATACGAAGAAGATACTTCCTCAGCTTTGAAAACACTGCT GGTCCGTACAGGATTCACAATACACCAGATAAGAGAAATGCGACTTCACC TTATTCGCTGGCAATTAATAAGTCAGGAAGAGTATGACCGGGAATAA >gid:863075 PSLT026 putative periplasmic protein GTGGCCATTCCACCTACTTGTAAGGAGATTTTCATGAACACAGCATTACT TGCTCCATTTATCTCAATTGCATTATCTGGAGTGGGCGTTTATACCCACT ATTACTTTAAGAAATATCAGGCTTCCATGGATCAGTGCCAAAAGGTCCAC AAAATGATGGTAGATACACTGCTCGGTACCAAAAGACTGTTCAGCCGGAG CGCCCCCGCGCAGGCGCTTAAATCAGAACTGAGAATCATGCAGCAGCAAC TCTCTCAGGAGGCTCAAAAACTGGATAAAATGACGATACGCCTTCCGTTA AAGCGTCTGCAACGGGAACAACGTCATATTTTGAGGCATGCTGACTGGTT ATTACATTATCTCGATTCGCATCTGGCAGATAATGAAGGGAAATTTTTTC TGTTCCTGCATGACTTGGCGATGGATAGCGATGATAAAGTCCTGGATTTC CTGACGTCATTACATGACACAAAGAGATTCAGAAATCGCCGTCTGCAAAC TGGATCAACTACCTGTCCCTGA >gid:863078 PSLT029 putative cytoplasmic protein ATGCGTGTCAGCGAACAGGTGCTGCTCAGTAGTCTACGTCAGGGCGGCTG TGTGCGGAGTTTCTGGCGCCGCTCCGCCAGACTGGCGGGTACGCCCTCTC CGATCGTTCCGGACGGGCTTGTGCTGGAAACCCCCGGTGAACGCGGGGAT ACCCCACTCTGTCATGTGGATTTTGCGGTGGTACAGAAGTGGCTGGTCTG CGAGGAAACCTGGACACAGACCCTCGGGGGAACGGAGTTCGGCGGGACGG TCTGGCGACTGCGTACTGACAGGGAGAACACCACCTCATGA >gid:863079 PSLT030 putative cytoplasmic protein ATGACACGGTCACGCATCTGTCCGGATACTGAATCCACCGGTCTCAGTCC GGCATCGGATGCCCTGCCGGTCAGGGAGACGACAGAACAGTTTGCACAGG TCTTTTTCGGAAAATCCGTGTCCCTGCTGACGCCGGAAGAGCGGTTCACG ACGGTGTACGCCGGCTCCCGGGATATACCTGCGGATTTGCATCCGGCGAG CTGGTTTCCGGCCGACACCTGGTTTCGTAACGAACTTCGCGCCTGCGCGG CCTATGTCGGACGTCGTCAGGGCTGGCCACTGTATCACGCTTCAGAAGCG GAACGGCTGCGCGCACTCTATCCGCTACGGCTCGCCACGCCCGCGACCGA TCCGGGAAAACAATTGCTGACCCGTACGGCGCTGCTGAAAGCGGGTTACT CACGTGCCACGATTGCGGCCATGACACCGGTGGCCGAACGGCAGAACCGT CACAGCGGCGACTGGTATCCTTTATACAGGGTTCAGACTGAAACCAGAGA TGACTCCGGGGAAAAAACATGA >gid:863082 PSLT033 putative inner membrane protein ATGCTGATTATCGTCAGTGACTGTCAGTTTACCCGCCTGGCGCTGACGCG CCTGCTCGCACATCTGGACCCCGTGAACATGAGTGTTGCCCGGTGGTTAC AGACCGCGCCGCCGGCAGGCAGCCATGTGCTGCTGGCGGCCTCTCCCGGC ATGCTGGCATCGCTGGTCCCGGCCTGCCATCACGCCAGGACATCACTGTC CCTGAAACTGGCGCTGCTGGGCTCAGGAGGACAGGCTGTCTTCCTGAACA CCCTCGGTCTCAGGCCGGACTGCCTGCTGCCGCGCACCGCCTCCGCGACT CAGCTGAAGGCCGCGGTCAGCAGCTGGCTGCGCCGTGCGCGGGGCTGGCG GCAGGCGACGACGGAGAGTCTCTCCCTGCGCGAGCGACAGGCGCTGTGTG CCACGCTCGCCGGCCTCTCCGCGCGCACGGCGCCCGGCTCGGCATCAGCC CCAAAACCTTTTACGGCCATCGCCGCAGCGCGCTGA >gid:863083 PSLT034 putative adhesin ATGCTCGGGGCGAACATCTTCCTCGACTATGACCTCTCCCGCGACCACGC CCGCGCCGGCTTCGGCGGAGAATACTGGCGCGACTTCCTTAAGCTTTCCG CCAACGCCTATGTCGGCCTGACCGGCTGGAAAACCTCCCCGGATGTGGAG GACTACGAAGAGCGTCCGGCCAGCGGCTGGGACCTGCGTGCTGAAGGCTA CCTGCCGTCGTACCCGCAGCTCGGGGCGAAGATGGTGTATGAGCAGTATT ACGGAAATGAAGTGGGCCTGTTCGGGAAGGATGAGCGGCAGAAGAACCCG CACGCCCTGACCGCCGGGGTCAGCTGGACTCCGGTGCCGCTGCTGAAGCT CAGCGCGGAGCAGCGCGCCGGCAAGGCCGGGGAGCATGACACCCGCTTCG GGGCAGAAGCGAGTTACCGCATTGGTGACAGCCTGCGCAGCCAGCTGGAT CCGGATGCCGTGGGCGCCCTGCGCAGCCTGGCGGGCAGCCGCTACGACCT GACTGACCGTAACAATGACATTATCCTCGAGTACCGTAAGCAGGAGGTGA CGTGCCAGTAA >gid:863096 PSLT047 putative cytoplasmic protein ATGCCGCAGGATGAATCAGTCGTCAAACGGGCCAGGGAATACTTTTTCCG CCACCACCGGTATACAGAGGAAGACCTGGAATCCGACTACCAGGCAGAAC TGTGTAACTACAGGGATGACACCTGGGAAGCACCACAACGGGCAGCCAGA CTCAGTGCGGCCGTCAAGCGCTACAAAACGTATGAGATGCTGTACTTCTT CTTCCAGATCGCTGATGAGGCCGGGCTGGACTATACTCCGCTGGTTGTAA AGCGCCTGTGCGCTCATCTTTTCGACAGGCAGGGCAGCCAGAATATTATT GTTGATATCTTTGGCCAGAAGGGACGCATGCACCGCAGCCATGACAGTGA TCCTGACATTATTGCTGCCGTTGCCGAACGCTACCGGCAGCAGGCAGAGG ACCACTGGCAGACAGTTCTGAAGAATATCGGGAGAGTGAAGCAGGACTAC CAGAAAAATCAGAACAGACAGAAAGGCGCAGGGGATTAA >gid:863099 PSLT050 putative cytoplasmic protein ATGAGCCACCCCGATCCAGCTCAGGCCAGCCTGACTGACAGCACCGGAAA GCGATATGGTTCCGTAACGATTTGTACTGCAGCTGCTGCCGGATCGATGC CGACTGTGGGTTTCAGGCGGGTCTCAAATATCCTCTCACCGCGGGCATTC ACCAGACCGATTTCCAGCGCCTGCGCGCCGGCATCAAGTCCGGTCGTTTC GGTATCGAGGAAGACGGGGCCCAGTGCTAACCAGGTATGTGCCAGCATGG CGAACCTGCCACGCTCACTCTTCATCCGGGCCTGCAGGCCCAGACGTGTG CTGGCCAGCCGCTGTTTTTCTGTCTGA >gid:863105 PSLT056 putative cytoplasmic protein ATGTTCAGAGTGACCTGTATCGACCTGGAAAATGGCGAGTTTGCGCTTTA TATCAACGGACATTATCTGTCCAGTGAAGACGGCAGCGGCGAGAAGCTGT ACCTGGGGGATATTCTGGAACGTTTATCCCGTCTGCCTGGTGTGACCACG GAAACCGTGGAGCGACCAGTACCAGACAGTGATGAGTGGAGCTGGAACGA TGTGGCAGACAGTGTTTTTCCGGCCTGTATCACGCTGTCCCGCAATATGA CAGTCGCTGCGTTTAAACAGCGTCTTTCCCGGTTTCCTGATGATGCGCTG TGCTGCGGTACGTTCTGGCTGGCCAGTGATTTTCTGGCGCTGGACAGTTC GCTCACGGAAGACGATATCGATGCGGCGATGGAGCTGGCACAGCACTGCC ATGATGCGAATGACGGGTTCAACTGGAGCCATCTGCAATGGGCAATCGAT GAGGTGAAGCGCGGTGGATAA >gid:863106 PSLT057 putative cytoplasmic protein GTGGATAATAATTCAAACATTAATGATACCTGGCTTGTTGGCCTGAGTGT CGACGTCAATGGCACTGAAATGATGGTGCATTACCTGGTTTCCGCGACTG ACCTGGAGCATGCCGAAGCGGGTGTTCTGCAAATGGGGCGCACCTGGTGG