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

# Serratia marcescens

>SMR0139 ATP/GTP-binding protein
ATGCGGCTCAGAAAATTAAAACTGAAAAACTTCAGAGGCTACAGAAACTC
TACTGAAATCATTATTGATGAAAGCATGACGGGTATTGTCGGTCGTAATG
ACTTTGGGAAATCAACGCTTCTGGAAGCGCTGGCTATTTTTTTTGAAACA
GAAGGAATGAAGGCTGACAAGAATGACATGAACTGTTTCAGCCTAAGAGA
AGGGGACGGCCGTTTTGAAATAGCCTGTGAATTTGATGACCTGCCCGATT
TTATCATGATCGACGACAGGGTGCAGACCACGCTCGCCTCAGAACATCTG
CTGAATGAGGACGGCAATTTTGAAATCGTCAAAACGTTTAAAGCAACGAC
CTCAGGAAAACCGGAGCAGACCTGCATCCGCTGCATCCACCCGGATGAGG
AGCCCCTGAGAAATTTACTGGGCATGAAAATTTCTGAGCTCAAGGCGGTG
GGAAAAGAAGTTGAAAAAAATGTGGCGGATAAACGCACTGCATCGTTATG
GCGTCAGGCCATCAGGGAAGCCGCAGCCCCCTATACCTGTTCGGAAATTA
TGCTGGATGTCGATAAAGAGTTCGGAACCGACACAAAATCATTATGGGGT
AAGATCCTCGATTTGCTGCCCACGTATGCGATTTTCAAAGCCGACAGGGA
AAGCAGCGACGGGGATTCCGAAGCTAAAAACCCCTTACAGCAGGCCGTAA
AAGACGCTCAGGCTGCGCTGCAGGACAAAATTACAGCGCTGGAAAATGAG
ATTCAGGACAGCGTCCTGGATGTCGCACAGAGAACGCTGGATAAATTACG
TGAAATGGCCCCCGAACTCGCCAGTGAACTGACTCCACGATTTAAGGAGA
AACCCAAGTGGACCTTCAATTTCACCCTGGACGGGGAAAATGGCATCCCC
ATCAATAAGCGCGGCAGCGGGATAAGGAGGCTTATCCTGTTGAATTTTTT
TCGGGCTGAGGCTGAAAAGAATGTCGCGGGGACGCCCAGAAATGTGATTT
ATGCCATAGAGGAGCCTGAAACGTCACAGCATCCGAACTATCAGATGATG
CTGATGAAAGCGTTACTGGCACTGGCAGGCCAGCCGCACCGTCAGATTAT
CGTCACCACCCATGTCCCGGCGCTGGCCGGATTAATCCCTGTCGAAGGCG
TACGTTATGTTACCCGAAATGAGGCGGGTGAACCCGTAGTAAAAATGCCG
GATGACGCAGTGCTGAAGGAAGCCACTGAAAGCCTGGGGGTGCTGCCAGA
GACCGGTATGGAAAGGGCGCAGGGGATTGTTCTGGTAGAGGGAAAGTCGG
ATGTTACTTTCCTGAGGCATGCGGCCAGTTCATTAAAACAGTCAGGTGCG
CTGCCAGCCTCTCTGGAGGACGTGAAAATAGTGCCAGTCCTCATAGGAGG
GTGTGGTAGCGTCAAACACTGGGTTACATTGAATCTGGCCAAAGATCTGG
GGCTTCCCTGGTGCGTATTTCTGGACTCCGATATTGGGGGAGACCCTGCA
CAGGTTCTGTCCATCCAGAAGCGTAAAAAAGAAGTAGAGGAGGCCGGTAA
GGTATTTTTCGCTACGCGCAAACGTGAGATAGAAAACTATCTGTGCCCGG
ATCTTATCGAGGAAATTACTGGTGTAGCCGTCACGTTTACGGACACCTGT
GACGCTAAAAAAATAATCGGCCGGGCTGTGGGAATGAAACCCGATAATGT
ACTAGATAAATTCTGGCCTCAGATGACATCAGAAAGAATCATCTCAAGAT
CAACCTATCATGACGGAACGCAGGAGAGAAGCGAGCTGGTTGAGATCCTG
AGCGACATTGTATCCATGACGAGATAA
>SMR0166 putative exported nuclease
ATGTTTTTTTTTACAAAGTTACTTTTGCCCATCATGATTGTTGTATTCCC
AGTGGCGTCCTGGGGGAACTCAACAACTTTTGAGGCAAAGGTGGTTAAGA
TTGTTGACGGTGACACCATAACTGCGTTGGATGCTCAAAACACAACCATC
AAAATACGGATGTATGGTATAGACGCTCCTGAATCTAAACAGGCTTTTGG
CCAAAAAGCAAAACAGGCCTTAACCACAGCTATAGCAACTAAAATCGTTA
CCGTGATAGACCATGGTACGGATATCTATGGCCGTATGTTAGGTACCATC
TGGTTAGATGGATATGATATCAATGCCTCTATGGTGGACAGTGGATATGC
GTGGGTTTATCGGTTCGAAGATAACGCCATTGTCCCTGGCTATATCAAAT
ATGAATCCGCAGCACAAAAGGAGGCAAAAGGGTTATGGGCAGACACCAAC
CCTGTCCCACCATGGCAGTGGAGACAGGCAAACGAAAAGCCCAGAAAGGT
GAAAGAGAAGAAATAA
>SMR0088 putative DNA helicase
ATGACCAAAAGACTGACTTGGGAGCAGAAAAGTATTGTCAGCCATGACAC
CGGACATGCGTTGGTAAAAGCCGTACCTGGTAGCGGGAAAACAACCACAC
TTGTAAAGCGCGTTGAGCGGCTGGTCAAGACGGGAACTGATCCTCGCTCC
ATTCTGATCCTGATGTACAACAAGTCGGCGCAGGTGAGCTTCACGGAGAA
CTTGAAGACGGCACTGATGTCGAGCGTGATTCCAGAAATCCGCACGTTCC
