Gene list
Applied filters:
COG category: Replication, recombination and repair
Organism: Neisseria meningitidis MC58, MC58
Number of genes found: 144
Show UniProt / TrEMBL protein name | View as list | View in Fasta format (Protein) | ||||
# Neisseria meningitidis MC58, MC58 >NMB2017 ComEA-related protein ATGTCGGTGATGGCGGGACGGCATCCGTACGGTGTCCGGTCGGGTTTGCG GAGGAACGGCTTGAAACTTTGGGATATTCATTTTAGAATGACTCGTTTTA TCGTCGCAAGATGCGGTTTATTGTTTGCAACCCTTAAAGGAAAAACCATG AAGAAAATGTTCGTGCTGTTCTGTATGCTGTTCTCCTGCGCCTTCTCCCT TGCGGCGGTAAACATCAATGCGGCTTCGCAGCAGGAGTTGGAGGCGCTGC CGGGCATAGGCCCGGCGAAGGCGAAGGCCATTGCGGAATACCGTGCGCAA AACGGTGCGTTCAAGTCTGTAGACGATTTGACCAAGGTAAAGGGCATCGG CCCTGCGGTGCTGGCGAAGCTGAAGGACCAGGCTTCGGTCGGCGCGCCCG CACCAAAAGGCCCAGCCAAACCGGCTATACCGGCCGCTAAAAAATAG >NMB1510 thermonuclease family protein ATGTTCAGACGGCATCGGCATTTGAAAAATATGCAGATTAAAAAAATCAT GAAATGGCTTCCCGTCGCCCTGTCGCTTTTGGGTGCGTTGGGTTATACGG GGTACGGCAGCGAGGCGGTGCGGACGGCGGTTGCCGTACTCGACGTACTC GGCGCGGCAGGGGACGCGGGTTCCGACGCGCCCGCCCGCCGCCGAGCATC GGCGAAATCCGGCCACCGCTACACAGGCACGGTGTCCAAAGTCTATGACG GCGACACCCTTCACGTTATCGACGGCGACGGCGCGAAACACAAAATCCGG ATGGCGTATATCGACGCGCCGGAGATGAAACAGGCTTACGGCACGCGTTC GCGCGACAACCTGCGCGCGGCGGCGGAAGGCAGGAAAGTCAGCGTGCGCG TGTTCGATACCGACCGCTACCAGCGCGAAGTGGCGCAGGTTTCTGTCGGC AAAACCGATTTGAACCTGATGCAGGTGCAGGACGGGGCGGCGTGGCATTA TAAAAGTTATGCTAAAGAACAGCAGGATAAGGCGGATTTTGCCGATTATG CCGACGCTCAAATTCAGGCGGAAAGGGAACGCAAAGGATTGTGGAAAGCT AAAAATCCGCAAGCGCCGTGGGCGTACCGCCGAGCAGGCAGGAGCGGCGG GGGCAATAAGGATTGGATGGATGCCGTGGGCGAATGGTTGGGCATTTGGT AA >NMB0443 transposase, IS30 family ATGAGCTACACGCAACTGACCCAAGGCGAACGATACCACATCCAATACCT GTCCCGCCACTGCACCGTCACCGAAATCGCCAAACAGCTGAACCGCCACA AAAGCACCATCAGCCGCGAAATCAGACGGCACCGCACCCAAGGGCAGCAA TACAGCGCCGAAAAAGCCCAGCGGCAAAGCCAGACTATCAAACAGCGTAA GCGACAACCCTATAAGCTCGATTCGCAGCTGATTCAGCACATCGACCCCC TTATCCGCCGCAAACTCAGTCCCGAACAAGTATGCGCCTACCTGCGCAAA CACCACCAGATCACGCTCCACCACAGCACCATTTACCGCTACCTTCGCCA AGACAAAAGCAACGGCAGCACGTTGTGGCAACATCTCAGAATATGCAGCA AACCCTACCGCAAACGCTACGGCAGCACATGGACCAGAGGCAAAGTACCC AACCGTGTCGGCATAGAAAACCGACCCGCTATCGTCGACCAGAAATCCCG TATCGGCGATTGGGAAGCCGACACCATTGTCGGCAAAGGACAGAAAAGCG CATTATTGACCTTGGTCGAACGCGTTACCCGCTACACCATCATCTGCAAA TTGGATAGCCTCAAAGCCGAAGACACTGCCCGGGCAGCTGTTAGGGCATT AAAGGCACATAAAGACAGGGTGCACACCATTACCATGGATAACGGCAAAG AGTTCTACCAACACACCAAAATAACCAAAGCATTGAAAGCGGAGACTTAT TTTTGTCGTCCTTACCATTCTTGGGAGAAAGGGCTGAATGAGAACACCAA CGGACTCATCCGGCAATACTTCCCCAAACAAACCGATTTCCGTAACATCA GTGATCGGGAGATACGCAGGGTTCAAGATGAGTTGAACCACCGACCAAGA AAAACACTTGGCTACGAAACGCCAAGTGTTTTATTCTTGAATCTGTTCCA ACCACTAATACACTAG >NMB1368 putative ATP-dependent RNA helicase ATGTCTATTAAATTTGCCGATTTGAACCTTGATAAAAACATTTTGTCCGC CGTCAGCAGCGAGGGTTACGAAAGCCCGACGCCGATTCAGGCGCAAGCCA TTCCGTTTGCTTTGGAAGGCCGCGACATCATGGCTTCGGCGCAAACCGGC TCCGGCAAAACCGCCGCCTTTCTGTTACCGACTTTGCAAAAACTGACCAA ACGCAGCGAAAAACCGGGCAAAGGCCCGCGTGCTTTGGTGTTGACCCCGA CCCGCGAACTGGCGGCTCAAGTCGAGAAAAACGCGCTGGCGTATGCCAAA AATATGCGTTGGTTCCGCACCGTCAGCATCGTCGGCGGCGCGTCTTTCGG CTACCAAACCCGTGCCCTGAGCAAACCGGTCGATCTGATTGTCGCCACGC CGGGCCGTCTGATGGACCTGATGCAAAGCGGCAAAGTTGATTTTGAACGT TTGGAAGTGCTGATTTTGGACGAAGCCGACCGTATGTTGGATATGGGCTT TATCGACGACATCGAAACCATCGTGGAAGCAACGCCGAGCGACCGTCAGA CTTTGTTGTTCTCCGCCACTTGGGACGGCGCGGTCGGCAAACTGGCGCGC AAACTGACCAAAGACCCTGAAATCATCGAAGTCGAACGCGTGGACGATCA AGGCAAAATCGAAGAACAACTGCTGTACTGCGACGATATGCGCCACAAAA ACCGCCTGCTCGATCATATCTTGCGCGATGCCAATATCGATCAATGCGTG ATTTTCACGTCCACCAAAGCCATGACCGAAGTCATTGCGGATGAACTGTA CGAAAAAGGTTTCGCCGCAAACTGCCTGCACGGCGATATGCCGCAAGGCT GGCGCAACCGCACGCTGATGGATTTGCGTAAAGGCCGCTGCAAAATTTTG GTTGCCACCGATGTTGCCGCACGCGGTATCGACGTACCGACCATTACCCA CGTTATCAACTACGACCTGCCGAAACAGGCGGAAGACTACGTCCACCGCA TCGGGCGCACCGGCCGCGCAGGCCGCACGGGTATTGCGATTACGTTTGCC GAAGTGAACGAATACGTCAAAGTCCACAAAATCGAAAAATACATTAACCG AAAACTGCCCGAACTGACCATCGAAGGCATGGAACCGACCCGCAAACGCA AATCCGCAGGCGGCAAGCCGAAAGGCAAAGGCGGCTGGGGCGATCGTAAA TCCGGCGGTTGGCGCGGCGATCATAAACCGAGCAAAGAAGGCTTCGGCGG CAAAACGCGCGGCGAAGGTTTCAAGAAAGAAGGCTTTAAGAGAGACGGTT TCAAAAAAACCGGCGAAGGCTTCAAAGGCAAACGCAAAGCCGGCGATTCT TTTGCAGGCAAAGGCGAACGCCGTTACAAAGACCGCTAA >NMB1873 putative DNA polymerase, bacteriophage-type ATGTTAAGCGCGCGCTACCTCCACCTGCACGAAGCTTTGGGTTTGGGTCC GATGTGGCTGAAACAGGCCGCCGCCGTCCTGCCGCCCAAAAACACACCCG CACCCTCGGCACAGGCACGTCCCCAAACCGTCCGCGCCGCCCCGATCCGC CCTTCCCAACCCCATAACGGTCAGGCGCGGCTCGAAACGATGAAAGCGTT GGAAACCGCCGCCGTACCTACGCGCAAACCCGCGCCTGAAACCGAAACGC CTCTGCCCGGCCTTTCAGACGGCATCGCCCCCGTTCCCGCCGCTTCGGGC ATCACCAAGCTTGCCGTCGTCAGCCTTTGCCCACCGATCGAGGATGCGGT TTACGGGCAACTGTTCCACGGCAAAGCAGGCATCCTGCTCGACAACATAC TCAAAGCCGTAGGACTGGATGCCGCCTATGTCCACAAAACCTGTTGGGTG AAAACCGCCGCCGTCGGCAACCCGATGCCGTCTGAACAGGCCGTCGCGAA TGCGCTGGGTCAAATCGCCCGCGAACTCGACGGCTGCCGCGCCCCGGCTG TCCTTTTCCTCGGGCAGGCTTTTGTCCAGCCTGAACGGCAAACGATGATT GAAACTTTGTGCGGCAGCCGTCCCTTCTTCATCATCGACCATCCCGCCCG GCTTTTACGCCAACCCGAACTCAAAGCCCGCGCCTGGCAGGTGTTGAAAC AGTTGAAACGCGCCTTGCGGCAAGGCGGCGGCAGTTGA >NMB0455 conserved hypothetical protein ATGAATACTTTATATACACTTTTCGCCACCTGCCCGCGCGGCTTGGAGAC CGTTTTATCTCAAGAACTCGAAAGCCTCGGCTGTACCGATGTACAAGTGT TTGACGGCGGCGTTTCCTGCCGGGGCGGATTGGAACAGGTTTACGCCGCC AACCTGCATTCGCGTACTGCCAGCCGTATCCTGCTGCGCCTGACCAAAGG GACATACCGCAATGAGCGCGACATCTACAAACTCGCCAAAAATATCAACT GGTTTAATTGGTTTACTTTACAGCAGACGTTCAAAGTCAAAGTCGAGGCA AAGCGTGCCAACGTTAAGAGCATCCAATTTGTCGGACTGACCGTCAAAGA TGCCGTCTGCGACGCTTTCCGCGACATTTACGACGCACGTCCGAGCGTGG ACAAAGCCGCGCCCGATGTCCGCATCCACGCCTTTTTGAACGAACGCAAT GTCGAAATCTTTATTGACACTTCGGGCGAAGCCCTGTTCAAACGCGGCTA CCGCCTGGATACCGGCGAAGCCCCGCTGCGCGAAAACCTTGCCGCCGGAC TGCTGCTCTCGGCAGGCTACGACGGCACGCAGCCGTTTCAAGACCCGTTT TGCGGCAGCGGCACGATTGCTATCGAAGCCGCTTGGATTGCCGCCCGCCG CGCGCCGGGTATGATGCGCCGTTTCGGTTTTGAAAAACTGCAAAATTTCG ATAAAACGCTGTGGTCGGATTTGCGGCGCCGCGCCGAAGCGCAAACCCGC CCCGTCCGCGCCCCGATTGCAGGCAGCGACAACGACCGCCGCATCGTTCA GACGGCATTGGACAACGCACGCCGCGCCGGGGTGGACGACATCGTTTCCT TCAGCGTTGCCGACGCGCAGTCCGTCCGACCGAACGGCGAAAACGGCATT ATGGTGTCCAATCCGCCCTACGGCGTGCGCCTTGAGGAAGTCCGCGCCTT GCAGGCACTGTATCCGCAGTTGGGGACGTGGTTGAAAAAACATTACGCAG GCTGGTTGGCGGCAATGTTTACCGGCGATAGGGAAATGCCCAAATTCATG TGCCTGTCGCCCAAGCGGAAAATCCCGCTTTATAACGGCAACATCGACTG CCGCCTGTTCCTGATTGATATGGTGGAAGGATCGAACCGTTGA >NMB0507 hypothetical protein ATGAAGAAAGATATTTTTTATTGTGAGCAGTGGTCTTATGGTTATAAGAA ACTTCATAAGCCTTTTTCTGAGAAACAAGCTGAGGAAAAACATCTTAAAG GGGAGTTATATACTGCCGTAATAGGTTCGGCGACACAACCTGAATATGTA ATTACCTTGCGAGAGGAAGTAGGTTTTTTTTCGGTACATTTTTTCGATAA ATTTGGAAGGGATTATTTAACCCATCAATTTCAAAAATATTCCAATTCGA ATTATTATTTTCTTTCTATGGCTGTATGGAGAGATTATATAACTTTGGAA TCTCATGACTTAGCAGAAGGATATACTTATTTCTTCAATGAAAATACGGA TGATTGCTATGTTTTGAAAGAGGATTTTATTAATAATGAGCGATATGAAA AAACAGAATTATATTCCCAAAAAGATAAGGTAATTCTATTTCCAAAGTTT GGCGAATATGATTTGGTGTTAAATCCGGACATTATTTAA >NMB0583 IS1016C2 transposase ATGTTACCCTCGAAATATGAAGATAACGCACTGCAAATTAAAGAAAAAAG TACAGAAAGAACTGCTCCGTTTTTTGTACTGGAAGTTACCGCCCGTTCTG CCGCCGATATTTTGGGTATCCATCCCAATTCGGCAGCACTGTTCTACCGT AAAATCCGCACGGTTATCAACCATCATTTGGCCTTGGCTGCCGATGAGGT TTTTGAGGGCCCTGTCGAGCCGGACGAAAGCGATTTCGGCGGACGGCGTA AAGGCAGACGTGGTCGCGGTGCGGCAGGAAAAGTGGTTGTTTTCGGCATT CTGAAACGCAACGGACGGGTCTATACCGTTGTGGTGGATAATGCCAAGTC TGAAACGTTACTCCCTGTCATCAAAAAGAAAATCATGCCGGATAGTATTG TTTATACCGATAGTCTGAGCAGCTACGACAAGTTGGACGTGAGCGGTTTT ATCCATTACCGCATCAACCATTCCAAGGAGTGTGCAGACCGTCAGAACCA CATTAACGGCATTGAGAACTTTTGGAATCAGGCAAAACGCGTCTTGCGAA AATACAACGGAATCGATCGTAAATCTTTCCCGCTGTTCTTGAAAGAATGC GAATTTCGATTTAACTTCGGCACACCGTCTCAACAGCTTAAAATCCTGCG GGATTGGTGTGGAATTTAG >NMB1687 conserved hypothetical protein ATGAACTTCACCGACACCCACTGCCATCTCGCTGATCCCGCCCTGCGCGA AAACCTGCCGCACATCCTGACCGCAGCGCGGAAAGTTGGGGTGAAGCGGT TTATCGTTCCCGCGACGCGCCCGCAGGATTGGCAGGACGTGGCGGATTTG GCGGAAATGCCGTCCGAACACGGTCAAATCCGTATTGCACTGGGCATTCA TCCTTGGTTTTCAGACGGCATTGCCGAGCGGGATTTCGTCCGCCTGGAAA CGATGTTGGCACATTATCCGCAGGCATGGGTCGGCGAAATCGGCTTGGAT TTTTACGATAAAACCCAAACGTCGCAGCAGCGCGAACGGCAAATTCAAGT TTTCGTCCGCCAGCTTGAAATTGCGCAAACCCTGCGCCGCCGCGTGATTA TCCATAATCTCAAAGCCACCGCCGACATCGCCGCCGCCGTCAAACAGACA GGCTTTGCCCAAGGCGGCATCGTTCACGCCTTCTCCGGCAGCGCGGAAGA AGCGCGTGTGTTGACGAAACTGGGTTTCAAAATCGGCATCGGTTCGCTGC TGCTCAATCCGAACGCGCGTAAAGTGCGCGATACGCTTAAAGCCTTGAAC GACGGGGATTTCGTATTGGAAACGGATAGCCCGTTTATGCTGAAAAAAGA GATTAATACGCCTGCCAATATTCCGGGTATTGCAAAGATTGCTGCGGAAA TCCGCGGAACCTGTGTAGAAGAGATTGCAAAGGTAACGGAGCGCAATGCC GATGCCCTGTTGGGACGGTAG >NMB2148 transposase, IS30 family ATGAGCTACACGCAACTGACCCAGGGCGAACGATACCACATCCAATACCT GTCCCGCCACTGCACCGTCACCGAAATCGCCAAACAGCTGAACCGCCACA AAAGCACCATCAGCCGCGAAATCAGACGGCACCGCACCCAAGGGCAGCAA TACAGCGCCGAAAAAGCCCAGCGGCAAAGCCAGACTATCAAACAGCGTAA GCGACAACCCTATAAGCTCGATTCGCAGCTGATTCAGCACATCGACACCC TTATCCGCCGCAAACTCAGTCCCGAACAAGTATGCGCCTACCTGTGCAAA CACCACCAGATCACGCTCCACCACAGCACCATTTACCGCTACCTTCGCCA AGACAAAAGCAACGGCAGCACGTTGTGGCAACATCTCAGAATATGCAGCA AACCCTACCGCAAACGCTACGGCAGCACATGGACCAGAGGCAAAGTACCC AACCGTGTCGGCATAGAAAACCGACCCGCTATCGTCGACCAGAAATCCCG TATCGGCGATTGGGAAGCCGACACCATTGTCGGCAAAGGACAGAAAAGCG CATTATTGACCTTGGTCGAACGCGTTACCCGCTACACCATCATCTGCAAA TTGGATAGCCTCAAAGCCGAAGACACTGCCCGGGCAGCTGTTAGGGCATT AAAGGCACATAAAGACAGGGTGCACACCATCACCATGGATAACGGCAAAG AGTTCTACCAACACACCAAAATAACCAAAGCATTGAAAGCGGAGACTTAT TTTTGTCGCCCTTACCATTCTTGGGAGAAAGGGCTGAATGAGAACACCAA CGGACTCATCCGGCAATACTTCCCCAAACAAACCGATTTCCGTAACATCA GTGATCGGGAGATACGCAGGGTTCAAGATGAGTTGAACCACCGACCAAGA AAAACACTTGGCTACGAAACGCCAAGTGTTTTATTCTTGAATCTGTTCCA ACCACTAATACACTAG >NMB1539 IS1106 transposase ATGAGCACCTTCTTTCAGCAAACCGCACAAGCCATGATTGCCAAACACAT CGACCGTTTCCCACTATTGAAGTTGGATCAGGTAATTGATTGGCAACCGA TCGAACAGTACCTGAACCGTCAAAGAACCCGTTACCTTCGAGACCACCGC GGCCGTCCCGCCTATCCCCTGCTGTCCATGTTCAAAGCCGTCCTGCTCGG ACAATGGCACAGCCTCTCCGATCCCGAACTCGAACACAGCCTCATCACCC GCATCGATTTCAACCTGTTTTGCCGTTTTGACGAACTGAGCATCCCCGAT TACAGCACCTTATGCCGCTACCGCAACTGGCTGGCGCAAGACGACACCCT GTCCGAACTGTTGGAACTGATTAACTGCCAACTGACCGAAAAAGGCTTAA AAGTAGAGAAAGCATCCGCCGCCGTCGTTGATGCCACCATTATTCAGACC GCTGGCAGCAAACAGCGTCAGGCCATAGAAGTCGATGAAGAAGGACAAGT CAGCGGCCAAACCACACCGAGTAAGGACAGCGATGCCCGTTGGATCAAGA AAAACGGCCTCTACAAACTCGGTTACAAACAACATACCCGTACCGATGCG GAAGGCTATATCGAGAAACTGCACATTACCCCCGCCAATGCCCATGAGTG CAAACACCTGTCGCCGTTGTTGGAAGGGTTACCCGAAGGTACGACCGTCT ATGCCGACAAAGGCTATGACAGTGCGGAAAACCGGCAACATCTGGAAGAA CATCAGTTGCAGGACGGCATTATGCGCAAAGCCTGCCGCAACCGCCCGCT GTCGGAAGTGCAAACCAAGCGTAACCGATATTTATCGAAGACCCGTTATG TGGTCGAACAAAGCTTCGGTACGCTGCACCGTAAATTCCGCTACGCCCGG GCAGCCTATTTCGGACTGATTAAAGTGAGTGTGCAAAGCCATCTGAAGGC GATGTGTTTGAACCTGTTGAAAGCCGCCAACAGGCTAAGTGCGCCTGTTG CCGCCTAA >NMB0698 hypothetical protein ATGCTGTTTGAAGGCTTGCCGTGTTTGGCGGTTTGGTGCAAAAACCGGCT GTCTGCCGTTTTGCCTGTTGGAGGATTGAACGTGTCTGAAAATCTGCTTG AAATCGAAACCCATCCCTTCGATCCCGTGTTGCCGCCGAAGGCTGCTGTC ATGATGATGGGGACGTTTCCGCCCAAGGAAGACAAACGCGCGATGCAGTT TCATTATCCGAATTTCCAAAACGATATGTGGCGCGTTTATGGGCTGGTGT TTTTTAATGATGCGGCGCATTTCCAAAGGTTGTCTGAAAAAGCGTTTGAT GCCGAGAAAATCAAGGCGTTTTTGCACGAACGGGGGATTGCGTCCTGTCC GACCGTTTTGAAGGCGGTACGTCAGCACGGCAATGCGTCCGACAAGTTTT TAAAGGTAGTTGAAACCGTCGATTTGGCGGCGGTGTTGGCAAAAATACCC GAGTGCCGCCATATTTGTACGACAGGCGGCAAGGCGACGGAAATCCTGCT CGATATTCAGGGCGGCGGTATCAAAATGCCGAAAACGGGCGAAACCGTGC CGTTTCCGTTTGCCGGACGGGATTTGACGCTGACGCGCCTGCCTTCGACT TCGCGCGCCTATCCTTTGAGTTTGGCGAAAAAAGCGGCGGCGTATCGGGC GTTTTTTGAAATGGCGGGCTTGTGTGAAAAACAGTTATAA >NMB1259 transposase, IS30 family ATGAGCTACACGCAACTGACCCAGGGCGAACGATACCACATCCAATACCT GTCCCGCCACTGCACCGTCACCGAAATCGCCAAACAGCTGAACCGCCACA AAAGCACCATCAGCCGCGAAATCAGACGGCACCGCACCCAAGGGCAGCAA TACAGCGCCGAAAAAGCCCAGCGGCAAAGCCGGACTATCAAACAGCGTAA GCGACAACCCTATAAGCTCGATTCGCAGCTGATTCAGCACATCGACCCCT TTATCCGCCGCAAACTCAGTCCCGAACAAGTATGCGCCTACCTGTGCAAA CACCACCAGATCACGCTCCACCACAGCACCATTTACCGCTACCTTCGCCA AGACAAAAGCAACGGCAGCACGTTGTGGCAACATCTCAGAATATGCAGCA AACCCTACCGCAAACGCTACGGCAGCACATGGACCAGAGGCAAAGTACCC AACCGTGTCGGCATAGAAAACCGACCCGCTATCGTCGACCAGAAATCCCG TATCGGCGATTGGGAAGCCGACACCATTGTCGGCAAAGGACAGAAAAGCG CATTATTGACCTTGGTCGAACGCGTTACCCGCTACACCATCATCTGCAAA TTGGATAGCCTCAAAGCCGAAGACACTGCCCGGGCAGCTGTTAGGGCATT AAAGGCACATAAAGACAGGGTGCACACCATTACCATGGATAACGGCAAAG AGTTCTACCAACACACCAAAATAACCAAAGCATTGAAAGCGGAGACTTAT TTTTGTCGCCCTTACCATTCTTGGGAGAAAGGGCTGAATGAGAACACCAA CGGACTCATCCGGCAATACTTCCCCAAACAAACCGATTTCCGTAACATCA GTGATCGGGAGATACGCAGGGTTCAAGATGAGTTGAACCACCGACCAAGA AAAACACTTGGCTACGAAACGCCAAGTGTTTTATTCTTGAATCTGTTCCA ACCACTAATACACTAG >NMB1602 putative transposase TTGTTAATTCACTATATCGACATCGCCAAACGAAACTTCGTCATCGCCGT TTCGTCTTTGTCTAAAACCAAAACCGAAACCAACAACCCCAAAGGTATCG CCCATACTATCGAATACCTTAAAAAACACAAGGTCGCCCTCGTCGTGACG GAAAGTACCGGAGGTCTCGAAATCCCCGCCGCCAAAGCCATCCACCGAGC AGGCATAGCCGTGATTATCGCCAACCCGCGTCAGACGCATCAGTTTGCCC AATCGCAGTCGCTGACCAAAACCGACGCCAAAGATGCCAAAATGCCTGCC TTCTTCGCACAGATGAAGGCACAGAAAGAAGATTGGCAAACCATGCCCTA CCACCCGCCCACAGAAGCGGAAGAAGTGTTGGAAGCCTTGGTTAACCGCC GCAACCAATCGGCGGATATGCGGACTGCCGAGAAAAACCGTCTGCATCAG GTTCACGAAACGCAAGTCGGAAGCGTCAAACAACTGATTGCCCATTTTGA CCGGCTGATTGACGAATCGGACAAACAAATCGACGACCACACCCACACGC ATTTTGACGGCAAAGCCCAAGTGGCGGAGCAAATCAAAGGCATCGGTTCG ATAACGACGGCTACGCTGATGGCGATGCTACCTGAATTGGGGCGGCTGTC GCACAAACGGATAGCGAGTTTGGTCGGCATTGCCCCGCACCCGAGGAAGA GCGGGGAAGCCAAATTCAAAAGCCGCTGCTTTGGCGGAAGGTCTGCGGTG CTTAAGGCACTGTATATGGCTACCGTGGCAGCGACACGTTTTGAACCGCT TATTCGGGATTTCCACCAACGCCCGCTGTCCGAGGGTAAGCCGTATAAGG TTGCCGTTACGGCATGTATGCGCAAACTGCTGGAGACCTTTGCAAAATTC CTTTCCCTCACGACAACCGAAATCCCAACACAGGTTTTCGGCTGTTTTCG CCCCAAATACCGCCTAATTTTACCCAAACACCCCCTTAATCCTCCCCGGA CACCCGATAATCAGGCATCCGGGCTGCCTTTTAGGCGGCAGCGGGCGCAC TTAGCCTGTTGGCGGCTTTCAACAGGTTCAAACACATCGCCTTCAGATGG CTTTGCGCACTCACTTTAA >NMB1033 modification methylase NlaIV ATGCAACAAATTAAATTTATTGACTTATTTTCCGGGATGAGCGGTATCAG GAAAGGATTTGAACAAGCCTGTCGGAAACAGTCGGTTGCTTGCGAATGTG TTTTTACCTCAGAAATCAAACCGGCAGCTTTGGAAGTATTGAAGCAAAAC TACCCTGATGAAGTGCCGTATGGAGATATAACGAAAATTGAAACGGGAGA TATTCCCGATTTTGACATCTTGTTGGCAGGCTTCCCTTGCCAGGCTTTTT CTTTCGCCGGAAAAAGATTGGGCTTTGAAGATACGCGGGGAACGCTTTTC TTTGATGTGGCAAGGATTTTAAAGGCAAAAAAACCAAAAGGTTTTATTTT GGAAAATGTGGAAGGATTGGTGACGCACGATAGAAAAGATCCGACACAAA AAATAGGACGCACCCTGACCGTTATTTTGGAAACCTTGGAAACATTGGGC TACTATGTTTCTTGGAAAGTTTTAAATGCAAAAGATTTCGGCATTCCCCA AAACAGGAAGCGTATTTATCTGACAGGCAGTTTGAAATCCAAACCCGACT TATCTTTTGAAACAACCCTAAGTCCGAAATTAAAAAATATTTTGGAATCG GGACTGCCTACCGAAAGCAGTCCTTTCATCAAAAAATTGCTAAAGAAATT TCCCCCGTCCGAACTGTACGGAAAATCAGTAAAGGACAAACGGGGAGGGA AAAACAATATCCACAGTTGGGATATTGAATTAAAAGGCACAGTAACCGAA GAAGAGAAGCAATTATTAAATATGCTTCTAAAAGAACGGAGGAAGAAAAA ATGGGCTTCAGAAATCGGCATCGATTGGATGGATGGGATGCCTTTGACAA AAGCGCAAATTTCAACTTTCTATAAACACCCCAATCTTCAAAATATTTTG GACAGCCTGACAGATAAAGGCTATTTGGTTTTGGAGCATCCGAAACAAAA AATTGGCGGGCGAAGAATCAAAGATGAATCCCTGCCCAAAGGCTACAATA TTGTTTCAGGAAAAAAATCATTTGAAATCAATAAAATATTAGACCCAAAT GATGTTGCGCCAACCTTAGTTGCAATGGATATGGAGCACCTTTTCGTCGT TGACAACGGCGGTTTGCGCACACTTACCGGAAAAGAAGGTTTACGCTTAT TCGGCTATCCGGACGATTATTCGTTTGATATTCCTAAAAAAGACAAATAC GATTTATTGGGCAATACCGTTGCCGTTCCTGTGATTAAGGCGGTATCTGA AAGGCTTCTGCATACTTTATAA >NMB1770 transposase, IS30 family ATGAGCTACACGCAACTGACCCAAGGCGAACGATACCACATCCAATACCT GTCCCGCCACTGCACCGTCACCGAAATCGCCAAACAGCTGAACCGCCACA AAAGCACCATCAGCCGCGAAATCAGACGGCACCGCACCCAAGGGCAGCAA TACAGCGCCGAAAAAGCCCAGCGGCAAAGCCGGACTATCAAACAGCGTAA GCGACAACCCTATAAGCTCGATTCGCAGCTGATTCAGCACATCGACACCC TTATCCGCCGCAAACTCAGTCCCGAACAAGTATGCGCCTACCTGTGCAAA CACCACCGGATCACGCTCCACCACAGCACCATTTACCGCTACCTTCGCCA AGACAAAAGCAACGGCAGCACGTTGTGGCAACATCTCAGAATATGCAGCA AACCCTACCGCAAACGCTACGGCAGCACATGGACCAGAGGCAAAGTACCC AACCGTGTCGGCATAGAAAACCGACCCGCTATCGTCGACCAGAAATCCCG TATCGGCGATTGGGAAGCCGACACCATTGTCGGCAAAGGACAGAAAAGCG CATTATTGACCTTGGTCGAACGCGTTACCCGCTACACCATCATCTGCAAA TTGGATAGCCTCAAAGCCGAAGACACTGCCCGGGCAGCTGTTAGGGCATT AAAGGCACATAAAGACAGGGTGCACACCATTACCATGGATAACGGCAAAG AGTTCTACCAACACACCAAAATAACCAAAGCATTGAAAGCGGAGACTTAT TTTTGTCGCCCTTACCATTCTTGGGAGAAAGGGCTGAATGAGAACACCAA CGGACTCATCCGGCAATACTTCCCCAAACAAACCGATTTCCGTAACATCA GTGATCGGGAGATACGCAGGGTTCAAGATGAGTTGAACCACCGACCAAGA AAAACACTTGGCTACGAAACGCCAAGTGTTTTATTCTTGAATCTGTTCCA ACCACTAATACACTAG >NMB0771 conserved hypothetical protein ATGCATATCATCGATTCGCACTGCCACCTCAATTTTGAAGGTTTGAAAGA ACGCCTGCCCGAAGTTTTGTCCAACATGGAAGCAAACGGCGTGGGGCAGG CACTCGCCATCAGCGTCAGTAGGGAAAGCTTCTCCGAAGTCTTTGCCATC GCCGAAGCGCACGAACACATCTATTGCACCATAGGCGTACATCCCGACAG CAAGGAAGCCGAAGAATTTTCCATTGCGGAAATGGTCGAAGCCGCCGCCC ATCCGAAAGTGGTCGGCATCGGCGAGACGGGTTTGGATTATTACTGGTGC AAAGGCGATTTGTCCTGGCAACACAAACGCTTTGCAGACCACATCGAAGC AGCCAATCAAACCGGACTGCCCGTTATCGTCCATACGCGTGATGCGGCGG CGGACACCTTGTCTATCCTGAAAGAATGCCGGGTTAATTCGGGCGTTATC CACTGTTTTTCCGAAGACATCGGTTTTGCCCGTGCAGCAATGGATTTGGG GCTTTATATTTCTTTCTCGGGAATCGTTACCTTTAAAAACGCACCCTTGG TTCAGGAGGCGGCGAAATATGTGCCGGACGACCGCATTTTGGTGGAAACC GATGCGCCGTTCCTCGCCCCCGTTCCCAAACGCGGCAGGCAGAACGAACC GGCTTTTGTGCGCCATACCGCCGAACATATCGCCAAATTGCGGAACCAAA CATTGGAACAGGTTGCGGCATATACGACGGAAAACTTTTACCGGCTGTTT AAAAAAGTACCCGATATGCGGACCGTCTGA >NMB1081 bacteriophage transposase