Show UniProt / TrEMBL protein name		View as list		View in Fasta format (Protein)

# Salmonella typhimurium LT2, SGSC1412

>gid:863085  PSLT036  putative transposase, IS200-like
TTGGAGTGCGAAATTATCGAGATGGATGGTGAACAAGATCACGTCCATCT
GCTGATAGCGTATCCGCTAAAACTGGGGGTCAGCGTGATGGTAAATAATT
TAAAGTCGGTATCGTCGCGGCTTCTCCGTCAGCAGAATACCCACTTGCGG
ATGCAGAGCAAAACCGGGCTGCTGTGGTCTCGTTCTTACTTTGCCTGTAG
CGCCGGTGGTGCCACGATAGAAACGCTTAAAGCATACGTGCTCAGACAGA
ATACGCCGGAGTAG
>gid:863091  PSLT042  putative integrase protein
ATGCCGATCATAGCAGCAATTCCTGATGAAGAACGACAACTGATGCGCAA
AGAGGCCCAACAAACCCACGATAAAAACCATGCGCGACGGCTTATCGCCA
TGCTGATGCTGCATCAGGGAATGACCGTCACTGACGTTGCCAGATTACTC
TGTGCCGCCCGTTCATCCGTTGGTCGATGGATAAACTGGTTTACTTTACA
TGGTGTTGAAGGACTAAAAAGCCTCAGACCCGGACGTGCTCCACGCTGGC
CGGTCGCTGATATCCTTCAGCTCTTGCCACTATTGGTACAGCGTTCCCCG
AAGGATTTTGGCTGGCTGCGCTCACGCTGGAGCACGGAGCTTCTGGCACT
CGTCATCAACCGACTTTTTGATGTGACGCTGCACCGCTCCACCCTGCACC
GATATCTGAGGCAGGCAGATATGGTCTGGCGCAGGGCAGCGCCAACGCTG
AAAATCAAAGATCCGCACTATGAAGAAAAACGGCTTGTCATTGATCAGGC
GCTGGCTCAGGAGCAGACTGCACATCCTGTGTTTTATCAGGATGAAGTCG
ACATCGACCTGAACCCAAAAATTGGCGCTGACTGGATGCCCAAAGGGCAA
CAGAAACGCATCGCCACGCCGGGACAGAACCAGAAGCATTATCTGGCAGG
CGCACTGCATTCAGGTACGGGACGGGTTCACTACGTCAGTGGCAGCAGCA
AGAGTTCTGATTTATTTATCAGTCTGTTAGAAACGTTACGCCGTACATAC
AGGCGGGCGAAAACCATCACACTGGTGGCGGATAACTACATCATCCATAA
AAGCCGCAAAGTGGAACGCTGGCTGGAAGAAAACCCGAAGTTCCGGTTGC
TGTTCCTGCCGATGTATTCGCCGTGGCTGAATCCGATAGAGCGACTGTGG
TTGTCGTTACACGAAACCATAACGAGAAATCATCAGTGTCGGTACATGTG
GCAGTTACTGAAACAGGTAGCACAATTTATGAATGCCGCTTCACTGTTTC
CCGGCAATCAACAGGGTCTGGCTAAAGTGGAGCGGTAA
>gid:863098  PSLT049  putative DNA polymerase III epsilon subunit (3'-5' exonuclease)
ATGAAGCCAGCCCCTGGTGCGGAACCGGTCAGAATGTACAAAAGTCCTTA
CGGCGGGAAATACGGCGTATGGCGGCTGGCTGACTGCGTCCCGATGCGGG
CGAAACGCCCTCAGACAGAAAAACAGCGGCTGGCCAGCACACGTCTGGGC
CTGCAGGCCCGGATGAAGAGTGAGCGTGGCAGGTTCGCCATGCTGGCACA
TACCTGGTTAGCACTGGGCCCCGTCTTCCTCGATACCGAAACGACCGGAC
TTGATGCCGGCGCGCAGGCGCTGGAAATCGGTCTGGTGAATGCCCGCGGT