CCATCGTTGAAACGCGAGGATGACCGGCATCGGTGGGAATATGAAACAGG CGTGGTCTGGTTTAACAGCATCATTCTGCTCGATGACGTGGAAAACAGTA TCCTGCGTGGTCTGAAGTTCCTCGATGCGTGGACAGTGACCGGCTCAACG GATGCGCCGGTACTGCGCGATGAGTGGGGGAATGACTGGCGGGATATCAC CCGCTGA >gid:863108 PSLT060 putative cytoplasmic protein ATGAACTATTCCGGACACGAAAAACTCCGCGCAGAAGTGGCGGCGCTGGC CAACAGCATGTGCGACCTGCGCGCCACCCTGAAAGTGCTGGAAGAGCGTT ATCACTGGCAGCGTCACGGACTTACTGAACGACTGGCCGGGCAGAGTCTG CGGCGTATCAACACCCTGCTGGATGAAGCGTACAACGAAAGCCTGATGCT CAATGAGTGTTTTAAAGACTGA >gid:863109 PSLT061 putative inner membrane protein ATGAGAAACACGCTCAGTACGCTGATAGTGCGCCACGGAGATAATCTGTT ACGCCGGTCCGGCTGGCCCGAAACCGTCGGCGTGACGCAGGTGGCCCCCG GTGTGGTGCCCGGCTGGCTGGCCGTCTGCGGTGTGCTCAGTGCTGCCGAA ATCTTGGCACTGACGACGCATCTTTGTCAGCCCCTTAATTATGGACGGGC GCAACTGCTGACGGCCAGTGCGCAGCGGCTGGCGGGGACGCCAGTCCGGT TACATCTGTACCCGGTACAGGCATATCCGCACCCTGCCACGGTACGCGAA TGCACTGAAATTCGCCTTCCGTATGCTCAGGAGTGGCTGACCACGGACGA ATATGCCGACCTGCTGGCGTTCCTGAAAGCGTCCGCTGACCGGGTATGTG AAATTGTCCGCCAGGATACGAAGCGCATCGCGGCGGCGCTGGCACCGTCC GGCGAGTCCCGCCTGATGGAAAAACGCATCGGGAACTGGCGGTTACTGGC CGATGAATACGACCATGATAACTGGCTTGACGAAGAGGACGAGGACGGAC TGGATAAGGTGCTGGACGCGGTACTGGTACGTAACGCCCGTTTCTGCCCG GTGCTGCTGACGCTGGTTAATGAGCCGGAGGAAGAAATCGAAGCCGCCGG CGTGATAACCGACTGTTTGCGCTTCCCGGGGGAACCGAACCGCCGCTGGC TTGACCGCCGCGTGCTCCGGGATGTGGTGAACGAAGCCCGGAGTTTCACA GGCAACATCCGTTAA >gid:863110 PSLT062 putative cytoplasmic protein ATGCAGTATTCAAATCAGCAACGTGCGCGTGTTATTAACGTTGAAGAATC CGACCGCCTGTCTTTCCTGCCGTACATGTTCGGCAACGATTTTATGCTGG CTGAATTACAGTTATATGCCCTGGCGAAAAAATGGATGCCTGAATACAAC GGTGGTTTCTGGCATTTTATCCGTCTGCCGGAAGGCGGCGGATACATGAT GCCCGACTGCGATCGGGTACACATGATCAACGGTGAAAACTGGTTTGATC GTACCGTCAGCGCCGACGCTGCCGGAATTATTCTGACTTCGCTCGCCATT AACCGCCGTTGCTGGACGCATCACGACTGCGGCAACGCTGCGCTCACTCG CCTGTATATGCTGCGTGATACCCAGCTCTGGAATCACATTACGTTTCACC CTGAATGCAACGCTATTTACGCCGCGCTCGACTGA >gid:863111 PSLT063 putative cytoplasmic protein ATGTACGGAACCGTCAGCACCATCTGCTGCGACTTACTGAAAGTGTATGA GAATCACGAAAAAATCGCTGTCATCATCTGGTGTGAAGGCGATGTGCGGG AAATGGGGGCGGAGTTTAATCCGACCGCTGATGACATACAGGCCGTACTG CGCGCCATTGGCGAGTCGGACAGTGATGCGCTCTGGCGTGATGGTATTGG CCAGAATTTTGTTGAGGGTGTATTACGCGAGTTAGTCGCACTGCGCCCAC CGCGCCAGATTGCTGTACCTGAAGATGTGCTGCGCACGCTTTTACCCCTG ATGGAAGCCGGAATGAACCTTCCTCGTTACCAGACGCAGGACAGGGCTGC TGAAGAAGAAACCGCGCTGGATACGTTGCGATACCTGCTTTCCACAAATA TCCCGGCGCATAACCTGACCGAAGGAAACTACTGA >gid:863112 PSLT064 putative inner membrane protein ATGTCCGGACTGAATCTGGCGGCAACAACTAAAGAAGAGCAGGATAAAGT GGCCATTGACCTGGTTGCTTCAGGCGTGGTCTATAAAGAAAGGCTGGCGA TGCCGGTGGTCGCTGAGCTTGTCGTCAGAGAACAGCCTGAGCATTTGAGA GAGTATTTCCGGGCGCGGCTGGAGTATTTGCGCAACTCCCGGACAAGAAT GCCCCGGAATATGCCAGAAAAGAGGATGAGGTTAAAAAATAGCGCCATTC CTGATGCATTCTGCCTGTCGCTGGCCGGATTTTACGCATGCCGGGTGATG TTTTTTTCTGGCCGGGGTGTGTGA >gid:863114 PSLT067 putative cytoplasmic protein ATGACAGACAACATCATGAGCCCACTGAAATCCCTGCCTGATGGCACGTT CACCCACGAACAGGCCGAAGCGGTGGCAGCACAGTATCAGAATGTCGCCA TTGAAGACGATCAGGGGACGCACCTTCGCTTGGTTGTGCGTAAGGACGGC GAAATGGTCTGGCGGGGCTGGAATTTTGAACCGGGCGGCGAGTACTGGCT CAACCGCTGTATCGAAAGCCACGGTATCCGTAAAACGCAGTAA >gid:863132 PSLT087 conjugative transfer: ATGCATAAATCAGACGCTGAAAAAATGGAATCCATTATTGATAAACATGA CCGGATATACCGACGACAGGTGCGGGTATTTAAAAACCTGGGCTTCCTCT CAATAATTACCGCCGTACTGAGTGTGATTACTGCGTTATTCAGTACCTCC CTGCTCCTGAAATACACGCTGTGTGTCGTGATATGCGTTTGTCTGATTTA TCTGGTTTTTATGTTCTTCTGCCTGGACAGGTATATCGCGCTCAGTCGTC AGACACTGCTGTGGCTGTTGCGCCGGGTGGAAGATACCGCAGACGTTCGC CGGGAGCTGCTCCGCCGCCTGCTGTCCGGGAAAACGCTGACCGGACGGGA TGAAGACGACATCCTGCGTCTCTGGTGGGAGAGCAGTAATGAAGTGGAGG AGCTTGCAACCCGTCAGCGTGAACAGGATGCCATCCGGAAGTTTGTCGGC GGGGATAAATCAGAATGA >gid:863137 PSLT093 conjugative transfer: GTGTTTATGCGAATTATTTATAAGAGACAGCATTATCTGTCCGTTATCAG GTGGGGGGCGGTTGCTGTCGTGCAGGTCCTGAATGAGAGTGTAAAACTGT TTCCGTTTGCGCTGGTGATGTTTGCGCTGATGGCTTTTTATTTTCTTCCG GAACGCATCATCTCTGATGTTGTTAATTCGTGGATGGAAACAGACACGAC CGGAAAAATATCGCTCATCAGACTTTACCTGGAAGTGACATTTATGCTGT CCCTCGAGTCTTCTTCTCTTTTATTTATGTACCGGGGAAAGCGATGCACA GGAAAATAA >gid:863077 ccdB toxin addiction system: toxin ATGCAGTTTAAGGTTTACACCTGTAAAAGGGAGAGTCGCTACCGGCTGTT TGTGGACGTGCAGAGCGACATCATTGACACCCCCGGACGGCGGATGGCTG TCCCGCTGGTCAGCGCCCGTCTGCTGTCGGAAAAGGTTCCCCGCGATCTT TACCCGGTGATGCATATCGGGGATGAGCCTTACCGCCTGCTGACCACGGA TATGACCAGTGTGCCGGCCACCGTCATCGGGGAAGAGGTGGCCGATCTCA GCCTCCGGGAGAACGATATCAAAAACGCCATTAACCTGATGTTCCGGGGG ATCTGA >gid:863154 finO conjugative transfer: regulation ATGACTGAGCAGAAACGACCGGTACTGACACTGAAACGGAAAACGGATGG GGAAGCGCCGGCCCGCAGCCGCAAAACCATTATTAACGTCACCACGCCCC CGAAGTGGAAGGTGAAGAAACAGCAGCTGGCTGACAGGGCTGTCCGGGAA GCGTCACTGGCAGAAAAAAAAGCCCGGGCAAGAAAAGATCTGTCCATCTA CCTGCGATTTCAGTCAGTGGAGGAAGCGGTCAGCACGCTGAAACCCTGGT