ATGAAAATATCTGCATCTGATATTGCGAAATTAGGAATTCCGAGCCTACC AACTGATAGACAAGGGATTGAATACCATGCCAAGAAAAATAATTGGCAAC ACTGTTTTGAGCAAAAAGGAAGAGGCCGTCCTAAAAAACTGTATGAAATC GCTTCCCTCCCTGCCGAAATCCGAGCAGCCATCATGAAACGGCAGTCGGA CGAGCTGGCGGAGAAGATGCCGAAAATGCTGCCCAAAGTCAGACCGGGGA CGGCGATGTCGGCTCAAGCACTGGCTGAAGCGGCCAAGCTGTTGAACGAG AAACAACGGTCGGTGGCGGATGCGCGATGTGCGGTGGTAGCGGCGGTATT GGGGATTAAATACGAATACGATTGCTCTGCCAAGGCTGCGGTGGCTCAGT TTTTGGGCTTGCTGGCAGAAGGTAAATTGGACGCGGTCACGCTTGGGAAC TTGGAAAAGGCCAATGACCGCAGCCGGACGGCGAAGGTCGGCGAACGTAC TTTAGACGGCTGGATTTCTGCTTATTTGAAAGCGGAAAACGCGACGGAGC GGTTGGTTGCTTTGGCTCCGAAGACGACGAAGGCGGTCAAGCCGATTGAA AGTTACGGATGGTTGCCGATGTTTATGCAGTTTCACAATATTCCGTCCGC GCCAAAGCTGGCGCACAGCTACCGCTGGTTTGTGCAGTGGGCGGAAGCGG AAAATATGCCGGTCAATGATGTGCCTAACTTGAGTATGGTGCGGCGCGTT TGGGAAAAGCTCCCGTTGATTATGCAGGAGCGCGGCAGGAAAACGGGGGC GGCTTATAAATCGCTGCTGCCTTATGTGAAACGTGATTGGGGGGCTTTGA AGCCGAACGATGTTTGGATCGGCGACGGCCATAGCTTTAAGGCAAAGGTG GCGCATCCGGTACATGGCAGACCATTTAAGCCGGAAGTGACGGTGATTAT TGATGGTTGTACGCGGTTTGTGGTCGGGTTTTCGGTCTCTCTTGCTGAAA GTTGTGTGGCGGTATCGGACGCTATGCGTATCGGGGTCAAGCATTTTGGT TTGCCGATTATCTATTACTCGGATAACGGCGGCGGCCAAACCGGCAAGAC GATAGACCATGAAATCACGGGTATTACGTCCCGACCGGGTATCCGCCATG AAACGGGTATCGCGGGCAACCCGCAAGGGCGCGGCATCATTGAGCGATGG TGGAAAGACAATCTGATTGAGATGGCGCGCCAGTATGAGACGTTTGCGGG TGCAGGGATGGACAGCAGCACGAAGAACCTGATGTACCGCAAGATGGAAA GTGCGTTTAACGCTTTGGAAAAAGGCAAGGATTTGACGGAGGAACAACAG AAATATTTGAAAAAACTGCCGAGCTGGTCGCGTTTTATAGCGGATGTGGT CAAGTGTATCGACGAATACAACAACCGCCCGCACGGCGAGCTGCCCCGAC ATCCTGACGGCGGGCATTATACGCCTAAGGCTTATCGGGAAATGAGGCTG GAACAGGACGGTATCGCGCCGGATATGTTGTCGGCGCAAGAGCTGGCGAC GATGTTTATGCCGCAAGAGGTGCGAAAGGTACAGCGCGGTTGGCTGGATT TGTTTAACAACTCTTATTTCTCAACCGAGCTGGCGGAGTATCACAAAGAC GAGGTACGGGTCAGCTACGATTTGAGCGATGCGTCGGCGGTCAATGTGTT TGATATGGACGGCAAGTTTATTACTAAGGCGCAGGCCAACGGCAATACCC GCGAGGCTTTCCCGACGGCTCGTATCGACCAACTGGCGGAAAAACGTCGA AAAGGCAAAATAAAGCGGGCGGAAAATGCAATCAAGCTCGCAAACGCGGA AGTCAATCCTGCTCTGGAACAGGCTGCGGTTTGGGACGAGCTGGGACATT TGGGCGGAAACGACATCGAGGCGGAGTATGCGGTATTGCCGAAAACGGGC ACAGACGATTTTGTGTTGTTTGAGGCGGATAGATAA >NMB1543 conserved hypothetical protein ATGAGTGAAGTTGAATATTTCTCACACTTTATATCGGACGGAAAAGGGAA GCTTTTAGAAATTCCGCAGCGAAGAGGTAAGCAAGACGGGGTTTTTGTTG ATTGGATTTCATTCACATTCCATGAAGATACTTTACTGAAAGTTTCCGGT TGCCCTTTATTTTCTGATGCTGAATACATGTATGTATTAAGCAGAAAGCT GGAAGAAATTCTAGGTTTTGGCATAACGCGCAAATGCAAATCAAGGGGCA ACAAATTCTATGAATCCATGTATAGGTTAGGTTCGGATGATGTTGATTAT GGAGAGGTGCATTTCGGAGGTCAGCGCAATACTGTTTTAGTTGAGTTGAA AGGTACTGGTTGCAGCGTTGCAAGTCCGGGTTGGGAGTTGAGGCTAAAGC AGTTTCTCGATGATTCGATAAGGACAAGAATAACGCGAATTGACCTAGCA CTTGATTTTTTTGATGGAGAGTACACGCCGGATCAGGCGTTGTTAGATCA CGATAATGGTTTTTTTGATAACAGCAATCAAAGGCCGAAATCTGAAACGA TCGGTACGGCTTGGCGGAATGAGGACGGGAGCGGCAAGACATTTTATGTA GGTCGCAAGAAAAATTCTCGTTTTGTTCGTGTTTATGAGAAAGGCAGGCA GCTTGGAGATAAAGAAAGCAAATGGGTAAGGTTCGAGATCCAGTTTAATT ATGGAGATATAGAAATACCCTTGGATATTTTAATAAATCAGGGTTCGTAT TTCTGTGGAGCTTTTCCAATTTGTAGAAAATTTAAAAATATGCCGGTTCC CGAAAGGTTTGATCAGAGAAAGAAAAAGCTTAATTTAACTTTCGAGCATA AATTGCATTACGCGAAAAACGCGGTTGGAAAACTGGTCAATTTCATGATT GAAATGGGTTTTGATAATAGCGAAATTGTGGAATCTTTAAAGGCAGATTC GGGATTTCCCAAAGGATTAGAACCTGAAAAATATGCTCTGGAAATGTTAA GGGACGGTTTGAAACACGGTTTTATTCATGAACAGCCGGATATTGATTTG GAAATTGAACTTGATGAATTGGGGGTTATTGCTTTTAAAAATTCTGACAA ATTCGATAGGGAAAAAAGGCTTTTTAGTCCTGATTATGATGTCGAGAAAG AAAGGAAATATCAGGAATATTTAAGTAAAGTTTATCATCAAAATGTAGAT TATGATTATTTTTAA >NMB0225 transposase, IS30 family ATGAGCTACACGCAACTGACCCAAGGCGAACGATACCACATCCAATACCT GTCCCGCCACTGCACCGTCACCGAAATCGCCAAACAGCTGAACCGCCACA AAAGCACCATCAGCCGCGAAATCAGACGGCACCGCACCCAAGGGCAGCAA TACAGCGCCGAAAAAGCCCAGCGGCAAAGCCAGACTATCAAACAGCGTAA GCGACAACCCTATAAGCTCGATTCGCAGCTGATTCAGCACATCGACACCC TTATCCGCCGCAAACTCAGTCCCGAACAAGTATGCGCCTACCTGTGCAAA CACCACCAGATCACGCTCCACCACAGCACCATTTACCGCTACCTTCGCCA AGACAAAAGCAACGGCAGCACGTTGTGGCAACATCTCAGAATATGCAGCA AACCCTACCGCAAACGCTACGGCAGCACATGGACCAGAGGCAAAGTACCC AACCGTGTCGGCATAGAAAACCGACCCGCTATCGTCGACCAGAAATCCCG TATCGGCGATTGGGAAGCCGACACCATTGTCGGCAAAGGACAGAAAAGCG CATTATTGACCTTGGTCGAACGCGTTACCCGCTACACCATCATCTGCAAA TTGGATAGCCTCAAAGCCGAAGACACTGCCCGGGCAGCTGTTAGGGCATT AAAGGCACATAAAGACAGGGTGCACACCATTACCATGGATAACGGCAAAG AGTTCTACCAACACACCAAAATAACCAAAGCATTGAAAGCGGAGACTTAT TTTTGTCGCCCTTACCATTCTTGGGAGAAAGGGCTGAATGAGAACACCAA CGGACTCATCCGGCAATACTTCCCCAAACAAACCGATTTCCGTAACATCA GTGATCGGGAGATACGCAGGGTTCAAGATGAGTTGAACCACCGACCAAGA AAAACACTTGGCTACGAAACGCCAAGTGTTTTATTCTTGAATCTGTTCCA ACCACTAATACACTAG >NMB1634 conserved hypothetical protein ATGAGTGAAGCAGAATATTTTTCCCATTTCATATCTAACGGCAATGGGAA GTTATTAGAAATTCCGCAACGTAGGGGCAGGCAGGACGGCGTTTTTATAG ATTGGTTGTCATTCACACTGCACGAAGATTCCTTGCTGAAAGTTTCCGGA TGCCCCTTAGTTTCCGATGCCGAATATATGTTTGTTTTAAGCAAAAAATT GGAGGAAATATTAGGGTTTGGCATCACGAGCAGATGCAAATCGAAGGGCA ATAAATTTTACGATTCGATGTTTAGGTTGGGATCGGAAGAAGTTGACTAC GGCGAAGTCCATTACGGAGGTCAGCGAAATACGGTTTTAATCGAATTGAA AGGTGTAGGTTGCAACATTGCAAATCCAGGTTGGGAATTGAGGCTTAAGC AGTTTTTGGAAGATTCATTGAGGCCGAGGATAACGCGGGTAGATTTGGCA CTTGATTTTTTTGATGGGGAGTACACGCCGGAACAGGCACTTTTGGATCA CGATAACGGTTTTTTCGATAACAGTAACATGAGGCCGAAATCTGAAATGG TTGGAACGGCTTGGCGGAGAGAGGACGGGAGCGGCAAGACATTTTATGTA GGTCGCAAGAAAAATTCTCGTTTTGTGCGTGTTTATGAGAAAGGCAGGCA GCTAGGCGATAAAGAAAGCAAGTGGGTAAGGTTCGAAATTCAGTTTAATC ATGGAGATATGGAAATACCTTTGGATATTCTGATAAATCAAGGTTCTTAC TTTTCAGGCGCTTTCCCGATTTGTCAGAAATTTAAAAATATGCCGAATCC GGAAAGGTTCGATTACCGTAAAAAAGTGGCTAATTTAACTTTTCAGCATA AATTGAGATACGCAAAAAACGCGGTCGGCAAACTGATTAATTTCATGTTT GATATGGGTTTTGATAGTGATGAAATTGTCAGATATCTGAAGGCAGATTT GGGGTATCCCAAAGGGCTAGAACCTGAAAAATATTCGTTGGCCGGATTGA AGGAATCTTTGAAATTCGGCTTTATCCACGAACAACCGGATGTAGATTTA GAGGTTGAATTGGAAGAACTCGGAATTATCAAATTTAAGCAATCAGATAA ATTCGATCCGGATAAAAGGCTTTTCGATCCACATCACGATGTGGAAAGTG AGAGGCAATATCAGCTTTATCTCGACAGAATGTATGATCTTCATGCAAAT CAAAATTAA >NMB2041 thiamin pyrophosphokinase-related protein ATGCCGACCGTCCGTTTTACCGAATCCGTCAGCAAACAAGACCTTGATGC TCTGTTCGAGTGGGCAAAAGCAAGTTACGGTGCAGAAAGTTGCTGGAAAA CGCTGTATCTGAACGGTCTGCCTTTGGGCAACCTGTCGCCGGAATGGGTG GAACGCGTCAAAAAAGACTGGGAGGCAGGCTGCTCGGAGTCTTCAGACGG CATTTTTCTGAATGCGGACGGCTGGCCTGATATGGGCGGACGCTTACAGC ACCTCGCCCTCGGTTGGCACTGTGCGGGGCTGTTGGACGGCTGGCGCAAC GAGTGTTTCGACCTGACCGACGGCGGCGGCAACCCCTTGTTCACGCTCGA ACGCGCCGCTTTCCGTCCTTTCGGACTGCTCAGCCGCGCCGTCCATCTCA ACGGTCTGACCGAATCGGACGGCCGATGGCATTTCTGGATAGGCAGGCGC AGTCCGCACAAAGCAGTCGATCCCAACAAACTCGACAATACTGCCGCCGG CGGTGTTTCCGGCGGCGAAATGCCGTCTGAAGCCGTGTGTCGCGAAAGCA GCGAAGAAGCCGGTTTGGATAAAACGCTGCTTCCGCTCATCCGCCCGGTA TCGCAGCTGCACAGCCTGCGCTCCGTCAGCCGGGGTGTACACAATGAAAT CCTGTATGTATTCGATGCCGTCCTGCCCGAAACCTTCCTGCCTGAAAATC AGGATGGCGAAGTGGCGGGTTTTGAGAAAATGGACATCGGCGGTCTGTTG GATGCCATGTTGTCGGGAAACATGATGCACGACGCGCAACTGGTTACGCT GGACGCGTTTTGCCGTTACGGTCTGATTGATGCCGCCCATCCGCTGTCCG AGTGGCTGGACGGCATACGTTTATAG >NMB2007 ATP-dependent RNA helicase HrpA, truncation ATGTTTCCCGATTTCTCCCAAACCCTCTCCAAAGACCGCCACTTCCTGCG TTCCGCCTTCAAAAATCCCAACAAATACGGCGGTTTGTCCAAAATCGAAG AAAAATACCGAAAATCGCACGAAATCTTTTTGAAGCGTTTGGCAGCCTTG CCAAAACCCGAATTCGACAACACCCTGCCCGTTCACGAGAAGCTCGAAGA AATCAAAAAAGCCATTGCCAAGAATCAGGTAACGATTATTTGCGGCGAAA CCGGTTCGGGCAAAACCACGCAGTTGCCCAAGATTTGCTTGGAACTCGGG CGTGGGGCGGCAGGATTGATCGGGCATACCCAGCCGCGCCGTTTGGCCGC GCGCTCCGTAGCAGAGCGGATTGCCGAAGAGCTGAAATCCGAAATCGGCA GCGCGGTCGGCTATAAAGTACGCTTCACCGACCACACCTCGCGCGATGCC TGCGTCAAGCTGATGACCGACGGCATCCTGCTGGCGGAAACGCAGACCGA CCGTTATCTCGCCGCCTACGACACGATTATCATCGACGAAGCGCACGAGC GCAGCCTGAACATCGACTTCCTTTTGGGCTATTTGAAACAACTCCTGCCG CGCCGCCCCGATTTGAAAGTCATCATCACCTCGGCAACGATAGACGCAGA ACGCTTCTCCCGACACTTCAACGGCGCGCCCGTTTTAGAAGTGAGCGGAC GGACGTATCCCGTCGAAATCCTCTACCGACCGCTGACCGGCAAAGACGAA GACGACGCAGAAGTGGAGTTGACCGACGCGATTGTCGATGCGGCGGACGA ATTAGCGCGACACGGCGAAGGCGATATTTTGGTATTCCTGCCGGGCGAGC GCGAAATCCGCGAAACTGCCGAAGCCCTGCGCAAATCCACGCTGCGCCGC AACGACGAAATCCTGCCCCTGTTCGCACGCCTGTCGCACGCCGAGCAGCA CAAAATCTTCCACCCCTCAGGCGCGAAACGCCGCATCGTATTGGCAACCA ACGTCGCCGAAACCTCGCTTACCGTGCCGGGCATCAAATACGTCATCGAC ACCGGCCTCGCGCGTGTTAAACGCTATTCCGCACGGGCGAAAGTGGAGCA GCTTCATATCGAAAAAATCTCCCAAGCCGCCGCCCGCCAACGATCCGGCC GCTGCGGACGCGTCTCCGCAGGCGTGTGTATCCGACTGTTTTCAGAAGAA GATTTTAACAGCCGCCCCGAATTTACCGACCCCGAAATCGTCCGCAGCAA CCTCGCCGCCGTCATCCTGCGCATGGCAGCATTGAAACTCGGCGATGTGG CGGCATTCCCGTTTTTAGAAATGCCCGATTCACGGTATATCAATGACGGT TTTCAGGTGTTGTTGGAGTTGGGGGCGGTGGAGGCCGTCTGA >NMB0047 conserved hypothetical protein ATGCAGCCTGCGGTTTATATTTTAGCAAGCCAACGTAATGGCACGTTATA CATTGGCGTTACATCTGATTTGGTGCAACGTATTTACCAACATAGGGAGC ATTTGATTGAGGGATTTACATCACGGTACAACGTTACTATGCTGGTTTGG TATGAACTGCATCCTACGATGGAGAGTGCAATTACTCGGGAAAAACAGTT GAAGAAATGGAACAGGGCTTGGAAATTGCAACTGATTGAAGAAAATAATG TTTCTTGGCAGGATTTATGGTTTGATATTATTTAG >NMB1050 transposase, IS30 family ATGAGCTACACGCAACTGACCCAAGGCGAACGATACCACATCCAATACCT GTCCCGCCACTGCACCGTTACCGAAATCGCCAAACAGCTGAACCGCCACA AAAGCACCATCAGCCGCGAAATCAGACGGCACCGCACCCAAGGGCAGCAA TACAGCGCCGAAAAAGCCCAGCGGCAAAGCCAGACTATCAAACAGCGTAA GCGACAACCCTATAAGCTCGATTCGCAGCTGATTCAGCACATCGACACCC TTATCCGCCGCAAACTCAGTCCCGAACAAGTATGCGCCTACCTGTGCAAA CACCACCAGATCACGCTCCACCACAGCACCATTTACCGCTACCTTCGCCA AGACAAAAGCAACGGCAGCACGTTGTGGCAACATCTCAGAATATGCAGCA AACCCTACCGCAAACGCTACGGCAGCACATGGACCAGAGGCAAAGTACCC AACCGTGTCGGCATAGAAAACCGACCCGCTATCGTCGACCAGAAATCCCG TATCGGCGATTGGGAAGCCGACACCATTGTCGGCAAAGGACAGAAAAGCG CATTATTGACCTTGGTCGAACGCGTTACCCGCTACACCATCATCTGCAAA TTGGATAGCCTCAAAGCCGAAGACACTGCCCGGGCAGCTGTTAGGGCATT AAAGGCACATAAAGACAGGGTGCACACCATTACCATGGATAACGGCAAAG AGTTCTACCAACACACCAAAATAACCAAAGCATTGAAAGCGGAGACTTAT TTTTGTCGCCCTTACCATTCTTGGGAGAAAGGGCTGAATGAGAACACCAA CGGACTCATCCGGCAATACTTCCCCAAACAAACCGATTTCCGTAACATCA GTGATCGGGAGATACGCAGGGTTCAAGATGAGTTGAACCACCGACCAAGA AAAACACTTGGCTACGAAACGCCAAGTGTTTTATTCTTGAATCTGTTCCA ACCACTAATACACTAG >NMB1251 transposase, IS30 family ATGAGCTACACGCAACTGACCCAGGGCGAACGATACCACATCCAATACCT GTCCCGCCACTGCACCGTCACCGAAATCGCCAAACAGCTGAACCGCCACA AAAGCACCATCAGCCGCGAAATCAGACGGCACCGCACCCAAGGGCAGCAA TACAGCGCCGAAAAAGCCCAGCGGCAAAGCCGGACTATCAAACAGCGTAA GCGACAACCCTATAAGCTCGATTCGCAGCTGATTCAGCACATCGACCCCT TTATCCGCCGCAAACTCAGTCCCGAACAAGTATGCGCCTACCTGTGCAAA CACCACCAGATCACGCTCCACCACAGCACCATTTACCGCTACCTTCGCCA AGACAAAAGCAACGGCAGCACGTTGTGGCAACATCTCAGAATATGCAGCA AACCCTACCGCAAACGCTACGGCAGCACATGGACCAGAGGCAAAGTACCC AACCGTGTCGGCATAGAAAACCGACCCGCTATCGTCGACCAGAAATCCCG TATCGGCGATTGGGAAGCCGACACCATTGTCGGCAAAGGACAGAAAAGCG CATTATTGACCTTGGTCGAACGCGTTACCCGCTACACCATCATCTGCAAA TTGGATAGCCTCAAAGCCGAAGACACTGCCCGGGCAGCTGTTAGGGCATT AAAGGCACATAAAGACAGGGTGCACACCATTACCATGGATAACGGCAAAG AGTTCTACCAACACACCAAAATAACCAAAGCATTGAAAGCGGAGACTTAT TTTTGTCGCCCTTACCATTCTTGGGAGAAAGGGCTGAATGAGAACACCAA CGGACTCATCCGGCAATACTTCCCCAAACAAACCGATTTCCGTAACATCA GTGATCGGGAGATACGCAGGGTTCAAGATGAGTTGAACCACCGACCAAGA AAAACACTTGGCTACGAAACGCCAAGTGTTTTATTCTTGAATCTGTTCCA ACCACTAATACACTAG >NMB0826 C-5 cytosine-specific DNA methylase ATGACTATTTCGACAATGGCACAGACACACGATACTCGATTACAAAAAAC TTTGCTCTTTCCCAGTCAACAAGGTTGGAAATCTAAAACTTTTCTTAAAC CTGATTCACATATTAGATTAGCAACCGTATTCAGCGGGATTGGTGCGGTT GAACAGGCATTCCACCGATTAAATTTAAACCATACCATTGTTTTTTCAGG AGATATTGATCCATACGTTAAAAAAAGTTATCTTGGAAACTATAAATTAA ATGAAGATTTTTGGCATAACGACATTACTCAATTTGATGCGAGAAAGTTT AGAAATCAAGTTGATATTTTAGTTGGAGGCAGTCCTTGCCAAGCATTTTC CATGGTTGGCAAACGTGCAGGATTAGAAGATACACGAGGAACATTATTCT ATGAATTTGCTCGCGTTGTGGATGAAGTCCAACCAAAGATATTTATTTAT GAAAATGTAAAGGGCTTGCTTAATCATGATAATGGAAAAACTTGGAAAGT TGTAAAAAGTGTTTTTTATTCACTTGGTTATGACTTATATTTCCAAATAA TGAATAGTAAGGATTATGGGATTCCTCAACATCGTGAGCGTATTTTTGTT GTTGGCTTTCATACCCCTCCTATAAATGGTTTTCAGTTTCCTGAAAAGAT TGAATTAGAACATACTATGCAAGATTTTTTGGAGGACTATACTGATAGCA AATATTTTTTACGTGAAAAGGGTGCGAAATTTGTTACCAGTTCTAAAAAT AGACAAAAACGTTATACACAGATTAATGGAGAAATTGCCTTATGCCAAAA AGCAAATCAACAATTTAATTGGCATGGTGATTTTATTTTTCAGGCAGCCC GCGAATCTGAATTTGATGACTTTATTTTTGATGTAAATAACGTTGAGGAA AAATATTATCTTTCTGAAAAAATCAAAAATTATGTTTTGGCAGGAGGAAC AAAAAATTTTAAAACCAGTACGGAAACTGATTTGCCTGTAGCTCGCCCAT TATTGCAAACTATGCATAAAATGCATCGTGCCGGGGTTGATAATTATGTT ACTCATAATCGTGGACGTATTCGTAAATTAACACCTAGGGAATGTTTGCG GCTAATGGGTTTTAGAGATGATTTTAAAATTTTAGTTAGTGATACTCAAA TGTATCGCCAAGCGGGAAACAGTATTGTTGTTGATGTATTAATCGCTATA TTAAAACAAATGGATATTACGCTTTATGGAGAGTAA >NMB0400 transposase, truncated TTGCCGTACTATTTGTACTGTCTGCGGCTTCGTCGCCTTGTCCTGATTTT TGTTAATCCACTATATCTGCATCAGTTTCATGAAACGCAAGTCGGAAGCG TCAAACAACTGATTGCCCATTTTGACCGGCTGATTGACGAATTGGACAAA CAAATCGACGACCACACCCACACGCATTTTGACGGCAAAGCCCAAGTGGC AGAACAAATCAAAGGCATCGGTTCGATAACGACGGCTACGCTGATGGCGA TGCTGCCCGAATTGAGGCGGCTGTCGCACAAACGGATAGCGGGTTTGGCC GGCATTGCCCCGCACCCGAGGGAGAGCGGGGAAACCAAATTCAAAAGCCG CTGCTTTGGCGGAAGGTCTGCGGTGCGTAAGGCACTGTATATGGCTACCG TGGCAGCGACACGTTTTGAACCGCTTATTCGGGATTTCCACCAACGCCCG CTGTCCGAGGGTAAGCCGTATAAGGTTGCCGTTACGGCATGTATGCGCAA ACTGCTGACGATATCGAATGCCCGGATGCGTGATTATTTTGCCGAAAACG ATACCGCCGAAAACGGTATCTAA >NMB0919 putative IS1106 transposase ATGAGCACCTTCTTTCAACAAACCGCCCAAGCCATGATTGCCAAACACAT CGACCGCTTCCCGCTATTGAAGTTGGACCAGGTGATTGATTGGCAGCCGA TCGAACAATACCTGAACCGTCAAAAAACCCGTTACCTCCGAGACCACCGC GGTCGTCCCGCCTGTCCCCTGTTGTCCATGTTCAAAGCCGTCCTGCTCGG ACAATGGCACAACCTCTCCGATCCCGAACTCGAACACAGCCTCATCACCC GCATCGACTTCAACCTGTTTTGCCGTTTTGACGAACTGAGCATCCCCGAT TACAGCACCTTATGCCGCTACCGCAACCGGCTGGCGCAAGACGACACCCT GTCCGAACTGTTGGAACTGATTAACCGCCAACTGACCGAAAAAGGCTTAA AAGTAGAGAAAGCATCCGCCGCCGTCGTTGACGCCACCATTATTCAGACC GTCGGCAGCAAACAGCGCCAGGCCATAGAAGTCGATGAAGAGGGACAAGT CAGCGGTCAAACCACACTGAGTAAGGACAAAAATGCCCGTTGGACAAAGA AAAACAGCCTCTACAAACTCGGTTACAAACAACATACACGTACCGATGCG GAAGGCTATATCGAGAAACTGCACATTACTCCCGCCAATGCCCATGAGTG CAAACACCTGTCGCCGTTGTTGGAAGGGTTACCCGAAGGTACGACCATCT ATGCCGACAAAGGCTACGACAGTGCGGAAAACCGGCAACATCTGGAAGAA CATCAGTTGCAGGACGGCATTATGCGCAAAGCCTGCCGCAACCGTCCGCT GACGGAAACGCAAACCAAACGCAACCGGTATTTATCTAAGACCCGTTATG TGGTCGAACAAAGCTTCGGTACGCTGCACCGTAAATTCCGCTACGCCCGG GCGGCCTATTTCGGACTGATTTGCGCCCGCTGCCGCCTAAAAGGCAGCCC GGATGCCTGA >NMB0635 transposase, IS30 family ATGAGCTACACGCAACTGACCCAAGGCGAACGATACCACATCCAATACCT GTCCCGCCACTGCACCGTCACCGAAATCGCCAAACAGCTGAACCGCCACA AAAGCACCATCAGCCGCGAAATCAGACGGCACCGCACCCAAGGGCAGCAA TACAGCGCCGAAAAAGCCCAGCGGCAAAGCCGGACTATCAAACAGCGTAA GCGACAACCCTATAAGCTCGATTCGCAGCTGATTCAGCACATCGACCCCC TTATCCGCCGCAAACTCAGTCCCGAACAAGTATGCGCCTACCTGTGCAAA CACCACCAGATCACGCTCCACCACAGCACCATTTACCGCTACCTTCGCCA AGACAAAAGCAACGGCAGCACGTTGTGGCAACATCTCAGAATATGCAGCA AACCCTACCGCAAACGCTACGGCAGCACATGGACCAGAGGCAAAGTACCC AACCGTGTCGGCATAGAAAACCGACCCGCTATCGTCGACCAGAAATCCCG TATCGGCGATTGGGAAGCCGACACCATTGTCGGCAAAGGACAGAAAAGCG CATTATTGACCTTGGTCGAACGCGTTACCCGCTACACCATCATCTGCAAA TTGGATAGCCTCAAAGCCGAAGACACTGCCCGGGCAGCTGTTAGGGCATT AAAGGCACATAAAGACAGGGTGCACACCATTACCATGGATAACGGCAAAG AGTTCTACCAACACACCAAAATAACCAAAGCATTGAAAGCGGAGACTTAT TTTTGTCGTCCTTACCATTCTTGGGAGAAAGGGCTGAATGAGAACACCAA CGGACTCATCCGGCAATACTTCCCCAAACAAACCGATTTCCGTAACATCA GTGATCGGGAGATACGCAGGGTTCAAGATGAGTTGAACCACCGACCAAGA AAAACACTTGGCTACGAAACGCCAAGTGTTTTATTCTTGAATCTGTTCCA ACCACTAATACACTAG >NMB0911 transposase, IS30 family ATGAGCCACACGCAACTGACCCAAGGCGAACGATACCACATCCAATACCT GTCCCGCCACTGCACCGTCACCGAAATCGCCAAACAGCTTAACCGCCACA AAAGCACCATCAGCCGCGAAATCAGACGGCACCGCACCCAAGGGCAGCAA TACAGCGCCGAAAAAGCCCAGCGGCAAAGCCAGACTATCAAACAGCGTAA GCGACAACCCTATAAGCTCGATTCGCAGCTGATTCAGCACATCGACCCCC TTATCCGCCGCAAACTCAGTCCCGAACAAGTATGCGCCTACCTGCGCAAA CACCACCAGATCACGCTCCACCACAGCACCATTTACCGCTACCTTCGCCA AGACAAAAGCAACGGCAGCACGTTGTGGCAACATCTCAGAATATGCAGCA AACCCTACCGCAAACGCTACGGCAGCACATGGACCAGAGGCAAAGTACCC AACCGTGTCGGCATAGAAAACCGACCCGCTATCGTCGACCAGAAATCCCG TATCGGCGATTGGGAAGCCGACACCATTGTCGGCAAAGGACAGAAAAGCG CATTATTGACCTTGGTCGAACGCGTTACCCGCTACACCATCATCTGCAAA TTGGATAGCCTCAAAGCCGAAGACACTGCCCGGGCAGCTGTTAGGACATT AAAGGCACATAAAGACAGGGTGCACACCATCACCATGGATAACGGCAAAG AGTTCTACCAACACACCAAAATAACCAAAGCATTGAAAGCGGAGACTTAT TTTTGTCGCCCTTACCATTCTTGGGAGAAAGGGCTGAATGAGAACACCAA CGGACTCATCCGGCAATACTTCCCCAAACAAACCGATTTCCGTAACATCA GTGATCGGGAGATACGCAGGGTTCAAGATGAGTTGAACCACCGACCAAGA AAAACACTTGGCTACGAAACGCCAAGTGTTTTATTCTTGAATCTGTTCCA ACCACTAATACACTAG >NMB0805 transposase, IS30 family ATGAGCCACACGCAACTGACCCAAGGCGAACGATACCACATCCAATACCT GTCCCGCCACTGCACCGTCACCGAAATCGCCAAACAGCTGAACCGCCACA AAAGCACCATCAGCCGCGAAATCAGACGGCACCGCACCCAAGGGCAGCAA TACAGCGCCGAAAAAGCCCAGCGGCAAAGCCGGACTATCAAACAGCGTAA GCGACAACCCTATAAGCTCGATTCGCAGCTGATTCAGCACATCGACCCCC TTATCCGCCGCAAACTCAGTCCCGAACAAGTATGCGCCTACCTGTGCAAA CACCACCAGATCACGCTCCACCACAGCACCATTTACCGCTACCTTCGCCA AGACAAAAGCAACGGCAGCACGTTGTGGCAACATCTCAGAATATGCAGCA AACCCTACCGCAAACGCTACGGCAGCACATGGACCAGAGGCAAAGTACCC AACCGTGTCGGCATAGAAAACCGACCCGCTATCGTCGACCAGAAATCCCG TATCGGCGATTGGGAAGCCGACACCATTGTCGGCAAAGGACAGAAAAGCG CATTATTGACCTTGGTCGAACGCGTTACCCGCTACACCATCATCTGCAAA TTGGATAGCCTCAAAGCCGAAGACACTGCCCGGGCAGCTGTTAGGGCATT AAAGGCACATAAAGACAGGGTGCACACCATTACCATGGATAACGGCAAAG AGTTCTACCAACACACCAAAATAACCAAAGCATTGAAAGCGGAGACTTAT TTTTGTCGCCCTTACCATTCTTGGGAGAAAGGGCTGAATGAGAACACCAA CGGACTCATCCGGCAATACTTCCCCAAACAAACCGATTTCCGTAACATCA GTGATCGGGAGATACGCAGGGTTCAAGATGAGTTGAACCACCGACCAAGA