GAGAGGATATTTGAGACCCGCCTGAAACCCACAGTCGGCATCGATCCGGC
AGCAGCTGCAGTACAAATCGTTACGGAACCATATCGCTTTCCGGTGCTGT
CAGTCAGGCTGGCCTGA
>gid:863107  PSLT059  putative adenine-specific DNA methylase
ATGTCCCGTTTAATCCTGGGGAACTGTGTCGATATTATGTCCGGCTTTCC
GGAGCGCGCCGTCGATTTCATTCTGACCGACCCGCCTTACCTTGTCGGAT
TCCGTGACCGTTCCGGCCGCAGTATTGCCGGTGACAGAACCGACGAGTGG
CTGCAACCCGCCTGTAACCAGATGTACCGCGTACTCAAAAAAGATGCGCT
GCTGGTCAGTTTCTACGGCTGGAACCGCGTGGACCGTTTCATGGCGGCCT
GGAAAAGTGCCGGTTTCAGCGTGGTCGGACACCTGGTATTCACCAAAAAC
TACTCGTCAAAATCCGCGTATGTCGGCTACCGCCATGAATGCGCTTACGT
GCTGGCGAAAGGCCGTCCGGCCCTGCCACAGAACCCGCTGCCGGATGTCC
TCGGCTGGAAGTATTCCGGCAATCGCCACCACCCGACGGAAAAGCCCGTT
ACCAGCCTGCAACCGCTGATTGAGTCTTTCACACACACGAACGCCATTGT
TCTCGACCCGTTTGCCGGCTCCGCCTCCACCTGCGTTGCCGCGTTACAGG
CGGGGCGCAGATATATCGGTATCGAGCTGATGGAGCAGTACCACAAAGCC
GGGATTGAGCGCCTGACAGCCGTACAGCGCGCCATGCAACGCCCGGCCGC
CAACGACGTCTTTTATCCGGAGGCCGCGTAA
>gid:863093  rlgA  putative integrase protein
ATGAGCAGCCGGCGTAGCGCGATTCCGTCTGACTCCCTGTTGCAACTACG
GCAACGGCTCGATCGCCTGCCGCCAAAAAGCCCTGAACGTGCCAATCAGA
TTGCCGCTACCGCCCAGCTGTATGGTATTTCAGTCACGACGGTTTATCGC
GCTCTTCACCTTGTTTTGAAACCGCGAACGGCCCACCGCAGTGATCATGG
TCAACCCCGGATACTGCCACCGTCCGAGCTGGAGCATTACTGCGAACTGA
TTGCTGCACTGAAATTACGAACCACAAATAAATCCGGCCGCCATCTGTCG
ACCGGACGGGCAATACAGCTGCTGGAAGAGCATGGCGTGGAGACGGTCCA
GGGATTGATTAAAAGTCCCAAAGGCTTACTTCGTAAGCAGACCGTCAATC
GCTGGCTTTCCCGCTGGCGTCTCGACCAGCCCCGCCTGTTACGGGAGCCT
CCGGCGGTAAGATTTCAGGCTGAAAACAGCAATGACTGTTGGCAGTTTGA
TATGTCGCCATCCGATCTCAAACATATTGAGCGGCCTGACTGGGTAGATC
CTGCCCGGGGCGAACCCACGCTGATGCTGTTCAGCGTAGTGGATGACCGG
AGCGGTGTCGCATACCAGGAATACCGGTGTGTGTACGGTGAGGATGCGGA
ATCTGCGCTGCGTTTTCTCTTTAACGCCATGGCCCCAAAAACCAGGTCTG
ATTTTCCTTTTCAGGGCCGCCCGAAATTGCTGTACCTCGATAATGGACCG
GTGGCCAAAAACCATGTATTCCAGAATGTGATGCAGTCCCTGAAGGTTGA
CTGGCTGACGCATACGCCGGCAGGCAAGGACGGCACCCGGACGACGGCAC
GGTCCAAAGGTAAAGTTGAACGTCCTTTCCGGACCGTCAAGGAGGCACAT
GAAACTCTGTACCATTTCCATAAACCGGAAACGGAGCTGCAGGCCAACGA
ATGGCTCTGGAACTATCTGAGCCGTTATAACGCGCAGCGTCACCGCAGCG