GGCCGGGGCTGTTTGACGGCGACACGCCCCGTCTTTTCGCCTGTGGCGTG CGTGAGGCGCTGTTTGAGGACGCCTCCAGGCGTGGTATCCCGCTGTCACA CAAAAAGATAATCCGTGCGCTGAAAGCGATTGCCCGTTCTGAAGCATATC TCAGCGCGATGAAAGCCGGGGCCTGCCGATATGACACGGAAGGGTATGTG ACGGAGCATATTACCGTGGAGGAAGAACAGTACGCGCTGGCGCGACTGGC AAAGGTCCGGGCGCAGAACGCCAGAAAAGCGGAACTCCGCGCGGTGCTGG CGCAGACGGTCTGA >gid:863066 orf5 putative outer membrane protein ATGATGAGACGAAGTGAAATCAGGTGGATGAAACGTCATGTGTGTGCAGG AGCGCTGGTTACTGGGCTGCTGTTCCCTTTGGCGACAGAAGCGGCTTCGA AGGAAAATATAACCATTCCATTCACGTTAACCAACCCGCAACAGACCTGC AAACTGACCTTTGATAACGGCGGTAATACGATGAACTATCAACTGGGAGT AATGAATAAAGGAGTCCGGATGCAACACAGACCGTTTACCGTGAAAGTGG ATTGTGGGCAGAGTACTGTGGTGAAGACAGCACTGACAGCAAGAAACACC ACTGGAACCCTGCAGGGGGGCGGTGACAGCAGCGTAGTCATTATGCGGAT GAACGGTCAGCCGTCAAATAATGGCCCGCTGTTCTGGCTGGAAAATGGTA GTAAGCGGGTGAAACTGACTGGGAAGGACGATGATGCTTTCTGCATATCC CCCTCCCCGAACAACTGTGAGCTCCGCCCTGTGACTGATATTCCGGCAAA TTCACCGGAGGGGAATATTGATGTGACGGTGGTTTTTGATGTGGTTTACC CACAGTAA >gid:863065 orf6 putative outer membrane protein ATGTTAAAATTACTAATTGCTTCAGTCATCATCATGGGGGGAACGGTCAT CACTTACCCTGCTCATGCAAAAACCACAACTGTATCCACATATAGTCAAG GAATCTACCAATACCAAATGCAGGCAAGTAACTTTATGATTAAGTCAGAC CAAGCAGCCCTTTCTATGGTAACAATGACTTCATTCAGTCAGTGCAACGT ACAAATTATATCGCGTACCTGTAATGGAACAGCTATGGTTATAGCACCCG ATGGAACACGATATCCCGCAGAAGTTGAGTGCAAGGTTGCAGATAAGGGT TTCGGCGTAATGTTTCGGGCCCCGGGCCTGGTTCAGAATGGCATTGTTGC GGGTGAAGGGTATATACTCCCCGCTGGCTATACGTTGATGTTTAGTCTCA GCCGAACAGGAGAAGTCCGTACGACTAGAACCCTATATGATGAATGTGAG GCCAGTTCGCTGGGATCGTGGCTTCACCAATATCACTTACCATCACCGAG CGTCACACTCACTTCTTCATCTGGAGCACGTTATACCCTCGGTAATGGTG TAATGTCGACAAGCTTTCCTGCAGGAGGTACGACAAAAAGTATTACCGTT GAGCATCCAGATTCGATAAACAGCAAGGCTGGGGTAAATGGTGCGTTCGA GCAAGTGATACTAAAGGCTAGTGGGACTCCTGGTGCTTCTATTCGTGTAA CACAGTCGATAACTCCCAGCGAAGTGGCCAGAAATGCACAATTGTTAAAA ACTACTGGAGGTCAGTGCACGACAATGCGTGCTGGAGATGAATGTAAACT TGTTCTTGCGCCAGGAACAATACGACCAGGACATACAAGTTCGGGCACAG TGTTAATAAGTGTGCAACTGCAATAA >gid:863070 pefB plasmid-encoded fimbriae;regulation ATGATGCTGAACAGAAAAGATGCTGATTATTATTTGGGCAAAGAAATCAT GCTGGCCAGAATAAGAAGAGGGGCGCTGATACCTGCAAAAGTAAATGAGG AACATTTCTGGTTACTCATCGGTATATCATCCATTCACAGTGAGAAGATT ATTCAGGCACTCAGGGACTACCTTGTTTTTGGTGTGTCCAGAAAGGATGT CTGTGAACGCTATGAAGTGAACAACGGGTATTTCAGTACCAGCCTGAACC GCCTGTCACGCATCAGTCAGGCCGCTGCGCAGATGGTTGTTTATTATTCA TAA >gid:863064 pefI plasmid-encoded fimbriae; regulatory ATGAGTGAATCCATTGTTACAAAAATTATTTCCATCGTCCAGGAACGTCA GAACATGGATGACGGCGCGCCAGTTAAAACCCGCGATATTGCCGATGCTG CCGGACTCAGTATCTACCAGGTCCGCTTGTATCTTGAGCAACTCCACGAT GTCGGGGTGCTTGAGAAAGTGAATGCCGGAAAGGGAGTTCCCGGATTATG GCGTCTGCTCTGA >gid:863117 psiA Plasmid SOS inhibition ATGATCCACTCTTCACACGCCCTGGTTACCCTGAAGCCAGCCCGTCAGGC GGCATTACAGGCCATTCTGACGGTGGAAGAATCCCGCCGCCGTGGAGCAC GTCTGCCCGCCCTGCCACATGCGCGTACTTTTTTGCGCGTGCTGAGCGGC AGCAGCCGGATTAACACGACAGTGGCACAGCGTATTCCCGGTCTGAACTG GGAGCCGAAGAACCGGCTGACCAGCCTGAAACAGGTGGAAGAGGCGCTGG ATCGCCTCATCTCCAGTCACGGGGAGTATTGCCCGCTACCACTCTCCGTG GATGTGCAGGCCGAACTGTTCCCGGAGGTGATACACGCGCGCACAGATCG CCGGATGCAGCGTGAGAAAATCGCCTTTAACCGCAAAATGCGCCGGGAGG AAAAAGCGCTGGAACATGCCTGGCTGCTGCGCCAGAACCTGCTGGGGCAG GCCATGACGGAGCTTAACTTTCAGTCGCCGGAAACCGTCAATGCCTGGTA TACGCGCTGGGCTGACGAGTTTGACGCGCGGGAGCTGGCGCAGGGGTTCT GGCAGTGGCGGACGCGGTTTACCTCGCTGACGTCGCTGGACTGGCTGCGC GACAGTGATGAGCCGCTGTACAACGTGATGTATGAAATCTGGTTCATCGT CCGGGAAAACCCGGTATATGTGCGCGAGGCCGAACGTTGGCAGGTACCCA ACAAGCTGACGAACCGGAGGCCCGGGCGACTTCCCTGA >gid:863116 psiB Plasmid SOS inhibition ATGATGCGTAACATTATTACCCCCGCTGTATTGAGTACAATGATCCCCCA GGAATTCGAAGACTGGCGCGACGGCGGCGAAGACCTGCGCCGTGAACTGA CCCACGCCGCGATGCGTGACCTGACATGTCCCGCAGGCTGGGACATGAAC GGCGAATATCGCAGTGAGTTTGGTGGTTTTTTCCCGGTGCAGATCCGTTT CACGCCATCCCGCGGCAATTTCAGCCTGGCGGTATGCAGTCCCGGGGATA TCAGCCCGTCCTGGATGGTGGTCTTTATTCCGGTCAGCGGTCGCCCGTTC TCTGTTATCCGCACGCTGCCAGCCTGGTCGCCGGAGGTTATCACGCATAC ACTCAGCCTGGTGGCTCACCTTGATGCCGATGGTTACAGTCAGGCCAGCA TCATCAGCGTTCTGGCGATGGAGGGCGCAGCATGA >gid:863057 repA DNA replication GTGCAGGCAGAAGTGACTGACACCCGAACACTGTTCACTCATTACCGACA GGTCAAAAATCCGAATCCGGAATTCACGCCGAGAGAAGGGAAAAAGACCC TGCCGTTCTGTCGTAAGCTGATGGCGAAAGCCGAAGGGTTCACGTCCCGT TTTGATTTTTCCGTCCATGTGGCGTTCGTTCGTTCGCTGGGAAAGCGTCA CCGGATGCCGCCTTTGCTGCGCCGTCGTGCCATCGATGCGCTGCTTCAGG GGTTGTGCTTCCATTATGATCCACTGGCCAACCGTGTACAGAGATCCATC ACCAATCTGGCTATAGAGTGCGGTCTGGCCACTGAGTCAAAAAGTGGTAA TCTGTCCATCACCCGCGCCACACGGGCGCTGAAGTTTATGGCAGAGCTGG GGCTGATTACCTACCAGACCGAGTACGATCCGCAGATTGGCTGCAACATC CCGACCGATATCACCTTCACGCCGGCACTGTTCTCCGCGCTCGACGTTTC TGACGTGGCTGTTATGGCCGCCCGCCGCAGTCGTGTCGAATGGGAAAATC AGCAGCGCAAAAAGCAGAATCTGGAGCCGCTGGAGATGGATGAACTGATA GCGAAAGCCTGGCGATTTGTGCGCGAACGGTTCCGCAGCTACCAGTCTGA