ACAGCTTGGCCTTAAAGATTGTTGGTTACGGAGAACGCCAACAGATAATC
AAGAAGAAAGACCTCATTACTCCAAGCGACTACCGCTATGAGCAACTGGT
AAAGCAAGCCTACCGCTATGGCTTTGACCATGAGGCGAATTATATTGACC
CCAATGAAATTGAAAACTTCGAGCTGTTTATTGCTCGCTGCCGGGCGGCG
GCCGTAACTCCTGTTGATGCTGCCAATGATCCAACGTTCAGCAACATCAA
ACGGGAGTTTATTCACGCCTATGGCCGCTATTGTGAGCTGCTGGAGGAAA
ACAGTCTGCGAACCTTTGATGACTGTTTGATTGAGGCTGTCGCACTGTTG
CGTAATGACAGCAGCCTTGGTGCCCACTTCAAGCACATCATTGTTGATGA
ATATCAGGACGTTAACCTGATACAGCATGACATGACCCGCTTGCTATCTA
AGTCGGATACGTCGGTTATGGCTGTTGGTGATGTTAACCAGTGTATTTAT
GAGTGGCGTGGTGCTCGACCAGACTTTATCGGCGGACTGTTTGAAAGGCA
CTACCCGAATACGAAGGTGTTTCAACTGTCATGCACGTTCAGATTTGGCC
ATGAGCTTTCCTTGATGGCTAACTCGGTAATTCGGCGCAACTCTACAAAG
CTGACCAAGCTTTGTGTCAGTCATCCTAGCACCCCCAAAACAGAGGTCAG
ATTGCACTTTGATAACTGCCTATCCAAGGTGCTATCAAACCTCTCGGTGA
GCAGTGGAACACAAGCCATATTGTCCCGCACTAAGGCGAACCTTGCTGAG
GCGGAAATTGCTTTACGCCTGTGTGGGCTACCTTATCGCTACCTCAATGG
TTCAAGCGCATTACACACCCGCACCGAAATCGGGATACTGGTAGTTGGCG
TCTTGCTGTCTGTGTACGGCGATCTGCGGCTACTGGAAAACCATCCCAAC
AAACAAGCGATTGTTTACGGCTTTCTGAAGGAGGCTGGTTTTAGATGGCA
GAAAGGGCAATTCAAAGCGGCGCTCAGTGGATTGATGGCTCCGCACGCCG
ACCTATGGTCTGCTCTAGGTCAGTTATTCGAGGGCGCACAATACCAAAAA
GATCGGCTGGGCAGGCTCGCCACTATCTGCCAGAAAGACGGAGAGGAAAC
GCCTGCTATCGATGTGTTACGACGCCTGAGTATGGAGGGTTTCATTGATA
GTGTTGGCTCTGAGGGTGTAACTCGCACTGGATCGAACGACCAGCAACGA
GGGGTCGTGAGGATCGGGGAGCTACTTGACTCCAGTAAGATCGATTCCCG
CACGTTTTTAAACCTTATCTTGAATCCAGGCGAGGCTGCTACTGACTGCG
ATCCCTTCATCCTTTCCACACTGCATGGTTCCAAGGGGCTGGAGTGGGAT
AACGTAATACTGATCGGGCTGAATGAGCAGGAATTTCCTGGCGGCAAACC
CGATGATGTTTACAGCGTTCGCACATCGATGAACACCCCTCCGGCCGAAG
AGGAAATCGAGGAGGAACGTCGGCTGTTTTATGTCGGTATCACTCGCACA
AAACAGCAGCTAAATCTGGTGGTCCCTCTTGATGAAGGGCTTGCGCGGTG
GCTCAAAAACCGCTGGGATAGCACCCCGAAGAAGTCACCGATAGCTACTC
GCTTCGTCTATGAGGCTGGCTGGACTGCTTGTGCGGTTACCAGTGATGCG
ATCTATAACAGCACGGTAGAGAAACAGAAGGCTGACTTCAGCAAGTTTCA
CCAATGGTATCTAAGAGATCTTCAGCGGCTAAAAGTCTAG
>SMR0096B resolvase/recombinase (pseudogene)
ATGAAAATCGGCTATGCACGTAAATCTACGCATCTTCAGGATGTGGCGCA
CCAGGTTGACGAACTAACAAAAGCTGGATGTGAGCAAATCTATCAGGATC
AGACCTCACGTAGCGGCCCAAAGCGCGACAAAAAAGGTGCGCTGGAA
>SMR0272 modification methylase
ATGAGCACGATTTCTACGGATTTAATTGCACGGATCTACGCAGCCTCCGA
ATTGCCGTTGAGCAACGACGAGCTTTATCGCGAAGTGCAGCGTGAAACTG
GCATGTCGGATGCCGAATTGCACGAACTGAAAGAATTTGGGTCAGATAAA
ACCAGAACCAGCGGCGTCAAACACAAAGTACGCTGGTTTCAGCAGACTCT
TCGGCAGGCCGGAGTCATCGAACGCGTTCCAGAAAAACGGGGCGTCTGGA
GATACTCCTCTAAGACGAAAACAAACCTACACGAGTCATGGGAAAAGCTC
TGTGTTGTCGGTTTCTCAACTTCTCTTGGGGCATCGGTTTTTGGAAACGC
CTATGCCTTCTTCAGCAATATCACAGAGCAAATTCATCTTTGCCTGACCT
CGCCGCCTTACCTCCTTCGAAATTCAAGAGACTACGGGCATGGCGGGGGG
CGTGGCGAGCAGGTTTATATTGACTGGCTTCTGCGTATCCTCGAACCGAT
CGTGAAACAGCTTGTACCCGGCGCAAGTGTGGCATTGAATATCACTCAAG
ATAGCTTTAATAGGGGCAGGCCTTCACGTTCTCTGTATCTGGAGCGTCTG
ACACTGGCATTATGTGACAAGCTGGGGCTTGAGCTCATGGACAGGCTTCA
GTGGGTGAATCGCAGTAAGCCCCCATCGCCAACGCACTGGGCATGTAAGC
AACGAGTGCAGCTCTGCTCATCGTATGAGCCTGTGCTGTGGTTTACCAAT