AGAAACACTCCCGACTGGAGGACTGGCTGGCAAATATCGGCCAGGAAGGT
GTGAGGGATATGTGCAGCTGGGAACAATACTGTCGGTTCGCCCGGGAGCC
GGAATCCCGCAAGGTGGGTGTTGATGCGCGGATAACGATAGACGGCACCG
CATGGGAAGTTGAACCGGATATGGCGGGTGAAACCGTCATTCTGCTGTGG
GGGCTGTTTGACGAAGAGATGTATGTGGAGTTTACCGGTGAAACATGGGG
GCCTTATTATCCGGTGTCGGGGCCTGTGCCGCTGCACCGTTACCGGACGT
TCAGACGCGGTAAAGCGGCTGAACGGGCCGATCGTATCCATGCTCTGGCC
AGGCAGCTGAACATCCCCATCAGCGCATTGTCCGGCAGCGATCTCCGCGT
GGTCAGTGATGACACTCAGCAGCGCATTGATGCGTTGCCACATCAGCCCT
TTGATACCCGAAAATTTGAATACCACTTTCCCACCGTTATTGCGGCAAAA
CTGGCAATTGCCGACGATCTGGCCATACCGCTGGCCAGAATGTCGGATGA
AGACCGGGCGTTTATCGACAGTATTCTGACTGAGACGCTTAACCGTAGTG
AAGTACTCGCCCGCATCAGAGACTATTTTCGTAGCAGACAATCAGGAGAG
GACCATGCGGGTTGA
>gid:863094  rlgA  putative resolvase
ATGGCACTTTACGGCTATGCCCGCGTTTCAACCAGCGATCAGGATCTTAC
TCTGCAGACACAAATTCTCCGCGCTGCTGGTTGTGAAATTATTCGTGCAG
AAAAAGCCAGCGGAAGCGGCCGGACCGGAAGGAGCGAGTTGCAGCTGCTG
CTGGAGTTCCTGCGCCCTGGTGATACGTTGATGGTGACACGCGTGGATCG
CCTGGCCCGCAGCATTAAGGACCTGCAGGACATTGTGTATGCCCTGAATC
AACAGGGCGTAACGCTCAGGGCAACAGAACAGCCAGTGGACACGCGTTCA
GCTGCAGGCAAAGCCTTCCTCGATATGCTGGGTGTTTTCGCTGAGTTTGA
AACCAATCTGAGACGTGAACGCCAGATGGAAGGCATTGCCGCGGCGAAAG
CCAGGGGCGTATACCGGGGAAGGAAACCGTCCATAGATCCTGCTGTGGTA
TATCGTCTGTATACCATTGAGAAGATGGGAGCCACAGCCATCGCCCGCCA
GCTCGGGATTGGGAGGGCGTCAGTCTACCGGGCGCTGGAAAATTATGAGC
AGCCGGCGTAG
>gid:863080  rsdB  resolvase
ATGAGTCAGCCACCGTTACCTGCTGTCTGTACGCAGGCAGCGTCCGCCCT
GCTGCCGGTGGCCATTGATTACCCGGCGGCCCTCGCACTGCGCCAGATGG
CAATGCAGCATGACGACTACCCGAAATATCTGCTGGCACCGGAGGTAAGT
GCCCTGCTCCACTACGTCCCTGATCTGCATCGCAGGATGCTGCTGGCCAC
TCTATGGAATACCGGCGCACGGATTAACGAGGCGCTGGCCCTGACACGGG
GAGACTTTTCGCTGGCACCACCTTATCCGTTTGTGCAGCTGGCCACTCTG
AAACAGCGGGCGGAAAAGGCGGCCAGAACGGCAGGACGGATGCCGTCCGG
CAGCCAGCCCCACCGCCTGGTGCCGCTTTCTGATAACCAGTATGTCAGCG
AACTGCAGATGATGGTGGCCACGCTGAAAATCCCGCTGGAGCGTCGTAAC
AGACGTACCGGCAGAACGGAAAAGGCGCGCCTCTGGGAGATCACCGACCG
GACGGTCCGTACCTGGATTGGGGAGGCGGTTGAGGCCGCAGCGGCTGACG
ACGTGACGTTCTCAGTCCCGGTGACACCCCATACATTCCGCCACTCCTAT