ACGTAAACTGCACGGACTGAAACGCGCCCGGGCGCGGCGTGACGCGGACA GAAGCCGTAAGGACATCGAAACACTGGTGAAACAGCAGCTGACGCGGGAA TACGCCAGCGGACGCTTTACCGGCGGGCTTGATGCCATGAAGCGGGAGCT GCAGCGGCGCGTGAAAGAGCGCATGATGATGTCGCGGGGCAAAAACTACA CGCGACTGACCATGGCCACCGTCCCCATATAA >gid:863072 repA2 DNA replication TTGTTTGTAGAGGTGGATAAATCCTCCGGTGAAATCGTAAATCTCACTCC TAATGCCAGTAATACCGTGCAGCCTGTAGCTCTGATGCGGCTTGGAGTAT TTGTTCCTACGCTTAAGTCACTGAAAAACCGTAAAAAGAACACGCTTTCG CGTACTGATGCGTCGGAAGAACTGACGCGTCTGTCTCTCGCCAGGGCCGA GGGGTTTGATAAAGTGGAGATCACTGGTCCCCGCCTGGATATGGATAATG ACTTCAAGACCTGGGTAGGGGTGATTCATTCCTTTGCCCGGCATAAAGTT ATTGGCGATAAAGTTGAGCTGTCGTTTGTCGAATTCGCCAAACTCTGTGG GATCCCCTCCAGTCAGTCATCCCGGAAGCTCCGGGAACGTATCAGTCCTT CACTTAAGCGTATCGCGGGTACTGTGATCTCGTTTTCCCGCACAACGGAG AAGCACACCAAAGAGTACATTACGCATCTGGTACAGTCGGCTTACTATGA TACGGAAAAAGATATCGTTCAGCTGCAAGCCGATCCGCGCCTCTTTGAAC TCTACCAGTTTGACCGGAAAGTGCTGCTGCAGCTCAAGGCCATCAATGCC CTGAAGCGCCGGGAGTCCGCTCAGGCTCTTTATACCTTTATAGAGAGTCT GCCGCGGGATCCGGCGCCGATATCACTGGCGCGTCTACGGGCCCGTCTGA ACCTGAAATCCCCTGTGTTCTCGCAGAACCAGACGGTGAGGCGTGCCATG GAGCAGCTCCGGGAGATTGGCTATCTGGATTACACTGAGATCCAGCGTGG GCGTACAAAACTCTTCTGTATTCACTACCGCCGGCCCAAGTTAAAGCCAC CTCATGATGAGAGTGCGGAGAACCCGCAACTGCCAGCCACACCGGGTGAC GTCAGTCCGGAGATGGCTGAAAAACTTGCACTTCTTGATAAACTGGGCAT CACACTTGATGACCTGGAGAAACTCTTCAAATCCCGCTGA >gid:863055 repA3 DNA replication GTGTCTACCCGGGACCAGAAAAGCAAAAACCCCGATAATCTTCTCATTTC TTGGCGGGAACGAAAGATTAACGGGGCCTACTTAAACTGTATAGCCACCA ATCAGGCTATGCAGGGAGTATAG >gid:863089 spvA Salmonella plasmid virulence: outer membrane protein ATGAATATGAATCAGACCACCAGTCCGGCACTTTCACAGGTCGAAACCGC CATCCGGGTCCCGGCAGGGAATTTTGCAAAATATAATTATTATTCCGTGT TTGATATTGTCCGTCAGACCCGTAAACAGTTTATTAACGCCAATATGTCA TGGCCGGGCTCCCGCGGAGGTAAAACCTGGGACCTGGCGATGGGCCAGGC GCAGTATATCCGCTGCATGTTCCGAGAAAATCAATTGACCCGCAGAGTTC GGGGGACCTTGCAGCAGACACCGGACAATGGCACGAACCTGAGCAGTTCC GCTGTCGGCGGTATTCAGGGACAGGCAGAGCGTCGGCCGGACCTGGCCAC CCTGATGGTGGTTAATGATGCCATTAACCAGCAAATACCGACCCTGCTGC CGTATCATTTTCCACACGACCAGGTGGAGTTATCTCTGCTGAATACCGAT GTGTCGCTGGAAGATATTATCAGCGAGAGCAGCATTGACTGGCCGTGGTT CCTGAGCAACTCGCTGACCGGCGATAACAGTAACTATGCCATGGAGCTCG CCAGCCGGCTGTCACCAGAGCAGCAGACACTGCCGACCGAGCCGGACAAC AGTACCGCCACTGACCTGACCTCTTTTTACCAGACCAATCTGGGGCTGAA AACCGCCGACTATACGCCATTTGAAGCACTGAATACCTTTGCCCGACAGT TAGCGATTACCGTTCCCCCAGGTGGAACAGTTGATTGCGGGTACTCTGCG TGCCAGCCGGCAGTTTAG >gid:863087 spvC Salmonella plasmid virulence: hydrophilic protein ATGCCCATAAATAGGCCTAATCTAAATCTAAACATCCCTCCTTTGAATAT TGTAGCTGCTTATGATGGGGCGGAAATACCATCTACAAATAAGCACCTGA AAAATAATTTCAACTCCTTGCACAACCAAATGCGGAAGATGCCGGTATCC CACTTTAAAGAGGCGCTGGATGTGCCTGACTATTCAGGGATGCGCCAGAG TGGTTTCTTTGCTATGAGCCAAGGTTTTCAGCTGAATAACCATGGTTACG ATGTTTTCATCCATGCTCGTCGAGAATCACCTCAGTCTCAGGGCAAATTT GCCGGTGACAAGTTCCACATCAGTGTGCTCAGGGATATGGTGCCACAAGC ATTTCAAGCGCTGTCCGGATTGCTGTTTTCAGAGGACAGTCCGGTAGATA AGTGGAAAGTGACCGATATGGAGAAGGTCGTTCAACAAGCCCGTGTTAGC CTGGGCGCTCAGTTCACGTTGTATATAAAACCAGACCAGGAAAATTCGCA GTACAGTGCGTCGTTTCTCCACAAGACACGGCAATTTATAGAGTGTCTGG AATCCAGACTATCCGAAAATGGGGTTATTTCAGGACAGTGTCCTGAGTCA GACGTTCATCCTGAAAATTGGAAATATCTCAGTTATCGTAATGAACTACG AAGTGGGCGTGATGGTGGCGAAATGCAGAGACAGGCTTTACGTGAGGAAC CGTTTTATCGTTTGATGACAGAGTAA >gid:863086 spvD Salmonella plasmid virulence: hydrophilic protein ATGAGAGTTTCTGGTAGTGCGTCATCCCAAGATATAATATCACGTATAAA TTCAAAAAATATCAATAATAATGATTCAAATGAAGTCAAGAGAATTAAAG ATGCGCTTTGTATTGAATCAAAAGAGAGAATTTTGTATCCACAAAATTTG AGTCGAGATAATTTAAAACAAATGGCTAGATATGTAAATAATACATACGT CCATTACTCTGGGAACTGCGTTTTATTATCAGCGTGTTTACATTATAACA TACATCACCGACAGGATATATTAAGTTCGAAGAACACTGCCTCTCCTACA GTGGGATTAGACAGCGCCATTGTTGATAAAATCATTTTTGGTCATGAGCT TAACCAATCATATTGTTTAAATTCCATCGATGAGGTGGAAAAAGAAATAT TAAACCGTTATGACATTAAGAGGGAAAGTTCTTTTATCATTAGCGCAGAG AACTACATAGCTCCAATAATTGGCGAATGTAGACATGATTTCAACGCTGT GGTTATCTGTGAATATGATAAAAAACCATATGTACAATTCATTGATTCTT GGAAAACATCCAACATACTTCCTAGCTTACAAGAAATAAAAAAACACTTC TCATCATCAGGGGAATTTTATGTCAGGGCTTATGATGAAAAACACGATTG A >gid:863056 tap replication of plasmid ATGCTCAGAAAATTTCAATACTTGTTTCTGTGGCATTTACTCCTTCCGTG CATTGTAAGTGCAGGCAGAAGTGACTGA >gid:863123 traA conjugative transfer: fimbrial subunit ATGAGCGCTATTTTAAGTGTTCAGGGTGCTTCTGCGCCCGTTAAAAAGAA ATCGTTTCTGTCTACGTTCACACGTCTGAACCTGCTGAAACTTGCCCGCG CAGTGATCCCGGCGGCAGTACTGATATTCTTTTTCCCGCAACTGGCAATG GCTGCCGGCGGTTCGCAGGACCTGATGGCCAGCGGTAACGGTACGGTCAA GGCGACATTTGGTAAGGATTCCAGCGCCGTCAAGTGGGTTATTCTCGCGG AAGTGCTGGTCGGTGCCGTGATGTACATGATGACCAAGAACGTCAAATTC CTGGCGGGTTTTGCCATCATCTCGGTCTTTATTGCCGTTGGTATGGCTGT CGTCGGCCTCTGA >gid:863125 traE conjugative transfer: assembly ATGGAACACGGCGCCCGTTTAAGTACCAGCCGCGTACTGGCAATAAGTTT