GATGCGAGTAAGGTTCGTTCAAACAACTTACGTGTACTGCAACCGCATTC
AGAGCAGCATCTTAAATTGCAGGCAGCAGGCGGTGAAAATCGCACGACCT
TTTATGGTGATGGGGCGTACCAGCTTAAAAGCGGATCCTTTGGAAATAAA
ACAGAAGGAACGATCCCCAAAAATACTTTGTTTTACGGCAATAGCTGCGC
TGATACGAGATTTTGCCATTCCATTGCCCGCGAGCTAGGTTTTCCGCTGC
ATGGTGCAACGTCTCCTACCAGGCTTGCAGCGTTTCTGATTGAGTTTTTG
ACAGAGCCGGGAGATGTTGTTGTAGATCCCTTCGCTGGCCTGCATAAAGT
TCCCATCGCAGCCGAGCGACTTGGCAGACGTTGGCTGGCGACGGACAAAA
TCATGGAATGGCTGGCGATTTCCCGAAACCTTTTTACGGCCGCACCGGGA
TATAAGAGTAACCCCATGCTGGACGAGCTCGCCGAACTGTATCGGGCTTA
A
>SMR0228 Tn10L, Tn10 transposase for IS10 left
ATGTGCGAACTCGATATTTTACACGACTCTCTTTACCAATTCTGCCCCGA
ATTACACTTAAAACGACTCAACAGCTTAACGTTGGCTTGCCACGCCTTAC
TTGACTGTAAAACTCTCACTCTTACCGAACTTGGCCGTAACCTGCCAACC
AAAGCGAGAACAAAACATAACATCAAACGAATCGACCGATTGTTAGGTAA
TCGTCACCTCCACAAAGAGCGACTCGCTGTATACCGTTGGCATGCTAGCT
TTATCTGTTCGGGCAATACGATGCCCATTGTACTTGTTGACTGGTCTGAT
ATCCGTGAGCAAAAACGGCTTATGGTATTGCGAGCTTCAGTCGCACTACA
CGGTCGTTCTGTTACTCTTTATGAGAAAGCGTTCCCGCTTTCAGAGCAAT
GTTCAAAGAAAGCTCATGACCAATTTCTAGCCGACCTTGCGAGCATTCTA
CCGAGTAACACCACACCGCTCATTGTCAGTGATGCTGGCTTTAAAGTGCC
ATGGTATAAATCCGTTGAGAAGCTGGGTTGGTACTGGTTAAGTCGAGTAA
GAGGAAAAGTACAATATGCAGACCTAGGAGCGGAAAACTGGAAACCTATC
AGCAACTTACATGATATGTCATCTAGTCACTCAAAGACTTTAGGCTATAA
GAGGCTGACTAAAAGCAATCCAATCTCATGCCAAATTCTATTGTATAAAT
CTCGCTCTAAAGGCCGAAAAAATCAGCGCTCGACACGGACTCATTGTCAC
CACCCGTCACCTAAAATCTACTCAGCGTCGGCAAAGGAGCCATGGATTCT
AGCAACTAACTTACCTGTTGAAATTCGAACACCCAAACAACTTGTTAATA
TCTATTCGAAGCGAATGCAGATTGAAGAAACCTTCCGAGACTTGAAAAGT
CCTGCCTACGGACTAGGCCTACGCCATAGCCGAACGAGCAGCTCAGAGCG
TTTTGATATCATGCTGCTAATCGCCCTGATGCTTCAACTAACATGTTGGC
TTGCGGGCGTTCATGCTCAGAAACAAGGTTGGGACAAGCACTTCCAGGCT
AACACAGTCAGAAATCGAAACGTACTCTCAACAGTTCGCTTAGGCATGGA
AGTTTTGCGGCATTCTGGCTACACAATAACAAGGGAAGACTCACTCGTGG
CTGCAACCCTGCTTACTCAAAATCTATTCACACATGGTTACGTTTTGGGG
AAATTATGA
>SMR0219 Tn10R, Tn10 transposase for IS10 right
ATGTGCGAACTCGATATTTTACACGACTCTCTTTACCAATTCTGCCCCGA
ATTACACTTAAAACGACTCAACAGCTTAACGTTGGCTTGCCACGCATTAC
TTGACTGTAAAACTCTCACTCTTACCGAACTTGGCCGTAACCTGCCAACC
AAAGCGAGAACAAAACATAACATCAAACGAATCGACCGATTGTTAGGTAA
TCGTCACCTCCACAAAGAGCGACTCGCTGTATACCGTTGGCATGCTAGCT
TTATCTGTTCGGGCAATACGATGCCCATTGTACTTGTTGACTGGTCTGAT
ATTCGTGAGCAAAAACGACTTATGGTATTGCGAGCTTCAGTCGCACTACA
CGGTCGTTCTGTTACTCTTTATGAGAAAGCGTTCCCGCTTTCAGAGCAAT
GTTCAAAGAAAGCTCATGACCAATTTCTAGCCGACCTTGCGAGCATTCTA
CCGAGTAACACCACACCGCTCATTGTCAGTGATGCTGGCTTTAAAGTGCC
ATGGTATAAATCCGTTGAGAAGCTGGGTTGGTACTGGTTAAGTCGAGTAA
GAGGAAAAGTACAATATGCAGACCTAGGAGCGGAAAACTGGAAACCTATC
AGCAACTTACATGATATGTCATCTAGTCACTCAAAGACTTTAGGCTATAA
GAGGCTGACTAAAAGCAATCCAATCTCATGCCAAATTCTATTGTATAAAT
CTCGCTCTAAAGGCCGAAAAAATCAGCGCTCGACACGGACTCATTGTCAC
CACCCGTCACCTAAAATCTACTCAGCGTCGGCAAAGGAGCCATGGGTTCT
AGCAACTAACTTACCTGTTGAAATTCGAACACCCAAACAACTTGTTAATA
TCTATTCGAAGCGAATGCAGATTGAAGAAACCTTCCGAGACTTGAAAAGT
CCTGCCTACGGACTAGGCCTACGCCATAGCCGAACGAGCAGCTCAGAGCG
