Gene list
Applied filters:
COG category: Replication, recombination and repair
Organism: Serratia marcescens
Number of genes found: 20
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