TATTTTTATGGCCCTGCTGATTGTGCTCAGTCTGGCCGTGAATGTCATTC AGGGTATTAATAACTACCGGCTGCAGAATGAGCAACGCACGGCGGTCACT CCTATGGGATTTAACGCGTCCTTTGCGGTGTCACAGAACAGTGCCGATGC CTCTTATTTACAGCAGATGGCGCTGTCGTTTATTGCCCTGCGTCTGAATG TGTCGTCAGAAACCGTCGACGCGTCACACCAGGCACTTCTGCAATATATT CGTTCGGGCGCACAGAACCAAATGAAAGTCATTCTGGCAGAAGAAGCGAG ACGAATTAAGGCCGACAACGTTAACTCCGCTTTTTTCCAGACCAGTGTCA GGGTCTGGCCACAGTATGGCCGCGTGGAAATTCGCGGTGTGCTGAAAACC TGGATTGGAGATTCAAAACCGTTTACCGACATCAAACATTACATTCTTAT TCTGAAACGGGAAAACGGCGTGACCTGGCTGGATAATTTCGGGGAAACTG ACGATGAGAAAAAATAA >gid:863141 traF conjugative transfer: assembly ATGCGAAAAATACAGACCGTATGGGTGGCAGCGTTACTCTGTGGCTCCCT GACGGCATACGGAAAAGATGCCGGATGGCAGTGGTATAACGACCCGGTAA AATTACCTGACCCAAAAACGACGGATAAATCCGCTCAGGTTCGTCAGGAG CCTGACATTATGCAGAAATTATCTGCGCTGCAGACCGCAACAAAGCGGGC GCTTTATGAAGCCATTCTGTATCCCGGTGTGGATAATTTTGTGAAATATT TCCGGCTGCAGAATTACTGGACGCAGCAGGCGGGGCTTTTCAGCATGAGC GCCAAAAAAGCCATGCTGGCGCATCCTGAACTGGACTATAACCTGCAGTA CAGCCACTACAACGGCACGGTACGTAACCAGCTGGCCGCAGACCAGGCTC AGCAACGGCAGGCCATATCAAAGCTGGCTGAACACTACGGTATCATGTTC TTTTACCGCGGGCAGGACCCCATTGACGGCCAGCTGGCGCAGGTGATTAA TGGCTTTCGCGCCACTTACGGTCTGAGCGTTATCCCGGTGACCGTGGACG GGGTGATTAACCCGATGCTGCCGGATACGCGTCCTGACCAGGGGCAGGCG CAGCGTCTTGGTGTGAAATATTTCCCGGCCATGATGCTGGTAGACCCGAA ACAGGGCAGTGTCCGTCCGTTGTCATACGGGTTTATTACGCAGGACGACC TGGCAAAACAGTTCCTGAATGTGTCAGAAGATTTTAAGCCGAATTTCTAA >gid:863145 traG conjugative transfer: assembly abd aggregate stability GTGAACGAAGTCTATGTCATTGCCGGCGGAGAATGGCTGAGTAATAACCT GAACGCCATTGCGGCCTTCATGAGCACCCGGACGTGGGACTCCATTGAGA AAATTGCGCTGACCCTGTCCGTTCTCGCGGTGTCCGTTATGTGGGTACAG CGACATAACGTGATGGATCTGCTGGGCTGGGTGGCGGTGTTTGTGCTGAT ATCACTTCTGGTGACCATACGGACATCAGTACAGATAATTGATAACAGCG ACCTGGTGAGGGTTTACCGGGTGGATAATGTGCCGGTCGGACTGGCACTC CCCCTTTCGCTGACGACCCGGATCGGGCATGCGATGGTGGCCAGCTATGA GATGATTTTTGCCCAGCCGGACAGCGTCACCTACAGCAAGACAGGTATGC TGTTCGGGGCGAATCTGATTGTGAAAAGCACCGATTTCCTGTCCCGGAAT CCGGAAATCATTAACCTGTTTCAGGACTACGTCCAGAACTGTGTGCTGGG GGATATTTACCTCAATCACAAATATTCCCTGGAAGAACTGATGGAATCCG ATGACCCCTATACGCTGATTTTTTCCCGCCCAAGTCCGTTGCGGGGGGTT TATGACAAAAATAATCATTTTGTCACCTGCAAGGATGCGTCGGTCACGCT GAAAGACAAGCTGAATCTCGATACAAAGACAGGAGGCAAGACCTGGCATT ATTATGTGCAGCAGATATTTGGGGGCAGGCCGGACCCTGACCTGTTATTC AGGGAACTGGTAAGTGACAGTTACAGTTATTTCTATGGCTCCAGCCAGTC AGCCAGCCAGATCATGCGTAAGAATGTAACAATGAACGCTCTGAAAGAAG GGATCACCAGTAATGCAGCCCGTAACGGTGATACCGCCAGTCTGGTGAAT CTGGCCACCACATCCTCGATGGAAAAACAACGTTTGTCACATGTCTCCAT TGGTTATGTGACAATGCGAAACCTGCCGATGGTACAGACTATTCTGCTGG GGATAGCCATCGGGATTTTCCCGTTACTGGTTCTGGCCGCTGTCTTTAAT AAACTGACGCTGTCAGTGCTGAAAGGGTATGTATTTGCCCTGATGTGGCT GCAGACATGGCCGTTGCTGTATGCCATTCTGAACAGCGCCATGGTGTTCT ATGCGAAACAGAATGGTGCCCCGGTGGTGCTGTCAGAACTCTCTCAGATA CAGCTGAAATATTCCGATCTGGCATCAACCGCAGGTTATCTCTCTGCCAT GATTCCCCCGCTGTCGTGGATGATGGTAAAAGGTCTGGGCGCTGGATTTT CCAGCGTTTACAGCCACTTTGCGTCTTCGTCTATCAGCCCGACGGCCAGT GCGGCTGCCGGCGTGGTGGACGGCAATTATTCCTACGGCAACATGCAGAC GGAGAACGTCAACGGCTTCAGCTGGAGTACCAACAGTACCACGTCATTTG GCCAGATGACTTACCAGACCGGTAGTGGGGCGACCGCCACGCAGACCCGG GACGGCAATATGGTCATGGATGCCAGCGGTGCGCAGTCCAGACTGCCGGT GAATATCAACGCGACCCGGCAGATAGCGGCGGCACAGCAGGAGATGGCGC GGGAAGCCAGCACGCAGGCAGAAAGCGCCCTGCATGGTTTCAGCAGCAGT ATCGCCAGCGCCTGGAATACGCTCAGCCAGTTCGGGACGAACCGGGGCAG CAGCGACTCAGTGACCAGTGGTGCTGACAGCACCATGAGCGCGCAGGATT CCATAATGGCCAGCCGGATGCGCAGCGCAGTGGAAAGCTATGCGAAGGCA CATAATATCAGTAATGAGCAGGCCACTCAGGAACTTGCAGCGAGAAGTAC GCGAACATCTGGGGGTATTTATGGTGATGCAAGTGCAGAGTGGGGCATAA GGCCCAAGATATTGGGGGTCGGTGGTGGAGCTGGTGTTAAAGCCGGTGGT CGTGCTGGTATTGATTGGAGCGATGATGATACGCATCAGGCCAGCAGTAG TTCACGATCCAGCCAGGATGTTCGTCATGGTGTTGATGCCAAAGCCACGC AGGATTTTAAGGAGGCCAGCGATTACTTCACGAGCCGTAAGGTCAGTGAG TCCGGAAGCCATACGGACAATAATGCTGATTCTCGTGTGGATCATTTGTC TGCCGCCCTGAACTCAGCGAAACAGAGTTATGACCAGTACACCACGAACC TGACCCGCAGCCATGAGTATGCTGAGATGGCGTCCCGTACAGAAAGCATG AGTGGGCAGATGAGCGAAGATTTGTCACAGCAGTTTGTGAATTTTGTGCA AAAGCATGCGCCACAGGATGCAGAAAATATTCTGACAAATACCAGCTCGC CGGAGGTGGCAGAACGACGTCGGGCAATGGCTTGGGCCTTTGTTCAGGAG CAGGTACAGCCTGGTGTGGATAATGCCTGGGGCGAAGCCCGCGGTGATAT TGGCAGTGGTATGAGCACAGTATCCGGTGGTGGTGATAAACAGGATGTGG TAGCCGATCATCAGGCCCATCAGGCAACGGTGGAACAACGGACGCGGGAC AGTAATATCAGTAATGATGTAAAAAACCAGGTTGATAATATGGTCACAGA CTATCATTCCGATATAAACGATACTTATGGAAATATCCAGGGTGAGGAAA AGACTATTGACCAGCAGTATTCTGGCCTGCAAAAACAGTATAAAACAGAA GCACTATCTCAGAATAATAAATATAATGAAGAAAAGGCTGCACAGGAAAG GATGCCTGGCGCGGATAGTCCTGAAGAACTGATGAAGAGGGCAAAAGAGT ATCAGGATAAGCACAAACAGTAA >gid:863144 traH conjugative transfer: assembly ATGCAGGGTAAAACGAGAATTAAACCGCTTTTCATATTATGTACGGCGCT GATGACCGTCGCACCCGCCGTCTCTGCCGATGTGAACAGCGACATGAACC AGTTCTTCAATAAGCTGGGCTTTGCTTCCAATACCACACAGCCCTCCGTC