TTTTGATATCATGCTGCTAATCGCCCTGATGCTTCAACTAACATGTTGGC
TTGCGGGCGTTCATGCTCAGAAACAAGGTTGGGACAAGCACTTCCAGGCT
AACACAGTCAGAAATCGAAACGTACTCTCAACAGTTCGCTTAGGCATGGA
AGTTTTGCGGCATTCTGGCTACACAATAACAAGGGAAGACTTACTCGTGG
CTGCAACCCTACTAGCTCAAAATTTATTCACACATGGTTACGCTTTGGGG
AAATTATGA
>SMR0300 dam, DNA adenine methylase
TTGACTCGACATCTCAGACACATGCCGATAATCAAATGGGCTGGTGGAAA
AACGAAACTGATGCCTTTCATCAGCCATCACTACCCACACGATCATAGTT
GCCGGTGGGTAGAACCCTTTATAGGCGGTGGTGCCGTTTTTCTGAACATG
TTTGCACAAAATGCATTGCTTGCAGATAGCAATCCAGACTTGATCAACCT
ATACAGGACTATTCAAAGACAGAAAACTAACTTTATAAATCAGGTCCAAA
ACCTAGCGGATAAAACCTTTGTCGAAAAGGACTACTATGAGATGAGGGAC
CGTTTCAACAAAACCTGTATTTCTGGTCAACCGCTTCAAAGAGCGGCTTT
GTTTTACTCCCTGAATCGCCTGGGCTATAACGGTATGTGCCGCTATAACT
CAGAAAGAATCTATTCAGTGCCCTGGGGGAAACATACAGAACTGAAGCTT
GACTTCAATAAAATAGACTACCTTTCATTTCGTCTTTCAGGTATTGAACT
GATCACCGCTGGTTTTGAGGAGACTCTGGCCGCAACCGGCGAAGGAGATC
AGATTTATTGTGATCCGCCATATGACAAAACAAGCAAAACTAGTTTTGTC
AGTTACGATGGTAAACCGTTCAGCCAAAGCGACCACGTGCTGTTAGCAAA
TATGCTCGTTGACGCTCACAGAAAAGGCGCTGCTGTTGCGATATCAAATA
GCCTGACACCATTCACTTTGGGCCTCTATGAAGAGCGTGGATTCGTCATA
CACAGACTCAGCGCTTACCGATCCGTAGGAAGTAAGCCAAATACACGGAA
AACGGAAACAGAAATACTGGCCGTGCTGAAATAG
>SMR0165 dcm, DNA-cytosine methyltransferase
ATGAAACGTTACACTCATGATCTTGAGACAGACCTGAATGATGTGGATAA
AACACCATCTCTGATCCACAAAACTTTGTTAACAGCTTCGACTATTTATG
ACCTGAAATATCTGGCTCAGGTATTAAATGATGAAAATGGCAGTAATTGG
TCCCGTGCATCCCTTAAACGTCAGGTTACATGCATACCTGAGCATTGTGA
TCTGAGTATCGCAGATGGACGCTATCTACAGACTTTAATACCTTCACGAC
CTGCTGATTATGAGGACAGGCACTTTAGCTTTATCGATCTGTTTGCAGGG
ATAGGTGGACTGCGAAGCGGATTTGATGCCATCGGTGGTAAATGTCTTTT
CACGAGCGAATGGAATACTTATTCCAGCCGTACTTACCGGGCGAACTGGT
ATTGCGATGAGAACGAGCACCGCTTCAATTCAGACATCCGTGACATCACT
CTTAGCAACCGGCCCGAGGTTACTGATGACGAGGCATACAAATTTATCGA
TGCCTCTATCCCGGATCATGATGTTCTTCTTGCGGGATTTCCATGCCAGC
CATTCAGCATCGCCGGTGTCAGTAAAAAGAACTCTATGGGTCGCAAACAC
GGTTTCGAGTGCGACACTCAGGGTACGCTCTTCTTTGATGTGGCCAGGAT
CATCCGGGCAAAACAACCTGCAATTTTTGTTCTGGAAAACGTAAAAAATC
TGAAGAGTCACGATAAGGGTAATACCTTTAACATCATCATGAAAACGCTC
GATGAGCTTGGCTACGACGTCGCAAACAGCGAAAGCACGGGCGCGGATGA
TCCTAAAGTCATCGATGGCCGTCATTTCCGACCCCAGCACCGTGAACGTA
TCGTCCTTATTGGTTTTCGCCGCGACCTACGTCTGAAAGACGGTTTTACT
CTGAGAGACATTAAAGACTTTTATCCGGACAAGCGCCCTTCTCTCTCAGA
TTTACTGGATCCGAGCGTAGATAGTAAATACATCCTCTCCCCTAAACTCT
GGGAGTACTTATACAACTATGCAAAGAAACATGCGGCAAAAGGCAATGGT
TTTGGTTTTGGACTAGTAGATCCTTCCAATGTTAATAGTGTCACCAGAAC
CCTCTCAAGCCGCTATATGAAAGACGGATCTGAAATTCTTATTGATCGGG
GCTGGTCTCATGAGCTGGGAGAAACTGATTTCCATAACACATACAACATG
GACCGTCGGCCACGCATGCTAACGCCACGTGAATGCAGCAGGCTAATGGG
CTTCGATAAACCCGGGGAAAGTGTTTTCCGTATCCCTGTGTCCAATACAC
AGGCTTACAGACAGTTTGGGAACTCCGTGGTCGTTGATGTCTTTGCGGCC
GTCGCCAAACTGCTGAAGTCTCGAATTGAATTTGCAGCCTCCCAGCGCTT
GCGGCAGTTTTACGACGAAGTCAGCTGA
>SMR0246 insJ, insertion element IS150 hypothetical protein
ATGTCAAAGCCAAAATACCCTTTTGAAAAGCGCCTTGAAGTCGTGAATCA