GCGATGCACATGCTGTACGCCGGCATACCGCTGAAGGTGCTGCAGGCGCT
GATGGGACACAAATCGGTGAGCTCGACGGAAGTGTACACGAAAGTGTTTG
CGCTTGATGTTGCCGCACGACACCGGGTGCAGTTTCAGATGCCGGGTGCT
GATGCAGTGGCTATGCTCAAAGGAGGTTCATAG
>gid:863103  samB  mutagenesis by UV and mutagens; related to umuDC operon
ATGTTCGCTTTGGCTGACGTCAACTCGTTCTATGCCAGTTGCGAAAAGGT
CTTTCGCCCCGATTTGCGTGACAGGTCTGTGGTGGTCCTGAGTAACAACG
ATGGTTGTGTAATCGCGCGCAGCGCTGAAGCAAAAAAACTGGGCATAAAA
ATGGGGGTGCCGTGGTTTCAACTGAGGTCGGCGAAATTTCCGGAGCCGGT
TATCGCGTTCTCCAGTAATTACGCCCTCTACGCATCAATGTCGAACAGGG
TCATGGTTCACCTGGAAGAGCTGGCGCCACGCGTTGAGCAGTACTCCATT
GACGAGATGTTTCTGGATATTCGCGGTATAGACAGTTGCATCGATTTCGA
GGATTTCGGCCGACAGCTGCGTGAGCACGTTCGTTCCGGCACAGGGCTGA
CCATCGGCGTCGGAATGGGACCGACCAAAACGCTGGCTAAAAGCGCGCAA
TGGGCATCGAAAGAATGGTCACAGTTCGGAGGCGTGCTTGCCCTGACGTT
ACACAATCAGAAACGAACGGAGAAACTGCTGTCACTGCAACCGGTGGAGG
AAATCTGGGGTGTGGGCCGCAGGATCTCAAAGAAGCTGAACACAATGGGG
ATCACCACAGCACTGCAGCTGGCCCGCGCGAATCCAACGTTCATCAGGAA
AAACTTTAATGTGGTTCTGGAGAGAACGGTCCGGGAACTCAATGGAGAAA
GCTGTATTTCCCTGGAGGAAGCACCGCCCCCCAAACAGCAGATAGTCTGC
AGCAGAAGCTTTGGAGAACGAGTCACGACTTATGAAGCGATGCGGCAGGC
AGTCTGTCAGCACGCTGAACGTGCCGCCGAAAAGCTGCGTGGGGAACGGC
AGTTCTGCAGGCATATTGCCGTGTTTGTGAAAACATCGCCGTTCGCCGTA
ACTGAGCCCTACTACGGTAATCTGGCCAGTGAAAAACTGCTCATCCCCAC
GCAGGATACACGGGACATCATTGCCGCTGCCGTCAGAGCTCTGGACAGGA
TCTGGGTGGATGGTCACCGTTACGCAAAGGCAGGCTGTATGCTGAACGAT
TTCACGCCAACCGGGGTATCGCAGCTTAATTTGTTTGATGAAGTACAGCC
GCGGGAACGGAGCGAGCAGCTGATGCAAGTCCTGGATGGGATTAACCATC
CGGGCAAGGGGAAAATATGGTTCGCCGGTCGGGGGATTGCCCCCGAGTGG
CAGATGAAAAGGGAACTACTTTCGCCAGCTTATACGACACGTTGGGCAGA
TATTCCTGCAGCGAAATTGACTTGA
>gid:863084  spvD  putative transposase
ATGTTAAGAGCCACGAAAGTATGCATATATCCGACACCGGAACAGGCGGA
GCACCTTAACGCCCAGTTCGGTGCAGTCCGTTTTGTGTACAGCAAATCTC
TGCATATCAAGAAACACGCTTATCAACGACACGGCGTAAGTTTAACCCCG
CGTAAAGACATTAAACCGCTTCTGGCTGTAGCGAAAAAATTCCGTAAATT
CCGTAAATACGCATGGCTAAAGGAATATGACTCTATTGCGTTGCAACAGG
CGGTGATCAATCTCGATGTTGCCTTTTCCAACTGCTTCAATCCGAAGCTA
AAAGCCCGCTTCCCTATGTTCAAGCGCAAACACGGCAAGCTGTTGGGGTA
A