TGGCAGGGACAGGCGGCAGGATATGCCTCCGGCGGCTCTTTATATGCCCG GACACAGGTAAAAAATGTCCAGCTGGTCTCCATGACCCTGCCGGATATCA ATGCCGGTTGCGGGGGCATCGATGCCTATCTCGGCTCATTCAGTTTCATT AACGGCGAGCAGCTGCAGCGTTTTGTGAAGCAGATTATGAGTAACGCCGC AGGGTACTTTTTTGACCTTGCGCTGCAGACGACGGTGCCGGAAATCAAAA CGGCAAAGGATTTTCTGCAGAAAATGGCCTCCGACATTAACAGTATGAAC CTCAGCTCCTGCCAGGCGGCGCAGGGGATTGTCGGGGGGCTTTTCCCAAA AACACAGGTCTCCCAGCAGAAGGTCTGCCAGGACATTGCCGGTGAGAGCA ATATTTTTGCCGACTGGGCGGCGTCCCGGCAGGGATGTACTGTGGGCGGG CAATCCGACAGCGTCAGGGATAAAGCCAGTGACAAGGATAAGGAGCGGGT GACCAAAAATATCAACATCATGTGGAATGCTTTGTCCAAAAACAGGATGT TTGACGGCAACAAGGAGCTGAAAGAGTTCGTGATGACGCTGACCGGTTCA CTGGTTTTTGGACCCAACGGCGAAATCATGCCCCTGCCTGCCAGAACCAC CGACCGGGCTATTATCCGGGCATTAATGGAAGGCGGAACGGCGAAGATAT ACCACTGCAATGATTCGGATAAATGCCTGAAGGTGGTGGCCGACACGCCG GTGACCATCAGTCGCGACAATGCGCTCAAATCACAGATTACGAAGCTGCT GACCAGTATTCAGAACAAGGCGGTCAGCGACACTCCCCTGGATAATAAGG AAAAAGGGTTTATCTCCAGCACCACCATCCCGGTTTTCAAATACCTGGTT GACCCGCAGATGCTCGGCGTGTCAACCAGCATGATTTATCAGCTGACGGA TTATATCGGGTACGACATCCTGCTGCAGTATATCCAGGAGCTGATCCAGC AGGCCCGGGCGATGGTGGCCACAGGGAATTATGACGAGGCGGTTATCGAA CATATCACCGACAACATGAATGACGCGACCCGGCAGATAGCGTCCTTCCA GGCGCAGGTCCAGGTGCAGCAGGATGCGCTGCTGGTTGTCGACCGTCAGA TGAGCTACATGCGCCAGCAGCTGTCAGCCCGCATGCTCAGCCGTTACCAG AACAACTATCATTTTGGCGGAGGTGCGCAGTGA >gid:863126 traK conjugative transfer: assembly ATGAGAAAAAATAAGCCGTATAAGCCATTTTTACTGGCGGCCGGATGGTT ATTTTCCGGTCTGGTGATGGCGTCGGGTTCCGGTACGCTGGCCCCGGTGG TGGTGTCCCTGGCTAACGGCGGTCAGGCGAACATTGCTGTCAGCAACACC GACCCGAACCTGTTTACGGTACCGGGTGACCGTATCACTGCGGTCAGCGG TCTGGACGGCATGCTGACAAACAGTGAGCAGACAGGCACGGGCGGCGTGG TGGTGGCCACGGTCAGTAAAAAGCCGTTCACCTTCATTCTGGAGACGGAG CGCGGGCTGAACTTTTCCGTCCGGGCCGTCCCCCGGGCCGGTGCCGGACG CACCGTACAACTGGTCAGCGACCTGCGCGGAACCGGGGAGGAGGCTGGCG CATGGGAAACGGCCACCCCTTATGAATCCCTGCTGGTTGCCGTCAGCCAG GCAGTTCGTGGAGGCACGCTGCCTGCCGGCTGGTATCAGATCCCCGTCAC GAAAGAAGCGCTGCAGGCCCCGGCCGGTCTGTCTGCACGGGCTGACGCTG TGTGGACCGGCAATCACCTGAAACTGGTACGGTTTGCTGTGGAAAATAAA ATGCCGTCAGCCCTGAACATCAGGGAAAGTGATTTCTGGCAGCCCGGAAC CCGCGCCGTGATGTTCAGCCAGCCCGTCAGCCAGATACTGGCCGGCGCAC GAATGGACGTGTACGTCATCCGTGACGGGGAGGGCAACTGA >gid:863124 traL conjugative transfer: assembly ATGTCGGGAGACGAGAATAAACTCAGGAAATATCGTTTCCCGGAAACACT GACCAACCAGAGCCGCTGGTTTGGCCTGCCGGTGGATGAATTAATTCCTG CTGCTGTCTGTATTGGCTGGGGATTAATGACATCAAAACAACTTTTCGGC ATCAGCGCTGCGGTTCTGGTTTATTTCGGGATAAGAAAACTGAAAAAAGG GCGGGGAAGCTCCTGGCTGCGTGACCTGATTTACTGGTATATGCCGACAG CCCTGCTTCGCGGTATTTTTCATAACGTTCCCGATTCGTGTTTCCGGCAG TGGATTAAGTAA >gid:863119 traM conjugative transfer: mating signal ATGGCTAAAGTCAATGTATATATAAGTAATGAGGTACACAATAAAATAAC TGCTATTGTGGAAAAACGACGCCAGGAAGGGGCGAGAGATAAAGATATCA GTTTTTCTGGTACATCTTCGATGTTGCTGGAATTAGGGCTTCGTGTCTAT GAGGCACAAATGGAGCGTAAGGAGTCGCCATTTAATCAGACAGAATTCAA TAAAGTATTACTTGAAAATGTACTTAAAACACAGTCATCCGTAGCCAAAA TTTTAGGTATAGGATCTCTCAGCCCTCATGTCGCCGGAAATCCAAAATTT GAATATGCAAATATGGTTGAAGATATCAAAGAAAAAGTATCTTCAGAGAT GGAAAGATTTTTCCATGAAAATGAAGAATAA >gid:863139 traN conjugative transfer: aggregate stability ATGAAACGTATGTTACCTCTGTTTCTGCTTCTGGCAGCCGGCCAGGCACA GGCTGACAGTAACAGTGATTATCGTGCGGGTTCAGATTTTGCCCATCAGA TCAAAGGCCAGGGCACCGGCAGTATCCGGAATTTTAATCCGCAGGAGAGT ATACCCGGCTATAACGCGAATCCGGATGAAACGAAATATTACGGTGGCGT GACCGCCGGTGGTGACAGTGGGCTGAAGAATGACGGCACGACGCAGTGGG CCACAGGCGAAACCGGTAAAACCATTACAGAATCGTTCATGAACAAGCCC AAAGATATTCTGTCACCGGATGCGCCGTTTATTGAAAAAGGAAGGGATGT GGTGAACCGTGCCGACAGTATTGTGGGAAATACCGGGCAGCAGTGCAGCG CGCAGGAGATTAACCGCAGCGAATTCACGAATTATACCTGTGAACGCGAC ACCACTGTGGAGGAATACTGTACCCGGACGGCCACCATCACCGGCGACTG GAGAGAGACAACAGAGGTCAGAACCTACACCCTCACCGCCTTTAGTTTCA GCCGTTCCGGTAAGCAGATCGTTTTCAGCGTAACCGTGCCGGAAGCGGGT ACGATAAGCAGCGCCAGCCTGAATGTGATCACACAGAATTATCTGTGGAA TTCCCGTGCCGGCTTTATGAATACCATCTTCAACATGACGTGGGGCAGTA CCATTACACTGGGTGGCGCGACGGGAATGATGCTGAGTAAGGGCCAGATT CTGAGCGGGACAAGCTGCAGCGGGAACGGTAGCTGTACCGGGACGCTGGA TGACCGCATTTTTAACGAACTGACCAGCGGGAGAACGACGTTCACGCTGA CACTGGTGATGCAGGTAAAGGACCGGGAGTGGATACCCCGGGTGGAGTGG GTGGAAAGCTGCCCGTTTAATAAAGCGGATGGCGTGCTGAAAGGCACAGA ATGCTCAGAGCCAGGTGGTACGAAAACCGGGGTGATGGAAGGAAAACCCT GGAGCCTGACGGAGGCCTGCTGGGCATACCGCGATAAATATGTCACCCAG TCTGCGGACAATGGCACCTGCCAGGCGTATGTGGACAATCCGGCCTGTAC TCTTGCCACCCGGCAGTGCGCGTTTTATTCCGGTGAGGGCACCTGCCTGC ATGAGTACGCCACGTACTCCTGTGAGTCGAAAACGTCAGGAAAGGTCATG ATTTGTGGCGGGGATGTGTTCTGCCTCGATGGGGAATGCGATAAGGCGCA GAGCGGAAAGAGCAATGATTTTGGCGAGGCGGTATCGCAACTGGCGGCGC TGGCGGCGGCAGGTAAAGATGTCGCGGCCCTGAACGGTATTGACGTCCGT GCATTCACCGGACAGGCGAAATTCTGTAAGAAGGCCGCAGCCGGGTACAG CAACTGCTGTAAGGACAGTGGCTGGGGGCAGGATATCGGTCTGGCTAAAT GCAGTAGTGACGAAAAAGCTCTGGCCAAAGCAAAAACGAACAAACTGACG