CTACTTCACAACTGATGATGGTTACAGGATCATCTCGGCACGTTTTGGTG
TCCCCCGAACCCAGGTCAGGACATGGGTTGCCCTCTATGAAAAACATGGA
GAAAAAGGTTTAATTCCCAAACCTAAAGGCGTTAGTGCTGATCCAGAGTT
GCGTATTAAGGTCGTGAAAGCTGTGATCGAGCAGCACATGTCCCTTAATC
AGGCTGCTGCTCACTTTATGCTTGCTGGTAGTGGTTCTGTAGCCAGGTGG
CTGAAGGTCTATGAAGAGCGCGGAGAAGCTGGTTTACGCGCGCTCAAGAT
TGGCACCAAAAGAAACATTGCAATATCAGTTGATCCAGAAAAAGCGGCAT
CAGCATTGGAGCTGTCAAAAGACCGACGCATTGAGGATCTTGAAAGGCAA
GTTCGATTTCTTGAAACGCGGCTTATGTATCTAAAAAAGCTGAAAGCCTT
AGCTCATCCCACGAAAAAGTGA
>SMR0245 insK, putative transposase for insertion sequence element IS150
GTGAAAGTACTCAACGAGCTAAGGCAGTTTTATCCTCTTGATGAGCTTCT
CAGGGCTGCGGAGATACCGCGCAGTACGTTTTATTATCATCTAAAGGCTC
TCAGCAAGCCTGACAAGTATGCGGACGTTAAAAAGCGTATTAGTGAGATT
TATCACGAGAATAGAGGCCGATACGGATACCGTAGGGTAACGCTGTCTCT
TCATCGAGAAGGGAAACAGATTAACCATAAAGCTGTTCAGCGCCTGATGG
GAACCCTCTCACTTAAAGCAGCGATTAAGGTCAAGCGATACCGCTCTTAC
AGAGGAGAGGTAGGGCAAACCGCCCCTAATGTTCTCCAAAGAGATTTCAA
GGCTACGCGGCCAAACGAGAAGTGGGTTACCGATGTTACTGAATTTGCAG
TCAATGGGCGCAAGCTGTATTTGTCTCCAGTAATAGATCTCTTCAACAAC
GAAGTTATTTCTTACAGCCTTTCGGAAAGACCAGTGATGAACATGGTTGA
GAATATGCTCGATCAGGCATTCAAAAAGCTTAATCCTCACGAGCATCCTG
TTCTGCACTCTGACCAGGGATGGCAGTATCGTATGAGAAGATATCAAAAT
ATCCTTAAAGAACATGGTATTAAACAAAGCATGTCCAGAAAAGGCAATTG
TCTGGATAATGCTGTGGTGGAGTGTTTCTTTGGAACCTTAAAGTCGGAGT
GTTTTTATCTTGATGAGTTCAGTAATATAAGCGAACTGAAGGATGCTGTT
ACGGAATATATTGAATACTACAACAGCAGAAGAATTAGCCTGAAATTAAA
AGGTCTGACTCCAATTGAATATCGGAATCAGACCTATATGCCTCGTGTTT
AA
>SMR0243 insL, putative transposase for insertion sequence element is186a/b/c
ATGAATTACTCTCACGATAACTGGTCAGCAATTCTGGCCCATATTGGTAA
GCCCGAAGAACTGGATACTTCGGCACGTAATGCCGGGGCTCTAACCCGCC
GCCGCGAAATTCGTGATGCTGCAACTCTGCTACGTCTGGGGCTGGCTTAC
GGCCCCGGGGGGATGTCATTACGTGAAGTCACTGCATGGGCTCAGCTCCA
TGACGTTGCAACATTATCTGACGTGGCTCTCCTGAAGCGGCTGCGGAATG
CCGCCGACTGGTTTGGCATACTTGCCGCACAAACACTTGCTGTACGCGCC
GCAGTTACGGGTTGTACAAGCGGAAAGAGATTGCGTCTTGTCGATGGAAC
AGCAATCAGTGCGCCCGGGGGCGGCAGCGCTGAATGGCGACTACATATGG
GATATGATCCTCATACCTGTCAGTTCACTGATTTTGAGCTAACCGACAGC
AGAGACGCTGAACGGCTGGACCGATTTGCGCAAACGGCAGACGAGATACG
CATTGCTGACCGGGGATTCGGTTCGCGTCCCGAATGTATCCGCTCACTTG
CTTTTGGAGAAGCTGATTATATCGTCCGGGTTCACTGGCGAGGATTGCGC
TGGTTAACTGCAGAAGGAATGCGCTTTGACATGATGGGTTTTCTGCGCGG
GCTGGATTGCGGTAAGAACGGTGAAACCACTGTAATGATAGGCAATTCAG
GTAATAAAAAAGCCGGAGCTCCCTTTCCGGCACGTCTCATTGCCGTATCA
CTTCCTCCCGAAAAAGCATTAATCAGTAAAACCCGACTGCTCAGCGAGAA
TCGTCGAAAAGGACGAGTAGTTCAGGCGGAAACGCTGGAAGCAGCGGGCC
ATTTGCTATTGCTAACATCATTACCGGAAGATGAATATTCAGCAGAGCAA
GTGGCTGATTGTTACCGTCTGCGATGGCAAATTGAACTGGCTTTTAAGCG
GCTCAAAAGTTTGCTGCACCTGGATGCTTTGCGTGCAAAGGAACCTGAAC
TCGCGAAAGCGTGGATATTTGCTAATCTACTCGCCGCATTTTTAATTGAC
GACATAATCCAGCCATCGCTGGATTTCCCCCCCAGAAGTGCCGGATCCGA
AAAGAAGAACTAA
>SMR0193 mucB, putative UV protection and repair protein
ATGCACGTTGATATTAACGGAGCCTATGCGGCATTTGAGTGTGCGATGGA
TCCCAAGCTGTCAAAAAAGCCGCTCATCATAGCCAGCAATAACGATTCGT
CCGTCATTGCAATGAATAAACTGGCTAAAAGCGTTGGTATTAAGCGTGGG