>gid:863113  ssbB  single-strand binding protein
ATGGCAGCACGTGGCGTAAACAAAGTTATTCTGGTCGGTCATATCGGGCA
GGACCCGGAAGTACGTTACATGCCCAACGGGGGCGCGGTGGCAAATCTTA
CCCTCGCCACGTCAGAAACATGGCGTGTCAGGCAGGACGGGGAGATGCGC
GAACACACCGAATGGCACCGTGTTGTCGTGTTTGGCAAGCTCGCTGAAAT
TGCCAGTGAATATCTGCGTAAAGGTGCTCAGGTCTACATCGAGGGCCAGT
TACGCACCCGCAAATGGACCGATCAGTCCGGTCAGGACAAATACACCACC
GAAGTGATCGTTAACGTGGGCGGCACCATGCAGATGCTCGGTCGCCACAA
CAGCCAGCCACAGCAGGAGCCTCAGACCCCACCTACGGCGGCAAAGGGAG
AAGGCAAAGCGGTAAAAGGGGCGGGAAATGCAGCAAAAGGGAAAAACGCA
GCAGCACCGCAGCAGCCGCCAGCGCAACCCGATCCGGCGTATGACTTCGA
CGATGATATTCCCTTTTGA
>gid:863127  traB  conjugative transfer: assembly
ATGGCGAGCATCAATACGGTTGTAAAGCGTAAACAGTACATCTGGCTGGG
GATTGTTGCGGTGGGGGCTGCCGCTGCCATTGGCGGAGGCCTTTACCTGT
CTGACGTCGACATGAGTGGCAACGGGACGGCCGCAGAGCAGGAGCCGGTA
CCGGATATGACCGGGGTGGTGGACACGACCTTTGATGACAAAGTTCGTCA
GCATGCCACCACGGAAATGCAGGTGACGGCGGCGCAGATGCAGAAACAGT
ACGACGAAATCCGCCATGAGCTGGATGTTCTGAATAAGCAGCGCGGTGAC
GACCAGCGTCGTATTGAGAAGCTGGGGCAGGACAACGCCGCCCTGGCCGA
ACAGGTGAAGGCCCTGGGAGCGAACCCGGTGACGACCACAGGAGAGCCCG
TGCCGCATACACCTGTCTCACCGCCCGGTCCGGAAGGAGAACCTCAGCCG
GGTAATACGCCGATGACCTTCCCGCCACAGGGAGCCGTTCCTCCGCCAAC
CGCTTTTTATCCGGGGAATGGCGTCACGCCTCCGCCACAGGTGACATACC
AGTCCGTGCCGGTGCCGAACCGTATACAGCGTAAAACGTTCAGCTATGAC
GCTGCCGCGAAGAAAGGTCCCTCCCTGCCGTATATCCCGTCCGGGAGTTT
TGCAAAAACCATGCTGATCGAAGGAGCGGATGCCAATGCCTCCGTCACCG
GTAATGAATCGACGGTCCCTATGCAGTTGCGCATTACCGGCCCGGTGGAG
ATGCCGAACAGTAAAACATATGACCTGACAGGGTGCTTTGTGGGTCTGGA
AGCCTGGGGGGATGTGTCCAGTGAACGCGCGATAGTACGTACCCGTAATA
TCAGCTGCCTGAAGGACGGCAAAACCATCGACATGTCGGTTAAGGGACAT
GTCAGCTTCCGTGGAAAGAACGGCATCAAGGGTGAAGTGGTGATGCGTAA
TGGCAAAATCCTCGGCTGGGCGTGGGGCGCCGGTTTTGTGGACGGTATCG
GCCAGGGGATGGAGCGGGCATCCCAGCAGGCGGTGGGGCTGGGGGCCACT
GCGACTTACGGCGCGGGCGATGTGTTCAGAATGGGGATTGGTGGTGGTGC
ATCGAAAGCGGCACAGACACTCAGTGATTATTACATCAAACGTGCCGAGC
AGTATCACCCGGTGATCCCGATTGGTGCCGGTAATGAAGTGACCGTGGTG
TTTCAGGACGGTTTTCAGCTGAAAACCGTGGAAGAAATGGCACAGGAGCA
GGCCCGTCACCGGAAGGAGGATGAAAATGCGGAAAGCCCGGTGCCTATAC