GTCAGTGTCGGGGAATTCTGTTCGAAAAAGGTACTGGGTGTCTGTCTGGA GAAGAAACGCAGCTACTGCCAGTTTGATTCGAAGCTGGCGCAGATAGTCC AGCAGCAGGGGCGCAACGGCCAACTGCATATCAGCTTCGGCAGTTCAAAA CATCCTGACTGCCGGGGTATCACCGTGGACGAACTGCAGCAGATTAAATT CGACCAGCTGGACCTCACGAACTTCTACGAAGACCTGATGAATAACCAGA AAATCCCGGACAGTGGCGCGCTGACGGAGAAGGTGAAAGAACAAATTGCA GACCAACTCAGGCAGGCCGGGAAATAA >gid:863128 traP conjugative transfer ATGGGAAATAACCGGCTGAACAACCTGAAGGGACGTGCCGTTTTATATCG TATTGCCGGTCTTCTGCGCTGGCTGATATGGGGCGTGAAATATGCCGTTA TCTGGCCGCTGGCCACAACAGCCATTGTTGTCATTCTGCTCTTCCGGACG GGGGATACCACGCCGGGACAACAGATGGCGCAGGAAATCGGACGGGTGAG GGCAATGGCCCCGTCCGGGATGTTTCCGGTCCGGGACTGCCCTGACCCGG CTTTCACGGTGTCGTCACCTGTACCGCTGAATCTGACGGAAAACTGTCCG CTAAAAATAACCGGCGCGGAAGAATACGCGGCAGATATCGACCAGTCCCT GTCGCAAACGGGATGGCTGTTATGGGGGATGCTGGCGCTGTTGTATACCG CGGTGGCAGTAATGATCGGAGACCGGCCGTACCGTCACAATCCACTGACA TATGCGTATGACACAGCGACAAACAACCTGAAGTATATTGATAAAGAAAA CGAAATCCGGACTTTAAAAGTAAATACAAACGGGCAGGTTTCTTATTCTG GTAATAAAGAGGCTAAAAAAGAGGGTGATAAAAATGAACATACGTAA >gid:863142 traQ conjugative transfer: fimbrial synthesis GTGCGTAAATATAAATTATCGCTTCCTTTACCGGATATTACTGGAGTATG GGTTTTCTCCCTGGGCGTCTGGTTTCACATTGTCGGGCGGCTGGTTTACC GCAAACCCTGGATGGCTTTTTTTCTGGCGGAACTGATTGCCATCATTCTG GTGTTGTCCGGCGCTTACCGGGTGCTGGATGCCTGGATAGCCCGCGTCAG CCGGGAAGAGCGTGCGTTACTGGAAGCCCGTCAGGCTGCCATTCTGGCTG CTGAAAAAGAAGAAAAGGGGGATAAATCACATGTCTCTCAATAA >gid:863146 traS conjugative transfer: surface exclusion GTGGGAATGAAAAATTTAGCTCAGATTGTTCTGGTGACAGTGGTACAGTT TATTGCCTGTTATCTAGCTGAGTGGGGAGTCGCTGAAACAGGGATTATCC TGTTATTTGTCCTGCTGTGGCAGGGGCTGTTTATCTGGTTATTTATTCAA ATTCGTAAAAAAAATAACATATCTGATGAGTTCAAGTTTAGTAAAGGAAT TTGGTATGTAATTATGCCCGTATGCTCATTACTCTCGCCATTATTAAGTT TAATGATTTTTATCGGTGGAACATTATATGAATTAAGACGAGTAAGTGGT TGTATAAGCATAAAAGAGTGGGTGAAATGTCAGCTTGATGACCAATATGA TGAAGATAGGGGGCTGGATTTTGAATCTGTTGAGTATCGTCAAACGACTT ACTACAACCCCTCAACTGGATATCCTATGCATGGAGGAGTTGATTCGGCT GGTAATACTTTTGGGTCTCGCTGGCAGGATAATAATGACAGGTAA >gid:863147 traT conjugative transfer: surface exclusion ATGAAAATGAAAAAAATAATGATGGTTACACTGGTCAGTTCCACTCTGGC CCTGTCAGGGTGTGGTGCGATGAGCACAGCAATCAAAAAGCGTAATCTTG AAGTGAAAACCCAGATGAGTCAGACCATCTGGCTTGACCCGTCCAGTGAA CGGACGGTGTATCTGCAGGTGAAAAATACCTCCGATAAGGATATGAGTGA CCTTCAGAGCCTGATTGCAAAAGATATTCAGGCAAAAGGGTATACTGTGG TTACCTCACCAGACAAAGCATACTACTGGATTCAGGCCAACGTGCTGAAG GCCGACAAGATGGATTTGCGTGAGTCCCAGGGATGGCTGAACCGTGGTTA TGAAGGTGCGCTCTCCGGGGCAGCGCTCGGGGCCGGTATCACAGCGTATA ACTCTAACTCAGCAGGTGCCACGCTGGGAGTAGGGCTTGCTGCCGGGCTT GTGGGGATGGCCGCTGATGCGATGGTGGAAGATATTAACTACACCATGAT CACCGACGTACAGATCTCAGAACGGACAAAAGCGACCGTGACAACGGACA ATGTTGCCGCCCTCCGCCAGGGAACCTCGGGTGCCAAAATCCAGACCAGC ACCGAAACCGGTAATCAGCATAAATACCAGACCCGTGTGGTATCGAATGC CAACAAGGTTAACCTGAAGTTTGAAGAGGCAAAACCAGTTCTGGAAGAAC AACTGGCCAAATCAATTGCAAATATTCTTTAA >gid:863136 traU conjugative transfer: assembly ATGAAACGGTATCTGTGGCTGTGTGTACTGATTCTGCTGGCCGGTCATGT CCCCACGGTATCGGCTGATGCGGCCTGTGAAAGTCGTTTTGTAAACCCGA TCACGGATATCTGCTGGAGCTGCATCTTTCCGCTGTCGCTGGGCAGTACA AAAGTGAGTCAGGGAAAGCTGCCGGATACGGCCAATCCCTCAATGCCGCT CCAGTTCTGTCCGGCGCCGCCGCCCATTTTTAAGCGTCCCGGACTGGCGA TTGGCTACTGGGAGCCAATGGCGCTGACGGACGTCACCCGCTCTCCGGGC TGCATGGTGAATCTGGGGTTCAGCCTGCCGGCCTTCGGGAAAACGGCACA GGGTACGGCGAAGAAGGAGGATAAACAGGTGAACGGGGCGTTCTACCACG TTCACTGGTACAAATACCCGCTCACGTACTGGCTGAATATCATCACGTCG ATGGGGTGTCTGGAGGGCGGTGACCTGGACATTGCGTACCTCTCCGAAAT CGACCCCACGTGGACGGACAGCAGCCTGACCAGCATTCTCAATCCGGAAG CGGTAATTTTTGCCAATCCCATAGCCCAGGGGGCCTGCGCGGCAGATGCC ATTGCCAGCACCTTCAATAAACCGCTGGATGTCCTGTTCTGGTGTGCAGG CTCTCAGGGCTCCATGTATCCGTTTAACGGCTGGGTGAGTAACGAATCCA GTCCGCTGCAGTCCTCCCTGCTGGTCAGTGAGCGGATGGCCTTCAAACTG CACCGGCAGGGGCAAATTATGGAGACCATCGGGCAGAATACCGCCGTCTG CTTTGAATATCCGTCGCCCATTCTCCCTAAAGAGCGCTGGCGTTATCAGA TGGTGAACATGTATCCGGACAGCGGGCAGTGCCACCCGTTCGGGCGCAGT GTGATGCGCTGGGAAACCGGGAAAAATCCACCCAACACGAAGAAGAACTT TGGCTATCTGATGTGGCGTAAGCGCAACTGTGTATTTCTGTAA >gid:863130 traV conjugative transfer: assembly ATGAACCGGATTTCATGCCTGATCCCTTTCTGTGGCGCGCTTCTGCTGTC CGGATGCGCCGGAACGAACTCCGACTTTGAATGTACCGCCACCACGTCAG ACACCTGTATGACGATGGAGCAGGCCAATGAAAAAGCGAAAAGACAGGAG CAACCTGAGACGGTAAAGCCGGGTGCGGTATCACTGCCGCGCCTGGCTGA GGGTAACTTTCGCACGACGCCGGTACAGGTAGTCAGTACCGTCACTCTAC CCGTCGCAAAGACCGTGGCCGCCCCGCGTTCCGGGCAGAAACCGCCGGCA CCACACCCGCTGTTTACGGCTGCCCGGGAGGTGAAACCGGTGGCGGCTGT CAGTACGGTCTCTCCTGTGGTGCCGCCCCGTCCACTGAGAACCAGGGAGC AGACGGCGGCGTTATGGATAGCGCCCTATATTGACAGCCAGGATATTTAC CATCAGCCGTCCGGCGTATTTTTTGTCATTAAACCGTCCGTGTGGGGAAA GCCACGGATTAATTAA >gid:863135 traW conjugative transfer: assembly GTGAAATGGCGGGGGCTGACAGCCCTGCTGATATGGGGGCAGAGCGTGGC GGCCGCAGACCTGGGCACCTGGGGCGATCTGTGGCCGGTGCAGGAGCCGG