ACCCCAATTTTTAAGTGCAGGGATTTGATTCAGCAACACCGGATCGAAGT
CCGGAGCTCTAACTTTACTTTGTATGAAGACTACTCAAATCGCTTCCATG
AAACGCTGGAAAGCTTCGCGCCTCAATCGAGTCGATATAGCATAGATGAA
AATTTCATGTTATTGAAAAACATGAACAAGATAATAGATTATGAAGATTA
CGGCCGGTTGATCAGAAGTACACTTCTTCATAATCTGTCCCTTACCTGTG
GTGTGGGTTGTTCAAGCACCAAAACCCTCGCTAAATTATGCACCTATGCG
AGCAAACGATGGGCAGCTACAGGCGGGGTTGTAGTTTTGACTGATCAGGC
CAGGATCAGGAAGCTCCTGAGCCTGATCAGTACCAGAGAAATATGGGGTA
TTGGTCGAAAGATTAGTGAACGCCTGTCGGCTTTCGGGATCATCACTGCC
GGTGATTTTTATAATAGCGACGTTCGCTTTTTACGTAAAAGCTTTGGCGT
TGAAATCGAGCGTACCTGGCGGGAACTGCATGGCGAACCATGTTTCCGGC
TGCACGAGTCTCCTCCTGTCAGGCAACAGATTATCGTTTCCAGAAGTTTT
GGTCAGCGCCTTAATGAGATAGGCAAGCTACATGAGGCAGTTTCATTTTT
TACCGCCCGGGCGGCAGAGCAGCTGCGCAAGGATGGCTCGTGGACCCGTC
AAATCACAGTCTTCATTCAGAGTAGCAATTATGCGCAAGGTGAAAACCGC
TACAGCAATTGTGGTATCGAGCCGCTTACCGCTACACAGGACACCCGCGA
TCTGGTTGATGCAGCCATGACCATCCTGAACCGCATTTACAGACCCGGGA
TAGCGTATGCGAAAGCAGGGGTAATGCTCTCCGCTATGACTGACGGCACA
GAGCAACTCAGCCTGTTTGATACTCGCCCGGCCAGGCCTGGCAGTCAGGC
ACTGATGAAAGTTATGGACCGGTTCAATAAAGAAAAGCGCGGAGCTCTGT
TTTTACTGGGGGAAGGCATTCAACAGGATTTTCGTATGAAGCAGGCCATG
CTATCACCGAGATATACGACCCGCTGGGATGAATTACTCGTTGTAAAAGC
GTAG
>SMR0191 retA, putative reverse transcriptase/maturase
GTGATGTACGGAGAGGAGAAGTCGGACTCGCTCATAGTAGCGGCGAAGCA
GGCGAACAACCCGAAAGGAGCGGAGTCAGTGGAGCGAAGGAGCGGGGCCA
AGGGGAACGCGGAACAGCCACACATGCGCCGGACACAGAGCCGGGAAAGC
ATGTCACAGAGGCTGTCACGCGTGCGGGAAGCTGCGAAGCAGCGGAAGAA
AGAACGGTTTACAGCATTGTTCCACCTGCTGACAGTCGAAGCACTGGAAG
CCGCATTCCTCTCCCTGAGCAGGAAAGCGGCCGCCGGAGTGGATGGCATC
AGGTGGATGGACTACGCCGGAAACATGAAGAACAACATAACAGATCTGCA
CCGGAGGCTACATCAGGGCAGCTACAGGGCGCAGCCCGGCAGGCGTCACT
ACATCCCAAAAGCGGATGGAAAACAACGCCCGCTCGGCATCGCCTCGCTG
GAGGACAAGATCGTCCAGTATGCGCTGGTGAAAATCCTGAACGCAGTCTA
TGAAAACGACTTTATGGGGTTCTCATACGGGTTCAGACCCGGGCGAAGCC
AGCACGATGCACTGGACGCACTGGCCACAGGGCTGGTACGCACTAACGTA
AACTGGGTACTGGATGCCGACATCAGTCAGTTCTTCGACAGGGTGAGCCA
CGAATGGCTGATCAGGTTCACAGAGCATCGGATCGGCGACCGGAGGGTAA
TCAGGCTCATACGTAAGTGGCTCACAGCCGGGACGTCGGAGGAGGGTCAA
TGGCGAGCAACGGAGGAAGGCACCCCACAGGGTGCGGTCATCTCACCGCT
GCTGGCAAACATATACCTCCACTACGTCTTCGATCTGTGGGCGCATCAGT
GGCGACGTCGCTATGCCACAGGCAATGTGGTAATGGTCAGATACGCCGAT
GACATCGTCATCGGGTTCGACAAACGATACGATGCCCGGCGCTTCCGTAT
AGCCATGCAGCGCAGACTGAGGGAGTTCGGACTCACGGTTCACCCGGAGA
AAACCCGTCTGATGGAGTTCGGCCGCTTCGCTGCCGAAAACCGTGCCATC
AGGGGAAAAGGCAAACCAGAAACGTTCAACTTCCTCGGGTTCACGCACAT
CAGCGGGAAAGATCGCAACGGCAGGTTCATGCTGATACGAAAGACCCGCC
GGGATCGGATGACGGCAACTCTGAAAGCCATCAAAGACGGTCTGCGAAGG
CGCTGGCATTACTCAATCCCCGAACAGGGAAAATGGCTCAGGAGAGTGGT
TCAGGGATACCTGAACTATCACTCGGTACCGGGCAACTTCCCCACCATGC
AGAAGTTCAGGACACACGTAACAAACCTCTGGCGCCGGGCGCTCAGGCGC
AGGAGCCAGAAGGATGATACGACCTGGACGAAAGCAAACAAACTGGCAGC
CGCATGGCTACCAAGGGTTCGGGTTCTTCATCCATGGCCTGTGGAGCGGT
TCACCGCCAGACACCCGAGGCAGGAGCCCGGTGCGTAA
>SMR0095 tnIS26, transposase for IS26
ATGGAGCTGCACATGAACCCATTCAAAGGCCGGCATTTTCAGCGTGACAT