CTCCGTCAGTCGACAGCCATATGAACGGCTTTAACACCGACCAGATGCTG
AAGCAGCTGGGTGACCTGAATCCACAGCAGTTTATGTCCGGCAGCCAGGG
AGGACATGTAAATGGGAAATAA
>gid:863152  traI  conjugative transfer: oriT nicking-unwinding
ATGATGAGTATTGCGCAGGTCCGGTCGGCGGGAAGTGCCGCCGGTTATTA
CAGCGACAGGGATAACTACTACGTGCTGGGCAGCATGGAAGAGCGCTGGG
CCGGAAAAGGCGCGGAGCAGCTGGGGTTGCAGGGCACCGTCGATAAGGAG
GTGTTCACCCGGGTACTGGAAGGCAGACTGCCCGACGGGGCTGATCTGAG
CCGGCAGCAGGATGGCGGCAACAAACACCGCCCCGGCTATGATCTGACCT
TCTCTGCCCCCAAAAGTGTTTCCCTGATGGCCATGCTGGCCGGTGATAAA
CGCCTGACTGAGGCACACAACCAGGCGGTGGATATCGCTGTCCGTCAGGT
GGAGGCGCTGGCCTCCACCAGGGTGATGACGGACGGACAGTCAGAAACGG
TGCTCACCGGTAATCTGGTGATGGCGCTGTTCAATCATGACACCAGTCGT
GACCAGGAGCCGCAGTTGCATACCCATGCTGTGGTGGTCAACGTCACGCA
GCATGACGGGGAATGGAAGACCCTGAGCAGCGATAAGGTGGGCAAAACGG
GATTTATCGAGAATGTCTATGCTAACCAGATAGCCTTCGGGAAGATTTAC
CGCGCGGTGCTGAAAGAGAAGGTTGAAGCGCTGGGCTATGAAACGGAAGT
GGTCGGTAAGCACGGTATGTGGGAGATGCCCGGTGTCCCGGTGGAGGCCT
TTTCCAGCCGTTCGCAGGCCATCCGAGAGGCGGTCGGGGAGGATGCCTCG
CTGAAATCCCGGGATGTGGCGGCGCTGGATACGCGTAAATCCAAACAGCA
TGTCGATCCGGAAGTGAAAATGGCTGAGTGGATGCAGACCCTGAAAGATA
CCGGGTTTGATATCAGCGCATACCGTGAGTCTGCGGACAGGCGGGCGGAA
ATACAGGCAGCACAGCCTGTTCCGTCACAGGAGCAGCCGGATATTCAGCA
GGCGGTGACGCAGGCCATTGCCGGATTAAGCGACCGGAAGGTTCAGTTTA
CGTATACCGACGTGCTGGCCAGAACGGTCGGCATGCTGCCGCCGGAAGCC
GGCGTGATTGAGAAAGCCCGGGCCGGGATTGATGAGGCCATCAGCCGCGA
GCAGCTTATCCCCCTCGACCGGGAGAAAGGACTGTTCACCTCCGGTATTC
ATGTGCTCGATGAGCTGTCTGTCCGGGCACTCAGCAGCGATATCATGAAG
CAGAACCGGGTGACCGTCCATCCGGAGAAGAGCGTGCCCCGCACGGGAAG
TTACAGCGACGCGGTGAGTGTCCTGGCTCAGGACCGCCCGTCACTGGCCA
TTATCAGTGGTCAGGGCGGTGCTGCCGGTCAGCGGGAGCGGGTGGCGGAA
CTGACGATGATGGCCCGGGAGCAGGGGCGTGAGGTGCAGATTATTGTCGC
TGACCGCCGTTCGCAGACAAACCTGAAGCAGGATGAACGTCTGTCCGGTG
AGCTGATAACCGGGCGTCGTCAGTTGCAGGAGGGCATGTTATTTTCCCCG
GGCAGTACCGTTATTGTCGACCAGGGGGAAAAGCTGTCCCTGAAGGAGAC
TCTGACCCTGCTGGATGGCGCGGCGCGTCATAACGTCCAGGTGCTAATTA
CCGACAGCGGTCAGCGCACCGGTACCGGCAGCGCGCTGATGGCCATGAAG
GAGGCCGGCGTGAACAGTTACCGCTGGCAGGGCAGGCAGCAGACCCCGGC
GACCGTTATCAGCGAGCCGGACCGGAATGTCCGCTATGCCCGGCTGGCCG