ACATGCTGGCGGTGATTATGCACCGGCTGGAAGCCCTGCAGCAGTCCGGT GAGATGGGCCGCCGGATGGAGGCCTTTAAGGAGCGGGTGATCCACAACAG CCTGCGACCGCCTGCGGTGCCGGGTATCGGGCGCGCGGAGAAATACCGCA GCCGGCTGTTTGATCCGTCGGTCAGACTGGCGGCCGATATCCGGGATAAC GAAGGACGGGTGTTTGCCCGTCAGGGGGAGGTGATGAATCCGCTGCAGTA TGTGCCCTTTAACCAGACGCTGTATTTCATTAACGGCGATGATCCGGAAC AGGTGTCGTGGATGAAACGCCAGACGCCGCCGACGCTGGAGAGCAAAATT ATTCTGGTGCAGGGCAGTATCCCTGAGATGGAGAAGGCGCTGGACAGCCG GATTTACTTTGACCAGAACGGGGTGCTGTGTCAGCGCCTCGGGATCGACC AGGTGCCGGCCAGGGTGACGGCCGCAAAAGACGGGCGTTTCCTGAAAGTG GAATTTATTCCGGCGGAGGACGGCAGAAAATGA >gid:863153 traX conjugative transfer: fimbrial acetylation ATGACGATGGATAACGCCACACGTAACGATTCGCGGGCAGTCCGGGTGGA TACCCGGCTGCAGCGACTGCTGGCCTGGTCGCCGGGACAGAGAGATCTCA TCAAAACCGTGGCGCTGCTGCTGATGGTGGCTGACCATATTAACCGTATC CTGCACCTGAACCAAGAGTGGCTGTTTCTGGCCGGGCGCGGGGCGTTTCC GCTGTTTGCCCTGGTGTGGGGGCTGAACCTGTCCCAGCATACGCATATCC GCCAGTCTGCGATTAACCGGCTGTGGGGATGGGCGGTTATCGCGCAGTCC GGATATTTTCTGGCGGGATTTCCGTGGTATGAAGGGAATATTCTGTTTGC CTTTGCGGTGACCGCGCAGGCGCTGAAGTGGTGTGAGCAGCGCTGCCTGT TTCACTCTGCGGCCGCGCTGTTACTGCTGACGGCGTGGATACCCCTGTCC GGAACCAGCTACGGCGTTGCCGGCGTGCTGGTGCTGGTCATCTGTTACCG GCTGTACCGGACCACAGATACTGAAGAACATCTGGCGCTTGCGGCCTGCC TAGTGGTGGCCGTCCCCGCGCTGAATCTGGTCACCAGTGATGCCGCGGCG GTGGCAGGACTTCTGGTGACCGGGCTGACGGTATGGCTTGTTTCGCTGAC AGGCAAATCACGGCCCCGGTTCTGGCCGGCTGATTTTTTCCCGGTATTCT ACACCTGCCATCTGGCTGCCCTGGGCGTTCTGGCGATGTGA >gid:863122 traY conjugative transfer: oriT nicking ATGTTAATTAAGGCGCGCCATTTTTGGCGTGTTTTTTTTTGCCGTTTTCC GTGTAATCATAAGTTTATTAGTCGTGTAAGCAGAGGTGAATTTGTGAGGA GGAGAAACGCAAGAGAGGGGATAAGTCGAACTGTCTCAGTGTATCTCGAT GAAGATACGAATAACCGTCTTATCAGGGCTAAAGATCGGAGTGGAAGAAG TAAAACAATAGAAGTTCAGATTCGTCTGAGGGATCATCTGAAACGATATC CGGATTTCTATAATGAAGAAATTTTCAGGGAGGTAATTGAAGAAACAGAG TCCACATTTAAAGAGATTTAA >gid:863143 trbB conjugative transfer ATGTCTCTCAATAAGGCTTTGCTGTTCCTGTTGCTTCTGATGGGGACGGG GGTTAATGCCTCCACGCGGGAAGAGATTGAACGGCTGTATAACCCGCACG GGATGGCCGCACCGTCCGGGCAAAAGCAGCCAGCAGATACGCAGGGCGTG CAGAAAGTAACGCCGGCGCCCCGCTGGTTTCGTCTCAGCAACGGTAAAAC GGTTAACCTCGCCGACTGGAAAGTGGTGTTGTTCATGCAAAGAAGCTGCC CCTGGTGCCACCAGTTTGACCCGGTACTGAAGCAGGTGGCACAGCAGTAT GGATTTTCGGTATTCCCTTATACCCTGGACGGACAGGGGGATGCCGCGTT TCCGGAGGCGCTGCCGGCACCGCCGGAAGTGATGCAGACCTTCTTCCCCA ATATTCCCGTCGCCACCCCGACAACATTTCTGGTTAACGTGAACACACTT GAAGCATTACCTCTTTTGCAGGGGGCCACCGACGCCGCCGGTTTTATGGC CCGGATGGATACCGTTCTGCAGATGTACGGAGAAAAACATGCAGGGTAA >gid:863138 trbC conjugative transfer: assembly ATGCACAGGAAAATAAAATACCTGGCCGGACTGATTATGGTCATAAGCGG GACGGTATCAGCCGGCGGAGTCGCTAATACCCCTGAAAACCGCCAGTTCC TGAAGCAGCAGGAGGAACTGAGCCGGCAGTTGCGCGACCGGCCTGATGCT GAACTGAAAGCGTGGGCAGACCGGCAGATTCAAGCGAATCCCCTGGTGCA GTCAGACCGGCATTTCCTGGATGACCTTGCCCGAAAGCAGCAGACTTCTC AGGCGGATAAACCGGAGCAGGGCGCGGTGTACTTTATCTCGTTTTCCATT CCGGAAGAGGGGCTGAAGCGCATGCTGGGCGAAACCCGTCGCTACGGTAT TCCGGCCACGCTGCGGGGAATGCGGGATAACGACCTGAAAGCCACGGCAG ATGCCGTTCTGTCCCTGGTAAAGGATGGGGCAACAGATGGTGTGCAGATT GACCCGACGCTGTTCACGAAATATGACATCCGCAGCGTACCGACTCTGGT GGTGTACTGCCGACAGGGATATGACGTTATCCGGGGCAATCTGCGGGTGA AGCAGGCGCTGGAGAAAGTGGTCACCGCCGGGGACTGCAGGCAGGTGGCT GCCGGATTACTTGATGGTGCCGGAGATAAACCGCAATGA >gid:863140 trbE conjugative transfer ATGAAGATAATGTCTTTTCTGGTTCGGGTGGTGGTGACGCTTATTGTGAT ATCCCCAGCGGTGTACTGGTCATGGGATGCGGTAAGCACAACCACAGCGG ACGATATCATGCTGGCGGTGCTCATTATTGCCGCTTACGGTCTGATGTTC ACGCTGCTGTTCTGTTTCGTGAATGTACTGACGAAACTACTGCAGCATGA TAATGAATCCAGTTGA >gid:863149 trbH conjugative transfer ATGGCGGTATCAGCTCCAGTCCTCAGTTCTCAGTCCACCCACACGTTCAA ACTCCCGGGTGTTGTTCGTGACAACAATCAGTCCCCGGCTGCGTGCGTGA CCGGCAATCATCTGATCGAATGGCCCGACAGGGCGTCCCTGACGGGCAAG CTCTGCCCTGATCTGCCCCGTATGGGTGGCGGCCGGCGTGTCATAATCCA GAACATCAAGTCGGGAAACAAACCCCTCTATCACAGCGAGATTTCTTTCG GGCATCTGGCTTTTTTCGGCGCCGTAAATCAGCTCCATCAGGGTGACCGA GCTGATACACATTCTCCCCTGGTTCAGGTTAAAACGCTCCCTGACGCTGG CAGGTTTGTTTTTTATCGTGAAAATGCAGATGTTAGTATCCAGCATAAAC TTCAGCATCAGAATGATTCCCGTTCCTGCACAGAGGGTTGTTCCCGGTTA TCCATAAAATCGGCGCTGACGTTGTTCCCGTCGAACCATTCATCCCACGA TTCTCCGGCCGGCGTGATAATTCGGGTTCGCCCGACAGCGATAACTTCCA CACGTTTTACATTTTCCGGCAAAGCCACTGCTTTTGGCAGTCTGACCGCC TGGCTGCGGTTACTGAGAAATACGCTGGTTTCCATCATGTGCCTCCTTAC AGGGATATGTCTTACGTATATCCATTATGGTTTTTGTGATGGGATATGTC AAAGGGATATACATTTATGA >gid:863134 trbI conjugative transfer ATGAGTACAAAGCAGAAACAGACTGACGGCACGGGAGCGCGTAAGCGTGA CGGGCTGTGGATGATACCGGGATGCCTGGGGATGGTGGTACTTAACGCCG CCATCAGTTACGGGATAGTCCGGCTGAACACGCCGGTGACGGTGGCATTC AACATGAAACAGACCGTGGATGCGTTTTTTGACAGCGCCGGCCAGAAAAA ACTGACGGAAGCGCAGTCGAAAGCGTTGTCCGGGCGCTTTAATGCGGCCC TGGAGGCCAGCCTGCAGGCGTGGCAGCGGGAGCACCATGCCGTCATTCTG GTTTCACCGGCGGTGGTACAGGGCGCGCCGGATATCACCCGGGAGATCCA GCAGGATATTGCCCGGCGTATGAGGGCAGAGCCGTGA