AAAACACTTGGCTACGAAACGCCAAGTGTTTTATTCTTGAATCTGTTCCA ACCACTAATACACTAG >NMB0057 hypothetical protein ATGTCGGTGATGGCGGGACGGCATCCGTACGGTGTCCGGTCGGGTTTGCG GAGGAACGGCTTGAAACTTTGGGATATTCATTTTAGAATGACTCGTTTTA TCGTCGCAAGATGCGGTTTATTGTTTGCAACCCTTAAAGGAAAAACCATG AAGAAAATGTTCGTGCTGTTCTGTATGCTGTTCTCCTGCGCCTTCTCCCT TGCGGCGGTAAACATCAATGCGGCTTCGCAGCAGGAGTTGGAGGCGCTGC CAGGCATAGGCCCTGCGGTGCTGGCGAAGCTGAAGGATCAGGCTTCCGTC GGCGCGCCCGCACCAAAAGGCCCAGCCAAACCAGTGCTGCCCGCGGATAA AAAATAA >NMB1528 putative methylated-DNA--protein-cysteine methyltransferase ATGGCAAAAATTGGGGATTTTGCCGTCAAATCTATGATAGGGATACGGAG CAAACAAATGATTACCCTGCCTTCCTTAAACAATCTGCCGTCAAAATGGG ATGAAATCCGCCATTGGCTCGAATCTCGGGTTTTTGAGTGCGGCGTTATG CCGCATCCCAATCTGACGGAATGCGAAGCCAAACAGTTCGAGCGGGATTT TTGGGACAATATCGGCTGCGCGCCTGAAGAATATGTCCGCATCCGCCGCG CCATCCGTCTGTTGGAAGCGCGTTATCCCGACAGTTTGAACGAGCTGGTG TGTGCCGCCATTGCCACGCCTTTGGGCGAGATGCTGGCGGTGTTCGGTAG CAGGGGTTTGTGTTTGCTGGAATTTGTCGGACAGAAGCATTTGGAACAGG AAATTGCCGCCGTCCAAAAAGCCTTGCGCGGACGGTTTGTGTTTCGGGAG GATGAGCGGACGCAACTTTTGCGGCAGGAATTGGACTTATACTTCAAGGG TCGTCTGAAAACCTTTGCCACGCCTTTGGAGCAGATTGGCACCGAGTTTC AAAAGCAGGCATGGGACGCGCTCTTGGCGATTCCTTACGGCGAAACGCGC AGCTACAAGGAGCAGGCGCAGCGTTTGGGCAACCCCAAAGCCGTCCGCGC CGTTGCCGCCGCCAACGGGCAGAACAAAGTATCTATCCTGATTCCCTGCC ACCGCGTCATCGGCAGCGACGGCAAACTGACCGGCTACGCGGGCGGGTTG AACCGCAAACAGTTTTTACTGGCTTTGGAACACGGCGAAGTTCAGACGGC ATTGTTTTAA >NMB0725 modification methylase HgaI-1 ATGATGATAGGGGCTTCTTTGTTTTCGAGTGCAGGGATTGCAGAAACCTA CTTGCATAATGCGGGTATTAAGATTATAGCTGCAAATGAATTGGTGCCAG AACGTGCTAATTTATATAAAGCTCTATATCCCGAAAGTAAAATGATTATA GGTGATATACTTCATGAGGAAGTGTTTCAAAATTTAATACAGAGCGTGCC GAATCGATTAGATTTTTTAATTGCTTCTCCTCCTTGTCAAGGCATGAGTG TTGCAGGGAAAAATCGTAACATTCAAGAGATGGCTAATGATAAACGTAAT CATTTAATATTCAGAGTAATCGAATTTATTTTATTAAAACGCCCAACTTT TGTTTTGATTGAAAATGTTCCATTTTTTTTAAAAATTAAGTTACCTTATA AGGGGACATTACAAACAGTAGAAGTAATTTTGCAAGATTTATTTGGTTGC GAATATTATATTCAAACTCATATTTTTGATTCTGCCGATTATGGTGTTGC ACAACATCGTAAACGAGCTATTATTCGTATGAATAAACATTCAACTATTT GGGGAATGCCGGAAAAAGTTACAAAAACCATTTCTGTTCGTGATGCTATT AGTTTTTTGCCTAGTATTGAGTCTGGACAAAAGTCTAATGTGAAATGGCA TTTTGCACGTACACATGCTCCGGAGCACATTATATGGCTAAAAAATACGC CAACAGGACGATCTGCTTTTGATAATATAGAACATTATCCAAAGAAAAAA AATGGTGAAAAAATTAAAAGTTATAATACAACTTATCGCCGTATGGAGTG GGATGCTCCTGCCCCAACTATTACTATTCGTAATGACGCTATCAGTTCAC AATTAAATGTTCATCCTGGACGGTCTATGCCTGATGGAACATATTCAGAT GCAAGAGTTTTAACACCATTAGAGTTAATGCTTTTAACATCATTACCTAT TGATTGGAATATTCCCGACGATACATCAGAATTATTAATTCGGCAATGTA TTGGTGAATCTATTCCTCCATTGTTAATTAAAAAAATTGTAGAGAGAATA GGAAAATAG >NMB1464 conserved hypothetical protein ATGAAATACCGTCGTTTTTACCGCAATGGCGGCACTTACTTTTTTACGGT TGTAACCAATAAACGGCAGAAGATTTTGACCGATGATGCGGTGCGTTTGG CTTTACGGCAGGCGGTAATGGCGGTGCGCGAACGGTATCCGTTTGAAATT TTGGCATGGGTGTTGATGCCCGACCATCTGCATACCATATGGCGGCTGCC GGACAATGATTCTGCTTATTCGGAACGCTGGCGGCAAATCAAGCGGCACA GCCAATATTTAATCGGCGGCAATCTCAGGCTTTGGCAAAAACGCTTTTGG GAATATACTATCCGCGATGAGGCCGATTTTGCCTGGCATTTTGATTATCT GCATTTCAATCCGGTCAAACATGGCTATGTAGGACAAATTTCCGATTGGG GGTTTTCTACGTTTCACCGTTATGTCAAACAGGGTATTTATCCGCATAAT TGGGGTGGCGGCAATGCGGACTTTTCTATTGGATACGATTGA >NMB1386 putative transposase ATGGCATACTCTGCGGACTTAAGAAACAAAGCTTTAAACTATAGTGGATT AAATTTAAATCAGGACAAGGCGACGAAGCCGCAGACAGTACAAATAGTAC GGCAAGGCGAGGCAACACCGTACTGGTTTAAATTTAATCCACTATATTAC GAACAATGCAAAAACATCAGCCAAACCGCAGCAACGTTTAACTTGTCAAG AAACACGCTTTACCTGTGGATTCGCCTTAAAAAACAAACAGGCAGCCTAA AACATCAAGTTACCGGTCTAAATGCCGTCAAATCGGATAGGCAAAAACCG GCTCAATATGTTGGGCAACACCCGGATGCCTATCTGCATGAAATCGCCAA ACATTTTGATTGTACGGCAGCCACCATTTGCTATGCACTCAAACAGATGG GGATAACGCGCAAAAAAAGACCACCACTTACAAAGAACAAGACCCGGCCA AAGTAA >NMB0834 transposase, IS30 family ATGAGCTACACGCAACTGACCCAAGGCGAACGATACCACATCCAATACCT GTCCCGCCACTGCACCGTCACCGAAATCGCCAAACAGCTGAACCGCCACA AAAGCACCATCAGCCGCGAAATCAGACGGCACCGCACCCAAGGGCAGCAA TACAGCGCCGAAAAAGCCCAGCGGCAAAGCCGGACTATCAAACAGCGTAA GCGACAACCCTATAAGCTCGATTCGCAGCTGATTCAGCACATCGACACCC TTATCCGCCGCAAACTCAGTCCCGAACAAGTATGCGCCTACCTGTGCAAA CACCACCAGATCACGCTCCACCACAGCACCATTTACCGCTACCTTCGCCA AGACAAAAGCAACGGCAGCACGTTGTGGCAACATCTCAGAATATGCAGCA AACCCTACCGCAAACGCTACGGCAGCACATGGACCAGAGGCAAAGTACCC AACCGTGTCGGCATAGAAAACCGACCCGCTATCGTCGACCAGAAATCCCG TATCGGCGATTGGGAAGCCGACACCATTGTCGGCAAAGGACAGAAAAGCG CATTATTGACCTTGGTCGAACGCGTTACCCGCTACACCATCATCTGCAAA TTGGATAGCCTCAAAGCCGAAGACACTGCCCGGGCAGCTGTTAGGGCATT AAAGGCACATAAAGACAGGGTGCACACCATTACCATGGATAACGGCAAAG AGTTCTACCAACACACCAAAATAACCAAAGCATTGAAAGCGGAGACTTAT TTTTGTCGCCCTTACCATTCTTGGGAGAAAGGGCTGAATGAGAACACCAA CGGACTCATCCGGCAATACTTCCCCAAACAAACCGATTTCCGTAACATCA GTGATCGGGAGATACGCAGGGTTCAAGATGAGTTGAACCACCGACCAAGA AAAACACTTGGCTACGAAACGCCAAGTGTTTTATTCTTGAATCTGTTCCA ACCACTAATACACTAG >NMB0141 transposase, truncation ATGATTGCCAAACACATCGACCGGTTCCCACTATTGAAGTTGGACCGGGT AATTGATTGGCAGCCGATCGAACAGTACCTGAATCGTCAAAGAACCCGTT ACCTTAGAGACCACCGCGGCCGTCCCGCCTATCCCCTGTTGTCCATGTTC AAAGCCGTCCTGCTCGGACAATGGCACAGCCTCTCCGATCCCGAACTCGA GCACAGCCTCATCACCCGCATCGATTTCAACCTGTTTTGCCGCTTTGACG AACTGAGCATCCCCGATTACAGTCATCAACCATATTCCGGTTTGTCGGAG AAAGATGCATACGCTGTGATGACCGGATACCGACCCGTTAAAAGAGTCCG ACCCTATGCCGTCTGA >NMB1553 transposase, truncation ATGAGCACCTTCTTCCAGCAAACCGCCCAAGCCATGATTGCCAAACACAT CGACCGCTTCCCGCTATTGAAGTTGGACCGGGTGATTGATTGGCAGCTGA TCGAACAATACCTGAACCGTCAAAAAACCCGTTACCTTAGAGACCACCGC GGCCGTCCTGCCTATCCCCTGCTGTCCATGTTCAAAGCCGTCCTGCTCGG ACAATGGCACAGCCTCTCCGATCCCGAACTCGAACACAGCCTCATCACCC GCATCGACTTCAACCTGTTTTGCCGTTTCGACGAACTGAGCATCCCTGAT TACAGTATAGTGGATTAA >NMB1322 putative primosomal replication protein n TTGGGATTCAATAATCTTGTTTCGCTTGCCGCGTTAATTGAAAAGGTTTT CCCTATTCGATATACGCCTGCCGGAATCCCTGTTTTAGATATTATTTTAA AGCACGAATCGTGGCAGGAGGAAAACGGGCAGCAATGCCTTGTCCAATTG GAAATTCCGGCACGGATTTTAGGCAGGCAGGCGGAAGAGTGGCAGTATCG GCAAGGTGTATATGTTCACGTCGAAGGTTTTTTAGCTCAAAAAAGCAGAC GTTCCCTTATGCCGATGCTCAGGATACAAAATATTCAAGAATATAAAGGT TAA >NMB1895 DNA adenine methylase, truncation TTGATTTCAAATCATGATACTGAATTCACAAGGGATATTTATTCTTCTGC CATTTTGAAAACAGTTGAAGTTCAGCGCAATATTGCCGCAAAAGGCAGCA GCAGCCGTAAAAAAGTTGGAGAATTATTGGCAATTTATGCGTGA >NMB1401 IS1016C2 transposase ATGAAGATAACACACTGCAAATTAAAGAAAAAAGTACAGAAAGAGCTGCT CCGTTTTTTTGTACTCGAAGTTACCGCCCGTTCTGCTGCCGATATTTTGG GTATCCATCCCAATTCGGCAGTCCTGTTCTACCGCAAAATCCGTATGGTC ATCAGCCATTATCTGGCCTTGGCTGCCAATGAGGTTTTCGAGGGCTCTGT CGAGTTGGACGAAAGCTATTTCGGCGGACGGCGTAAAGGCAAACGTGGTC GCGGTGCGGCAGGAAAAGTGGTTGTCTTCGGCATTCTGAAACGTAACGGA CGGGTCTATACCGTTGTCGTAGATAATGCCAAGTCCGATACTTTAATGCC TGTTATCAAACAGAAAATCATGCCGGACAGCATTGTTTATACCGACAGCC TGAGCAGTTACGACAAGTTGGACGTAAGCGGTTTTATCCATTACCGCATC AACCATTCCAAGGAATTTGCTGACCGTCAGAACCACATAAACGGCATTGA GAACTTTTGGAATCAGGCAAAACGCGTCTTGCGCAAATAG >NMB2085 hypothetical protein ATGTCATCTAACCAATATATCCAGTCGCTTGAGTTGACAAACTTTACCGT TCTTCCAAACGATACTTTTGAATTTTCTGAAAATCTCAATGTTATTGTTG CCGAAAACGGTTGTGGCAAAACACATTTGTTAAAAATTTTATACAGCCTG CTAGAAGTAACATCTAACACCAAAAACAGATTACTGAAAACAGAATTGCA AAAAAGTTTTGCCGATAAATTACTGAATGTTTTCCGTCCCGATTCCTTGG GTAGGTTGAGCAAACGTTTGCAGGGGCGCGGGCGTACGGAAATCGTTTTA AAACTGCAAAACGGCACTACGCATAGTAGTCTGAATTTTTCCAGTAACTC ATCATCGCAAGTCAATGTTCAAAGCATCGGATTGAAAGAAAATGAATATA CTCCGACACCTATCTTCTTACCCAGCCGCGAATTAATTACACTTTGCCCT TGGTTCACTTCTTTGTATCAAAACCAAAGCATCCCTTTCGAAGAAACTTG GTTTGATACCTGTATGCAATTAAATCACCCGCTTGCCAAAGGCCCCAGAG AAACAAAAATTCGAGAATTGCTCGAACCTATTGAGAACGCGATGGGCGGA AAAGTATCTGAAGAACAAGGAAGGTTTTATCTATCGCTGACAAATACGGG CGGTAAGATTGAAGCACCTTTGGTAGCAGAGGGTTTGCGGAAATTTGTCA TGATTGCCCGGTTAATCGCAACAGGGGCATTGCTGGATAAAGGCTATCTA TTTTGGGATGAACCGGAAGCTAATCTGAATCCTAAATTGATCAAAGTGGC TGCCCGTATTATTTGGTCTTTATCTCAACAGGGTATTCAGGTTTTTATTG CAACACACTCTTTATTCTTATTGAGAGAATTGGAACTTTTGAAGCTTGAA AATAACACGGATTTACCTGTACGTTTTTTCTCGTTGATTGCTTCCGATGA TGGAACAAAAGTGGAGCAAGGGAACAGTATTAATGATTTGAACACATTGA TATTGTTAGATGAAAACATTATGCAGGCAGACAGGTATCTGAATATTTGA >NMB1102 hypothetical protein ATGGTGCGCACGGTTAAAAGCTACAACGGCGAGGCCGACGATTTGGCGGG GCAAATCCATACGCTGCCTGCGGTTTGGGTAACGTATGGCGGCAGCAAAG TTGAGCCTGCCAGCACCGGCGGCGTATGCGGACGTTATCAGGATACCGCC GAATTTGTGGTGATGGTGGCGGCCCGCAATCTGCGCAACGAGCAGGCGCA GCGGCAAGGCGGCATCGACAGCCGCGAAATCGGCAGCAACGATTTAATCC GCGCTGTTCGCCGCCTGCTTGACGGCCAGCGGCTCGGTTTTGCCGATAGC CGCGGCTTGGTGCCCAAAGCGGTGCGCGCGATTGCCAATCATGTGCTGGT GCAAAACGCCGCAGTAAGCATATATGCGGTTGAGTATGCCATCCGCTTTA ACACCTGCGGGTTGGAAAATGACCGCTACCCCGAACGCACCGACAATCCC GACGACCCCAACCATATCTTTACCAAGTATCAGGGTACATTGAGCGAGCC GTGGCCTGATTTCGAGGGGTTGGACGGCAAAATTTACGACCCGCAATCCG CCGATGAAATACCTGTAAACCTAACCCTTAAGGATAAGCAATGA >NMB1713 transposase, IS30 family ATGAGCTACACGCAACTGACCCAAGGCGAACGATACCACATCCAATACCT GTCCCGCCACTGCACCGTCACCGAAATCGCCAAACAGCTGAACCGCCACA AAAGCACCATCAGCCGCGAAATCAGACGGCACCGCACCCAAGGGCAGCAA TACAGCGCCGAAAAAGCCCAGCGGCAAAGCCGGACTATCAAACAGCGTAA GCGACAACCCTATAAGCTCGATTCGCAGCTGATTCAGCACATCGACACCC TTATCCGCCGCAAACTCAGTCCCGAACAAGTATGCGCCTACCTGTGCAAA CACCACCGGATCACGCTCCACCACAGCACCATTTACCGCTACCTTCGCCA AGACAAAAGCAACGGCAGCACGTTGTGGCAACATCTCAGAATATGCAGCA AACCCTACCGCAAACGCTACGGCAGCACATGGACCAGAGGCAAAGTACCC AACCGTGTCGGCATAGAAAACCGACCCGCTATCGTCGACCAGAAATCCCG TATCGGCGATTGGGAAGCCGACACCATTGTCGGCAAAGGACAGAAAAGCG CATTATTGACCTTGGTCGAACGCGTTACCCGCTACACCATCATCTGCAAA TTGGATAGCCTCAAAGCCGAAGACACTGCCCGGGCAGCTGTTAGGGCATT AAAGGCACATAAAGACAGGGTGCACACCATCACCATGGATAACGGCAAAG AGTTCTACCAACACACCAAAATAACCAAAGCATTGAAAGCGGAGACTTAT TTTTGTCGCCCTTACCATTCTTGGGAGAAAGGGCTGAATGAGAACACCAA CGGACTCATCCGGCAATACTTCCCCAAACAAACCGATTTCCGTAACATCA GTGATCGGGAGATACGCAGGGTTCAAGATGAGTTGAACCACCGACCAAGA AAAACACTTGGCTACGAAACGCCAAGTGTTTTATTCTTGAATCTGTTCCA ACCACTAATACACTAG >NMB1657 comE operon protein 1-related protein TTGGTCCCACGCCTTCCCATCCCGAACAGGACCGTGAAACGACTCAGCGC CGATGATAGTGTGGTTCTTCCATGCGAAAGTAGGTCACTGCCAAACACCC ATTCAGAAAACCCCCGATTATTCGGGGGTTTTTGCTTTGCCCGGAAAAAA TGTTTGCTTTGCCCGGAAAAAATGTCGGTGATGGCGGGACGGCATCCGTA CGGTGTCCGGTCGGGTTTGCGGAGGAACGGCTTGAAACTTTGGGATATTC ATTTTAGAATGACTCGTTTTATCGTCGCAAGATGCGGTTTATTGTTTGCA ACCCTTAAAGGAAAAACCATGAAGAAAATGTTCGTGCTGTTCTGTATGCT GTTCTCCTGCGCCTTCTCCCTTGCGGCGGTAAACATCAATGCGGCTTCGC AGCAGGAGTTGGAGGCGCTGCCGGGCATAGGCCCGGCGAAGGCGAAGGCC ATTGCGGAATACCGTGCGCAAAACGGTGCGTTCAAGTCTGTAGACGATTT GACCAAGGTAAAGGGCATCGGCCCTGCGGTGCTGGCGAAGCTGAAGGACC AGGCTTCGGTCGGCGCGCCCGCACCAAAAGCCCCAGCCAAACCGGTGCTG CCCGCGGATAAAAAATAG >NMB1601 IS1106 transposase ATGAGCACCTTCTTTCAACAAACCGCCCAAGCCATGATTGCCAAACACAT CGACCGCTTCCCGCTATTGAAGTTGGACCGGGTGATTGATTGGCAGCTGA TCGAACAATACCTGAACCGTCAAAAAACCCGTTACCTTAGAGACCACCGC GGCCGTCCTGCCTATCCCCTGCTGTCCATGTTCAAAGCCGTCCTGCTCGG ACAATGGCACAGCCTCTCCGATCCCGAACTCGAACACAGCCTCATTACCC GCATCGATTTCAACCTGTTTTGCCGTTTTGACGAACTGAGCATCCCCGAT TACAGCACCTTATGCCGCTACCGCAACCGGCTGGCGCAAGACAATACCCT GTCTGAACTGTTGGAACTGATTAACCGCCAACTGACCGAAAAAGGTTTAA AAATAGAGAAAGCATCCGCTGCCGTCGTTGACGCCACCATTATTCAGACC GCCGGCAGCAAACAGCGTCAGGCCATAGAAGTTGACGAAGAAGGACAAAT CAGCGGTCAAACCACACCGAGTAAGGACAGCGATGCCCGTTGGATAAAGA AAAACGGCCTCTACAAACTCGGTTACAAACAACATACCCGTACCGATGCA GAAGGCTATATCGAGAAACTGCACATTACCCCCGCCAATGCCCATGAGTG CAAACACCTGTCGCCGTTGTTGGAAGGTCTGCCCAAAGGTACGACCGTCT ATGCCGACAAAGGCTATGACAGTGCGGAAAACCGGCAACATCTGGAAGAA CATCAGTTGCAGGACGGCATTATGCGCAAAGCCTGCCGCAACCGCCCGCT GTCGGAAGTGCAAACCAAGCGTAACCGATATTTGTCGAAGACCCGTTATG TGGTCGAACAAAGCTTCGGTACGCTGCACCGTAAATTCCGCTATGCCCGG GCAGCCTATTTCGGACTGATTAAAGTGAGTGCGCAAAGCCATCTGAAGGC GATGTGTTTGAACCTGTTGAAAGCCGCCAACAGGCTAAGTGCGCCCGCTG CCGCCTAA >NMB0299 comEA-related protein ATGTCGGTGATGGCGGGACGGCATCCGTACGGTGTCCGGTCGGGTTTGCG GAGGAACGGCTTGAAACTTTGGGATATTCATTTTAGAATGACTCGTTTTA TCGTCGCAAGATGCGGTTTATTGTTTGCAACCCTTAAAGGAAAAACCATG AAGAAAATGTTCGTGCTGTTCTGTATGCTGTTCTCCTGCGCCTTCTCCCT TGCGGCGGTAAACATCAATGCGGCTTCGCAGCAGGAGTTGGAGGCGCTGC CGGGCATAGGCCCGGCGAAGGCGAAGGCCATTGCGGAATACCGTGCGCAA AACGGTGCGTTCAAGTCTGTAGACGATTTGACCAAGGTAAAGGGCATCGG CCCTGCGGTGCTGGCGAAGCTGAAGGACCAGGCTTCGGTCGGCGCGCCCG CACCAAAAGCCCCAGCCAAACCGGTGCTGCCCGCGGATAAAAAATAG >NMB1022 transposase, IS30 family ATGAGCTACACGCAACTGACCCAAGGCGAACGATACCACATCCAATACCT GTCCCGCCACTGCACCGTTACCGAAATCGCCAAACAGCTGAACCGCCACA AAAGCACCATCAGCCGCGAAATCAGACGGCACCGCACCCAAGGGCAGCAA TACAGCGCCGAAAAAGCCCAGCGGCAAAGCCAGACTATCAAACAGCGTAA GCGACAACCCTATAAGCTCGATTCGCAGCTGATTCAGCACATCGACCCCC TTATCCGCCGCAAACTCAGTCCCGAACAAGTATGCGCCTACCTGTGCAAA CACCACCAGATCACGCTCCACCACAGCACCATTTACCGCTACCTTCGCCA AGACAAAAGCAACGGCAGCACGTTGTGGCAACATCTCAGAATATGCAGCA AACCCTACCGCAAACGCTACGGCAGCACATGGACCAGAGGCAAAGTACCC AACCGTGTCGGCATAGAAAACCGACCCGCTATCGTCGACCAGAAATCCCG TATCGGCGATTGGGAAGCCGACACCATTGTCGGCAAAGGACAGAAAAGCG CATTATTGACCTTGGTCGAACGCGTTACCCGCTACACCATCATCTGCAAA TTGGATAGCCTCAAAGCCGAAGACACTGCCCGGGCAGCTGTTAGGGCATT AAAGGCACATAAAGACAGGGTGCACACCATCACCATGGATAACGGCAAAG AGTTCTACCAACACACCAAAATAACCAAAGCATTGAAAGCGGAGACTTAT TTTTGTCGCCCTTACCATTCTTGGGAGAAAGGGCTGAATGAGAACACCAA CGGACTCATCCGGCAATACTTCCCCAAACAAACCGATTTCCGTAACATCA GTGATCGGGAGATACGCAGGGTTCAAGATGAGTTGAACCACCGACCAAGA AAAACACTTGGCTACGAAACGCCAAGTGTTTTATTCTTGAATCTGTTCCA ACCACTAATACACTAG >NMB0122 conserved hypothetical protein ATGGCGGCAGGCAAACATACCAAACACAGCAACCGGGTACGCATTATCGG CGGGCAATGCCGGGGCAGGAAATTGAGTTTCACATCCGCCGACGGACTGC GTCCGACACCCGACAGCGTGCGTGAAAAGCTGTTTAACTGGCTGGGACAG GATTTGACGGGTAAAACGGTTTTGGATCTCTTCGGAGGCAGCGGCGCACT CGGTATAGAAGCCGCTTCGCGCAACGCCAAACGCGTGCTGATTTCGGATA ACAACCGCCAAACCGTGCAGACCTTGCAGAAAAACAGTCGCGAACTGGGT TTGGGGCAGGTGCAAATCGTCTTTTCAGACGGCATCGCATATTTGAAGAC CGTATCCGAACAGTTTGATGTTGTCTTTCTCGACCCGCCGTTTGCATGGC AGGACTGGCAAATCCTGTTCGATGCCTTGAAGCCGTGCCTGAACCCCCGG GCATTCGTCTATCTCGAGGCGGGTACGCTGCCGAATATTCCCGATTGGCT GACGGAATATAGAGAAGGGAAATCGGGGCAGAGTACATTTGAATTAAGGG TTTTCCAAGTGGCTGAATAA >NMB0361 conserved hypothetical protein ATGAACGCGTCAAACTGGAGCGTTTACCTGATATTGTGTGAAAACAGCGC GTTCTATTGCGGCATCAGCCCGAATCCGCAACAGCGGCTTGCCGCCCACA CAACCGGTAAAGGCGCGAAATATACCCGCGTATTCAAACCGGTGGCGATG CGTATCGTTGCAGGCGGGATGGATAAAGGAACGGCACTCAGGCAGGAAAT CGCCGTCAAAAAACTGACCGCCGCACAAAAACGGCAATTGTGGGAGCAGG CAGAAAAAATGCCGTCTGAAACCTGA >NMB1290 C-5 cytosine-specific DNA-methylase ATGAAAAATAAAATACAAAATCAATTAGATAATATAGTTACCTTAAATAA TGAGAAATTTACTTTTATTGATTTATTTGCGGGAATAGGTGGTTTTCGCA TTGCAATGGAGAATGTTGGTGGGCGATGTGTATTTTCTAGTGAATGGGAT GATAAAGCCCGTCAAACCTACCAAGTAAATTTTAATGATATTCCTTATGG AGATATTACATTAAAGGAAACCAAAGCAGCTATTCCAAGTAAGTTTGATG TATTAACAGCAGGATTCCCGTGTCAGCCATTCTCTATAGCTGGTGTTTCA AAGAAAAAAAGCCTAGGACGAGAAACAGGCTTCTTAGATAAGGCGCAGGG AACTCTATTTTTTGATGTTGCTGAAATTATTGGAAAACATCGACCTAAAA TTTTTCTTTTAGAGAATGTGAAAAACCTTGTTTCGCATGACAAAGGAAAT ACATTTAAAGTAATTAAAGGGACTTTAGAAGAGCTTGACTATCAGATATT TTATCAAGTTATGAATGCAAAATATTATGTTCCTCAAAATAGGGAGCGTA TTTTTATTGTAGGTTTTGATAGACAATATTTTAATAAGGAAATAAATTTC AATTTTCCTTCCCCACCAGAATCACAACCAAAATTAAAGCAAATTTTGGA AGATGATGTAGATAATTCTTTTACTCTTTCTGATAACTTATGGCTTTACC TTCAAAATTACGCTAAAAAACATAAGGCAAAGGGTAATGGATTTGGTTTT GGATTAGTTGATTTAGATGGAATATCACGAACTCTATCTGCACGATATTA CAAAGATGGTTCCGAAATACTCATCCCTCAGAAAGGAAAAAATCCTAGGA AGCTGACACCTAGGGAGTGCTCGCGTTTAATGGGATTTCCTAAAGATTTT GTTATTGATGCAGTATCCAAGACAGCTGCATACAAGCAGTTTGGCAATTC AATTGCTGTACCGTTGGTTCAAGCTATTGCTAAACAAATTATAAATGAGT TAAAAAATGAATGA >NMB1337 conserved hypothetical protein ATGCATAAAATTCCAAAAGGAACGGCACTGGCATTCGACTTCGGCGAAGC GCGTATCGGCGTGGCACAAGGAGACGCGGAATTAGGGCTATCCCATCCTT TGAGCACCGTTACCGGCGGCAGCAACGATGAAAAGTTCGCGGCAATCGCC AAGCTGGTTCAAGAATGGCAGCCGCGTTATTTTGTCGTCGGACTGCCCGT GCATACCGACGGCACGAAACATGAAATGACGCACCTGTCGCGCAAGTTCG GACGCAGGCTGAACGGCAGGTTCAATCTCCCCGTCTATTGGGTTGACGAA CGGCTGTCGTCCGTCTATGCCGAAAGCCTGCTTTCGGAAGCACAGGTCTT CGGCAAAAAACGCAAATCGGTGCTCGACCAAGTGGCGGCGCAAGCCATCT TGCACGGTTTTTTCGAGGGCGGTCCGGCGGAATGTTTCAACGGGCGTGAG GGTTAA >NMB1417 conserved hypothetical protein ATGACCACGATTTTGGCTTTCGATATTGAAACCGTACCCGATGTGCAGGG TATCCGAACATTGTACGAGCTGCCGTCCTCGCTGCCCGACGATGAAGTGG TGCTGTTTGCCCAGCAAAAACGCCGTGCTCAGACGGGCGGCGATTTTATG CAGCATCATCTTCATCAGGTTGTGGCGATTTCGTGCTGCATGCGTTGGGG GCAGGATAAAGTACATGTCGGCACCATCGGCGAGATGGATGACGGCGAGG AAGTGGTCATTGCTAAATTTTTCGAATTGATTGAAAAACATACGCCGCAA CTGGTCAGTTGGAACGGCGGCGGTTTCGATCTGCCCGTACTGCATTACCG CTCCCTGATATACGGCATCAACGCCGCGCGCTATTGGGATATGGGCGACG GCGATTTCGGCGACAGCCGCGATTTCAAGTGGAACAACTACATCAGCCGT TATCACCAACGCCACTGCGATTTGATGGATTTGCTCGCGCTTTACCAGCC GAGGGCAAACGTGCCGCTGGACGATATGGCGAAACTGTGCGGTTTTCCGG GCAAGCTGGGTATGGACGGCAGCAAGGTTTGGGAGGCATTCCATACGGGC AGGCTGAAGGAAATCCGCAATTATTGCGAAACCGACGCGGCAAACACTTA TCTGATGTACCTGCGTTTCTGTCTGGTCAGCGGCAGGCTGGATGCGGACG AATACGAAATGGAAATCAAACGGATGCGGAATTACCTGTCCGCACAAGCC GGGGAAAAGCCGCATTGGGAAGAGTTTGTCCGCGCGTGGGAATAA >NMB0769 putative DNA polymerase III, delta prime subunit ATGATTTATCCGTGGCATAATGAGCAATGGCGGCAGATTGCGGAACATTG GGAGCGTCGTCCCAATGCATGGCTGTTTGCCGGCAAAAAAGATACGGGGA AAACTACATTTGCCCGCTTTGCGGCGAAGGCACTGTTGTGCGAAACCCCT GCACCGGGCTGCAAACCCTGTGGCGAATGTATGTCCTGCCATCTGTTTGG ACAGGGAAGCCATCCCGATTTTTACGAAATCACCCCCTTGTCGGACGAAC CCGAAAACGGACGCAAACTGTTGCAGATCAAAATCGATGCCGTCAGGGAA ATCATCGATAATGTGTACCTGACTTCGGTACGGGGCGGTTTGCGCGTGAT TCTGATTCATCCTGCGGAAAGTATGAATGTCCAAGCCGCCAACAGTTTGT TGAAAGTGTTGGAAGAACCGCCGCCACAAGTGGTCTTTTTGCTGGTCAGC