GGGATTTTGTGGCTGCGGTGAAAGCCGGGGAAGAGAGCGTGGCACAGGTC
AGCGGCATGCGTGAACAGGCCATACTGGCGGGGATGATACGCAGTGAGCT
GAAGACGCAGGGGATACTCGGGCAGCAGGACACCATGATGACCGCCCTGT
CACCGGTCTGGCTGGACAGCCGGAACCGTTACCTGCGCGATATGTACCGT
GAAGGGATGGTGATGGAGCAGTGGAACCCGGAGAAACGGTCCCATGACCG
GTATGTGATTGACCGGGTGACCGCACAAAGTCACAGTCTGACCCTGCGGG
ATGCGCAGGGAGAGACGCAGATGGTGCGGATTTCAGCCCTGGACAGCAGT
TGGTCACTCTTCCGACCGGAGAAGATGCCGGTGGCAGACGGTGAGCGTCT
TATGGTGACGGGAAAAATTCCCGGGCTTCGCGTCTCCGTCGGCGACCGGC
TGCAGGTATCTGCGGTGAACGATGGCGTGATGACGGTGACGGTACCCGGC
AGGGCTGAACCGGCTTCCCTGCCGGTGGGGGATTCCCCGTTCACGGCGCT
GAAGCTGGAAAACGGCTGGGTGGAAACACCCGGGCATTCCGTCAGTGACA
GTGCGAAAGTTTTTGCTTCCGTCACACAGATGGCGATGGACAACGCCACC
CTGAACAGTCTGGCCCGCAGCGGCCGGGATGTCCGGCTGTATTCCTCACT
GGATGAGACCCGCACTGCTGAAAAACTCTCCCGTCACCCGTCTTTTACGG
TCGTTTCTGAGCAGATAAAGGCGCGTGCCGGTGAGGTATCGCTGGAAACC
GCCATCAGCCGCCAGAAAGCCGGGCTTCACACGCCGGCACAGCAGGCCAT
TCACCTTGCCCTTCCGGTGGTGGAAAGTAAAAACCTGGCATTCAGTCAGG
TGGACCTGCTGACGGAGGCGAAGTCGTTTGCTGCAGAGGGAACCGGTTTT
GCTGACCTGGGACGGGAAATTGATGCGCAGATAAAACGGGGCGATTTACT
GTATGTGGATGTGGCAAAAGGTTATGGCACAGACCTGCTGATTTCCCGTG
CGTCGTATGACGCTGAAAAGAGTATTCTGCATCATATCCTTGAGGGCAAG
GAGGCGGTCACGCCACTGATGGAGAGGGTACCCGGCGAACTCATGGAGAC
TCTGACATCCGGACAGCGTGCCGCCACCCGTATGATACTCGAAACGAAAG
ACCGTTTCACCGTGGTACAGGGTTATGCCGGGGTGGGCAAGACCACCCAG
TTCCGGGCGGTGATGTCAGCGGTGAACCTGCTGCCGGAGAGTGAGCGTCC
CCGCGTCGTGGGGCTGGGACCGACCCACAGGGCGGTCGGGGAGATGCGCA
GTGCCGGCGTGGAAGCACAGACGCTGGCGTCCTTTCTGCACGACACGCAA
CTGCAGCAGCGCAGCGGTGAAACGCCGGATTTCAGCAACACGCTGTTCCT
CCTTGATGAGAGTTCGATGGTGGGCAACACCGATATGGCGCGGGCATACG
CCCTGATTGCGGCCGGTGGTGGTCGTGCCGTGGCGAGCGGTGACACGGAC
CAGCTGCAGGCCATCGCACCCGGCCAGCCTTTCCGCCTGCAGCAGACGCG
CAGCGCGGCTGATGTGGCCATCATGAAGGAGATTGTACGCCAGACACCGG
AACTGCGGGACGCCGTGTACAGCCTGATTAACCGGGATGTGAATAAGGCA
CTGTCCGGGCTTGAAAACGTGAAGCCGGTTCAGGTTCCCCGCCTGAAGGG
GGCATGGGCGCCGGAAAACTCGGTGACGGAGTTCAGCCGTCTGCAGGAGC
GGGAACTGGCGAAAGCCGCACAGGAGGCGGAGAAAAAGGGCGAAGCCTTT
CCGGATGTGCCCGTGACGCTGTATGAGGCCATTGTCCGCGACTATACCGG