CATTCTGTGGGCCGTACGCTGGTACTGCAAATACGGCATCAGTTACCGTG
AGCTGCAGGAGATGCTGGCTGAACGCGGAGTGAATGTCGATCACTCCACG
ATTTACCGCTGGGTTCAGCGTTATGCGCCTGAAATGGAAAAACGGCTGCG
CTGGTACTGGCGTAACCCTTCCGATCTTTGCCCGTGGCACATGGATGAAA
CCTACGTGAAGGTCAATGGCCGCTGGGCGTATCTGTACCGGGCCGTCGAC
AGCCGGGGCCGCACTGTCGATTTTTATCTCTCCTCCCGTCGTAACAGCAA
AGCTGCATACCGGTTTCTGGGTAAAATCCTCAACAACGTGAAGAAGTGGC
AGATCCCGCGATTCATCAACACGGATAAAGCGCCCGCCTATGGTCGCGCG
CTTGCTCTGCTCAAACGCGAAGGCCGGTGCCCGTCTGACGTTGAACACCG
ACAGATTAAGTACCGGAACAACGTGATTGAATGCGATCATGGCAAACTGA
AACGGATAATCGGCGCCACGCTGGGATTTAAATCCATGAAGACGGCTTAC
GCCACCATCAAAGGTATTGAGGTGATGCGTGCACTACGCAAAGGCCAGGC
CTCAGCATTTTATTATGGTGATCCCCTGGGCGAAATGCGCCTGGTAAGCA
GAGTTTTTGAAATGTAA
>SMR0103 tnIS26, transposase for IS26
ATGGAGCTGCACATGAACCCATTCAAAGGCCGGCATTTTCAGCGTGACAT
CATTCTGTGGGCCGTACGCTGGTACTGCAAATACGGCATCAGTTACCGTG
AGCTGCAGGAGATGCTGGCTGAACGCGGAGTGAATGTCGATCACTCCACG
ATTTACCGCTGGGTTCAGCGTTATGCGCCTGAAATGGAAAAACGGCTGCG
CTGGTACTGGCGTAACCCTTCCGATCTTTGCCCGTGGCACATGGATGAAA
CCTACGTGAAGGTCAATGGCCGCTGGGCGTATCTGTACCGGGCCGTCGAC
AGCCGGGGCCGCACTGTCGATTTTTATCTCTCCTCCCGTCGTAACAGCAA
AGCTGCATACCGGTTTCTGGGTAAAATCCTCAACAACGTGAAGAAGTGGC
AGATCCCGCGATTCATCAACACGGATAAAGCGCCCGCCTATGGTCGCGCG
CTTGCTCTGCTCAAACGCGAAGGCCGGTGCCCGTCTGACGTTGAACACCG
ACAGATTAAGTACCGGAACAACGTGATTGAATGCGATCATGGCAAACTGA
AACGGATAATCGGCGCCACGCTGGGATTTAAATCCATGAAGACGGCTTAC
GCCACCATCAAAGGTATTGAGGTGATGCGTGCACTACGCAAAGGCCAGGC
CTCAGCATTTTATTATGGTGATCCCCTGGGCGAAATGCGCCTGGTAAGCA
GAGTTTTTGAAATGTAA
>SMR0112 tnIS26, transposase for IS26
ATGGAGCTGCACATGAACCCATTCAAAGGCCGGCATTTTCAGCGTGACAT
CATTCTGTGGGCCGTACGCTGGTACTGCAAATACGGCATCAGTTACCGTG
AGCTGCAGGAGATGCTGGCTGAACGCGGAGTGAATGTCGATCACTCCACG
ATTTACCGCTGGGTTCAGCGTTATGCGCCTGAAATGGAAAAACGGCTGCG
CTGGTACTGGCGTAACCCTTCCGATCTTTGCCCGTGGCACATGGATGAAA
CCTACGTGAAGGTCAATGGCCGCTGGGCGTATCTGTACCGGGCCGTCGAC
AGCCGGGGCCGCACTGTCGATTTTTATCTCTCCTCCCGTCGTAACAGCAA
AGCTGCATACCGGTTTCTGGGTAAAATCCTCAACAACGTGAAGAAGTGGC
AGATCCCGCGATTCATCAACACGGATAAAGCGCCCGCCTATGGTCGCGCG
CTTGCTCTGCTCAAACGCGAAGGCCGGTGCCCGTCTGACGTTGAACACCG
ACAGATTAAGTACCGGAACAACGTGATTGAATGCGATCATGGCAAACTGA
AACGGATAATCGGCGCCACGCTGGGATTTAAATCCATGAAGACGGCTTAC
GCCACCATCAAAGGTATTGAGGTGATGCGTGCACTACGCAAAGGCCAGGC
CTCAGCATTTTATTATGGTGATCCCCTGGGCGAAATGCGCCTGGTAAGCA
GAGTTTTTGAAATGTAA
>SMR0097 tnIS26, transposase for IS26
ATGGAGCTGCACATGAACCCATTCAAAGGCCGGCATTTTCAGCGTGACAT
CATTCTGTGGGCCGTACGCTGGTACTGCAAATACGGCATCAGTTACCGTG
AGCTGCAGGAGATGCTGGCTGAACGCGGAGTGAATGTCGATCACTCCACG
ATTTACCGCTGGGTTCAGCGTTATGCGCCTGAAATGGAAAAACGGCTGCG
CTGGTACTGGCGTAACCCTTCCGATCTTTGCCCGTGGCACATGGATGAAA
CCTACGTGAAGGTCAATGGCCGCTGGGCGTATCTGTACCGGGCCGTCGAC
AGCCGGGGCCGCACTGTCGATTTTTATCTCTCCTCCCGTCGTAACAGCAA
AGCTGCATACCGGTTTCTGGGTAAAATCCTCAACAACGTGAAGAAGTGGC
AGATCCCGCGATTCATCAACACGGATAAAGCGCCCGCCTATGGTCGCGCG
CTTGCTCTGCTCAAACGCGAAGGCCGGTGCCCGTCTGACGTTGAACACCG
ACAGATTAAGTACCGGAACAACGTGATTGAATGCGATCATGGCAAACTGA