CACGCGGCGGACAAGGTTTTACCGACCATTAAAAGTCGCTGCCGGAAGAT GGTTTTGCCCGCTCCTTCCCATGAAGAGGCATTGGCATATCTGCGTGAAA GGGGTGTGGCGGAACCTGAGGAACGTCTGGCTTTCCATTCCGGAGCGCCG CTGTTTGATGAGGCGGACGGTGTCCGTGCGTTGCGGATTAAACTGTTGGA TATTTTGGCAGAACCAAGGTTGTTGAAGATTTTGGATTACGCCGCGCTTT TCGATAAGGAAAAACTTCCGCTCGCCGTATTTGTCGGGTGGATGCAGAAA TGGCTGGTCGATTTGGGATTGTGCCTGCAACACATGAAACCCGTCTATTA TCCCGCTTATGAAGACAGGCTGCTTCAGACGGTATCCGGTTTCCGTCCGC GCAATGTATTTGCGGCGGAGGATATGCTCAAACAGCTTGCCCCCTACGGG TTTCATACTTTAAATGTCAAAATGCAGATCGAGCATCTGCTCATCAACTA TTTGGAATTGAAGAAAGAGAACGGGTGA >NMB1399 IS1106 transposase ATGATTGCCAAACACATCGACCGCTTCCCGCTATTGAAGTTGGACCGGGT GATTGATTGGCAGCTGATCGAACAATACCTGAACCGTCAAAAAACCCGTT ACCTTAGAGACCACCGCGGCCGTCCTGCCTATCCCCTGCTGTCCATGTTC AAAGCCGTCCTGCTCGGACAATGGCACAGCCTCTCCGATCCCGAACTCGA ACACAGCCTCATTACCCGCATCGATTTCAACCTGTTTTGCCGTTTTGACG AACTGAGCATCCCCGATTACAGCACCTTATGCCGCTACCGCAACCGGCTG GCGCAAGACAATACCCTGTCTGAACTGTTGGAACTGATTAACCGCCAACT GACCGAAAAAGGTTTAAAAATAGAGAAAGCATCCGCTGCCGTCGTTGACG CCACCATTATTCAGACCGCCGGCAGCAAACAGCGTCAGGCCATAGAAGTT GACGAAGAAGGACAAATCAGCGGTCAAACCACACCGAGTAAGGACAGCGA TGCCCGTTGGATAAAGAAAAACGGCCTCTACAAACTCGGTTACAAACAAC ATACCCGTACCGATGCAGAAGGCTATATCGAGAAACTGCACATTACCCCC GCCAATGCCCATGAGTGCAAACACCTGTCGCCGTTGTTGGAAGGACTGCC CAAAGGTACGACCGTCTATGCCGACAAAGGCTACGACAGTGCGGAAAACC GGCAACATCTGGAAGAACATCAGTTGCTGGACGGCATTATGCGCAAAGCC CACCGCAACCGTCCGCTGACGGAAGTGCAAACCAAACGCAACCGATATTT GTCGAAGACCCGTTATGTGGTTGAACAGAGCTTCGGTACGCTGCACCGTA AATTCCGCTACGCCCGGGCAGCCTATTTCGGACTGGTTAAAGTGAGTGCG CAAAGCCACCTGAAGGCGATGTGTTTGAACCTGTTGAAAGCCGCCAACAG GCTAAGTGCGCCCGCTGCCGCCTAA >NMB1099 transposase, IS30 family ATGAGCTACACGCAACTGACCCAAGGCGAACGATACCACATCCAATACCT GTCCCGCCACTGCACCGTCACCGAAATCGCCAAACAGCTGAACCGCCACA AAAGCACCATCAGCCGCGAAATCAGACGGCACCGCACCCAAGGGCAGCAA TACAGCGCCGAAAAAGCCCAGCGGCAAAGCCGGACTATCAAACAGCGTAA GCGACAACCCTATAAGCTCGATTCGCAGCTGATTCAGCACATCGACCCCC TTATCCGCCGCAAACTCAGTCCCGAACAAGTATGCGCCTACCTGTGCAAA CACCACCAGATCACGCTCCACCACAGCACCATTTACCGCTACCTTCGCCA AGACAAAAGCAACGGCAGCACGTTGTGGCAACATCTCAGAATATGCAGCA AACCCTACCGCAAACGCTACGGCAGCACATGGACCAGAGGCAAAGTACCC AACCGTGTCGGCATAGAAAACCGACCCGCTATCGTCGACCAGAAATCCCG TATCGGCGATTGGGAAGCCGACACCATTGTCGGCAAAGGACAGAAAAGCG CATTATTGACCTTGGTCGAACGCGTTACCCGCTACACCATCATCTGCAAA TTGGATAGCCTCAAAGCCGAAGACACTGCCCGGGCAGCTGTTAGGGCATT AAAGGCACATAAAGACAGGGTGCACACCATTACCATGGATAACGGCAAAG AGTTCTACCAACACACCAAAATAACCAAAGCATTGAAAGCGGAGACTTAT TTTTGTCGTCCTTACCATTCTTGGGAGAAAGGGCTGAATGAGAACACCAA CGGACTCATCCGGCAATACTTCCCCAAACAAACCGATTTCCGTAACATCA GTGATCGGGAGATACGCAGGGTTCAAGATGAGTTGAACCACCGACCAAGA AAAACACTTGGCTACGAAACGCCAAGTGTTTTATTCTTGAATCTGTTCCA ACCACTGGTACCTTAG >NMB2011 ATP-dependent RNA helicase HrpA, truncation ATGCAAAATATGAAAAACCAAGTACGCGGATCAGGCATGGATGCCCGATC CAATCCGGCCAATGTTTCAGACGGCCTGCAAAACAGTTCGGGTCATATCG GTACCAACACGCGTTACCGCCTGACCAAACTCGGCGAACAGATAGCGCGC CTACCCATCGACCCGAAAATCGCGCGCATTTTGCTGGCGGCGAAGAAACA CGACTGCATGGCGGAAATATTGGTGATTGCGTCCGCGCTGTCGATTCAAG ACCCGCGCGAGCGGCCGCTAGAAGCGCGCGATGCCTCAGCCAAGGCGCAC GAGCGTTTTACCGACAAGCAGTCCGATTTCCTTGCCTATCTGAACATTTG GGACAGCTTCCAGCGCGAACGCGATAAAGGCTTGTCCAACAAGCAGCTGG TGCAGTGGTGCCGCCAATATTTCCTGTCGCACCTGCGGATGCGCGAGTGG CGCGAGCTGCACCACCAGCTTGCCCAAACCGCGATTGAAATGGGTTTAAC CACCAAGGAAGCCGCTTTCAGACGACCTCCCGAAGTCAGGCAGCTCACGT CGTCTGAAAATGCGGGTGACCAAGACCTATCTGCTAAACTCAAACAAAAA CAACTGGATAAAAAGCAACACCGCGCCCAAATCCGCGCCGCCAAAGAAGC GGGCTACGAACAAATCCACCGCGCCCTGCTCACTGGCCTTATCGCCAACG TCGGCATGAAATCGCCCGACGGTAACGACTACACCGGCGCGCGCGGCAGC CGCTTCCACCTTTTCCCCGCCTCCGCCCTGTTCAAAGCCAAACCCAAATG GGTGATGGCGGCAGAATTGGTTGAAACCACGCGCCTTTACGCGCGCGACG TCGCCGTTATCCAGCCCGAATGGATAGAGCAGGAAGCGCCGCACCTCGTC CGCTATCATTATTTCGAGCCGCATTGGGAACAAAAACGCGGCGAAGTCGT CGCCAGCGAACGCGTGACGCTTTACGGTCTGACCGTATTGCCGCGCCGCC CCGTGTCTTACGGCAAAGTTGCCCCCGAAGAAGCGCGCGAAATCTTTATC CGCAGCGCGTTGGTGGCGCAGGAATGCGATTTGAAAGCGGATTTTTTTGT CCACAACAAAAAGCTGATTAAAGAAATTACCGAACTCGAACACAAATCGC GCAAGCAAGACGTGCTGGTCGATGACGAAGCCCTGTTTGCGTTTTATAAC GAACGACTGCCCGAAATGGCTTGGAAAGACGCGCAAGGCAGCGTTTGGGG AAGTGAAGATTCCGTACGGATTATTGAATCTGACAAAGCCGAGAGGTCGT CTGAAAATGAGCGCAACGAGTTTCGTAAAAACAAGCGTAATGGGTCTCGC CAAAATGAAAATCACGGCAACACCGTAGGTTGGGTTGAAAACCCAACATC AGCCGCAACTGCAAAAACTGTTGGGTTTGACAATCCAACCTACGCTGCCC AACAAACCACCCCCTCCCCCGTGGGGGAGGGTCGGGGAGAGGGCAAAACA GTTGCCGCACAAACCAACTTTTCCGCAACCGCAGCAAACCCTCTCCCTAA CCCTCTCCCGCAGGAGAGGGAACAGAGTGCCGCAGCTTCAACGATTTCAG ACGACCTGCGTCCTGCAAATCTGCAGCAAACCGCCCCCTCCCCCGTGGGG GAGGGCTGGGGAGAGGGCAAAACAGTTGCCACACAAACCAACTTTTCCGC AACCTCAACAAACCCTCTCCCGCAGGAGAGGGAACAGAGTGCCTCAGCTT CAACGTTTTCAGACGACCTGCGTCCTGCAAATCTGCAGCAACCCTCTCCC TCCCCCGTGGGGGAGGGCTGGGGAGAGGGCAAAACAGTTGCCACACAAAC CAACTTTTCCGCAACCTCAACACTTTCAGACGACTCCAAACCCAAAAAGC AGCCTGCACCCCAAAAAAACCGTCTGAAACCCCTACCCCTCGCCGACATC CGCACCTTCCAAGCCTGGCTCAAAACCGCCGAGCGCGACAATCCGCGCCT GCTGTTCCTCAGCCGCGACGATCTGATGCAACACGCCGCCGCACACATTA CCGAAGAACAGTTCCCCAAATTCTGGCAAACCGCAGACGGCAAATTCAAA CTTTCCTACCGCTTCGAGCCGCACCATCCGCTAGACGGCGTGACCATGAC CGTGCCGCTGACCGTCCTCAACCGCCTGCACGCGCCGTCGCTCGAATGGC TGGTGCCCGGCATGATACGCGAAAAAATCCAGTTGCAAATCAAAGCACTG CCCAAGCAAATCCGCCGCATCTGCGTGCCCGTGCCCGAATTCATCACCCA ATTTTTAAGCCAAAACCCCGACCGCAACGCCCCCATCCTGCCCCAACTCG CCCAAGCCATCGCCAAAACCGCAGGCGACATCCGCATATTCGAGCAAATC AACCAAGACGAATGGGCCGCGTTCAGGCTGCCCGAACACTGCTATTTCAA CCTCCGCATTATCGACGACGGCGGACAAGAGCTTGCCGGCGGCCGCAAAC TGCACGAATTGCAACAACAACTCGGTCAAGCTGCCGCCGTTACCTTCCGT GACAACACCCAAGAATTTGAGCGCGACAACGTCACCGCATGGGACATCGG CACCCTGCCCGAATCCATCAAATTCGCACGCGGCAAACAACAGCTCACCG GCTATCTCGGCCTACAAAAAGAAAAAGACGGCCGCATCGCCCTGCGCCTG TTTGATACCACAGAAGCCGCAGAGCAGGCACACCGTCAAGGTGTCATCGA ATTGATGAAGCTGCAATTAAAAGAGCAGGTAAAGGATTTGAACAAAGGCA TCCAAGGCTTCACCCAAGCTGCCATGCTGCTCAAACACATCAACGCCGAC ACTCTGCGCGACGACCTCACCCAAGCCGTCTGCGACCGCGCCTTTATCGG CGAAGACGAGCTGCCGCGCAACGAAAAAGCCTTCAAAGAACAAATCAAAC GCGCCCGCAGCCGCCTGCCCGCCGTCAAAGAAGCCCTCAGCCGCTACCTG CAGGAAACCGCCGCCGTCTACGCCGAACTCAACAGCAAACTCGGCAAACA CCCATTGACCCACCTTCTAAGACTACGCCTGCAAACCCTGCTCGCCGCCG GCTTCGCCACCCGAACCCCGTGGGCACAATGGCCGCGCCTCCCCATCTAC CTCAAAGCCATGACCCTGCGCCTCGAAAAATACAGCAGCAACCCCGCCCG CGACGCAGCCCGCGAAGCCGATATCCAAGAGCTGGAACAAATGTGGCAGG AAAAAACAGACAGCCTGATTAAACAAGGTCTCCCCATTTCAGACGGCCTC GCCGCGTTTAAATGGATGATTGAAGAATTGAGGGTGTCGCTGTTCGCGCA GGAATTGAAGACACCGTATCCGGTGTCGGTGAAGCGGCTGTTGAAAGAGT GGGAAAAAATTGAAAAATAA >NMB0522 transposase, truncated TTGCGAAAATACAACGGAATCGATCGTAAATCTTTCCCGCTGTTCTTGAA AGAATGCGAATTTCGATTTAACTTCGGCACACCGTCTCAACAGCTTAAAA TCCTGCGGGATTGGTGTGGGATTTAG >NMB2089 conserved hypothetical protein ATGCGCCTAAACCACAAACAGGGCGAGGCAGGGGAAGATGCCGCGCTTGC CTTCCTCCAATCCCAAGGCTGCACGCTGCTTGCCCGCAACTGGCACTGCG CCTACGGCGAAATCGACCTGATTGTCAAAAACGGCGGCATGATTCTGTTT GTTGAAGTAAAATACCGCAAAAATCGGCAATTCGGCGGTGTCGCATACAG CATTTCCCCATCCAAATTATTGAAACTGCAACGAAGTGTAGAGTATTATC TGCAACAGAACAGGTTGACAAACGTACCGTGCCGCCTCGATGCGGTACTT ATCGAAGGCAGCCGCCCGCCCGAGTGGATACAGAATATTACAGGTTGA >NMB0969 hypothetical protein TTGTTGCCAATTATCCGAAAGAAAGTTAAGCCTGATGGCATTGTATACAC GGATACCTTTCGTAGTTATGATGTGCTTGATATTAGTGAATTTAGCCATT TACGTAAGTTTAACGGCATTCCCAAAGAGCATTTGGGGCTGCATTTAAAG AAATGCCAATGGCATTTTAAATAG >NMB1064 conserved hypothetical protein GTGGATTTGAGGGAAGTAAAATTAGGCGGCGAAACCATTTACGAGGGCGG TTTCGTCAGTATCAGCAGGGATAAGGTCAGGTTGCCCAACGGCAATGAAG GGCAGCGTATCGTCATCCGCCATCCGGGTGCGGCATGCGTGTTGGCGGTT ACGGACGAAGGGAAAGTGGTTTTGGTGCGGCAGTGGCGTTATGCGGCAAA TCAGGCGACATTGGAACTTCCTGCGGGCAAGCTGGATGTGGCGGGCGAGG ATATGGCAGCGTGTGCGCTGCGAGAATTGGCGGAGGAAACACCTTATACC GCCGACAGCGTACGCCTGCTTTACAGTTTTTATACGGCGGTCGGTTTTTG CAACGAAAAAATGTATCTGTTCGAAGCGGAAGGCGTGCGTTTGGGCAGTA CGCTTGCCAATGACGAAGACGAGATTACGGAAACCGTATTGATGTCGAAA GAAGAAGTCCGTCAGGCATTGGCAAACGATGAAATTAAAGACGGCAAGAC ATTAATCGGTTTGCAATACTGGTTGATGAAGGATTGA >NMB1568 putative DNA polymerase holoenzyme chi subunit ATGCCGAAAGCCACCTTTTACACGCACGTTGCCCAAGTTCCGATTTTCAC CTGCCGCCTGATTGCCCGTGCGATTCGGGACGGCGGCAGGATACTGGTGT GGTCCGATTCGTTCGGGCAGCTTCAGGAATTGGACAAAATGCTTTGGCAA TACGAGGCCGAGAGTTTCATTCCGCACGAAATTTGGGAAACGGAAGAAGC CATGCCGTCTGAACCATCCGTCCTGCTTGCCTGCGGCGGCAATCTGCCCC GAATTCCCGAAGGCATGACCGTTTTGAACCTGTCCGACGGTTTTTGGAAC ACCGCTCCGGTCTTGCCCGCGCGCGTTTTGGAAATCGTCGGCAACAGCTT GGAAGAGCTCGCCGACGCGCGCGAACGCTTTACCGCCTACCGCCGAAGCG GTTTTGCCATCGAACATCACGGCATGGAGGGCAAGGCATAA >NMB0248 conserved hypothetical protein TTGGCAAACGGTAAAAATGGAACACTCTATATCGGTGTTACCATGAATTT GCCGGAAAGGGTTTGGCAGCACAAAAACCATGTCAATATTGATGGCTTTA CTGCCCGATATGATGTGCATGATTTAGTTTGGTATCAGTTTTTTGAGAAT ATGCCTGAAGCAGTTGCCAAAGAAAAAACGATGAAAAAATGGCGACGTGA ATGGAAGATTAAACTGATTGAAGAACAAAATACTGAATGA >NMB1749 conserved hypothetical protein ATGATTTATCTGTTTACAGGAAACATGGGGACAGGCAAAACCTCCCGCGT CGTCTCTATGATTTTGAACAACGAAGACGGATTGTTCAAAATGAAATTGG AAGACGGCACAGAGGTAGACAGACCGCTTTATTTCTGCCATATCGACGGA TTGGATAAACGGCAGTTTAAAGCCCACGAACTGACGGAAGAGCAAATCAT GTCCGCCCCGCTTCGTGATGTCATACCGGAAGGCGCAGTGCTGATTGTTG ACGAAGCGCACTACACTTATCCGGTACGCGCGGCAGGCCGTCCCGTTCCG CCTTATATTCAGGAACTGACAGAACTCCGCCATCACGGGCATACCGTTAT TTTGATGACGCAGCACCCGAGCCAACTTGATATATTCGTCCGCAACCTTG TTTCAAAGCATGTACACCTTGAACGCAAGGCAATCGGAATGAAACAGTAT TATTGGTATAAATGCGTAACCTCGTTGGACAATCCCGCAGGCGTAAGCGG CGTAGAAGTCGCAAGTTGGAAACCGCCGAAAGAAGCCTTTAAATACTATA AATCAGCAAGCCAGCACCAAAAGTTCAAGAAAAAAGTACCTTGGGCGGTT TGGGCGTTGATTGCGATTGTAGGGTTTGTAGGCTGGAAAAGTTACGGCAT TTTTAAAGTTTACAGCAAAGCCACAGACAGCCGGATTGAGCAGGAAGCGC AAAAAGAAAGCGTTGTGCAGACGATGACGGAGCAGCCTGCATCATCAGAG GAAATGCCTTTAAAAAATTCAGACAATTTGAAACCTGAAGACTTTGTGCC GACTTTACCCGAAAAGCCCGAAAGCAAGCCTATTTATAACACAGTCCGAC AAGTAAAAACCTTTGAGCAAATCGCCGGATGTATAGACGGCGGAAAATCA GATTGCACATGCTATTCAAATCAAGGAACACCCTTGAAAGAAATAACAAA GATAATGTGTAAAGAATATGTGAAAAACGGGTTGCCTTTCAATCCTTATA AGGACGAACAGCAAAGGACGGAACAGGTGGAACAGTCCGCGAAAGCGGAC AAGCCGCAAGTTCTCGTAATGGGCGGAAAGCCGTAG >NMB0494 DNA helicase, truncation ATGAACGATTACACAGCCATGCCGTCTGAAGACGGAGGAATCGGCTCATT ATCGCTTCCGCCGCACTCAATGGAGGCGGAACAATCCGTTTTGGGCGGGT TGATGCTGGAAAATCCGGCTTGGGACAGGATTGCCGATGTGGTTTCGGGA GAGGATTTCTACCGCCACGAACACCGCCTGATTTTCCGATCCATTGCCAA ACTGATCAATGAGAGCCGTCCTGCCGATGTCATCACGGTTCAGGAAGATT TGCAGCGGAACGAAGAGCTGGAAGCGGCGGGGGGATTCGAATATCTGATT ACGCTGGCGCAAAATACTCCGTCTGCCGCCAACATCCGGCGCCATGCCGA AATCGTGCGCGAGCGTTCCATTATGCGCCAACTCGCCGAAGTGGGAACGG AAATTGCCCGCAGCGCCATACCCAAAATATCGGCAGCGGAACGGGCGGTA GCTTGGAGTACGAAAAATTCAAGCAGTTTCTTTTGA >NMB0495 replication protein GTGCTGCTGACGCTGCATGGAACGGATAAGTTCTGCATCGTTAATAATTT CCATACCAACCGTAATACGGCGTATAAGGCTTTGAAAGATGCCTGTAACA ACCTTTTTGAACGCCAATTCAGTTTTATCGAAAAAACACCAAAAGGGGAA AAGGTAGTACGGACAAGGTGGGTATCTCAAGTCGCCTATATTGAACAACA GGCAACGGTAGAGTTAGTTTTTGCACCAAATGTTGCCCCTTTGATTACGA TGCTAGAAAAAAACTTCACAAGCTACGAGCTTGATCAGGTCTCATCGTTG AGCAGTAAATACGCGGTGCGGCTCTACGAAATTATTATTTCATGGCGTGC AGCCGGTAAGACACCGATGTTCAGTACAATGGAGTTGCGCGAACGTTTGG GTATGATGCCTGACGAGTATCAAAAAATGGAGCTATTCAAACGTAAGGTT TTGGATTTCGCCGTCAAGCAGATCAATGATAAAACGGATATTTCCATTAC CTACGAGCAGCATAAAGAAGGACGAAAAATTGTAGGTTTTACATTCTCAA TCCTACATAAAATAGGGTCGAAAGACATCCCTCTTGAAAATCAATCGGAA CTTTTTGCCGGAATGACTGATTTGGAAGCCGGAACGATACGGGTCAGGGC GGAAGCATATATCGCTTCGCTCATTGCAAAAGGTCAGAACGTGACTAAAG CCCATAGGCTGAATATTCTGAAAAAAGCCGTAGAGGAACGTTGGGGATTT GAAGATGTGGCTAAAGATAATGGGGCCAAAAATCCTGAAAACAAAAATGC AAAAGTCGTTTTAAACGAATGGGAAAAGATTTCTAATGGCACACGTTTTA AGGACAAGGATGGAACAATTTGGGTTAAAGATTCAGGTATGCTTAGGACT GAAGGGACAAACAGGTGGATAGCCGATTCTCAGATTGCCAAATTATTTCC TATGTTAACTGTGATGGTTGAGGAAGGTATTTAA >NMB0727 N-6 adenine-specific DNA methylase ATGATAACTATTTCAAATGAAGATAACATGATCTTAATGTCTCGGTATCC TGACAAGTATTTTGATTTGGCAATTGTAGATCCTCCTTATGGGATTTTGA ATAAAACTAAACGTGGTGGTGATTATAAATTCAATATGAATGAATACTCA CAATGGGATATTAAGCCAGACCAAACTTACTTTAATGAATTATTTCGCGT GTCAAAAAATCAAATTATTTGGGGTGGGAATTATTTTGGCGAGTTATGGT TGAGAAGTGAATATAATAAAGGATTTATTATTTGGGATAAGAATCAACCA GAGACATTAAATAATTTTTCTATGGCGGAAATGGCTTGGTCGTCATTCGA TAGGCCATCTAAAATTTTCCGGTTTAGTGTGCGGAAAAATCGTAATAAAA CTCACCCAACACAAAAACCAGTCGAATTATATCAGTGGTTGTTAAAAATG TATGCAAAGCAGGGTGATAAGATTTTAGATACACATTTAGGAAGTGGAAC TCTTGCTATTGCATGCTGCATTGCACAGTTTGATTTGACAGCTTGTGAAA TCAATTCCGATTATTACCAACAATCGATTGAGAAAATAAAAAATAATTTA CCTGAAGCTAGAATCAGTTTTGGGCATCCAGGTTATTGTATTATTGAATA A >NMB0077 site-specific DNA methylase, truncation GTGAAAATGAATAAGCAATATCCGAAAATTAACTATATCGGTAATAAAGA GAAAATAGCTTCCTGGATTTGTGACCAGCTTCCGTCTGATGTAGATACAG TTGCAGATGTATTTAGTGGAGGCTGTTCCTTTGCCTACGAAGCCAAAAAA CGCGGCTATCGTGTGATTACTAACGATATTTTGGCAATTAATTACCAAAT TGCTTTAGCATTAATAGAAAACAACCATGAAACATTAAATGACGATGATG TCGCAATGATTTTTTCAGGCAGCCCGCATGCCGGTTTTATGAGTCAGCGT TATGCCGAAAAATTCTATTTTCACGATGAATACCAACAACTTGATTTGTA A >NMB1683 MutT/nudix family protein GTGTTGGACAGGGAAGGCTATCGCCCCAATGTCGGTATCATCTTAATCAA CAACCGCAACGAAGTCTTTTGGGGTAAGCGCGTGCGCGAACATTCTTGGC AGTTTCCGCAAGGCGGCATCAAGCCGGGCGAAAGCCCCGAAACCGCCATG TACCGCGAGTTGTACGAAGAAGTCGGGCTTTTGCCGCAACACGTCAAAAT TATCGGCCGCACGCGCGACTGGCTGCGTTATGACGTGCCGAACAACTGGG TACGCCGCGAATGGCGCGGCTCTTATCGCGGACAGAAGCAGATTTGGTAT CTCCTGCGCCTGACCGGCCGAGATTGCGATGTCAACCTGCGCGCCACCCG CCACCCCGAATTTGACGGCTGGCGTTGGCATCAATATTGGGCACCCGTTG ACGAAGTGATTGATTTCAAACGCGACGTTTATTTGGGGGCGTTGAAAGAA CTCTCTTCCCGCTTCCTGCGCGGTATGGAAAGTTATGAAGACTTTGCCGC CCGCCAATCTTCCGACAACCGCTAA >NMB1420 putative factor-for-inversion stimulation protein Fis ATGCCCCATACCCTTCCCGATATTTCCCAATGCATCAGACAAAATTTAGA ACAATATTTCAAAGACCTGAACGGTACCGAACCTTGCGGCGTGTACGATA TGGTATTGCATCAGGTGGAAAAACCGCTGCTGGTGTGCGTGATGGAGCAA TGCGGCGGCAACCAGTCCAAAGCATCCGTGATGCTGGGGCTGAACCGCAA TACCCTGCGTAAGAAGCTGATTCAACACGGTTTGTTGTGA >NMB1076 DnaA-related protein GTGAACCAGCTTATTTTCGACTTTGCCGCACACGACTATCCGAGTTTCGA CAAATTCCTCGGCACGGAAAACGCGGAACTGGTCTATGTCCTCCGACACA AACACGGACAGTTTATCTATGTCTGGGGTGAAGAAGGCGCGGGCAAAAGC CATCTTTTGCAGGCGTGGGTCGCACAGGCGCTCGAAGCCGGCAAAAACGC CGCCTATATCGATGCCGCCTCCATGCCGCTGACCGATGCCGCGTTCGAGG CGGAATACCTCGCCGTCGATCAAGTCGAAAAACTGGGCAACGAAGAACAA GCCCTGCTTTTTTCCATCTTCAACCGCTTCCGCAACAGCGGCAAAGGCTT TTTGCTGCTCGGTTCGGAATACACGCCCCAGCAGCTTGTCATCCGCGAAG ATTTGCGGACGCGTATGGCGTACTGCCTCGTTTACGAAGTCAAACCCTTA ACCGACCAAGAAAAAATCGACGCGCTCGCCAGTATGGCGGCGGCACGCCA AGTAACCGTCGATTCCGAAATTTTCGAATACCTGCTCAAACACTGGCGGC GCGATATGGACAGCCTGATGATGATGCTCGACACGCTGGACAACTACGCC GTCACGATGGGCAAACGCATCACCCTGCCGCTTTTGCGCCAGCTTTTGAA ACAACAGGAAACCCAATGA >NMB0991 IS1106 transposase ATGAGCACCTTCTTCCGGCAAACCGCGCAAGCCATGATTGCCAAACACAT CAACCGTTTCCCGCTATTGAAGTTGGACCAAGTGATTGATTGGCAGCCGA TCGAGCAGTACCTGAACCGTCAAAAAACCCGTTACCTCCGAGACCACCGC GGCCGTCCCGCCTATCCCCTGCTATCCATGTTCAAAGCCGTCCTGCTCGG ACAATGGCACAGCCTCTCCGATCCCGAACTCGAACACAGCCTCATCACCC GCATCGATTTCAACCTGTTTTGCCGTTTTGACGAACTGAGCATCCCCGAT TACAGCACCTTATGCCGCTACCGCAACTGGCTGGCGCAAGACGACACCCT GTCCGAACTGTTGGAACTGATTAACTGCCAACTGACCGAAAAAGGCTTAA AAGTAGAGAAAGCATCCGCCGCCGTCATTGACGCCACCATTATTCAGACC GCCGGCAGCGAACAGCGTCAGGCCATAGAAGTCGATGAAGAAGGACAAAT CAGCGGCCAAACCACACCGAGTAAGGACAGCGATGCCCGTTGGATCAAGA AAAACGGCCTCTACAAACTCGGTTACAAACAACATACCCGTACCGATGCG GAAGGCTATATCGAGAAACTGCACATCACCCCCGCCAATGCCCATGAGTG CAAACACCTGTCGCCGTTGTTGGAAGGGTTACCCGAAGGTACGACCGTCT ATGCCGATAAAGGCTATGACAGTGCGGAAAACCGGCAACATCTGGAAGAA CATCAGTTGTTGGACGGCATTATGAGCAAAGCCTGCCGCAACCGCCCGCT GTCGGAAGTGCAAACCAAGCGTAACCGATATTTATCGAAGACCCGTTATA GTGGATTAAATTTAAATCAGGACAAGGCGACGAAGCCGCAGACAGTACAA ATAGTACGGCAAGGCGAGGCAACGCCGTACTGGTTTAAATTTAATCCACT ATATGTGGTCGAACAGAGCTTCGGTACGCTGCACCGTAAATTCCGCTATG CGCGGGCAGCCTATTTCGGACTGATTAAAGTGAGTGCGCAAAGCCACCTG AAGGCGATGTGTTTGAACCTGTTGAAAGCGGCCAACAGGTTAAGTGCGCC CGCTGCCGCCTAA >NMB1411 IS1016C2 transposase ATGAAGATAACGCACTGCAAATTAAAGAAAAAAGTACAGAAAGAACTGCT CCGTTTTTTTGTGCTGGAAGTTACCGCCCGTTCTGCCGCCGATATTTTGG GTATCCATCCCAATTCGGCAGTACTGTTCTACCGTAAAATCCGCACGGTT ATCAACCATCATTTGGCCTTGGCTGCCGATGAGGTTTTTGAGGGCCCTGT CGAGCCGGACGAAAGCGATTTCGGCGGACGGCGTAAAGGCAGACGTGGTC GCGGTGCGGCAGGAAAAGTGGTTGTCTTCGGCATTCTGAAACGCAACGGA CGGGGCTATACCGTTGTCGTAGATAATGCCAAGTCTGAAACGTTACTCCC TGTCATCAAAAAGAAAATCATGCCGGACAGTATTGTTTATACCGATAGTC TGAGCAGCTGCGACAAGTTGGACGTGAGCGGTTTTATCCATTACCGCATC AACCATTCCAAGGAATTTGCAGACCGTCAGAACCACATTAACGGCATTGA GAATTTTTGGAATCAGGCAAAACGCGTCTTGCGAAAATACAACGGAATCG ATCGTAAATCTTTCCCGCTGTTCTTGAAAGAATGCGAATTTCGATTTAAC TTCGGCACACCGTCTCAACAGCTTAAAATCCTGCGGGATTGGTGTGGAAT TTAG >NMB1422 putative ATP-dependent RNA helicase ATGAGTAATCCATTTTCCTCTTTAGGTTTGGGTACGGAACTCGTTTCCGC ACTGACCGCGCAAGGTTACGAAAACCCGACGCCCATCCAAGCCGCCGCCA TTCCCAAAGCACTCGCCGGTCATGATTTGCTAGCCGCCGCGCAAACCGGC ACAGGCAAAACCGCCGCCTTTATGCTGCCCAGTCTGGAACGCCTCAAACG TTACGCCACCGCCAGCACCTCGCCCGCGATGCACCCCGTGCGTATGCTCG TCCTCACCCCCACGCGCGAACTTGCCGACCAAATCGACCAAAACGTGCAG GGCTACATCAAAAACCTGCCGCTGCGCCACACCGTCTTGTTCGGCGGTAT GAATATGGACAAACAGACCGCCGACCTGCGTGCCGGCTGCGAAATCGTCG TCGCCACCGTCGGACGGCTGCTCGACCACGTGAAACAGAAAAACATCCAT TTGAACAAAGTCGAAATCGTCGTTTTGGACGAAGCCGACCGTATGCTGGA TATGGGTTTTATCGACGACATCCGCAAAATCATGCAGATGCTGCCCCGCC AACGCCAAACCCTGCTCTTTTCCGCCACCTTCTCCGCCCCGATACGCAAA CTGGCGCAAGACTTCATGAACGCGCCCGAAACCGTCGAAGTCGCCGCGCA AAACACCACCAACGCCAACGTCGAGCAGCACATCATCGCCGTCGATACCA TTCAGAAGCGCAACCTGCTCGAACGGCTGATTGTCGATTTGCATATGAAC