CAGAACGCCGGAAGCCCGGGAGCAGACGCTGATTGTCACGCATCTGAATG
AGGACCGTCGGGTGCTGAACAGCATGATTCAGGATGCGCTGGCGAAACCG
GGTGAGCAGCAGGTCACTGTCCCTGTACTGACCACCGCGAATATCCGTGA
CGGGGAACTGCGCCGTCTGTCCACCTGGGAGGCGCATCCGGGGGCGCTGG
CCCTGGTGGATAATGTGTATCACCGGATTGCCGGTATCAGTAAGGAGGAC
GGGCTGATTACCCTGGAAGATAAGGCGGGTAACACCCGCCTTATTTCCCC
CCGGGAAGCAGCGGCAGAGGGCGTCACACTATACAATCCGGAAACTATCC
GGGTGGGGGCCGGTGACCGGATGCGTTTCACGAAGAGTGACAGGGAACGC
GGGTATGTGGCCAACAGCGTCTGGACGGTGACGGCGGTTTCCGGTGACAG
CGTCACGCTGTCAGACGGGAAACAGACCCGCGTGGTGCGTCCCGGGCAGG
ACAGGGCAGAGCAACATATTGACCTGGCGTATGCCATCACCGCCCACAGT
GCGCAGGGGGCCAGTGAGACGTTTGCCATTGCGCTGGAGGGAACCGAAGG
GGGCCGGAAACAGATGGCCGGTTTTGAGTCGGCGTATGTGGCGCTGTCGC
GTATGAAGCAGCATGTGCAGGTGTACACCGACGACCGTCAGGGTTGGGTT
AAGGCCATCAACAGTGCGGAGCAAAAGGGCACGGCCCATGACGTGCTGGA
GCCTAAATCAGAGCGTGAGATGATGAACGCAGAGCGCCTGTTCAGCACCG
CCCGGGAACTGCGGGACGTGGCCGCCGGCCGTGCCGTGCTGCGCAACGCC
GGACTGGCGCAGGGAGACAGCCGGGCGCGTTTTATTGCACCGGGGCGCAA
GTATCCGCAGCCGTATGTGGCGCTGCCGGCGTTTGACCGTAACGGTAAAT
CCGCCGGTATCTGGCTGAACCCGCTGACAACGGATGACGGTGCCGGGCTG
CGGGGATTCACCGGGGAAGGTCGGGTGAAAGGCAGTGAAGAGGCGCAGTT
TGTGGCCCTGCAGGGCAGTCGTAACGGCGAAAGCCTGCTGGCTGGTAGCA
TGCAGGATGGCGTCCGGATTGCCCGGGAGAACCCCGACAGCGGCGTGGTG
GTGCGAATTGTCGGTGACGGGCGTCCATGGAATCCCGTCGCCATTACCGG
CGGCAGGGTGTGGGGCGATATTCCTGACAGTAACGTGCAGCCCGGCGCGG
GGAACGGGGAGCCGGTCACGGCAGAGATTCTGGCACAGCGGCAGGCAGAA
GAGGCAGTCCGCCGTGAAACAGAACGCCGTGCGGATGAGATTGTCCGTAA
AATGGCTGAGGACAAATCTGACCTGCCGGAGGAGAAAACCGCGCAGGCGG
TCAGGGAGATTGCCGGCCAGGAGCAGGACAGAATGACCCCGCCTGAACGG
GAACCCCCGCTGCCGGAGAGTGTGCTGCGCGAACCACAAAGGGAGCGGGA
GACCATCCGGGAAGTGGCGCGGGAAAACCGGGGCCGGGAGCGGCTGCAGC
AGATGGAGCAGGAGATGGTGCGTGACCTGCAGAAAGAGAAAACCCCTGGC
GGGGACTGA
>gid:863129  trbD  conjugative transfer:
GTGATAAAAATGAACATACGTAATGTTATTTCAGTTCCTGATGAATCCGT
GCAGGATGATTTTGTGAAATATGTTATCAGTAACTGCACTACAAAAATAA
TACTCTCCGGTCGCCGGGAATATAATTTCTCACGACAGGAATATAATTTT
TCAGTTACCGGAATGCCTGGCGCAGGGAAAACATGTGTTCTGTCTGAATT
AATCAAAAAGCTGCTGCGTGAGAATAAGAAAGGGGCGAAATCATGA