AACGGATAATCGGCGCCACGCTGGGATTTAAATCCATGAAGACGGCTTAC
GCCACCATCAAAGGTATTGAGGTGATGCGTGCACTACGCAAAGGCCAGGC
CTCAGCATTTTATTATGGTGATCCCCTGGGCGAAATGCGCCTGGTAAGCA
GAGTTTTTGAAATGTAA
>SMR0109 tnIS26, transposase for IS26
ATGGAGCTGCACATGAACCCATTCAAAGGCCGGCATTTTCAGCGTGACAT
CATTCTGTGGGCCGTACGCTGGTACTGCAAATACGGCATCAGTTACCGTG
AGCTGCAGGAGATGCTGGCTGAACGCGGAGTGAATGTCGATCACTCCACG
ATTTACCGCTGGGTTCAGCGTTATGCGCCTGAAATGGAAAAACGGCTGCG
CTGGTACTGGCGTAACCCTTCCGATCTTTGCCCGTGGCACATGGATGAAA
CCTACGTGAAGGTCAATGGCCGCTGGGCGTATCTGTACCGGGCCGTCGAC
AGCCGGGGCCGCACTGTCGATTTTTATCTCTCCTCCCGTCGTAACAGCAA
AGCTGCATACCGGTTTCTGGGTAAAATCCTCAACAACGTGAAGAAGTGGC
AGATCCCGCGATTCATCAACACGGATAAAGCGCCCGCCTATGGTCGCGCG
CTTGCTCTGCTCAAACGCGAAGGCCGGTGCCCGTCTGACGTTGAACACCG
ACAGATTAAGTACCGGAACAACGTGATTGAATGCGATCATGGCAAACTGA
AACGGATAATCGGCGCCACGCTGGGATTTAAATCCATGAAGACGGCTTAC
GCCACCATCAAAGGTATTGAGGTGATGCGTGCACTACGCAAAGGCCAGGC
CTCAGCATTTTATTATGGTGATCCCCTGGGCGAAATGCGCCTGGTAAGCA
GAGTTTTTGAAATGTAA
>SMR0031 trhI, putative DNA helicase
ATGGGTAAGCCAACAGAAGAGCAAAGACCTGTTATCGAGAATGCTAGCGC
AAACAATATGGTGATAGCAGCGCCTGGATCAGGCAAATCGTTCACCATGA
TAGAAGCGGTTATATCGATTCTCAAAAAGTATCCATATGCAAGAATCGGG
ATGGTGACCTTTACTCGCGCTGCAACAAACGCACTTGCAGCAAAGTTACA
AAAGCGATTGAGCAAGAAGGATCTTGACCGGGTGCTGGTGGATACTTTTC
ACGGACTCGTTAAGAAGCAACTGGACATGATTCGCTGGCCGGGAAAGATG
TTGATAGGGCCAGCACAGAGATCTGTCATTCACCGGGCTTTGAAAGAATC
CGGTGTAACGATGAAGTTTGCTGAAGCTGAATTCGTTATTGATGCTATCG
GCAGAGAAATGGATACGGATGTGATTTCAGTTCGGCATAACAGACAACAG
ATCCATTTGTTTAATACCTATCAGGCGTTATGCCAGAAAGACCATGTGGC
GGACCTCAATGCTCTTTCAAAATTTGTTGTCGGTCAAATGCATTCGGGAA
AAATGCGCACGTTAGATTTGACACATTTGATAGTAGACGAAGTTCAGGAT
ACTGACTCTATACAATTCTCATGGATAGCATTGCATACAAGAGCTGGAGT
CTATACGAGTATAGTTGGAGACGATGATCAGGCCATCTACTCCTTCAGAT
CCTCAGGAGGAGTCAAAATATTTCAACAGTTTGAAAAACACTTCAGACCT
AACATATTTTACTTAAACACATGCTTTAGGTGTGAACCTGAAATTTTAGA
GGTGGCCGGAGCACTGATAGGAAAGAATGTTTACCGTTATGCCAAAGAGT
TACGCTCGGCAAAAAAGGGAGGGGGAAAGGTCACTTTTCGTTCATATGTA
GATATGGAGGAACAGATACAGGGTATTTTAAGCCTTATAAATCAGGATCC
ACATGGATGGGCAATTCTAAGCCGCAATAATGCTCACTTGGATGAGCTAG
AAAGTTTGATCGAACAGCCAGTAATTCGTTACGGAGGTAAATCATTCTGG
GATGAAAAAGAAACAAGCGATGTGTTAAGCCTTATGGCCTTTTTCCGACA
ATCAAATGATCCTCGCTTAATGAAGAGAGTATTGGCATTGTTTGGAGAAC
AGGAATCAGTTTTGGATGAAGTGGCATTGAGTATGAGAGGAAGAAAAGTT
ACTTTTGGCGACCTTGCCATCCCGGAGGACAGTTCTCTCGAAACAAAAAC
ATTACATTCAAACTTCGTGCGCTTTACCCAGGAAAGTTCTGATAAAGTTG
AGATAGCAAAACGTTTCGCCAACCTTACGAAATGGATGGAATCGTCGTCA
ATCAAGATGAGGAGTAATAAAGGTACAGCAACCTTAACAAAAATTGCTTT
AGACACTTGTAAACAGTGGGCAGAAAAGACTGGTTGGATGAATATGATAA
ATCGTGCTGCTGCAATGTCATTAGGCCCTAGGAAGAAGGACGAGGAATAC
AGCCCAGAGAAAGTAGTCCTATCAACCTTGCATGGTTCAAAGGGTCTTGA
GTGGAATAAAGTAATAATAATGAGTTGTAATGCGGATCAGATACCAAGTA
AAAGATCAGTTGGGGAGGAGGCAATAGAAGAAGAAAGACGTTTGCTTTAT
GTTGGATTTACGCGTGCAGAAAAGCAACTTTTTGTAATGTGGTATGGTGA
TCCTTCTTTCTTTTTAAGAGAATGCAGTGAAGAAAAGATAAAAGAAGCAG
CTAATATTCGAATTTCTCCACTTTATACAGAATAA