CAGGTCATCGTGTTCTGCAAAACCAAACAAAGCGTCGACCGCGTAACGCG CGAACTGGTGCGCCGCAACCTGTCCGCACAGGCGATACACGGCGACCGTT CCCAACAAAGCCGGCTCGAAACACTCAACGCCTTCAAAGACGGCAACCTG CGCGTCCTCGTCGCCACCGACATCGCCGCGCGCGGGCTGGACATTGCCGA ACTGCCCTTCGTCATCAATTACGAAATGCCCGCCCAGCCCGAAGACTACG TCCACCGCATCGGGCGCACGGGGCGCGCGGGCGCGGACGGCGTGGCGATT TCCCTGATGGACGAATCCGAACAGAAAATGTTTGAATCCATTAAAGAGCT GACCGGCAACAAGCTGCTCATCGAGCGCATCGAGGGCTTCGAGCCGCAAT GGTGGGAACAGGGCGGCGCAAAACCGGAAAAACCCGAAATGCGCGAACCG AGACAACGCAACCGCTACGAATCCGCCAAAGCGCAACGCGAAAAAAACAC CCGGCCGGAAAATGCGGCAAACGATGCGGGCGCGGCTTGCGGAAAAATTG CCGGACGCAGCCGCCGAAGCCGCCGGGAACACCGGACGTGCGCCCTGCTC CAACCGCGTTACGGCGTAAAATAG >NMB1258 conserved hypothetical protein ATGACCGATTTGTTTGCCCGAGAACCCGACGCGCCGCTTGCCGAACGATT GCGTCCGCATACGCTTGACGACGTGGTGGGGCAGGAACACCTCATCGGCG AAGGTAAACCTTTGCGCGTGGCGGTAGAAGGCGGCAAGCCGCATTCTATG TTGCTGTGGGGGCCGCCGGGCGTGGGCAAGACGACGTTGGCGCGGATTTT GGCGCAGAGTTTCAACGCCCAGTTTTTGCCTGTTTCCGCCGTATTTTCCG GCGTGAAGGACATCCGCGAGGCAATCGATAAAGCCGAAATCGCTTTGCAG CAGGGACGCGCGACGATTTTGTTTGTCGATGAAGTCCACCGCTTCAACAA GGCGCAGCAGGACGCGTTTTTGCCGCATGTCGAAAGCGGTTTGCTAACCT TTATTGGTGCGACGACGGAAAATCCGTCGTTTGAAGTCAATCCCGCGCTG TTGAGCCGCGCTCAGGTGTATGTTTTGCAACCCTTGTCTTCAGACGACCT GAAAAAGCTGATTGCCAAGGTATTGGCTTTGCCTGAATACCAAGAGTTTA CGATTGAAACGGATGCGCAAAAATTACTCGTGAATACCGCCGACGGTGAT GCGCGCAGATTGTTGAATTTGTTGGAACAACTTTTACGCGCCGCCGATAC ACGTCGTCTGAAAAACTTAACCGCCGAATTTCTCGCCGACAGTCTCGGGG CGCAAATCCGCCGTTTCGACAAAGGCGGCGAGAGTTTCTACAACCAAATC TCCGCCCTGCACAAATCCGTGCGCGGTTCGCATCCGAACGCCGCGCTGTA TTGGTTCTGCCGTATGCTCGACGGCGGCACCGACCCGCGCTACCTCGCCC GCCGCATCGTGCGTATCGCTTGGGAAGACATCGGGCTTGCCGACCCGCGC GCCTTCCAAATCGCCAACGATGCCGCCGCCACCTTCGAACGCTTAGGCTC GCCCGAAGGCGAACTGGCTTTGGCGCAAGCGGTATTGTATCTTGCCGCCG CCGCGAAATCCAACGCGGGCTACAAGGCATACAACCAAATGCGCCACTTC GTCAAAGAAAACGCTAGCGACGAAGTGCCCGTCCACCTGCGCAACGCCCC GACCAAGCTGATGAAGGAATTGGGCTACGGACGCGAATACCGCTACGCCC ACGACGAACCGAACGCCTACTCCGCCGGCGAAAGCTATATGCCCGACGGC TTGGACGAACCGGACTTCTACCAACCCGTCCCGCGCGGGTTGGAAATCAA AATCGGCGAAAAGCTGGAATGGTTGAAATCGCTGGACGAAGAAGTATTAA AGGCAAAATGA >NMB0287 dinG, probable ATP-dependent helicase DinG ATGCTCACCGATTTAGAAAAAAACGCCATCCGCGACCATTACCAAAACAT CGGCAAAAACCTGCCCGGTTTCCGTCCGCGTGCTTCGCAGCGGGAAATGA TTGCGGCGGTTGCCAACGCTTTTTCGCGGACGTTGGCGCGCGAAGAAGGC GGCGAGCCGCCCAAGCGCGAAGGCGAGAGCATTGCCGTGATCGAAGGGCC GACCGGCGTGGGCAAATCGTTGGCCTACCTTTTGGCCGGCGGCATCATGG CGCAAACACGCGGCAAGCGGCTGATTGTGAGCAGCGCGACGGTTGCCTTG CAGGAGCAGTTGGTAGACCGCGACCTGCCGTTTCTGGTCGAAAAAAGCGG TTTGGAACTGACCTTCGCACTTGCCAAAGGGCGCGGCCGCTATCTCTGCC CCTACAAACTCTATCGACTGACGCAAAGCAATGCCCAGCAAAACCTGCTC GGCTTTGAAGCCCCCGCCGTCTTGTGGGACAGCAAACCCAAGCCCGAAGA ATTGAAGCTGCTGCGCGACATCGCCGACGAATTTTCCGCCCGACGGTTCA ACGGCGACCGCGACACTTGGCCGGAAAAAATCGATGACGCGATTTGGCTC AAAGTGACCAACGACCGCCACGGCTGCCTGAAAACCGCCTGTCCCAACCG TCCGGAATGTCCGTTTTACCTAGCACGCGATGTCTTGGAAACCGTCGATG TCGTCGTTGCCAACCACGATCTTCTGCTTGCCGACATCAGTATGGGCGGC GGCGTGATTCTGCCTGCGCCCGAAAACAGTTTCTATTGCATCGACGAAGC GCACCACCTGCCCAAAAAAGCCCTCAGCCGTTTTGCCGCCGAACATTCAT GGAATATTGCCGTTTGGACGCTGGAAAAACTGCCGCAGCTGACCGGCAAA ATTGCCGCGCTGACCGATAAAGCCGAACTTGCCAACCTAGCCGACGAAGC CGCCGCATCCTTGCTCGACAGCCTGCATGAATGGCAATTCCATTTGGCGG AAGAGCCGTCTTTAAGTCTGGGGGTGTCTGAAAACGACAGACGAACCAAC AGCGAACCGACTTGGCTGTGGGAAGACGGCAAAATCCCCGAAGGCCTCGA AACCACCGTTTCCAATACGGCCATTGCTGCGCGCAGCCTGCTCAAACACG TTATCGGGCTGAACGATGCGCTTTCTGCCGCACGCCGCGAAAAAGAACAG GACGGCGCGCTCCTCGACCGCCTGACCAGCGAGTTCGGTCTTTTTATCGC CCGTATCGAACAAATCAGCGCGGTTTGGGATTTGCTCTCCACTGTCCCCC TCGAGGGTGAAGAACCGTTGGCGAAATGGATAACCCGCCGCGCCGACGAC AAAAACGACTACATTTTCAACGCCAGCCCCATCAGCAGCGCATCCCACCT TGCCAACAGCCTGTGGCGGCGTGCGGCAGGCGCGGTATTGACTTCCGCCA CCCTGCAATCCTTGGGCAACTTCAACCTGATGCTGCGCCAAACCGGGCTG CAATGGCTGCCCGAAACCACCACCCTCGCCCTCAAAAGCCCCTTTGACTT TGAAAAACAGGGCGAACTCTACATCCCCCCCATATACGCCAGCCCCAAAG ACCCCGAAGCCCACACCGCCGCCGTCATCGAATGGCTGCCCAAGCTTATT TCGCCCACCGAAGCCATCGGCACGCTCGTCTTGTTTTCCTCGCGCAAACA AATGCAGGATGTCGCCCTGCGCCTGCCCGGAGACTACCTGCCGCTCTTGC TCGTACAAGGCGAATTACCCAAAGCCGTCCTCCTGCAAAAACACCACCGG GCCATAGAAGAAGGCAAAGCCAGCATCATCTTCGGACTCGACAGCTTTGC CGAAGGACTCGACCTGCCCGGCACCGCCTGCGTGCAAGTCATCATCGCCA AACTTCCCTTCGCCATGCCCGACAACCCCATCGAAAAAACCCAAAACCGC TGGATAGAACAGCGCGGCGGCAACCCCTTCATCGAAATCACCGTCCCCGA AGCCGGCATCAAACTCATCCAGGCCGTCGGCCGCCTCATCCGCACCGAAC AAGACTACGGCCGCGTAACCATCCTCGACAACCGCATCAAAACACAGCGG TACGGCCAACAATTATTGGCCGGCCTGCCGCCGTTTAAAAGGATAGGGTA A >NMB1448 dinP, DNA-damage-inducible protein P ATGTCTTCACGCAAAATTATCCACATCGACATGGACGCATTCTACGCATC GGTAGAGCTGCGCGAACAGCCGCATTTGAAAGGGCGGCCGGTGGTCGTCG CGTGGGAGGGCGCGCGTTCGGTGATTTGCGCCGCATCGTATGAGGCACGG CAGTTCGGGCTGCATTCCGCGATGTCGGTGGCAACGGCGAAAAGGCTGTG TCCGCAAGCGGTGTATGTGCCGCCGCATTTCGATTTGTACCGTCAGGTTT CCGCGCAGATTCACGCCGTATTCAGGCGTTATACCGATTTAATCGAACCC TTGTCGCTGGACGAAGCCTATCTTGACGTTACCCGTAATTTCAAAAACAT CCCTTACGCCGGCGACGTTGCCAAAGAAATCCGTGCCGCCATTTTTGCGG AAACAGGTTTGACTGCATCCGCAGGCATCGCGCCGAACAAATTTCTGGCG AAAATCGCGTCGGACTGGCGCAAGCCGAACGGGCAGTTTGTGTTGCCGCC GCACAAAGTCATGGCATTTTTGGAAACCCTGCCTTTGGGCAAAATCCCCG GCGTGGGCAAGGTAACGCTGAAAAAAATGCAGTCGCTGGGTATGCGGACG GCGGGCGACTTGCGCCGTTTCGAGCGCGGCGAACTCTTAAACCATTTCGG ACGCTACGGATACCGCCTCTATGATTTGGTGCGCGGTACGGACGAACGCC CCGTCAAAGCCGAACGCGAACGCCTCCAAATCTCCACAGAAATTACCCTG CCCGAAGACCTGCCGCTCGAGCAGGCTGCCGGACACCTCCCCCATCTTGC CGAAGACTTGTGGCGGCAAATCACGCGCAAAAACGTCGAAGCCCAAAGCG TAACGCTCAAGCTGAAGACCTACGATTTCCGCATCATCACGCGCACACTG ACTTATTCCTCCGTATTGCCCGACTGCGCACTCTGCTGCAGGCTGCGCAA ATGTTGA >NMB1903 dnaA, chromosomal replication initiator protein DnaA ATGACATTAGCAGAGTTTTGGCCGCTGTGCCTCCGCCGTCTTCACGATAT GTTGCCTCAAGGGCAGTTTGCGCAATGGATTGCGCCCCTTACCGTTGGTG AGGAGGGTGGCGTATGGGTGGTGTACGGCAAGAACCAGTTTGCCTGCAAT ATGCTCAAGAGCCAGTTTGCCGGAAAAATAGAAGCGGTGAGGGAAGAGTT GGCTGCCGGCCGTTCCGCCTTCGTATTCAAACCGGGAGAAGGCGTGCGTT ATGAGATGGCGGCGGTTGAAGGTGCTGTCGAACCTGCCGAGCCGTCCTTG CATGCGGTGTCGGAGGGAATGCCCGTGCAGGAGGTTCTGTTGGACGAGCT GCCGTCTGAAGAGCCTGTCAAACCCGCTGCGTCGAAAACGGCGGCGGATA TTTTGGCGGAACGTATGAAAAACCTGCCGCACGAGCCGCGTCAGGCTGCC GGGTCTGCTTCCCGGCCGGAATCGGTGGCAGTTGCCAAAGCACGGACGGA CGTGCAGCGCGATGCGGAAGAGGCGCGTTACGAGCAGACCAACCTGTCTC CGGATTACACGTTTGATACGTTGGTAGAAGGTAAGGGCAACCGCCTTGCG GCGGCTGCGGCGCAGGCGATTGCGGAAAGCCCGGGGCAGAGTTACAACCC GTTCTTCCTCTATGGCAGCACGGGTTTGGGCAAAACCCACCTTGTGCAGG CGGTCGGCAACGAGCTGCTGAAAAACCGTCCCGATGCCAAAGTGCGCTAT ATGCATTCGGATGACTATATCCGCAGCTTTATGAAGGCGGTTCGCAACAA CACTTACGACGTGTTCAAGCAGCAATACAAGCAATACGACCTGCTGATTA TCGACGACATCCAGTTCATCAAAGGCAAAGACCGTACGATGGAAGAGTTT TTCTATCTGTACAACCATTTCCACAACGAGAAAAAACAGCTCATCCTCAC TTGCGATGTGTTGCCTGCGAAAATCGAAGGCATGGACGACCGCCTCAAAT CCCGTTTTTCATGGGGACTGACTTTGGAACTCGAGCCGCCCGAATTGGAA ATGCGCATCGCCATTTTGCAGAAAAAGGCGGAAGCGGCGGGCATCAGTAT CGAAGACGAAGCCGCGCTGTTCATTGCCAATCTGATCCGTTCCAACGTGC GCGAGCTTGAAGGCGCGTTTAATCGTGTCGGAGCGAGCAGCCGCTTTATG AACCGTCCCGTCATCGACATCGATTTGGCGCGTACCGCTTTGCAGGACAT TATTGCCGAGAAGCACAAAGTCATCACCGCCGACATCATCATCGATGCGG TGGCGAAATATTACCGCATCAAAATCAGCGATGTGCTCGGTAAGAAACGG ACACGAAACATTGCCCGTCCGCGCCAGGTGGCGATGAGCCTGACCAAAGA ACTGACTACTTTGAGCCTGCCGTCTATCGGCGATTCGTTTGGTGGGCGCG ACCATACGACCGTTATGCACGGCATCAGGGCAGTGGCGAAACTGCGCGAA GAAGATCCGGAATTGGCTCAGGATTATGAAAAGCTGCTGATTCTGATTCA AAACTGA >NMB0885 dnaB, replicative DNA helicase ATGAACGATTACGCAGCCATGCCGTCTGAAGACCGTGAGGTCGGCGCATT GTCTCTGCCCCCACACTCAATGGAGGCGGAACAATCCGTTTTGGGTGGGT TGATGCTGGAAAATCCGGCATGGGACAGGATTGCCGATGTGGTTTCCGGT GAAGACTTCTACCGGCATGAACACCGCCTGATTTTCCGATCCATTGCCAA ATTGATTAATGAGAGCCGTCCCGCCGATGTGATTACGGTTCAGGAAGATT TGCAGCGGAACGAAGAATTGGAAGCGGCAGGCGGATTCGAATATCTGATT ACGCTGGCGCAAAACACCCCGTCTGCCGCCAACATCCGCCGCTACGCCGA AATCGTGCGCGAGCGTTCCATTATGCGCCAACTCGCCGAAGTGGGGACGG AAATCGCCCGCAGCGCATACAATCCGCAAGGCAGGGACGCGGGGCAGCTT TTGGACGAGGCGGAAAACAAAGTATTCCAAATCGCCGAAAGCACCGCCAA ATCCAAGCAGGGCTTTTTGGAGATGCCCGATTTGCTGAAAGAAGTCGTAC AGCGCATCGATATGCTCTACTCGCGCGACAATCCCGATGAAGTTACCGGC GTGCCGACGGGGTTCATCGACCTCGACAAAAAAACCTCGGGTCTGCAACC CGGCGACCTGATTATCGTTGCCGGTCGTCCGTCTATGGGTAAGACCGCCT TTTCTATCAATATCGCCGAACACGTTGCCGTAGAAGGCAGGCTGCCCGTT GCTGTTTTCTCGATGGAAATGGGCGGGGCGCAACTGGTCATGCGTATGCT CGGCTCGGTCGGACGGTTGGATCAAAGCGTTTTGAAAACCGGCAGGCTCG AAGACGAACACTGGGGTCGCCTGAACGAAGCAGTCGTCAAACTCTCCGAC GCGCCCGTGTACATCGACGAGACCCCGGGTCTGACCGCGCTCGAACTGCG CGCCCGTGCCCGCCGTCTCGCCCGTCAATTTAACAATAAGCTTGGATTGA TTGTCATCGACTACCTGCAACTGATGGCAGGATCCGGCCGTTCCGACAAC CGAGCTTCGGAGCTGGGAGAGATTTCACGTTCGCTCAAAGCGTTGGCGAA AGAATTGCAAGTCCCCATCATCGCCCTGTCGCAATTGAGCCGCACGGTCG AATCGCGTACCGACAAACGCCCCATGATGTCCGACCTTCGCGAGTCCGGC GCAATCGAGCAGGATGCCGACCTGATTATGTTCATGTACCGCGACGAATA CTACAACCAGGACTCACCCATGAAAGGCCTTGCCGAATGTATCATCGGCA AACACCGCAACGGTCCCGTCGGTAAAATCTTCCTCACATGGACGGGACAA TTCACCAAATTCGACAATGCTGCCTATATTCCCGAGGAGGCAAAGATAGA GGATTAA >NMB1827 dnaE, DNA polymerase III, alpha subunit ATGACCGAGCCGACCTACATTCCCCTGCGCCTGCATACCGAATTTTCGAT TACCGACGGTATGGTGCGGATTAAAAAACTGATTGCCAAAGCGCAGGAAT ACGGTTTGCCTGCTTTGGGCATCAGCGATTTGATGAACGAATTCGGTTTG GTGAAATTTTATAAAGCCTGCCGCAGCGCGGGGATTAAGCCTATCGGCGC GGCGGATGTGCGGATAGGCAATCCGGATGCGCCCGACAAGCCGTTCCGCG CTATGCTGATTATCCGTAACGATGCGGGCTATCTGCGCTTGAGCGAGCTT CTGACGGCGGCTTATGTCGGCAAAGACCGCAATGTCCATCATGCGGAACT CAATCCCGAATGGCTGGAAAACGGCGACAACAGCGGCTTGATTTGTTTGA GCGGCGCACATTACGGCGAAGTGGGCGTGAATCTGTTGAACGGCAATGAA GACGCGGCGCGTACGGCGGCGTTGAAGTATGCGGCGTGGTTCCCCGATGC GTTCTATATGGAGCTGCAACGCCTACCCGAACGCCCCGAATGGGAGGCTT GCGTTTCGGGCAGCGTGAAGCTGGCGGAGGAATTGGGTTTGCCGGTGGTG GCGACGCATCCGACACAGTTTATGAGCCGCGACGATTTCAACGCGCACGA GGCGCGAGTGTGTATCGCAGGCGGCTGGGTATTGACGGACAAGAAACGTC CGCGCGATTTCACGCCGGGCCAGTTTTTCATTCCGCCGGAAACCATGGCC GAACGTTTCGCCGATTTGCCTGAAGCCTTGGAAAACACGGTAGAAATTGC CAAACGCTGCAACCTGCACATCACATTGGGCAAAAACTTCCTGCCCCTTT TCCCCACGCCCGACGGTTTATCACTCGATGACTATCTCATCAAACTCTCC AACGAGGGTTTGCAGGAACGTATGGTTCAGCTTTATCCCGACGAGGCGGA GCGGGCGGCAAAAATGCCGGAATATCAGGAACGTTTGGATTTTGAGCTGA ACATCATCATCCAAATGAAATTCCCCGGCTATTTCCTTATCGTACAAGAC TTTATCAACTGGGCGAAAACACACGGCTGTCCGGTCGGGCCGGGCCGTGG TTCGGGCGCGGGTTCGCTGGTGGCGTATTCATTGAAGATTACCGACCTTG ATCCGCTCAAATACGCGCTGCTGTTCGAGCGTTTCCTAAACCCCGAACGC GTTTCTATGCCCGACTTCGACGTGGACTTTTGCCAAAGCAACCGCGGCCG CGTGATTGAATATGTGCGCGAGAAATACGGCGCGGAGGCGGTCAGCCAGA TTGTTACCTTCGGCACGATGTCGTCCAAAGCGGTCATCCGCGACGTCGGG CGCGTGTTAGAGCTGCCGTTTATGCTGTGCGACAAACTGTCCAAGCTGAT TCCGTTGGAAGCCAACAAACCCCTGAGTTTGGAAAAAGCCATGGAGACCG AGCCACAGATTCAGGAATTAATCGAAGCGGAAGAAGCGGACGAACTGATT ACGCTGGCGAAAAAGCTGGAAGATTTAACGCGCGGTTTGGGTATGCACGC AGGCGGCGTGTTGATTGCGCCGGGCAAGATTTCCGATTACAGCCCCGTGT ATCAGGCGGACGAATCCGCCTCGCCCGTATCCATGTACGACAAGGGCGAC GTGGAAGATGTGGGTTTGGTGAAATTCGACTTTTTGGGTCTGCGCAACCT GACCATTATCGAAATGGCGCAGAACAACATCAAAAACACTACCGGCGACA TCATCGATGTCGGCAAAATCCCGCTTGACGACCAGGTCGCCTACCAAATC TTCCGCGATGCGAACACCACCGCCGTCTTCCAGTTTGAGTCGACCGGCAT GAAAAAAATGCTGAAAACGGCGCACACGACCAAGTTTGAAGAACTCATCG CCTTCGTATCGCTCTACCGCCCCGGCCCGATGGACAACATTCCCGACTTC GTCGCACGTATGAAGGGGCAAGAATTCCAATACATCCATCCGCTACTCGA AGGCATCCTCGCGCCGACCTACGGGATTATGGTGTATCAGGAACAAGTGA TGCAGGCGGCGCAAATTATCGGCGGCTACTCGCTCGGCGGCGCGGACCTG CTGCGTCGCGCCATGGGTAAGAAAAAACCCGAAGAAATGGTGAAACACCG CGAAATCTTCGCCGAAGGCGCGGCAAAACAAGGCATTTCGCGCGAAAAAT CCGACGAAATCTTCAACTACATGGAAAAATTCGCCGGCTACGGTTTCAAC AAATCCCACGCCGCCGCCTACGCCCTGATTTCCTACCAGACCGCATGGCT TAAAGCGCACTACCCCGCCGAATTTATGGCGGCGACCATGTCGTCCGAAT TGGACAACACCGACCAGCTCAAGCATTTCTACGACGACTGCCGCGCCAAC GGCATTGAGTTCCTGCCGCCCGACATCAACGAATCCGACTACCGCTTCAC GCCGTATCCGGACATGAAAATCCGCTACGCGCTCGGCGCGATTAAAGGCA CGGGCGAAGCCGCCGTCGAATCCATCACCGCCGCGCGGCAAAGCGGCGGC AAGTTTACCGGTCTGTTGGACTTCTGCGAGCGCGTCGGCAAAGAACACAT GAACCGCCGCACCCTCGAGGCCCTGATACGCGGCGGCGCGTTCGACAGCA TCGAACCCAACCGCGCCATGCTCTTGGCGAACATCGACCTCGCTATGGAC AACGCCGACCAAAAAGCCGCCAACGCCAATCAGGGCGGGCTTTTCGACAT GATGGAAGACGCCATCGAACCGGTGCGGCTCATCGACGCGCCGATGTGGA GCGAATCGGAAAAACTCGCCGAAGAAAAAACCGTCATCGGCTTTTACCTG TCCGGCCACCCGTTCGGCCCGTATGCCCAAGAAGTCCGCCAAATCGCACC GACCAAATTAGACCGTCTGAAGCCGCAAGACAGCGTGCGCCTCGCCGGAT TCGTTACCGCCGTGCGTACGATGATGGGCAAACGCGGCAAAATCGCCTTC GTCAGCCTCGAAGATTTGAGCGGACAGGTTGAAATCATGGTCGGCGGTCA GACGTTGGAAAACTGCGCCGACTGCCTCAAAGCCGACCAAGTGCTGATTA TCGAATCCAAAGTCAGCCGCGACGACTACGGCGGCGGCGACGGGCTGCGT ATTCTGGCAAACCAAGTCATGACCCTGCAAACGGCGCGCGAACGCTACGC CCGCAGCCTCAGCCTCGCCCTCGCCCCGCATCACGACATCGGCGGACTGG TACGGCTGCTCGCCGCCCACCAACTGCCCGACACGCCGCGCATCCCGCTG CAACTGTCGTATGCCAACGAAAAAGCGTCGGGCAGGCTTCAAGTGCCGCC GAAATGGACGGTTACACCGAGCTCCGCATTGTTCGGCGAACTGGAAACAT TGCTCGGCAGCCGGTCGGTGCGCGTCAACTGGTAA >NMB1537 dnaG, DNA primase ATGATTCCATCCGACTTCATTGACGAGCTTTTAGCCAAAACCGATATTGT CGATATTATCGACGAGCAGGTTCCGCTGAAAAAAGGCGGGGCGAACTATA TGGCGTGTTGCCCGTTCCACAAGGAAAAAACGCCGTCGTTTTCGGTCAGT CCAACCAAGCAGTTTTACCATTGTTTCAGTTGCGGGGCACACGGCTCAGC GATTGGTTTTGTGATGGAACATCAGGGACTGTCGTTTCCGGAGGCGGTTC AGTTCCTTGCCGACCGCGTGGGTATGGTCGTGCCGAAAGTGCACGGGCAA AACGATAATCCCGAAGTCCGTGCCGAACGTAAGAAAAAACAGCAGACACT GGAGGAAACGACGGCTGCGGCAGCTGATTTTTACGCGCAACAGCTAAAAT TCAATCCAGCGGCAAAAGCTTATTTGGACAAGCGCGGCTTGAGTGCAGAA GTTATCGCGCATTATGGTTTGGGCTATGCGCCCGACGGCTGGCAGCCTTT GACGCAAGTGTTCCAACCGTATCCTAATACCGCGTTAGTGGATACGGGGA TGGTGATTGACAATGAGGGACGGCATTACGACCGCTTCCGCCATCGGATT ATGTTCCCCATCCGCAATCCGCGCGGGCAGGTTATCGGTTTCGGCGGCAG GGTGCTGGACGACTCGAAGCCGAAATATTTAAATTCTCCCGATACGCCTT TGTTCGATAAGGGGAAAAACCTTTACGGACTGTATGAAGGGCGTGCCGCT GTCAAGGAAGCGGGGCGGATTTTGGTGGTCGAAGGCTATATGGACGTGGT CGCGCTGGCACAGTTCGGCGTGGGCTACGGCGTGGCGGCTTTGGGTACGG CGACGACGGCGGAACACGTCAAAATCCTGATGCGTCAGGCAGACAGTATT TATTTCTGTTTCGACGGCGACAGCGCGGGGCGAAAAGCGGCTTGGCGCGC GCTGGAAAACGCGCTGCCGCAGTTGAAGGACGACAAATCGCTGCATTTTT TGTTCCTGCCGGAAGAACACGACCCCGACAGCTACATCCGCGCCTACGGC AAAGCGCAATTTGAAGACGCGCTTCTGAATCAAAGCAAGCCTTTGTCGGA GTATTTCTGGGAACACCTTTCAGACGGCATTCATCTCAATACGCAGGAAG GCAAGGCGGAATTGGTAAAAACCAGTTCGCCGCTTTTGGCGCAGATTACC GCGCCGGCATTGGCTTATTTGTTAAAACAACGGCTTAGCGAGCTGGTCGG CATCGACCCCGACAACCTCGCGCAACTGCTAGGACAGGAAGCGCCGAAGC GGCACGTCAAACAAAAAAACTACAAACTGCCTCCGATTTCCGTCAAACAG CCCGTCATGCTGACGCTGGTACAGCGGCAAATCCGCAGCCTCTTGATAAA TCCGGATTGGGCTGCATATATAGACCTGCCCGATTATCTGGCGTTGGACG GTGATTTCGCCTGCCTTGCCAATCTTGCCGAATCGATTAAAAACCATGCC GCCGTACCCGAAACCGCTCAGGTTTTAGAGTATATGCGCGGCTCGCCTTA CGAAGAAACGATAACCCGAATCTTCCATTCAACGCACCAATCGGAAGAAA TGAACAGCAGCAGTGAAGAAGATTGCGAGAATTTCCAAATCGGCATGAAA AAACTGCTCAATGAGTTAAAATACAGCCAAATCGAAACATTAAAACAAAA AAGCCTGCAATCCGGCTTAAATGAAAGCGAGAAAAAACTTTTGCTGTCGC TGCTGACCGCAAAACAAAATTGA >NMB1902 dnaN, DNA polymerase III, beta subunit ATGTTGATTTTACAAGCCGAGCGCGACAGCCTGCTCAAGCCGTTGCAAGC CGTTACCGGCATCGTCGAACGCCGCCACACCCTGCCCATCCTGTCCAACG TCCTGATTGAGGGAAAAGGCGGTCAGACCAAACTCTTGGCAACCGATTTG GAAATCCAAATCGACACTGCGGGTCCCGAGGGCGGCGCGGGCGACTTCCG CATCACCACCAATGCCAAGAAATTTCAGGATATTTTGCGCGCGCTGCCTG CCGGTGCGCTGGTGTCGCTGGATTGGGACGACAGCCGTCTGACGCTGAAG GCGGGCAAATCGCGTTTTGCCCTGCAGACCCTGCCTGCCGCCGATTTTCC GATGATGAATGTCGGCGAGGACATCAGCGCGACTTTCTCGCTGGAGCAGG AGCGTTTCAAAACCATGCTGTCGCAAGTGCAGTACAGCATGGCGGTGCAG GACATCCGCTATTATCTCAACGGTCTGCTGATGCAGGTTGAGGGCAGCCA GTTGCGCCTTGTGGCGACCGACGGACACCGCCTTGCCTATGCAGCCTGCG CGATTGATGCGGATTTGCCGCGCGCCGAAGTGATTTTGCCGCGCAAAACG GTGCTGGAACTGTTCAAACTGTTGAACAACCCCGACGATCCGATTCAAAT CGAGCTGCTGGACAAACAGGTGCGTTTCCAATGCAACGGCACGACCATCG TCAGCAAGGTCATCGACGGCAAATTCCCCGATTTCAACCGCGTGATTCCT TTGGACAACGACAAGATTTTCGTGTTGTCGAGGGCAGAATTGTTGGGCGC GTTGGAACGTGCATCGATTCTTGCCAATGAAAAATTCCGCGGTGCGCGAT TGTTTTTGCAACCCGGCCTGTTGAGCGTTGTGTGCAGCAACAACGAGCAG GAAGAAGCGCGCGAAGAAATCGAAATCGCCTATCAGGGCGGCGAACTCGA AGTCGGTTTCAATATCGGCTATCTGATGGACGTGTTGCGCAACATCCATT CCGACGATATGCAGCTTGCCTTCGGCGATGCCAACCGCTCGACGCTGTTT ACCGTGCCGAACAATCCGAATTTCAAATATATTGTGATGCCGATGCGGAT TTGA >NMB1451 dnaQ-1, DNA polymerase III, epsilon subunit TTGTTGTTTGAATTTAAAGAGAATAAAATGATTGTTGCTTCTCGCTGGCC CTTGCTGGAAAAGGTATTTTTACGGTTTGGAATGCCTGTTGCCGTGGTTG ATTTGGAATCGACGGGCGGCAATCTGTATGAAGACAGGGTAACCGAAGTG GCTTTGGTCAAGTTTGAGCAGGGAAGGGTGGTGAGGCATGAGTGGTTGGT TAATCCTCAAAAACCGATTCCGCAGTTTGTGGCGGGGCTGACGGGGATTT CAGACGGCATGGTTGCCGATGCGCCTGTTTTTGCAGAGATTGCCGGCGAG TTGTTTTCGGTATTGAAGGGTTGTGTGCTGGTTGCACATAACAGCCGTTT CGACTATACGTTTTTAAAGCATGAGTTTCATCGTGCGGGTATCGGATTTT CATCGCCTGCTTTGTGCAGTGTGCAGCTGTCCCGGTGTCTGTATCCGCAA TTTTACAAGCACAGCCTGGACAGTATCATCGAAAGGTTGGGGATTGTTGT GGAAGACAGGCATCGTGCGATGGCGGATGTATCGGCATTGTGTGATTATT TGGAATACAGTCTGTCGGAACACGGGGTTGAGGCATGGATCAGGCAGTGT TTCCGTTTGATGAATCCGAAACCGCTGCCTGCCGCGCTGCCCGAACGGTT GAGGGAACAGTTGTACGGTTTGCCTGACGGTATGGGGGTGCTGGCTTGTT TCGACGGCGGAGGGAAAGTAAATTATATCGGTACGTTTGAACGGGTATAT AGCGAGATTTCGGCTTTATTGGACTCCGGAAAAGCCCCGTTTGATTGGTG CAATACGGAGGAAGTCCGTTTTTTTCCCGCATTGGGCAGCCTGCATGCAT ATAAGATTAAAGCGGAATTGGTCGGGCGTTATCATTCGGATTGTTATGTG TCTGCCAAAAATCTGCTTAAAACATTTACGACCGTCAGGTTTGAAAAAGG TTCAGACGGCATGTTGAATGCGAAAACAGCGGCTTTGAAAAACGGTGTGA CGGATAATCCGCCTACCGGATTATTTGCCAATAAAAAGGCAGCGAGACGG GCTTTGTCGTCGTGGGCGGAAACATACGGATTGTGTCCTGCCGCAGCCGG TATCCTTCCGGACGGTTATGCAGAGGATGAGCCTTGTCCCGTATATGTTT CAGGCCGATGCGATAAGGCGTGCGGCCGTTCTGACGAACAGGTTTTGGCG TTTGCACACAAGTTGCCTGTTTTGGATTGGGGAAAAATGCATGAGGTGGA AATTACCGAAACCGATCCTTTGACGGGGGAAAAAGTCGTTCTGCACGGAA TGGGCGGCGCATTGGAAATGGATGACGGGCTTTGGTATTTCGATAAAGAT TTACCGGATGCGTTTAAGGCGAAGTTTAAAACGGACAGGAAAAATATTAA GGAAATCGGTTAA >NMB1514 dnaQ-2, DNA polymerase III, epsilon subunit ATGACGACACGCCAAATCATCCTCGATACCGAAACCACCGGTCTGTATGC CGACGGCGGCGACCGCTTGGTCGAGTTTGCCGGTTTGGAAATGGTCAACC GCCAAATGACCGACAAAAACCTGCACCTCTATGTCCACCCCGAGCGCGAT ATGCCCGAAGAGGCGGCACGCGTCCACGGCTTGACGATACAGGTTTTGGA AGGGAAAAACGCGCCGCCGTTTGCAGAGGTCGGCAGGCAGATTGCCGATT TCCTGCGCGGTGCGGAACTGATTATCCACAATGCCAAATTCGACGTGGGC TTCCTCAATATGGAGTTCCGCCGGATGGGGTTGCCGACCGTTGAGGAACT CGGCTGTACCGTTACCGATACCCTGGCGATGGCGCGCGAAATGTTCCCCG GGCAGAAAGCCAGCCTGGATGCCTTGTGCAACCGTTTTTCCGTCGACCGC AGCAAGCGCGTCCTGCACGGCGCATTGATCGACTGCGAACTTTTGGGCGA AGTCTATCTTGCTATGACGCGGCGGCAGTTCGACCTGATGGGTGCGGCCG CAGAGGAAAAAATGGAAACCAAACCCGTGGTGCATACCGAAACCAAACGC AGCGGCAAACTGAAAGTCATCAGGGCGGACGAAAACGAGTTGGCGGCGCA CGGGCAATATTTGGACGGCTTGGGCGAAGCCTGTATCTGGCGCAAGGAAG CCGTGCCGTCTGAAAACGGCGGGACGGACGCATGA >NMB1443 dnaX, DNA polymerase III, subunits gamma and tau ATGGCCTATCAAGTTCTCGCCCGAAAATGGCGGCCCAAAACCTTTGCCGA CTTAGTCGGTCAGGAACACGTCGTCAAAGCCCTGCAAAACGCCCTGGACG AAGGCAGGCTGCACCACGCCTACCTGCTGACCGGCACGCGCGGCGTAGGT AAAACCACCATCGCCCGCATCCTTGCCAAAAGCCTCAACTGCGAAAACGC GCAACACGGCGAACCTTGCGGCGTATGTGAAAGCTGTACGCAGATCGATG CCGGACGCTACGTCGACCTGCTGGAAATCGACGCCGCCTCCAACACAGGC ATCGACAACATCCGCGAAGTCTTGGAAAACGCCCAATATGCACCGACCGC CGGAAAATACAAAGTCTATATCATCGACGAAGTGCATATGCTTTCCAAAA GCGCGTTCAACGCTATGCTCAAAACGCTGGAAGAGCCGCCCGAACACGTC AAATTCATCCTCGCCACCACCGATCCGCACAAAGTTCCCGTTACCGTCTT GAGCCGCTGCCTGCAATTCGTCTTACGCAATATGACCGCGCAACAGGTTG CCGACCACCTCGCCCACGTCCTCGACAGCGAAAAAATCGCCTACGAACCC GCCGCCCTGCAACTTTTGGGACGTGCCGCCGCCGGATCGATGCGCGATGC CTTGAGCCTGCTCGACCAAGCCATCGCCCTAGGTTCGGGCAAAGTTGCCG AAAACGATGTCCGCCAAATGATCGGCGCGGTTGACAAACAATACCTTTAC GAACTGCTGACAGGCATCATCAACCAAGACGGCGCAGCCCTGACCGCCAA AGCGCAGGAAATGGCGGCGTGTGCCGTCGGCTTTGACAACGCCTTGGGCG AACTTGCCATACTGCTGCAACACCTCGCCCTGATACAGGCAGTGCCGAAT GCCTTGGCGCACGACGACCCCGATTCCGATATTTTGCACCGCCTCGCCCA AACCATAAGCGGCGAACAAATCCAGCTTTACTACCAAATCGCCGTCCACG GCAAACGCGACCTCAGCCTCGCCCCCGACGAATACGCCGGCTTTATGATG ACCCTGCTGCGTATGCTGGCGTTTGCGCCCTTGGCGGCAGCATCGTGTGA TGCAAATGCCGTGATTGAAAATACCGAACTAAAATCCCCATCGGCACAAA CCGCCGAAAAGGAAACCGCCGCAAAAAAGCCCCAACCGCGCCCTGAAGCG GAAACCGCCCAAACACCCGTTCAGACGGCATCCGCAGCAGCAATGCCGTC TGAAGGCAAAACTGCCGAACCCGTTACCAATCAAGAAAACAACGATATTC CGCCTTGGGAAGACGCGCCGGACGAAACCGCAGCCGGCACGGCGCAAGCA TCGGCAAAAAGCATTCAGACGGCATCCGAAGCCGGAACGCCGCCCAAAAA CCAAGTTTCCAAGAACGAAGCAGCCGACAACGAAACCGATGCCCCCTTGT CCGAAGTGCCGTCTGAAAACCCCATTCAGGCAACACCGAATAATGAAGCC CTTGAAACAGAAGCATTTGCACACGAAGCTCCTGCAAAACCTTTCAACGG TTACAGCTTTCCGAATGATGACTACCTCGTAGAAGACGGCGCAGAAATCC CACCGCCCGATTGGGAACACGCCGCCCCTGCCGATGCGGAAGAAGAAAAC AACGCCGACGAAAGCAGCAACAACGAAGACCACACGCCATACGCCCCGCC GCCCGAATTTTCCACCGAAAACTGGGCAGCCATCGTCCGGCACTTCGCCC GCAAACTCGGCGCGGCGCAAATGCCGGCGCAACACTCCGCGTGGACGGAA TACCATCCCGACACCGGTCTGATGGTTTTGGCAATGACCGCCGAAGCACG CGCCACCGCCGACAAAAAACGCCTCGACAAAATCCGCGACACCCTTGCCC AAGCCTACGGGCTGCAACTCACCCTGCAAACCCAAGACTGGCGTGACGAA GCCGGCCGGGAAACCCCCGCGATGCAGGACAAGCGCGTCCAAGCCGAAGA CAGGCAAAAAGCACAAGCATTGCTCGAAGCCGACCCCGCCGCACAAAAAA TCCTCCAAGCATTCGGCGCGCAATGGCAGCCCGAATCACTGGAATTGGCG GCAAACCGGCCATAA >NMB0116 dprA, DNA processing chain A ATGACAGAGGACGAACGTTTCGCGTGGCTGCAATTGGCGTTTACGCCCTA TATCGGCGCGGAAAGTTTCCTGCTGCTGATGCGCCGTTTCGGCAGCGCGC AAAATGCCCTGTCCGCACCGGCGGAACAGGTGGCGGCACTGATACGGCAC AAACAGGCGCTTGAGGCTTGGCGCAATGCGGAAAAACGCGCTCTGGCGCG GCAGGCGGCAGAAGCGGCATTGGAATGGGAAATGCGGGACGGATGCCGCC TGATGCTGCTTCAGGATGAAGATTTTCCCGAAATGCTGACGCAGGGGCTG ACCGCGCCACCGGTTTTGTTTTTGCGCGGCAACGTGCAACTGCTGCACAA ACCTTCCGCCGCCATCGTCGGCAGCCGTCATGCCACGCCGCAGGCGATGC GGATTGCCAAAGATTTCGGCAAGTCGTTGGGTGGGAAAGGCATTCCCGTT GTGTCGGGTATGGCTTCGGGCATCGATACCGCCGCCCATCAGGGTGCGTT GCAGGCAGAAGGCGGCACCATCGCCGTGTGGGGGACGGGCATAGACCGCA TTTATCCGCCGGTCAACAAAAACCTTGCCTATGAAATCGCCGAAAAAGGA TTGATTGTCAGCGAGTTCCCCATCGGCACGCGGCCGTATGCCGGCAATTT TCCGCGCCGCAACCGCCTGATTGCCGCCCTGTCGCAAGTAACGCTGGTGG TTGAAGCCGCGTTGGAATCCGGTTCGCTGATTACTGCCAGATTGGCGGCG GAGATGGGGCGCGAAGTGATGGCGGTACCCGGCTCGATAGACAATCCACA CAGTAAAGGCTGCCACAAACTGATTAAAGACGGCGCAAAATTGGTGGAAT GCCTGGACGACATCCTGAACGAATGCCCGGGGCTATTGCAAAATACGGGT GCTTCATCATATTCTATAAATAAGGGAATACCTGAAAAGCGCATCACTGC CGTTCAGACGGCATCCGACCAGCTGTCTCTGCCTGAAGGCAAAATGCCGT CTGAAAAGACGGAGAACCGACCCGTCGGCGGCAGTATCTTGGACAGGATG GGTTTCGACCCAGTTCATCCCGACGTGCTTGCCGGACAGTTGGCTATGCC TGCCGCAGATTTGTATGCCGCACTGTTGGAATTGGAATTGGACGGCAGCG TTGCCGCAATGCCCGGCGGCAGATACCAGCGTATCCGAACTTGA >NMB2082 exoA, exodeoxyribonuclease ATGCTTAAAATCATTTCCGCCAACGTCAACGGCATCCGCTCCGCCTACAA AAAAGGTTTTTACGAATACATCGCCGCATCGGGCGCGGACATTGTCTGCG TGCAGGAACTCAAAGCGCAGGAGGCTGATTTGTCTGCCGATATGAAAAAT CCGCACGGGATGCACGGTCATTGGCATTGCGCCGAGAAGCGCGGTTACAG CGGCGTGGCGGTGTACAGCAAACGCAAACCCGACAATGTGCAAATCGGTA TGGGCATTGAAGAATTCGACAGGGAAGGGCGGTTTGTGCGTTGCGATTTC GGCAGGTTGAGCGTTATCTCGCTTTATTTGCCCAGCGGCAGCAGCGCGGA AGAACGCCAGCAGGTGAAATACCGTTTCCTTGATGCGTTTTACCCTATGC TCGAAGCGATGAAAAACGAAGGGCGCGACATTGTCGTCTGCGGCGACTGG AACATCGCCCACCAAAACATCGACCTGAAAAACTGGAAAGGCAACCAGAA AAATTCAGGTTTCCTGCCTGAAGAGCGCGAGTGGATAGGCAAGGTTATCC ACAAGCTCGGTTGGACGGATATGTGGCGCACGCTTTATCCCGATGTGCCG GGCTACACTTGGTGGAGCAACCGAGGGCAGGCGTATGCGAAAGATGTCGG GTGGCGCATCGATTATCAGATGGTTACGCCCGAACTTGCTGCCAAAGCCG TGTCCGCACACGTTTATAAAGATGAAAAATTTTCTGACCATGCGCCGCTG GTCGTGGAGTATGACTATGCTGCCGAATAA >NMB1278 gcr, site-specific recombinase ATGGCTGATATGAAGAAAATTACCCCTCAAAACCTGCGCCCCCTGCTTTC GGAAAGCTTGGGACATACCGATTTTGTCAACGTCCTCAACGCACTGATTA AATTTTTGCGCCGTGGCGGCAAAAAATGTGCGGGGGAACGTTTCGACCTG ATTATCGACACATTCAAACAAGACAGGGAATTACTGTCCCGCTTCAGCCG GTGTTTTTACATTTGGCTCGCGCAAATACACATTTATCCGGCACTCATCA AACTCGGCATCTTCTCGCGCCACAGCTTTGCCCGGGAAATGGGCATACGC ATCTACGAACGCTTCAGCCCGTCATATAAAGATTTTGCCAACTTGGGCGA AGTCTTCCTTTATCTTTTCCATTCCGAAAACGACGACAAATGGCTGCAAA CGCTCAATATCCGCCAATGGCTGGTTTTATACGAACTCATCCGGAGCCAC GCCGAGCCGTCCAAATTGCAGACGGCGGGCATCCGCCTTGCCGATGCGCG TTTGCGCGCCATCGAAATGCTGTCTGTCTGGACGGCATCCGAAGCCATCG AACCCGACCTCATCCGCATCGCCCCGCGCCTGCTGGAAGCCGATTCTTCC TTCGTCGCCCTCCAACGCGAAACCGCCAAACTGGTCGAACACTACCGCAA CGGCACCACGCCTTACGACACCGCCCACCTCGAAGTGATGTTCGACCAAT GTTTCAGCCAGATTGACTATTTGCGCCGCAAAGGGACGGGCGCCGGCTCC GGTTCGTCGGTCAAAGTCGCCCACCTGCTCGAACGGCTCCGGCAGACCGT AGACCGTCTGAAGCTGCTCACCGACATCCAAACCGGCGCCGGCAACAGCA ACCGCCTGACCATCGCGCTGATGAACTCCCTCATCTACGCGGCGGTCGAA CAATACAGCACCCGCCACCTGCGCCGCAGCAGCATCCGTATGCTCGCCCG CAGCATTACCGAAAACAAAAGCCACCACGGCGAACACTACATCACCCGCA ACCGCAAAGAATATTTCAAAATGTTCTACTCGGCGGCAGGCGGCGGCATC ATCATCGCCCTAATGGCGCTGCTCAAAATCCGCATCGGCTCACTCGGCCT CAGCCCCTTCCTCACTTCCTTGTCGGCTGGGTTCAACTACGGCATCGGCT TTATGATCATCCATATGCTGCACTGCACCGTCGCCACCAAGCAGCCCGCG ATGACTGCCGCCAGCTTTGCCGAACAGGTCGATCTCAACGAAGGCGGCAA AGCGGTGGACAACAAACTCGCCAAGCTCCTCATCGACGTATGCCGCTCCC AAAGTGTCGCCGTCTTCGGCAACGTTTCCATCGCCATCCTTTTGGCGTGC GCCATATCGTTCGGCTATGCCCATCTGTACCGGCTGCCCATACTCGATGC CCACACCGCCGCCTACCAGTTCAAATCCATAGACATCATCGCTTACCCGA CGCTGTGGTATGCCGCCATTGCAGGTCTGTGGCTGTTCTGCTCCGGCATC ATCGCAGGTTTTTTCGACAACCGCGCCGACTACCTCAACCTGCGCCAACG CCTGCCCTTCAACCCCTTGCTGCGTAAAATCATGCGCCCCGGGCCCCGCC GCGTCCTCGCCGCCTACATCCACAAACACTACGGCTCGCTGGTCGGCAAC TTCATCTTCGGGATGCTCTTGGGTATGACCGGCTATTTCGGACACCTCCT CGGGCTGCCGCTGGACATCCGCCACGTCGCCTTTTCCTCCGCCAACCTCG GCTATGCCGCCGTCAGCGGCAACGTCGGTTTGGGCACGTTCGTACTCGGC ATTTTCAGCGTCCTCGCCATCGGCCTGGTCAACCTCTGCGTCAGCTTCAG CCTCGCCCTCTTCGTCGCCCTGCGCTCGCGCGGCACGAAAATCGGCAGCA TCCGCAATCTGATTAAAAGTTTTTGGAATCAGATTAAAAGCAATCCCTGC ATACTTTTCCTCCCGCCCGCCAAAGAACAGGGACATCCTCCTTCGGACAA GCCTTGA >NMB1384 gyrA, DNA gyrase subunit A ATGACCGACGCAACCATCCGCCACGACCACAAATTCGCCCTCGAAACCCT GCCGGTAAGCCTTGAAGACGAAATGCGCAAAAGCTATCTCGACTACGCCA TGAGCGTCATTGTCGGGCGCGCGCTGCCGGACGTTCGCGACGGTCTCAAG CCGGTACACCGCCGCGTACTGTACGCGATGCACGAGCTGAAAAACAACTG GAATGCCGCCTACAAAAAATCGGCGCGCATTGTCGGCGACGTCATCGGTA AATACCACCCCCACGGCGATACCGCCGTATACGACACCATCGTCCGTATG GCGCAAAATTTCGCTATGCGTTATGTGCTGATAGACGGACAGGGCAACTT CGGATCGGTGGACGGGCTTGCCGCCGCAGCCATGCGCTACACCGAAATCC GCATGGCGAAAATTTCCCACGAAATGCTGGCAGACATTGAGGAAGAAACC GTCAATTTCGGCCCGAACTACGACGGTAGCGAACACGAGCCGCTTGTACT GCCGACCCGTTTCCCCACACTGCTCGTCAACGGCTCGTCCGGCATCGCCG TCGGCATGGCGACCAATATCCCGCCGCACAACCTTTCTGATACCGTCAAT GCCTGCCTGCGCCTGCTCGATGCACCCGACACCGAAATCGACGAACTGAT CGACATTATCCAAGCCCCCGACTTCCCGACCGGGGCAACCATCTACGGCT TGAGCGGCGTGCGCGAAGGCTATAAAACAGGCCGCGGCCGCGTCGTTATG CGCGGTAAGACCCATATCGAACCCATAGGCAGAAACGGCGAACGCGAAGC CATCGTTATCGACGAAATCCCCTATCAGGTCAACAAAGCCAAGCTGGTCG AGAAAATCGGCGATTTGGTTCGGGAAAAAACACTGGAAGGCATTTCCGAG CTCCGCGACGAATCCGACAAATCCGGTATGCGCGTCGTTATCGAGCTGAA ACGCAACGAAAATGCCGAAGTCGTCTTAAACCAACTCTACAAACTGACTC CGCTGCAAGACAGTTTCGGCATCAATATGGTGGTTTTGGTCGACGGACAA CCGCGCCTGTTGAACCTGAAACAGATTCTCTCCGAATTCCTGCGCCACCG CCGCGAAGTCGTTACCCGACGTACGCTTTTCCGGCTGAAGAAGGCACGCC ATGAAGGGCATATTGCCGAAGGCAAAGCCGTCGCACTGTCCAATATCGAT GAAATCATCAAGCTCATCAAAGAATCGCCCAACGCAGCCGAGGCCAAAGA CAAACTGCTTGCGCGCCCTTGGCGCAGCAGCCTCGTTGAAGAAATGCTGA CGCGTTCCGGTCTGGATTTGGAAATGATGCGTCCGGAAGGATTGGCTGCA AACATCGGCTTGAAAGAGCAAGGTTATTACCTGAGCGAGATTCAGGCAGA TGCTATTTTACGCATGAGCCTGCGAAACCTGACCGGCCTCGATCAAGAAG AAATTGTCGAAAGCTACAAAAACCTGATGGGTAAAATCATCGACTTTGTG GATATCCTCTCCAAACCCGAACGCATTACCCAAATCATCCGCGACGAACT GGAAGAAATCAAAACCAACTATGGCGACGAACGCCGCAGCGAAATCAACC CGTTCGGCGGCGACATTGCCGATGAAGACCTGATTCCGCAACGCGAAATG GTCGTTACCCTGACACATGGCGGCTATATCAAAACCCAGCCGACCACCGA CTATCAGGCGCAGCGTCGCGGCGGGCGCGGCAAACAGGCGGCTGCCACCA AAGACGAAGACTTTATCGAAACCCTGTTTGTTGCCAACACGCATGATTAT TTGATGTGCTTTACCAATTTGGGCAAGTGTCATTGGATTAAGGTTTACAA ACTGCCCGAAGGCGGACGCAACAGCCGCGGCCGTCCGATTAACAACGTCA TCCAGTTGGAAGAAGGCGAAAAAGTCAGCGCGATTCTGGCAGTACGCGAG TTCCCCGAAGACCAATACGTCTTCTTCGCCACCGCGCAGGGAATGGTGAA AAAAGTCCAACTTTCCGCCTTTAAAAACGTCCGCGCCCAAGGCATTAAAG CCATCGCGCTCAAAGAAGGCGACTACCTCGTCGGCGCTGCGCAAACAGGC GGTGCGGACGACATCATGCTGTTCTCCAACTTAGGTAAAGCCATCCGCTT CAACGAATACTGGGAAAAATCCGGCAACGACGAAGCGGAAGATGCCGACA TCGAAACCGAAATTTCAGACGGCATCGAAGATGAAACCGCCGACAGCGAA AACGCACTGCCGAGCGGCAAACACGGTGTTCGCCCGTCCGGTCGCGGCAG CGGCGGTTTGCGCGGTATGCGCCTGCCTGCCGACGGCAAAATCGTCAGCC TGATTACCTTCGCCCCTGAAACCGAAGAAAGCGGTTTGCAAGTTTTAACC GCCACCGCCAACGGATACGGAAAACGCACCCCGATTGCCGATTACAGCCG CAAAAACAAAGGCGGGCAAGGCAATATTGCCATTAACACTGGCGAGCGAA ACGGCGATTTGGTCGCCGCAACCTTGGTCGGCGAAACCGACGATTTGATG CTGATTACCAGCGGCGGCGTACTTATCCGCACCAAAGTCGAACAAATCCG CGAAACCGGCCGCGCCGCAGCAGGCGTGAAACTGATTAACTTGGACGAAG GCGAAACCTTGGTATCGCTGGAACGTGTTGCCGAAGACGAATCCGAACTC TCCGACGCTTCTGTAATTTCCAATGTAACCGAACCGGAAGTCGAGAACTG A >NMB0212 gyrB, DNA gyrase subunit B ATGACTGAACAAAAACACGAAGAATACGGCGCCGACAGCATTCAGGTGCT CGAAGGCTTGGAAGCGGTACGCAAACGCCCCGGCATGTACATCGGCGACA CGCAGGACGGCAGCGGTCTGCACCACATGGTGTTCGAAGTATTGGACAAC GCCATTGACGAAGCACTCGCCGGACATTGCGACAAAATCACGGTAACGAT ACACGCCGACCATTCCGTCAGCGTCGCCGACAACGGGCGCGGTATGCCCA CCGGCATCCACCCGAAAGAAGGACGCTCCGCCGCCGAAGTCATCATGACC GTATTGCACGCGGGCGGTAAATTCGACAACAACAGCTACAAAATCTCCGG CGGCCTGCACGGCGTGGGCGTGTCCGTCGTCAACGCGCTGTCCGACTGGG TAACGCTGACCATCTACCGCGACGGCAAAGAACACTTCGTCCGCTTCGTG CGCGGCGAAACCGAAGAGCCGCTGAAAATTGTCGGCGATTCCGATAAAAA AGGCACGACCGTGCGCTTCCTCGCCAGTACGGAAACCTTCGGCAACGTCG AATACAGCTTCGACATCCTTGCCAAACGCATCCGCGAACTTTCCTTCCTG AACAACGGCGTGGACATCGAATTGACCGACGAGCGCGACGGCAAACACGA AAGCTTCGCCCTTTCCGGCGGCGTGGCGGGTTTCGTGCAATACATGAACC GCAAAAAAACGCCGTTGCACGAAAAAATCTTCTACGCGTTCGGCGAAAAA GACGGCATGAGCGTCGAATGCGCGATGCAATGGAATGACAGCTATCAAGA AAGCGTGCAGTGTTTCACCAACAACATCCCGCAACGTGATGGCGGTACTC ACCTGACCGCACTGCGCCAAGTGATGACCCGCACCATCAACAACTATATC GAAGCCAACGAAGTCGCCAAAAAAGCCAAAGTGGAAACCGCAGGCGACGA TATGCGCGAGGGTTTGACCTGCGTGTTGTCCGTCAAACTGCCCGACCCCA AATTCTCGTCCCAAACCAAAGACAAACTGGTTTCCGGCGAAATCGGCCCC GTTGTCAACGAAGTCATCAGCCAAGCCCTGACCGACTTCCTCGAAGAAAA TCCGAACGAAGCCAAAATCATCACCGGCAAAATCGTCGATGCCGCCCGCG CGCGCGAAGCCGCCCGCAAAGCACGCGAAATCACCCGCCGCAAAGGCGTG ATGGACGGCTTGGGACTGCCCGGCAAACTCGCCGACTGCCAAGAAAAAGA CCCTGCCCTGTCCGAACTCTACCTCGTCGAGGGCGACTCCGCAGGCGGTT CCGCCATGCAAGGCCGCGACCGCAAATTCCAAGCGATTTTGCCGCTCAAA GGTAAAATTTTGAACGTCGAAAAAGCACGTTTTGAAAAAATGCTGGCCAG CCAAGAAGTCGCCACGCTGATTACCGCTTTGGGCGCGGGCATCGGCAAAG AAGAATTCAATGCCGAAAAACTGCGTTACCACCGCATCATCATCATGACC GATGCCGACGTGGACGGCGCGCACATCCGCACCCTGCTCCTGACCTTCTT CTACCGCCAAATGCCCGAGCTGGTCGAGCGCGGCTACATCTATATCGCCC AGCCGCCTTTGTATAAAGCGAAATACGGCAAACAGGAACGTTACCTCAAG GACGAGTTGGAAAAAGACCAATGGCTGCTCGGTCTTGCCTTGGAAAAAGC CAAAATCATTTCAGACGGCCGCACCATCGAAGGCGCAGAACTTGCCGACA CCGCCAAACAATTCCTGTTGGCAAAAACCGTCATCGAACAGGAAAGCCGC TTCGTAGACGAACTCGTCCTGCGCGCCATGCTACACGCGTCGCCCATTGA TTTGACGTCGTCTGAAAACGCCGATAAAGCCGTTGCCGAACTTTCCGGTC TGCTTGACGAAAAAGAAGTCGCCCTCGAACGCATCGAAGGTCATGAAGGA CACCGGTTCATCAAAATCACGCGCAAGCTGCACGGCAACGTCATGGTCAG CTACATCGAACCCAAGTTCCTCAACAGCAAAGCCTACCAAACCCTCACCC AAACCGCCGCCGCGCTCAAAGGCATGGTCGGCGAGGGTGCCAAGCTTTAC AAAGGCGAAAACGGGTACGACGCGGACAGCTTTGAAACCGCTTTGGACAT CTTGATGAGCGTTGCCCAAAAAGGTATGTCCATCCAACGATACAAAGGCT TGGGCGAGATGAACCCCGAGCAGCTGTGGGAAACCACGATGGATCCCGCC GTGCGCCGCCTGTTGAAAGTGCGCATCGAAGATGCCATTGCCGCCGACGA AGTGTTCGTTACGCTGATGGGCGACGAGGTCGAGCCGCGCCGTGCCTTTA TCGAAAACAACGCGCTGATTGCCCAAAATATCGACGCATAA >NMB0729 himA, integration host factor, alpha subunit ATGACTCTCACTAAAGCAGAACTGGCCGATATTTTGGTAGACAAAGTCAG CAACGTCACCAAAAACGATGCCAAAGAAATCGTCGAACTCTTTTTTGAAG AAATCCGCAGCACTTTGGCAAGCGGCGAAGAAATCAAAATTTCCGGTTTC GGAAATTTCCAGTTGCGCGACAAGCCGCAACGCCCGGGTCGTAATCCTAA AACCGGCGAGGAAGTGCCGATTACCGCCCGCCGCGTGGTAACTTTCCATG CCAGCCAGAAACTCAAAAGCATGGTGGAACACTACTATGACAAACAACGT TGA >NMB1302 himD, integration host factor, beta subunit ATGACAAAGTCTGAGTTAATGGTTCGTTTGGCAGAAGTGTTTGCCGCCAA AAACGGCACGCATCTTCTGGCAAAAGACGTAGAGTACAGCGTAAAAGTCT TGGTTGACACCATGACTAGATCGCTTGCCCGAGGTCAACGCATCGAAATC CGCGGTTTCGGCAGCTTCGATTTGAACCATCGTCCTGCCCGCATCGGTCG CAATCCCAAAACCGGCGAGCGTGTGGAAGTACCTGAAAAACATGTACCCC ACTTCAAGCCCGGTAAAGAATTGCGCGAGCGGGTCGACTTGGCTTTAAAA GAAAATGCCAATTAA >NMB0708 holA, DNA polymerase III, delta subunit GTGGCGGCACATATCGGACGCATTGATACGGACGCGCCTTTGAAACCCCT GTACGTCATCCACGGCGAGGAAGAACTGTTGCGTATCGAGGCATTGGACG CATTGAGGGCGGCGGCGAAGAAACAAGGTTACCTTAATCGGGAAGTTTAT ACGGCAGACAATGCCTTCGATTGGAACGAGCTGCTGCAAACCGCAGGCAG TGCGGGTCTGTTTGCCGATTTGAAGCTGTTGGAACTGCATATCCCTAACG GCAAGCCCGGCAAAACCGGCGGCGAGGCGTTGCAGGATTTTGCCGCCCGA TTGCCGGAAGATACGGTAACGCTGGTTTTGCTGCCCAAACTGGAGAAAAC CCAGCTCCAGTCCAAATGGTTTGCCGCATTGGCGGCAAAGGGGGAAGTGT GGGAAGCCAAACCGGTCGGCGCGGCGGCTTTGCCCCAATGGATACGCGGA CGGCTGGACAAAATCGGTTTGGGTATCGAGGCAGACGCATTGGCACTGTT TGCTGAGCGCGTGGAAGGCAATCTGTTGGCGGCGCGTCAGGAAATCGACA AGCTCGGGCTGCTGTATCCGAAAGGGCATACCGTCAATATCGATGAGGCG CAAACCGCCGTTGCCAACGTCGCCCGCTTCGACGCGTTCCAACTGGCAGG CGCGTGGATGAAGGGCGATGTCCTGCGCGTATGCAGGCTTTTGGACGGAT TGCGGGAAGAGGGCGAAGAACCGGTGCTGTTGCTGTGGGCGGTTGCCGAA GACGTGCGGACGCTGATCCGGCTTGCTGCCGCCCTGAAGCAGGGGCAGAG CATCCAATCCGTCCGCAACAGCCTCAGGCTTTGGGGCGACAAGCAGACGC TCGCACCGCTTGCGGTCAAGCGGATTTCCGTCGTCCGCCTGCTTGACGCG CTCAAAACCTGCGCCCAAATCGACCGAATCATCAAAGGTGCGGAAGACGG CGACGCATGGACGGTATTCAAACGGCTTGTCGTGTCGCTGGCGGAATAA >NMB1230 hupB, DNA-binding protein HU-beta GTGAACAAGTCTGAATTGATCGAAGCGATTGCTCAAGAAGCCGACATTTC CAAAGCCGCCGCACAAAAAGCTTTGGATGCCACTACCAATGCAGTAACCA CCGCCCTGAAACAAGGCGACACCGTTACTTTGGTCGGTTTCGGTACTTTC TACGTGGGCGAACGTGCGGAACGCCAAGGCCGCAACCCCAAAACCGGCGA GCCTCTGACCATTGCCGCCGCCAAAACGCCTAAATTCCGCGCCGGCAAAG CTTTGAAAGACGCACTGTAA >NMB0666 ligA-1, DNA ligase ATGAATCCAAACTCAAAACATAACACTAACTTTACCAATCTTCTTAAACC GTCTGATAGTGATATAAAACAATTTGCCGCACAACACATCTGCCGCCTCA CCGACCTCCTCAACCGCTACGCCTACGAATACTACACCCTCGACGCGCCC AGCGTACCCGATGCCGAATACGACAAATTGTTCCGCGAACTCGAAGCGTT GGAGTTAAACCATCCCGAGCTCAAACTGCCCGACAGCCCGACCCAGCGCG TCGGCGGCGAGCCTTTGGCGGGATTTGCCGAAGTACGCCACGAAGTGCCG ATGCTGTCGCTGACCAACGCTTTTTCCCCGCAAGATGAAAACGGCGTGTT CGACCATGCCGAAATGTACGCCTTCGACCAACGCGTGCGCGACGGCTTGG ACGGCGGCAATCCCGAATACGTTATCGAACCCAAATTCGACGGCCTCGCC ATCAGCCTGCTCTACCGCGACGGCGTATTGGTGCAGGCGGCAACGCGCGG CGACGGCACGACGGGCGAAGACGTTACCCAAAACATCAAAACCGTATCCA ACATCCCCTTGCGGCTGCACGGCGAAAATACGCCCGAACTCATCGAGGTA CGCGGCGAAGTGCTGATGCTCAAAGCCGATTTTGTCGCCCTCAATAAAAG ACAAGCCGAAAACGGGCAAAAACCCTTTGCCAATCCGCGCAACGCCGCCG CCGGCAGCCTACGCCAACTCGATTCGCGCATCACCGCGCAACGCAAACTG CACTTTTTCCCCTACTCCGTCGCCCGCCAGCAAGATGGTTTCGTCGCGGA AGAACACATCCAGGAACTCGCCTATTTCCAAGCACTCGGCTTCAGTCTGC CCAATGGCAATTTCGGCTGTTTCAAAAATATCGACGAAGTATTGGCGTTT TACGAACACATGCAGCAAAAACGCCCCGAACTGCCCTACGAAATCGACGG CATGGTCGTCAAAGTCAACAGCTTGGCGCAACAGCACGAACTCGGCTTCA TCTCCCGCGCGCCGCGTTGGGCGGTTGCCCACAAATTCCCTGCCGAAGAA GCCCTGACCATTGTCGAAGCGATTGACGTGCAAATCGGCAGGACGGGTGC GGTAACGCCGGTTGCCCGATTACAGCCCGTATTCGTCGGTGGCGTAACTG TTACCAACGCCACCCTGCACAATCAGGACGAAGTATCGCGCAAAGACGTT CGCGTCGGCGATACCGTCGTCGTACGCCGTGCCGGAGACGTGATTCCCGA AGTTGTGCGCGTGATTTTTGAACGCCGCCCGATGCGGGAAACCGCCGTTG CCGTTTCAGACGGCATCGGGCATCGGCAGGACGATTTGTTTGCCGAAACA CCGTCCGCCAATCAAACCCAATCCGTTCCGCTCCACAAGCCCTACCGCCT GCCGACCCACTGCCCCATCTGCCGCAGCGAAATCGAACGCGAAGAAGGCG AAGCCGTCGCCCGATGCAGCGGCGGTATGCTTTGTCAGGCACAACGCGCG CAAGGCTTAATCCACTTCGCCTCGCGCAAAGCGATGGACATCGACGGCTT GGGTGAAAAACAAATCGAACAGCTTGTCGCGCAAGACCTCGTCCGCCACT TCGCCGATCTCTACCGCCTCGACATCCCGACCTTGCAAAAAATGAAGGAA ACAGCGGACAAAACCGTTGCCGAATCGGATCAAATGCCGTCTGAAGGCAG TTCGGTCGGCGCGTCGGGCAAACATAAAAAACAACCAGTCAAGTGGGCGG AAAACATCCTCGCAGGCATAGAAGCCAGCAAAACGCCCGAACTCGCCCGC TTCCTGTTCGCGCTCGGCATCCGCCACGTCGGCGAACGCACCGCCAAAAC GCTGGCACAGGCATTCGGCACATTGGAACGCGTCCGCCGCGCCCCCGAAC CCGTCCTCGCCTGCCTGCCCGACATCGGTACGGTAGTGGCGCGTTCCATT GCCCACTTCTTCGCCCAAGCCGAACAGCAGGCGATGATAGACGAACTGCT CGCCGCAGGCGTTGCCCCGCAAACCCAAGCCGTTACCATCCCGCCCGCCC GCCACGCCGAACCGCAACGCTGGATCGCCCGCCTGCCCGGTTTCAAAATC AGCGAAAACAAAGCCCAAGCCTTATGGGAACTCGCCGGCAAAAACATAGA AGGGCTGCAAACCGACAAAGCCCTCCCCACCGACTGGCAGGCGTGGCGCA GCGAACCACAAAACGCCGCCCTGCTCGAAAACCTGAAAACCTTCTTCGCG CAAATGCCGTCTGAAGACGAGGCGGCGCAAGGTTCAGACGGCATCAATAA AGCCGTGGCGGGCAAAACCTTCGTGTTAACCGGCACCCTGCCCACCCTCA AACGCGACCAAGCCCAATCCCTAATCGAAGCCGCAGGCGGCAAAGTTTCC GGCAGCGTGTCCAAAAAAACCGATTACGTCGTCGCCGGAGAAGCCGCGGG CAGCAAGCTGGAAAAAGCCAATGCCTTGGGCGTTTCCGTCCTCAGCGAAG CCGAACTGCTTACCCTGCTCGGCTGA >NMB2048 ligA-2, DNA ligase ATGATTAAGAAGACAATCGGCGGCATCATACCGATTTTTACGGCGGTTTT CATCCCTGCATCAGCAGGCGCGGCGGATTTGATGCTGGCGCAGGAATACA AAGGGCAGGATATTGCCGGCTGGGCGATGAGCGAGAAACTCGACGGCGTG CGCGCCTATTGGGACGGAAAGCACCTGATGAGCCGTCAGGGCTACGCGTT TGCTCCGCCCAAAGGTTTTACCGCTCAGTTTCCGCCTTATCCTTTGGACG GCGAATTGTATAGCGGACGTGGTCAGTTCGAGCAGATTTCCGCTACCGTG CGTTCTGTTTCTTCAGACTGGCGCGGCATCCGCCTGCACGTTTTCGATGT ACCCAAGGCGCAGGGCAACCTCTACCAACGTTTGGCAGTCGCAACGCAGT GGCTGAAAACGCATCCGAACGCGCCGATTACCATCATCCCGCAAATCAAA GTGCGCGACCGGCAGCACGCGATGGACTTTTTAAAACAAATCGAAGCGCA GGGCGGCGAAGGCGTGATGCTGCGTCAGCCCGAATCCCGTTACAGCGGCG GCAGGAGCAGCCAATTATTGAAGCTGAAAAGCCAATACGACGACGAATGC ACGGTAACGCGGCACTATGAGGGCAAAGGGCGAAACGCCGGACGGCTGGG CGCGGTCGGCTGCAAAAACCGGCACGGCGAATTCCGCATCGGCAGCGGTT TCAAAGATAAAGACCGCGACAACCCGCCCAAAATCGGCACACTGATTACC TACCGTTACCGTGGCTTTACGCGGAAAGGCACGCCGAAATTTGCCACATT TGTGCGCGTGCGTACCGACCGCTGA >NMB1281 mfd, transcription-repair coupling factor ATGACCTACCCCATCCCCAAACCCCGTGAAAAATCCCGTTGGCCCAATCT TTCGCAAGGCTCGCTGCCCTTGGCTTTGGCGCGTTATCTGCCGCACAAGC GGCTCAAGGTCGTGCTGACCCAAGATGCGGAACAGGCGTTGCGCCTTCAG ACGGCATGGCGGTTTTTCCGTCCGCACGACACGGCGGTGTTCCTGCCGGA CTGGGAAACGCTGCCTTACGAGCGTTTTTCGCCGCATCAGGATTTGGTGT CGGAGCGGCTGTCGGCGTTGTGGCAGATTAAAAGCGGCGCGGCGGATGTG TTGTTCGTGCCGGTTGCCACGGCGATGCAGAAGCTGCCGCCCGTGCCGTT TCTGGCAGGGCGCACGTTTTGGCTGAAAACGGGGCAGACTTTGGATATAG GCCGTCTGAAAAGTGATTTGGTGGATGCGGGCTACAACCATGTTTCCCAC GTTGTCGCGGCGGGCGAATTTGCCGTGCGCGGCGGTATAGTCGATTTGTT CCCGATGGGCAGCGAAATGCCGTACCGCATCGATTTGTTTGACGATGAAA TCGACAGCATCAAAACCTTCGATACCGAAACGCAACGCACCATTTCCCCC GTTTCCGAAATCCGCCTGCTGCCGGCGCACGAGTTCCCCACCGACAGCGA GGCGCAAAAAATCTTCCGCAGCCGCTTCCGCGAGGAAGTCGATGGTAATC CGAACGATGCGGCTGTGTACAAAGCCGTCAGCAACGGTCATTTCGGCGCG GGCGTGGAATACTACCTGCCGCTGTTTTTTGAAAACGAGTTGGAAACGCT GTTTGACTATATCGGCGAAGATGCGCTGTTTGTCTCTTTAGACGATGTTC ATGCCGAGGCAAACCGTTTTTGGAGCGATGTCAAATCGCGTTACGCGATG GCGCAGGGCGACGAAACCTATCCGCCTTTGCTTCCACAGTATTTGTATCT CTCTGCCGATGTGTTCGCAGGCCGTCTGAAAAACTACGGACAGGTGCTGC CCGATGTTTCCGGCAAGGAATACACCCTGCCCGACCTTGCCGTCAACCGC CAAGCAGATGAGCCGTTGCAGGCATTGAAGGATTTTCAGACGGCGTTTGA CGGACGGATTTTGCTGTGCGCCGAAAGTTTGGGACGGCGCGAAACTATGC TCGGTTTCTTGCAGCAAAACGGTTTGAAAGCCAAACCCGTGTCCGACTGG CAGGGCTTTTTATCGGCACACGAGCCGCTGATGATTACAGTGGCGCCGTT GGCATACGGGTTCAAACTGGGCGGACTGCAATCGCCGAACCAACAGCAAC CTACTCCCTCCCCCGTGGGGGAGGGTTGGGGAGAGGGCAAAGCAGTTGCC GCTCAAACTGAATTTTCCGCAGCCGCAATAAACCCTCTCCCTAGCCCTCT CCCACAGGAGAGGGAACAAAGTGCAGCCGCCGTTTCAGACAGTCTGAAAG CAGCCGCCGTTTCAACCGAAAGCAGCCTGCCCCTCGGTACAAGTAATCTG CACGGGCAAATCCGACAGCAACCTGCCCCTTCCCCCGTGGGGGAGGGTTG GGGAGAGGGCAAAGCAGTTGCCGCTCAAACCGAATTTCCCGCATCCGCAA CAAACCCTCTCCCTAGCCCTCTCCCACAGGAGAGGGAACAAAGTGCAGCC GCCGTTTCAGACGACCTGAAAACCAAAAGCAGCCTGCATCCCGTCGCAAA TAATCTGCACGGGCAAATCCGACAGCAACCTACTCCCTCCCCCGTGGGGG AGGGTTGGGGAGAGGGCAAAGCAGTTGCCGCTCAAACCGAATTTTCCGCA GCCGCAACAAACCCTCTCCCTAGCCCTCTCCCACAGGAGAGGGAACAAAG TGCAGCCGTCGTTTCAGACAGTCTGAAAGCAGCCGCCGTTTCAACCGAAA GCAGCCTGCCCCCCGGTAAAAGTAATCTGCACGGGCAAATCCAACAGCAA CCTGCCCCCTCCCCCGTGGGGGAGGGTTGGGGAGAGGGCAAAGCAGTTGC CGCTCAAAGTGCCATCGCCGTCATCACCGAATCCGATCTCTACCAATACG TCGCCCGTTCGCGCATCCACAACCGCCGCAAGAAACACGCCGCCGTTTCA GACGGGCTGTTGCGCGACCTTGCCGAAATCAATATCGGCGACCCCGTCGT GCACGAAGAACACGGCATCGGGCGGTATATGGGCTTGGTAACGATGGACT TGGGCGGCGAAACCAACGAAATGATGTTGCTCGAATACGCAGGCGAAGCG CAGCTTTATGTGCCTGTTTCGCAACTGCATTTAATCAGCCGCTACTCCGG TCAGGCGCATGAAAACATTGCCCTGCACAAGCTCGGCAGTGGCGCGTGGA ACAAGGCGAAGCGCAAAGCCGCCGAAAAAGCGCGCGACACCGCCGCCGAA TTGCTCAACCTCTACGCCCAACGCGCCGCCCAATCGGGACACAAGTTTGA AATCAACGAGTTGGACTATCAGGCGTTTGCCGACGGCTTCGGCTACGAGG AAACCGAAGACCAGGCCGCCGCCATCGCCGCCGTGATTAAAGATTTGACG CAAGCGAAGCCGATGGATCGCCTTGTGTGCGGCGATGTCGGCTTCGGCAA AACCGAAGTCGCCCTGCGCGCCGCGTTTGTGGCGGTGATGGGCGGCAAAC AGGTCGCCGTACTTGCTCCGACCACGCTTTTGGTCGAGCAGCACGCGCAA AACTTCGCCGACCGTTTCGCCGATTTCCCCGTGAAAGTCGCCAGCCTTTC GCGTTTCAACAACAGCAAAGCCACCAAAGCCGCGCTGGAAGGCATGGCAG ACGGCACGGTCGATATTGTTATCGGTACGCACAAACTGGTGCAGGACGAC ATCAAATTCAAAAACTTAGGTTTAGTGATTATCGACGAAGAACACCGCTT CGGCGTGCGTCAGAAAGAGCAGCTCAAACGCCTGCGCGCCAATGTTGATA TCCTTACCATGACCGCCACGCCGATTCCGCGTACTTTAAGTATGGCGTTG GAAGGACTGCGCGACTTCTCGCTGATTACCACCGCGCCCAGCCGCCGCCT CGCCGTCAAAACCTTTGTCAAACCCTTTAGCGAAGGCAGCGTGCGCGAAG CCGTGTTGCGCGAACTCAAACGCGGAGGACAGGTATTTTTCCTGCACAAT GAAGTAGATACGATTGAAAATATGCGCGAGCGGCTGGAAACCCTGCTGCC CGAAGCCCGCATCGGCGTGGCGCACGGACAACTGCGCGAGCGCGAGCTGG AACAAGTCATGCGCGACTTTTTGCAGCAACGATTTAACGTGTTGCTCTGT TCCACCATCATCGAAACCGGTATCGATATCCCCAACGCCAACACCATCAT CATCAACCGCGCCGACAAATTCGGACTGGCGCAACTGCACCAGCTTCGCG GGCGCGTCGGCCGCAGCCATCACCAAGCCTACGCCTACCTGCTCACGCCC GAATACATCACTAAAGACGCAGAAAAACGCCTCGATGCCATTGCGGCGGC AGACGAACTCGGCGCAGGTTTTACCCTAGCCATGCAGGATTTGGAAATCC GTGGTGCAGGCGAAATCCTTGGCGAAGGACAATCCGGCGAAATGATACAG GTCGGCTTCACGCTCTACACCGAAATGCTCAAACAAGCCGTTCGCGACCT CAAAAAAGGCCGCCAGCCCGACCTCGACGCACCGTTGGGCATCACCACCG AAATCAAACTGCACAGCCCCGCCCTGCTGCCCGAAGATTACTGCCCCGAC ATCCACGAACGGCTCGTCCTCTACAAACGCCTCGCCGTCTGCGAAACCGT GCAACAAATCAACACCATACACGAAGAACTCGTCGACCGCTTCGGCCTGC CCGAACAACCCGTCAAAACCCTTATCGAAAGCCACCACTTACGGCTTATG GCAAAAGAATTGGGTATCGATGCCATTGATGCGGCCGGCGAAGCGGTAAC GGTAACCTTTGGTAAAAACAATAATGTCGATCCAACCGAAATCATCCTGC TGATTCAGAACGACAAAAAATACCGCCTTGCCGGCGCCGATAAGCTGCGG TTTACCGCAGAGATGGAAAATATCGAGGTCAGAATCAACACCGTAAAAAA CGTTTTAAAAACCTTGCAAAACAGATGCCTGCCCAAATAA >NMB1442 mutL, mismatch repair protein MutL ATGTCCCGAATCGCCGCCCTGCCCGACCATCTTGTCAACCAAATCGCCGC CGGCGAAGTGGTCGAACGCCCTGCCAACGCCTTGAAAGAAATCGTTGAAA ACAGTATCGATGCAGGCGCAACGGCGATTGAAGTCGAGCTGGCGGGCGGC GGCATCCGCCTGATTCGCGTCAGCGACAACGGCGGCGGCATCCACCCCGA CGACATCGAACTTGCGCTCCACCGCCACGCCACCAGCAAAATCAAAACCT TAAACGATTTGGAACACGTCGCCAGTATGGGCTTTCGCGGCGAAGGTTTG GCAAGCATCGCCTCCGTCAGCCGCCTGACCCTGACCAGCCGTCAGAACGA CAGTTCGCACGCGACCCAAGTCAAAGCCGAAGACGGCAAACTCAGCAGCC CCACCGCCGCCGCCCACCCCGTCGGCACCACCATCGAAGCCGCCGAACTC TTCTTCAACACCCCCGCACGGCGCAAGTTCCTCAAATCCGAAAACACCGA ATACGCCCACTGCGCCACCATGCTCGAACGCCTCGCGCTGGCGCATCCGC ACATTGCCTTCTCGCTCAAACGCGACGGCAAACAAGTGTTCAAACTCCCT GCACAAAGCCTGCATGAACGGATTGCCGCCATTGTCGGCGAAGACTTTCA GACGGCATCATTGGGAATCGACAGCGGCAACGGCGCGCTGCGGCTCTATG GTGCGATTGCCAAACCGACTTTCGCCAAAGGTAAAACCGACAAACAATAC TGCTTCGTCAACCATCGCTTCGTGCGCGACAAAGTGATGCTCCACGCCGT CAAGCAGGCATACCGCGACGTATTGCACAACGCACTCACTCCCGCCTTCG TCCTCTTTCTCGACCTGCCGCCCGAAGCCGTGGATGTCAACGTCCACCCG ACCAAAACCGAAATCCGCTTCCGCGACAGTCAGCAGGTGCACCAACTTGT GTTCCACACGCTCAACAAAGCCCTTGCCGACACACGCGCCAACCTGACCG AAAGCGTCGGCAACGCAGGCGAAGTGTTGCATGACATTACCGGCGTTGTC TCCACCCCAATGCCGTCTGAAAACGACAGCGAAAATCTGTTTGATAGCGT ATCCAACTACCCGACAGGCAACAAATCAGATACACACAATGCCTTTGGTT CATCAGGCAAAACCGCGCCCATGCCCTATCAGTCCGCATATGCGCCGCAA CAACGCAGCCTGTCCCTGCGCGAAAGCCGCGCGGCAATGAATACTTACGC CGAACTTTACAAAAAAACCGACGACATCGACCTTGAGTTAAGCCGATTCG AGCAGGCACGTTTCGGCAATATGCCGTCTGAAACGCCTGCTCCCCAAACA GATACGCCGCTTTCAGACGGCATCCCGTCCCAATCCGAACTGCCGCCGCT CGGTTTTGCCATTGCCCAATTACTTGGCATCTACATTCTTGCCCAAGCCG AAGACAGCCTGTTGCTCATCGATATGCACGCCGCCGCCGAACGCGTCAAC TACGAAAAAATGAAACGCCAACGTCAGGAAAACGGCAACCTGCAAAGCCA ACGCCTGCTTATTCCCGTAACCTTTGCCGCGTCCCACGAAGAATGCGCCG CCCTTGCCGATTATGCCGAAACGCTGGCAGGCTTCGGGCTGGAATTATCC GATATGGGCGGCAACACCCTCGCCGTCCGTGCAGTTCCCGCCATGCTCGG CAAAGCCGATGTCGTCTCGCTCGCCAAAGACGTATTAAACGAACTCGCCC AAGTCGGCAGCAGCCAAACCATCGAGGAACACGAAAACCGCATCCTCGCC ACCATGTCCTGCCACGGCTCGATCCGCGCCGGCCGCCGGCTCACCCTGCC CGAAATGAACGCCCTTCTGCGCGATATGGAAAATACGCCGCGCAGCAACC AGTGCAACCACGGCAGGCCGACTTGGGTCAAACTGACTTTGAAAGAATTG GACGCACTGTTCTTGCGCGGACAGTAA >NMB1295 mutM, formamidopyrimidine-DNA glycosylase ATGCCTGAATTGCCGGAAGTGGAAACGACGTTGCGCGGCATCGCGCCGCA TATTGAAGGGAAAACGGTGGAAGCCGTGGTATTGCGCCAATTGAAGCTGC GCTGGCAGATTAATCCCGATTTGGGGGAGATTTTGTCCGGCCGGCAGGTG TTGTCCTGCGGCAGGAGGGCGAAATACCTGCTTATCCGCTTTCAAACGGG CGTGCTGCTGATTCACTTGGGGATGTCGGGCAGCTTGCGGATTTTTACGC CGTCGGACGGACGTATCGGCAGGCCGGACAGACACGATCACGTCGATATT GTGTTTTCAGACGGCACGGTCATGCGTTACCGCGATCCGAGAAAGTTCGG CGCGATACTTTGGTATGAGGGAATCGAAGAACATCATCCGCTGTTGGAAA AACTGGGGCCGGAGCCTTTGTCGGAGGCATTTTGTGCGGATTATCTGTAT GCAAGGCTGAAGGCGCAGAAGCGCGCGGTCAAACTTGCCCTGATGGACAA TGCGGTCGTGGTCGGTGTGGGCAACATTTATGCCAACGAGAGCCTGTTCA GAGCGGGCATTTCGCCCCACCGTCCTGCCAACCGCCTGAAAAAGAAAGAG TGCGCGCTTTTGGTTGAAACCGTCAAAGCGGTGTTGCAGCGCGCCATTGA AACGGGCGGCAGTACCTTGAGGGATTTTGTGGACAGCGACGGCAAAAGCG GCTACTTCCAACAGGAATATACAGTGTACGGGCGGCACAATCAGCCGTGC CCCCGGTGCGGCGGTTTGGTTGTGAAAGAAACTTTGGGGCAGCGCGGCAC GTTTTATTGCCCGAACTGTCAGAAATAG >NMB2160 mutS, DNA mismatch repair protein MutS ATGTCCAAATCCGCCGTTTCCCCAATGATGCAGCAATACCTCGGCATCAA AGCGCAACATACCGACAAACTGGTGTTTTACCGTATGGGCGATTTTTACG AGATGTTTTTCGACGATGCGGTAGAAGCGGCAAAACTTTTGGATATTACC CTGACCACGCGCGGACAGGTGGATGGCGAGCCGGTCAAAATGGCAGGCGT GCCGTTTCACGCCGCCGAACAATATCTGGCGCGCCTGGTCAAGTTGGGCA AAAGCGTGGCGATTTGCGAACAGGTCGGCGAAGTCGGCGCGGGCAAAGGG CCTGTGGAGCGCAAAGTCGTGCGCATCGTAACGCCCGGCACGCTGACCGA TTCCGCATTGCTGGAAGACAAGGAAACCAACCGCATCGTTGCCGTGTCCC CCGACAAAAAATACATCGGTTTGGCGTGGGCATCGCTGCAAAGCGGCGAA TTCAAAACCAAGCTGACAACTGTGGATAAATTGGACGACGAACTGGCGCG CCTGCAGGCGGCGGAAATTCTGTTGCCTGACAGTAAAAACGCACCGCAAC TTCAGACGGCATCGGGTGTTACGCGCCTGAACGCGTGGCAGTTTGCCGCC GACGCGGGGGAAAAACTGCTGACGGAATATTTCGGCTGCCAGGATTTGCG CGGCTTCGGTTTGGACGGCAAAGAACACGCCGTTGCGATTGGCGCGGCAG GTGCACTGTTGAACTATATCCGTCTGACGCAAAACCTGATGCCGCAACAT TTGGACGGCCTGTCGCTCGAAACCGACAGCCAATATATCGGTATGGATGC CGCCACGCGCCGCAATCTCGAAATCACGCAAACCCTCTCCGGCAAAAAAT CGCCGACCCTGATGTCCACGCTCGACCTTTGCGCTACCCATATGGGCAGC CGCCTCTTGGCTCTCTGGCTGCACCACCCTTTACGCAACCGCGCCCACAT CCGAGCGCGCCAAGAAGCCGTTGCCGCGCTGGAAAGCCAATACAAACCCC TCCAGTGCCGTCTGAAAAGCATTGCCGACATCGAACGCATCGCCGCCCGT ATTGCCGTGGGTAACGCCCGCCCGCGCGACCTCGCCGCCCTGCGCGACAG CCTGTTTGCCCTGTCCGAAATCGAATTGTCCGCCGAGTGCAGCAGTCTCT TAGGAACCCTCAAAGCCGTTTTCCCGGAAAACCTATCCACAGCCGAACAG CTCCGCCAAGCCATTTTGCCCGAACCTTCCGTCTGGCTGAAAGACGGCAA TGTCATCAACCACGGTTTTCATCCCGAACTGGACGAATTGCGCCGCATTC AAAACCATGGCGACGAATTTTTGCTGGATTTGGAAGCCAAGGAACGCGAA CGTACCGGTTTGTCCACACTTAAAGTCGAGTTCAACCGCGTTCACGGCTT TTACATTGAATTGTCCAAAACCCAAGCCGAACAAGCACCTGCCGACTACC AACGCCGGCAAACCCTTAAAAACGCCGAACGCTTCATCACGCCGGAACTG AAAGCCTTTGAAGACAAAGTGCTGACTGCTCAAGAGCAAGCCCTCGCCTT AGAAAAACAACTCTTTGACGGCGTATTGAAAAACCTTCAGACGGCATTGC CGCAGCTTCAAAAAGCCGCCAAAGCCGCCGCCGCGCTGGACGTGTTGTCC ACATTTTCAGCCTTGGCAAAAGAGCGGAACTTCGTCCGCCCCGAGTTTGC CGACTATCCGGTTATCCACATCGAAAACGGCCGCCATCCCGTTGTCGAAC AGCAGGTACGCCACTTCACCGCCAACCACACCGACCTTGACCACAAACAC CGCCTCATGCTGCTCACCGGCCCCAATATGGGCGGCAAATCCACCTACAT GCGCCAAGTCGCGCTGATTGTTTTATTGGCACACACCGGCTGTTTTGTGC CTGCCGATGCCGCCACAATCGGGCCCATCGATCAAATCTTCACCCGCATC GGCGCATCGGACGACCTCGCCTCCAACCGCTCCACTTTCATGGTCGAAAT GAGCGAAACCGCCTACATCCTGCATCACGCCACCGAACAAAGCCTTGTTT TAATGGACGAAGTCGGACGTGGTACTTCCACTTTCGACGGCCTCGCCCTC GCGCACGCCGTTGCCGAACACCTGCTGCAAAAAAACAAATCCTTCAGCCT GTTTGCTACCCACTATTTCGAGCTGACCTACCTGCCCGAAGCCCACACCG CCGCCGTCAATATGCACCTTTCCGCGCTCGAACAGGGACAGGACATCGTT TTCCTGCACCAAATCCAACCGGGTCCCGCCGGTAAAAGCTACGGCATTGC CGTCGCCAAACTCGCCGGCCTGCCTGTACGCGCATTGAAATCCGCCCAAA AGCATTTGAACGGACTGGAAAACCAAGCCGCCGCGAACCGTCCCCAACTG GATATTTTCAGTACCATGCCGTCTGAAAAAGGAGATGAACCGAATGTGGG CAACTTTGTGGATAAAGCAGAGGAAAAACATTTTGAAGGTATATTGGCAG CAGCCTTGGAAAAACTCGATCCCGACAGCCTGACCCCGCGCGAAGCATTG TCAGAACTGTACCGTCTGAAAGATTTGTGCAAATCCGTATCTTAA >NMB0453 mutT, mutT protein ATGATTCAAGACACCCGACCCCTTATCCGCGTCGTTGCCGGCATCCTGCT CGATTCAGACGGCAACTACCTGCTCAGCTCGCGCCCCGAAGGCAAACCCT ATGCCGGATATTGGGAATTTGCCGGCGGCAAGGTCGAAGCGGGCGAAACC GACTTCCAAGCCCTGCAACGCGAGTTTGAAGAAGAACTCGGCATCCGCAT CCTCGCCGCCACGCCTTGGTTGACCAAAATCCATTCCTACGAACACGCCC GCGTCTGCCTGAAATTCCTATGGGTCAACCCCGACCAATGGACGGGCAAA CCGCAATCCCGCGAAGGGCAGGAATGGTCTTGGCAGAAGGCGGGTGATTT TACCGTTGCCCCCATGCTGCCCGCCAACGGCGCGCTTTTGCGTTCGCTGT CCGTCCCGCGCCGTTTGTACGGCAGCCTGAAAACGGGTTTGCACGGAGAA AACAGTATGGGCGCGTACCGCGTCCTGCCTTTGGGTTCGGCAGAGGGAAG CGGTGCGAACGTTTTGATGGAGGCGGCGCAATGGCAGGACAGACCCGAAC ACGCCGACAGCGTGTGGATGGTGGTGCAGACCCGCGAACAATGGCGGCGG GCGCAGGAAAAGGGCGCGGATGCGGTCGTTTGGCGCGTGTGCGATGATGT TCAGGCACAAGAGGCGGCAGAAGCCCTGCGGCAGGGCGTATCCGTGCCGC TCGTACTTGCAGCAAACGGACAGACGGTTGCACGTTATGGAAAACTATGG CTCGGATTGGGGGCGCACGTGGTGGTAAGGGATGAAACAATAGGGAAGAA TCATGAATAA >NMB1396 mutY, A/G-specific adenine glycosylase TTGATATTAATGAACACACCCATCCCCTTCTCCGAACGGCTCATCCGCTG GCAAAAACAACACGGTCGCCACCACCTCCCTTGGCAGGTCAAAAACCCTT ATTGCGTCTGGCTTTCCGAAATCATGCTCCAGCAAACGCAAGTCGCCACC GTGTTGGACTACTATCCGCGCTTCTTAGAAAAATTCCCGACCGTTCAGAC GCTTGCCGCCGCGCCGCAAGACGAAGTGTTGTCGTTGTGGGCGGGCTTGG GCTATTACAGCCGCGCGCGCAACCTGCACAAAGCCGCGCAACAAGTCGTC AGGCAATTCGGCGGCACGTTTCCGTCGGAGCGCAAAGACTTGGAAACCCT CTGCGGCGTAGGCAGAAGCACCGCCGCCGCCATTTGCGCCTTCTCCTTCA ACCGCCGCGAAACCATTTTGGACGGCAACGTCAAACGCGTACTCTGCCGC GTGTTCGCCCGCGACGGCAATCCGCAGGACAAAAAATTTGAAAACTCGCT CTGGACACTTGCCGAAAGCCTGCTGCCGTCTGAAAACGCCGATATGCCTG CCTATACACAAGGTTTGATGGATTTGGGCGCGACCGTGTGCAAACGGACG AAACCCTTGTGCCACCAATGCCCGATGGCGGACATCTGCGAAGCGAAAAA GCAAAACCGCACCGCCGAGCTGCCGCGCAAAAAAACCGCCGCCGAAGTAC CGACCCTGCCGCTTTACTGGCTGATTGTCCGCAACCGGGACGGCGCGATT TTGCTGGAAAAACGCCCCGCCAAAGGCATTTGGGGCGGGCTGTATTGCGT GCCGTGTTTTGAAAGTTTGAACGGGCTTTCCGACTTTGCCGCCAAATTCT CCCTGACCATGGCAGATATGGACGAACAAACCGCCCTGACCCACCGCCTG ACGCACCGGCTGCTATTGATTACGCCCTTTGAAGCACAAATGCCGTCTGA AAGCCCTTCAGACGGCATTTGGATAAAGCCGGCGCATTTGAAAGATTACG GTTTGCCCAAGCCTTTGGAAATTTATTTAAACGGTAATAGGTTAGAATAA >NMB0533 nth, endonuclease III ATGAACAGACACATCCGCCAAGAAATCTTCGAACGCTTCCGCGCCGCCAA CCCCCATCCGACCACCGAGCTGAATTTCAACTCCCCTTTCGAGCTTTTAA TTGCCGTTCTGCTTTCAGCGCAGGCGACCGATGTCGGCGTAAACAAGGCG ACGGCGAAGCTGTTTCCCGTTGCCGATACGCCGCAGGCGATGCTGGATTT GGGTTTGGACGGCGTGATGGAATACACGAAAACCATCGGGCTGTATAAAA CCAAATCCAAACACATTATGCAAACCTGCCGCATCCTGCTGGAAAAATAC AACGGCGAAGTGCCGGAAGACCGCGAGGCTTTGGAATCATTGCCGGGTGT GGGGCGCAAAACGGCAAACGTCGTATTGAACACGGCGTTCGGCCATCCCG TCATGGCGGTCGATACGCATATTTTCCGCGTATCCAACCGAACCAAAATC GCCCCCGGGAAAGATGTGCGCGAAGTCGAAGACAAACTGATGCGCTTCAT TCCTAAAGAATTTCTGATGGACGCGCACCACTGGCTGATTTTGCACGGAC GCTACACCTGCAAGGCACTCAAACCGCAATGCCAAACCTGCATCATCAAC GATTTGTGCGAATATCCCGCCAAAGCCTGA >NMB0642 ntpA, dATP pyrophosphohydrolase ATGCCGATGGCAAAACCGCTCAAATACCCCGTTTCCGCACTGGTCGTCCT TTATAGCGGGGACGGCGGCATCCTGCTCATCGAACGCACGCATCCGGAAG GATTTTGGCAGTCGGTAACCGGCAGCCTCGAACCGGGCGAAACCGTCGCC CAAACGGCAAGGCGCGAAGTTTGGGAAGAAACCGGCATCCTGCTGGCGGA CGGGCAGCTTCAAGACTGGCACGACAGCACGGTTTACGAAATCTACCACC ACTGGCGGCACCGCTATCCAAAAGGCGTGTTTGAAAACCGCGAACACCTC TTCTCTGCCGAAATCCCGCGTGATACGCCCATCGCCCTGCAACCCGAAGA ACACGTCTCCTACGGTTGGTTCGATATGGAAGAAGCAGCGGAAAAAGTAT TTTCCCCGTCCAACAGGCGCGCGATTTTGGAACTGGGCAGGTTTTTGGGC AAACGGTAA >NMB1605 parC, topoisomerase IV subunit A ATGAATACGCAAGCGCACGCCCCACATACCGATTCCAATACGCTGATGCT CGGCCGATACGCCGAACGCGCCTATCTCGAATACGCCATGAGCGTGGTCA AAGGCCGCGCGCTGCCTGAAGTTTCAGACGGCCAGAAGCCCGTGCAGCGG CGCATTTTGTTTGCCATGCGCGATATGGGTTTGACGGCGGGGGCGAAGCC GGTGAAATCGGCGCGCGTGGTCGGCGAGATTTTGGGTAAATACCACCCGC ACGGCGACAGTTCCGCCTATGAGGCGATGGTGCGGATGGCGCAGGATTTT ACCTTGCGCTATCCCTTAATCGACGGCATCGGCAACTTCGGCTCGCGCGA CGGCGACGGGGCGGCGGCGATGCGTTACACCGAAGCGCGGCTGACGCCGA TTGCGGAATTGCTGTTGTCCGAAATCAATCAGGGGACGGTGGATTTTGTG CCGAACTACGACGGCGCGTTTGACGAACCGCTGCACCTGCCCGCCCGCCT GCCTATGGTGTTGCTCAACGGCGCGTCAGGCATTGCGGTGGGCATGGCGA CCGAGATTCCGCCGCACAATTTGAACGAAGTGACGCAGGCGGCGATTGCG TTGTTGAAAAAGCCGACGCTGGAAACCGCCGACCTGATGCAATATATTCC TGCCCCCGATTTTGCCGGCGGCGGTCAAATCATCACGCCGGCGGACGAAT TGCGCCGGATTTATGAAACCGGCAAGGGCAGCGTGCGCGTGCGTGCGCGT TATGAAATCGAAAAATTGGCGCGCGGACAGTGGCGCGTCATCGTAACCGA GCTGCCGCCGAACGCCAATTCCGCCAAAATCCTTGCCGAAATCGAAGAGC AAACCAACCCGAAACCGAAAGCGGGTAAGAAACAGCTCAACCAAGACCAG CTCAATACCAAAAAGCTGATGCTGGATTTAATCGACCGCGTGCGCGACGA GTCCGACGGCGAACATCCCGTGCGACTGGTATTCGAGCCGAAATCCAGCC GCATCGATACCGATACCTTCATCAACACGCTGATGGCGCAAACTTCGCTG GAAGGCAATGTGTCGATGAACTTGGTGATGATGGGTTTGGACAACCGCCC CGCGCAGAAAAACCTGAAAACGATTTTGCAGGAATGGCTGGATTTCCGCA CCGTAACCGTAACACGCCGTCTGAAATTCCGTTTGAACCAAGTGGAAAAA CGGCTGCACATCCTCGAAGGCCGTCTGAAAGTCTTTCTGCACATCGACGA AGTGATTAAAGTCATCCGCGAATCAGACGACCCGAAAGCCGATTTGATGG CGGCGTTCGGGCTGACCGAAATCCAAGCCGAAGACATTTTGGAAATCCGC CTGCGCCAGTTGGCGCGTTTGGAGGGTTTCAAACTCGAAAAAGAATTGAA CGAGTTGCGCGAGGAACAAGGCCGTCTGAACATCCTTTTGAGCGACGAAA ACGAAAAACGCAAGCTGATTGTCAAAGAGATGCAGGCGGATATGAAACAA TACGGCGACGCGCGACGCACGCTGGTGGAAGAGGCCGGACGCGCCGTGCT GACGCAGACCACCGCCGACGAACCCATCACGCTGATCCTGTCGGAAAAAG GCTGGATACGCAGCCGCGCCGGACACAATCTCGATTTGAGCCAAACCGCG TTCAAAGAAGGCGACTGCCTCAAACAAACCCTCGAAGGCAGAACGGTTTT ACCCGTCGTCATCCTCGATTCATCGGGCAGAACCTACACGCTCGATGCCG CCGAAATCCCCGGAGGGCGCGGCGACGGCGTACCGGTTTCCTCCTTAATC GAGCTGCAAAACGGCGCGAAACCCGTTGCGATGTTGACAGGATTGCCGGA ACAACATTATTTATTATCAAGCAGCAGCGGCTATGGCTTCATCACCAAGC TGGGCGATATGGTCGGGCGCGTGAAAGCGGGCAAAGTGGTGATGACCGCA GACAGCGGCGAAACCGTTTTGCCGCCGGTTGCCGTCTATGCCTCCTCGTT CATCAACCCCGACTGCAAAATCATTGCCGCCACCAGTCAAAACCGCGCCC TCGCCTTCCCCATCGGCGAATTGAAAATTATGGCGAAAGGCAAAGGGCTG CAAATCATCGGATTAAACGCCGGCGAATCGATGACGCATACCGCCGTTTC TTCCGAGCTGGAAATCCTGATTGAAAGCGAAGGCAGGCGCGGCGCGGCGC ACAAAGACCGCATCCCCATCTCCCTGCTTGAGGCAAAACGCGGCAAAAAA GGCAGACTATTGCCCATATCGGGCAGCCTGAAACAGCTTTCTTCCCCTAA ATAA >NMB1682 parE, topoisomerase IV subunit B ATGGCTAAAAACAACCAATACAGCGAATCCAGCATCACCGTCCTCAAAGG CTTGGAGCCGGTCAAAGAACGTCCCGGTATGTACACCCGCACCGACAGCC CGACCCATATCTGCCAAGAAGTCATCGACAACGCGTCGGATGAAGCGTTG GGCGGTTTCGCGACTGCAATCGACGTGCAAATTCATGAAGACGGTTCGCT TTCCGTGCACGACAATGGGCGCGGCATTCCCGTCGGCCTGCATCCCGAAG AAGGCGTATCCGTAGTCGAACTCGTATTCACCCGTCTGCACGCAGGCGGC AAGTTCAACAAAAAAGACGGAGGCAGCGCGTATGCCTTTTCAGGCGGCCT GCACGGCGTGGGCGTATCCGTCACCAACGCCCTTTCCACCCGCCTTGAAG TAACGGTCAAACGCGAAGGCAAAATCCACCGCATCGTGTTTGCCGGCGGC GACGTGGTCGAACCGTTGGCACAAGTGGGCAAATGCGCCGTCAAAGACAG CGGTACAGAAGTGCGCGTCTGGCCGGACGGCAAATATTTTGAAAGCCCGA ATTACAGCATTCCCGAACTCGAACGCCTGCTGCGTGCCAAAGCCGTGCTG CTGCCGGGTGTGCGCGTTTCCCTGACCCGTCCGGTCAAAGGCGAAGACGA AGCGCACACCCAAACCTGGCATTACCCCGACGGCCTGAAAAGCTATCTGA CCGACCTGATTGCCGACGCGCAGGAAGCCGTACCGCTGTTCTCTTGCGAA AACTACATTTCAGACGAACACAACGGCGATTTCAGCATCGGCGAAGGAGC GGCGTTTGCCCTGACTTGGCTGGAAGAAGGCTCGTGCGCCAACGAAAGCT ACGTCAACCTCATCCCCACCCCGCTGGGCGGCACGCACGAAGCAGGCTTG AAACAAGCCGTGTTCAACGCAGTCAACAACTTCATCAATCTGCACAACCT CTTGCCGCGCGGCGTTAAAGTGCAAAGCGACGACGTGTTCGGAAAAACCG CCTTCGTTCTCTCTGCCCGCGTCCTCGACCCGCAGTTCCAAGGTCAAACC AAAGACAAGCTGACCAACCGCGACGCGCTGAAACTCGTCGCCACCGTATC GGGCGACCCTTTGGAATTGTGGCTGAACCAAAACGTGGACTTCGGCAAAA AAATCGCCGAACTCGCCATCCGCCAAGCACAGGCGCGGATGCGTTCGGTT AAAAAGATTGAAAAGAAAAAAGGCAGCGGCGTCGCCGTCCTGCCCGGTAA GCTGACCGACTGCGAAAGCGAAGACATCCGCGAAAACGAACTCTTCCTCG TCGAAGGCGATTCCGCCGGCGGCTCAGCCAAACTCGCCCGCGACAAAGCC ACCCAAGCCATCCTGCCCCTGCGCGGCAAAGTGCTCAACAGCTTTGAAGT CCACCCCGACCAACTCTTCGGCAACGCCGAAATCCACGACATTTCCGTCG CCATCGGCGTCGATCCGCACGGTATTAACGACCATCCCGATTTAAGCGGC CTGCGCTACGGCAAAATCGCCATCCTGTCCGATGCCGACGTGGACGGCTC GCATATTCAAGTTTTGCTGCTGACCCTGTTCTACCGCCACTTCCCGAAAC TGGTTGCCGACGGACACATCTACGTCGCCCAGCCGCCACTGTTCCGCGTC GATGTCAACGCACAAGGTAAGAGCAAACCTGCCCGCAAATTCTACGCCCT CGACCAAAACGAACTCGACAGCATTTTGGAGCGGCTGCAAAAAGAAGGCG TTAAAGAAACCGCCTATTCCATCAGCCGTTTCAAAGGCTTGGGCGAGATG AACCCCGACCAGCTCAAAGATACTACCATGCACCCCGACACCCGCCGCCT GTTGCAGGTACAAATCCCAGAAGGTGCAGATGACGAGACGCGCGACATCT TCGTCAAACTGATGGGCAAAGGCGAAGCCGCCGCCCGCCGCGCTTGGATG GAACGCGAAGGCGATACGGCGGAATTGGATATTTGA >NMB1552 pivNM-1A, pilin gene inverting protein PivNM-1A ATGAATATAATCGGGCTGGACATCTCAAAGGACACCATAGACGCAACATT GCATAAAACAAACGGAAGTATCCATTACATTAAATTTAAGAATAATGATG ATGGATTAAAACAGTTTAGATTGTGGATAAAGGGAAACAGAATCAGAAAA GTCTATATCGGCATGGAGGCAACAGGCATCTATTACGAAAAGGCAGCAGA TATGCTTTCTTCCTACTATACTGTTTACGTTATTAATCCCTTAAAAATCA AGGACTACGGAAAAAGCAGGTTTAACCGTACCAAAACCGACAAAGCAGAT TCAAACCTGATAGCAGACTACATAAAAAGGCATCAAGATACATTGATACC GTATCAGATACCCAAAAACAAAGCACTGCAAAAACTGATTAACCTTAAAA ATCAATTACATCAACATCAGAAGCAAATTAAAAACCGTCTTCATAGCACT GAAGAAGACTTCATAAGGAACATACATCAAGACTTGATAGATACCATACA GGACAAGATGGAACAGGTAAAAATAGCCATATCCGAACAAATCAAAAAAC AAACGGACAATAACCATTACCGCAATCTTCAAACCATCCCGAGCATAGGC AAAGACACCGCATCAGTTCTTTATGCGCAACTGACAGAAAAACATTTTAA AACCGCAAACCAGTTTGTATCCTATGCCGGATTAAATCCCGCCATCATAC AATCAGGGACAAGCGTAAGAGGTCGGGGCAGATTGAGCCGATACGGAAAC AGACGATTAAAAAGTACGCTGTATATGCCCGCCCTTTGTGCTTACCGTTT TAACGCATTTCCGAAATTAATAAATAATCTGAAAAAAGCGGGTAAGCCAA AGATGGTAATCATCGTTGCCATCATGCGCAAACTGGCGAAGCTCGCCTAT TACATTGTTAAAACCGGCCAGCCTTACGATGCGGAAAGACACCGATTGAA TCAATAA >NMB1625 pivNM-1B, pilin gene inverting protein PivNM-1B ATGAATATAATCGGGCTGGACATCTCAAAGGACACCATAGACGCAACATT GCATAAAACAAACGGAAGTATCCATTACATTAAATTTAAGAATAATGATG ATGGATTAAAACAGTTTAGATTGTGGATAAAGGGAAACAGAATCAGAAAA GTCTATATCGGCATGGAGGCAACAGGCATCTATTACGAAAAGGCAGCAGA TATGCTTTCTTCCTACTATACTGTTTACGTTATTAATCCCTTAAAAATCA AGGACTACGGAAAAAGCAGGTTTAACCGTACCAAAACCGACAAAGCAGAT TCAAACCTGATAGCAGACTACATAAAAAGGCATCAAGATACATTGATACC GTATCAGATACCCAAAAACAAAGCACTGCAAAAACTGATTAACCTTAAAA ATCAATTACATCAACATCAGAAGCAAATTAAAAACCGTCTTCATAGCACT GAAGAAGACTTCATAAGGAACATACATCAAGACTTGATAGATACCATACA GGACAAGATGGAACAGGTAAAAATAGCCATATCCGAACAAATCAAAAAAC AAACGGACAATAACCATTACCGCAATCTTCAAACCATCCCGAGCATAGGC AAAGACACCGCATCAGTTCTTTATGCGCAACTGACAGAAAAACATTTTAA AACCGCAAACCAGTTTGTATCCTATGCCGGATTAAATCCCGCCATCATAC AATCAGGGACAAGCGTAAGAGGTCGGGGCAGATTGAGCCGATACGGAAAC AGACGATTAAAAAGTACGCTGTATATGCCCGCCCTTTGTGCTTACCGTTT TAACGCATTTCCGAAATTAATAAATAATCTGAAAAAAGCGGGTAAGCCAA AGATGGTAATCATCGTTGCCATCATGCGCAAACTGGCGAAGCTCGCCTAT TACATTGTTAAAACCGGCCAGCCTTACGATGCGGAAAGACACCGATTGAA TCAATAA >NMB1750 pivNM-2, pilin gene inverting protein PivNM-2 ATGTACTTAGGAATAGACGTTTCAAAGCTCACAATAGATTGCTGTTTGAT TGTAGACGGTCAAAATTATCAAAAGAAGTTTCAGAACAACAAAGGAGGAT TTGAACAATTAATAAATTGGCTACAAAGTCATAAAGTAAACGATAAGCTC CATTGCGTGTGCGAAGCAACAGGCACATATTACGAAGCATTAGCCGAATA TCTTTATTCAAGATATACAATTACCGTAGAGAATCCACGAAAGATAAAAG GATATGCGATAGCAGAACTACAACGATCAAAAACAGATACACAAGACGCA AAGTTGATAGCCCAATATTGCCAAGACCGAAAGCACAAATTAAAAGCATG GAAACCGCCGACAAAAGAACAGAAGCAATTACAGGAAATCGCCCGATATT TAGACTATCTGAAACAGCAACGCGCAACAGAAAAAGCTAAACAACACGAA GCACCCGACTATATCAAATCCCATATTCAAACAACTATTTCAAACCTGAC AGCACAAATACAGATAGTCAAAAAGCAATTACTCCAGTTCTACAAAGACA ATCCAAGTTATAACAATCTACGCAAAAGGCTGAAAACAATAACAGGCATA GGCGAGCAAGCGACAGCAGTATTGCTATCAACCTATAAAAGACATGAATT TAAAAATGCAAGACAGTTCACGGCTTATCTAGGCCTAGACCCTAGAAAAT TTCAATCAGGAACAAGCGTGAACGGAAAAAGCAGAATATCAAAAATAGGA AGTTCGGAAATAAGGAAAAGCCTTTATATGCCTGCACTTGTTGCATATCG TTGTAATGCCTTCCCTGAATTTGTAGGGCGTCTGAAAAATAAAGGGAAGC ATATAAAATTGATATTAATTGCCATCATGCGGAAACTGGCGGTAATAGCG TTTACGATTTTGCAAAACGGCCAAGATTTCCAAGTGGAAAGATATAAATA A >NMB1982 polA, DNA polymerase I ATGTCCAACAGACCTACACTCCTCCTCGTTGACGGATCGTCCTACCTCTA CCGTGCGTATCACGCGATGGGGCAAAACCTGACCGCCCCCGACGGCGCGC CGACGGGTGCGCTGTATGGTGTATTGAATATGTTGCGCCGTTTGCGGTCG GAATATCCGCACGATTATTGCGCGGTGGTTTTTGATGCGAAAGGCAAAAA TTTCCGCCATCAAATGTTTGAAGAATACAAGGCGACGCGCCCGCCGATGC CCGACGATTTGCGCCCGCAGGCGGAAGCACTGCCGGATTTAGTGCGCCTG ACAGGCTGGCCGGTATTGGTGATTGGGCAGGTGGAGGCGGACGATGTGAT CGGCACGCTGGCGAAACAGGGGGCGGAACATGGTTTGCGAGTCATTGTTT CGACCGGCGATAAGGACATGGCGCAGTTGGTGGATGAGCGCGTTACGCTG GTGAACACGATGAGCAGCGAAACGCTGGACATTGAAGGCGTGAAGGCAAA ATTCGGCGTGCGCCCCGACCAAATCCGCGATTATCTCGCGCTGATGGGCG ACAAGGTGGACAACGTGCCGGGCGTGGAAAAATGCGGCCCGAAAACGGCG GTGAAATGGCTGGAAGCCTACGGTTCGCTGGCTGGTGTGATGGAACACGC TTCGGAAATCAAGGGCAAAGTGGGCGAAAACCTGCAAGCCGCGCTGCCCC AACTGCCGCTGTCGTATGATTTGGTCACGATTAAAACCGATGTGGACTTG CACGCCGAGCTTTCAGACGGCATCGAAAGCCTGCGCCGTACTACGCCGAA ATGGGCGCAGCTGGTTGTCGATTTCAAACGCTGGGGCTTCCGCACCTGGC TGAAAGAAGCGGAATCAAACATGAATACCGGCTCGACCGATGATTTGTTC GGCAGCGACAGCATCGGCGAGCAGGCGGCTTTGAATGCGGAAATGCCGTT TGAAAAACAAGCCGAAAAAGCCACCGCCCCCGAAAAACTGGATTATCAAG CCGTTACCACCGAAGCGCAGTTTGCCGCTTTGTTGGACAAACTGTCGCGG GCGGACACAATCGGCATCGATACGGAAACCACGTCATTAGACGCGATGAA CGCCTCGCTGGTCGGCATCAGCATCGCTTTCCAAGCAGGCGAAGCGGTTT ACATCCCCGTAGGACACAGCCTGACCGCCGCGCCTGAACAGCTTGATTTA CAAGACGTATTAGGCCGTCTGAAACCGCATTTGGGAAACCCCGCCCTAAA AAAAATCGGGCAAAACCTCAAATACGACCAACACGTTTTCGCCAACTACG GCATCGCCCTGAACGGCATTGCCGGCGACGCCATGCTCGCTTCCTACATC ATCGAGAGCCATCTCGGACACGGCTTGGACGAATTGTCCGAACGCTGGCT CGGCTTGGAAACCATTACCTACGAATCGCTGTGCGGCAAAGGCGCGAAGC AAATCGGTTTTGCCGATGTCGCCATCGGGCAGGCGACCGAATACGCCGCC CAAGACGCCGATTTCGCCCTGCGCCTCGAAGCGCACCTGCGCGCGCAAAT GGACGAAAAACAGCTTGAAATGTATGAAAAAATGGAGCTGCCCGTCGCGC AGGTATTGTTTGAAATGGAACGCAACGGCGTGCAAATCGACCGCGCCGAA CTCGCCCGCCAAAGCGCGGAACTCGGCGCCGAGCTGATGAAGCTCGAACA GGAAGCCTATGCCGCCGCAGGCCAGCCGTTCAACCTCAATTCGCCCAAAC AGCTGCAAGAAATCCTGTTCGACAAAATGGGCATCCCCACCAAAGGCCTG AAAAAAACCGCCAAAGGCGGCATTTCCACCAACGAAGCCGTGCTCGAACA GCTCGCGCCCGACTACCCCCTGCCTAAAATCATCCTGCAAAACCGCAGCC TGGCGAAGCTCAAATCCACCTACACCGACAAACTACCCGAAATGATTTCC CCCAAGGACGGCCGCGTGCATACCACCTACGCCCAAGCCGTCGCCATTAC CGGCCGCCTCGCCAGCAACAACCCCAACCTGCAAAATATCCCCATCCGTA CCGAAGAAGGGCGTAAAGTCCGCCGCGCCTTTACCGCACCGCAAGGCAGC GTCATCGTTTCCGCCGACTATTCCCAAATCGAGCTGCGCATTATGGCGCA CCTCTCCGGCGACAAAACCCTGATTGCCGCGTTCCAAAACGGCGAAGACG TACACCGCCGCACCGCCGCCGAAGTGTTCGGCACTGCGCCCGAAAACGTC TCGTCCGAGCAACGCCGCTATGCCAAAAGCATCAACTTCGGCTTAATTTA CGGTATGGGGCAATACGGTTTGGCAAAATCATTGGGCATCGACAACCTTT CCGCCAAAAACTTTATCGACCGCTACTTCGCCCGCTACCCCGGCGTCGCC GAATACATGCAGCGCACCAAAGAACAAGCCGCCGCCCAAGGCTACGTCGA AACCCTGTTCGGCAGAAGGCTCTACCTGCCCGACATCCGCAACAAAAACG CCAACGCCCGCGCCGGAGCCGAACGCGCTGCCATCAACGCCCCCATGCAG GGCACCGCCTCCGACCTCATCAAACGCGCCATGATAGACGTGTCCCGCTG GCTTTCAGAGTGCGAAGCCTCCCCGTGGGACGAACTCTTACAAAGCAAAC TGATTATGCAGGTGCATGACGAACTGGTGCTGGAAGTCGTTGAAACCGAA CTGGATTTTGTCAAAGAAAAACTGCCGCAGATTATGGCGAAAGTGGACGG CGGATTATTGGATGTACCGCTGGTGGCTGAGGTTGGCGTAGGGGAGAATT GGGAAGAGGCACATTGA >NMB0551 priA, primosomal protein n` ATGATTTACCACCGCATCGCCGTAAACGTGCCGCTTTCAGACGGCCTTTT GACTTATTCCCATTCCGATCCGCTTCCTCCGGGAACGCGGGTGCTTGTGC CTTTCCGCAATAAAACCGTGGTCGGGATGGTGTGGGAAACGGATATTGCG CCCGATATGGATATGGCGCGGATTTTGAGTGTTCAGACGGCCTTTGTGGA AGAAAAGCCGTTGCCTGAAAGCTGGCGTGATTTGTTGGCATTTACGTCGC GTTATTACCACTATCCGACTGGGCAGGCGGTGTTTGCCGCGCTGCCGCAG GGTTTGAAGGAAACGCGCGCGGTGGAAATGCCGCAGCCGCCGTTGTTTTA TGCTTTGAACGAAGCGGGCAGGGCGCAAACGCCGCCACCAGCTCGGTTCA ACAAAAAAGCGGCTTTGTGGGACGCACTGCTTTCGGGCGGAATGACGATG GCAGCGTTGAAGCAGGTAAACGCGCAGGCGGCGAAATTGATTGAAGATTG GGCGGAGCAGGGTTGGATTGAAACAACGGAAGCGGCGAAACCTGTATTGA GGTCGTACCACGGGCAGGCTTCGCACTCTGAATTTGTGTTGAATGCCGAC CAGCAACAGGCTTCCGATGAAATTCAGACGGCCTTCGGCAGCTTCCAGCC GTTTTTGCTGTACGGCATCACCGGCAGCGGCAAGACCGAGGTGTATTTCG ATGCGATGGCGAAAGTGTTGGCGCAGGGGCGGCAGGTGTTGTTTCTGTTG CCCGAAATCAACCTCACGCCGCAGCTTTTGAAGCGGGTGGAAAACCGTTT TGCCGACGTGCCGACCGCCGTGTTGCACAGTCAGATGGCGGCAGGCAAGC GCACGCAGGATTATTTGCGCGCGATGTTGGGGCAGGCGAAATTGGTCATC GGCACGCGGCTGGCGGTGTTCACGCCGATGGATGATGTCGGGCTGATTGT GGTCGATGAGGAACACGACGGCTCGTTCAAACAGGACAACGAATTGCGCT ACCACGCCCGCGATTTGGCGGTGTGGCGGGCGAAGCAGGGCGGCTGCCCG ATCATATTGGGCAGTGCCACCCCCAGCTTGGAGAGCTGGCACAAGGCGCA AAGCGGCGCGTACCGCCTGCTGCAACTGACCGAACGCGCCCATACCGCCG CGCAACTGCCGCAAGTGGACATCCTCAACGTAGGCCGTCTGAAACTTGAC AACGGCTTCTCGCCGCAAGCCTTGCAGCTTTTGAAACAGAACTTTGAAGC AGGTGGCATGTCGTTGGTGTACCTCAACCGTCGCGGCTTCGCGCCCGCGC TGTTTTGCGGCGACTGCGGTTATACCTTCGGCTGCCCGAACTGCTCCGCC AAAATGGTGCTGCACCAACGCGCCCGCCAACTGCGCTGCCACCACTGCGA CCACCGCGAACCCATCCCGTACAAATGCCCCGACTGCGGCAACCAAGACC TGACCGCCGTCGGCCACGGCACGCAGCGCGTCGAAGAAACCCTGCGCACC TTCCTGCCCAAGGCAGCCGTCGTCCGTGTTGACAGGGACAGCACCGCGCA CAAAAACGACTGGGCGGATTTGTACCGCCGCATCGCCGACAACAAAATCG ACATTTTGGTCGGCACGCAGATGCTCGCCAAAGGGCATGATTTCGCGCGG CTCAACCTCGTTATCGTGTTGAACGCTGACGGCAGCCTGTACAGCGCGGA CTTTCGCGCCCCGGAAAGGCTGTTCGCCGAGCTGATGCAGGTGTCCGGCA GGGCGGGGCGCGCCGACAAACCCGGCAAGGTGTTGATACAGACCCAACTG CCCGAACATCCCGTCTTCGCCGCCGTCAAAGCGCAGGACTACGCCGTGTT TGCCGAAAACGAATTGAACGAGCGGCAAATGTTCGCCATGCCGCCCTTCG GTTTCCAGACCGCCGTCCGCGCCGACGCGCCGCGCGTTGCCGATGCGATG GAGTTTCTCAATGCCGCCAAAGAAACCCTCGCCCCGCTTTTGCCCGAAAG CGTTTCACAGTTCGGCGCCGCCCCGATGCTGATGGTGCGCCTCGCCGAAC GCGAACGCGCGCAAATCTTCCTCGAATCTCCGTCCCGACAGGATTTGCAC CGTGCCGTGAGTTTGTGGGCGCAGGTGTTGCAGCAAAACCGCGACGGCAA AATCAGATGGTCGGTGGATGTCGATCCGCAGGAGGCTTGA >NMB1038 radC, DNA repair protein RadC ATGAGCATCAAGCAATGGCCGGAAGGCGAAAGACCCAGGGAAAAGCTGTT GGAACGCGGGGCGGCGGCGTTGAGTGATGCCGAACTTTTGGCAATCCTGC TGCGCGTCGGCACGCGCGGAATGAGTGCGGTCGATTTGGCGCGTTATTTG CTGCAGGAGTTCGGCAGTTTGGGGAGGCTGATGAGCGCGGAGGTCGGCAA ACTGTCGGCATACAAAGGGATGGGGACGGCAAGTTTCACACAGTTTGCCG TGGTCAGGGAAATCGGGCGGCGGATATTGGCGGAAGAATTGCAGGAGAGC ATCGTCCTGTCCGATCCGGATACGGTGGCCGATTATTTACGCTTTCATTT GGGGCAGGAAAAAGTCGAAGTCAGCGTCGCGCTGCTGCTGAACCGCCAAA ACCAACTGATTGCGGTCAGAGAGCTGTCGCGCGGTACGGTTGCGGAAAAC ACGATTTACATCCGCGAAATCGTCAAACTGGCATTGGACGAATATGCCGA CAGCCTGATTATTGCGCACAACCATCCGGGCGGCTCGCCCGAACCTTCGC AGGAAGACATCATGTTCACAAGGCGGCTGGCACAGGCAATGTCGCTGGTC GATGTGTCGCTGCTCGACCATTTTATCGTTACCTCGCAAAGCGTCTGTTC GTTCAGACAGCTCGGGTTGATGCCCTGA >NMB0851 rdgC, recombination associated protein RdgC ATGTGGTTCAAGCAGATTAGTTTTTATCCGCTCAACAAAGAAAAGCTGCC TGAGGCAGACGTACTTGCCGACAAACTTGCTGAAGCTGAATTTACCCATT GCCAAGGCTTAGACTGGTTCAGCGAAGGCTTTACCGCACCGGTTTCATTC TCCCCTGAACTCGTTTTCCCTGCCGACTTTACCTTGCGCGTCGCCCTGAA AAAAGAAGAAAAAGTCCTGCCTGCCGGCGTCATCCGCGATATTTTGGAAG AGAAGGTAGCGGAAATCCAAAACAATGAAGCCCGCAATGTCGGCCGTAAA GAAAAACAAGAGCTTAAAGAGCAAATTACAGACGACCTGCTGCCCCGAGC GTTTACCCGCAGCAGCCGTACAGAAGCGGTGTTTAACACCCGCCACGGCT ACCTGCTCGTCAATAACGCGGCTTCCGCCAAAGCAGAAAACATCCTGACC AAGCTGCGCGAAGCTTTGGGCGGTTTGGAAGCCTCGCTGCCGAATACCAA GCAATCGCCCTCTTCCTTGATGACCGGCTGGCTGTTGCAAGGGCATTGCG AAGGCGGTTTTGAATTAGACAGCGATTGCGAACTCAAAGGTACGGGCGAT ATTGTTCCCGTCGTCAAAGTATCCAAACAAGATTTAACCGCCGACGAAGT GGTTCAACACGTCAAAAACGGTAAAACCGTTACCCAACTGGGCTTGGTGT GGCGCGAACAAATTGCCTTTATCCTCACTCAAGACTTCACACTCAAGCGC ATCCAATACCTCGACGTATTGCAGGAAGAAGCCGAAAGCAACGGCGACGA TGCCGCCGGCCTTGCCTTCGCCTCGCAAATTCTGATGGCGGAATCCGTCA GCACCATGTTGGAAGAACTGGTTTCCTATTTGGGCGGCTGGCAAGATTGA >NMB1445 recA, recA protein ATGTCAGACGACAAAAGCAAAGCACTTGCCGCCGCACTGGCGCAAATCGA AAAAAGTTTCGGCAAAGGCGCCATCATGAAAATGGACGGCAGCCAGCAGG AAGAAAACCTCGAAGTCATTTCCACCGGATCGCTCGGATTAGACCTCGCC CTCGGAGTCGGCGGTCTGCCGCGCGGGCGCATCGTCGAAATCTTCGGCCC CGAATCCTCCGGCAAAACCACCCTCTGCCTCGAAGCCGTCGCCCAATGCC AGAAAAACGGCGGCGTGTGCGCCTTTGTCGATGCCGAACACGCCTTTGAT CCCGTTTACGCCCGCAAACTCGGCGTAAAAGTCGAAGAGCTTTACCTGTC CCAGCCCGATACCGGCGAACAGGCTTTGGAAATCTGCGACACACTCGTCC GTTCGGGCGGCATAGATATGGTAGTCGTCGATTCCGTAGCCGCACTCGTC CCCAAAGCCGAAATCGAAGGCGATATGGGGGACAGCCATGTCGGACTGCA GGCGCGCCTGATGAGCCAGGCTTTGCGCAAACTGACCGGACACATCAAAA AAACCAACACGCTGGTTGTGTTCATCAACCAAATCCGGATGAAGATCGGC GTAATGTTCGGCAGCCCCGAAACCACCACCGGCGGCAACGCGCTGAAATT CTATTCTTCCGTCCGCCTCGACATCCGCCGCACCGGATCCATCAAAAAAG GCGAAGAGGTATTGGGCAACGAAACCCGCGTCAAAGTCATCAAAAACAAA GTCGCCCCCCCGTTCCGTCAGGCAGAGTTTGACATCCTCTACGGAGAAGG CATCAGTTGGGAAGGCGAATTGATCGACATCGGCGTGAAAAACGACATCA TCAACAAATCCGGCGCGTGGTACAGCTACAACGGCGCGAAAATCGGTCAG GGCAAAGACAACGTCCGCGTCTGGCTGAAGGAAAATCCCGAAGTCGCCAA TGAAATCGACGCAAAAATCCGCGCCCTCAACGGCGTAGAAATGCACATCA CCGAAGGGACGCAGGACGAAACCGACGGCGAACGCCCCGAAGAATAA >NMB0785 recB, exodeoxyribonuclease V 135 KD polypeptide ATGTCTGCAAGCATCCAAGCATTCGACCCGCTAACCGTCCCCATTTCCGG CACCAACCTGATTGAGGCCTCTGCCGGCACCGGCAAAACCTACGGCATTG CCGCCCTGTTTACACGCCTGATCGTATTAGAACAAAAAAACGTCGAACGC GTATTGGTCGTAACCTTCACCAAAGCCGCCACCGCCGAGCTGAAAACACG CCTGCGCGGGCGTTTGGACGATGTGTTACAAGTTTTAGAAAGCAAAGGAA TTGCCAAACTTGGAGACGACACGCTTTCAGACGGCATTGCCGCCTACTGC GCCGAACACCACGAAGGCGACACCTTCCTGCCCGAACTCTTAAAACAGGC TTTGCAAAAAGAGGGCCGGACGCGTCTGATTGTCCGCCTCAAGGCCGCCA TCGGGCAATTCGACAACGCCGCCATCTATACCATCCACGGCTTCTGCCAG CGCATCCTGCGCGACTACGCCTTCCTGTGCCAAGCACCGTTCGATGTCGA AATGACCGAAGAAGACGGCGACCGCCTGCTTATCCCGGCGCAAGATTTTT GGCGGGAACGCGTCAGCAATGATCCGGTGCTTGCCGCATTGGCGCTTAAA CGCAAAGCTGTGCCGCAAACCGTCCTTGCCCAAATTTCGCGCTATCTTTC CCGCCCGTACCTGAATTTCCGCCGTCCGCAGGCGGATTTGAAACAGGCGC AGCGCAACGCCGAAACCTCATGGCAAACCATCTGCCGCCTGCTGCCAGAA CTGGAAGCCGGCTTTTGGCGCATTCATCCCGACCTCAACGGCAACAGTTA CCGCAAAAACAGCTTCGGCAACCTTTTTAAAGAACTGGCACAAAAATCCG CCGCCGGACAACTGCCCTTTCTGGACAAAGACACACACGACAGACTCTTG AAACTTGCATCCGACAAACTCGAAGCCGGACTGAAAAAAGGCAAAACGCC CGATGCGGCAGTATTTGCCGAATTGCAGAAACTGGCAGACTTCGGGCGCG ATTTGAACGCACTCGAAGAAGCGGAAGAAGCAACAATGATCCGGCTGCAA CTGGATTTAATCGAATACCTCAACCGCAGCCTTGCCGAGATGAAAAAATC GCGCCGCGAACGCGGTTTCGACGACCTGCTGCTCGATGTCCACACCGCGC TGACCGACAATCCGCACGCCGACACTCTCGCCCGCGCCGTTGCCGAAAAC TGGGAAACCGCGCTGATCGACGAGTTCCAAGACACCGACCCGCTGCAATA CGAAATCTTCCAAAAGATTTTCATCGCCCAAAACCGACCGCTGTTCCTCG TCGGCGATCCCAAACAGGCGATTTACAGCTTTCGCGGAGCGGACATTTAC GCCTACCTTCAGGCGGCGGAAGACGCGCGGCACCGCTACACGCTCGCCAC CAACTACCGCAGCCACGCCGCGCTTATCGGCAGCATAGGCGCGCTGTTCC GCCTCAAAGAACGCCCGTTCGTTTTGGAAAACATCGGCTATTCGGAAGTC GGTGCGGCGCGTGCCGAAAGCAGGCTGTCCCCCGAACGTCCTGCCGTACA GGTTCGTTGGCTGCACGAAAACGACAATGAAAAAGCCAACAAAGACGTTT TGCGCCGCCGTGCCGCCGACTATTGCGCCGACGAAATCGCCCACGCGCTC AACGAAGCCGCCAGAGGCCGTCTGAATTTCAAAGGCTGCCCGTTGCAGTC GGGCGATATTGCCGTGCTGGTACGCACGCACAACGAGGCGGTGATGGTTT CCGCCGCCCTGAAAAAACGGCAGGTGCAAAGCGTCCTGCTTTCGCGCGAA TCTGTGTTCGCCTCGCCCGAAGCCGCCGCCCTGTCCGCACTCATCGGCTT CTGGCTCGAACCGCGCCGCGCCGGAACGCTGCGTTTTGTCCTGACAAGCA GCATATTCGGTTATGACGCGCAGCAATTGCACGACTTCAACCAAAACGAA AGCGAGATTTTGCATTGGGCGGAATCTGCCCGAACCGCACTCGACAACTG GAATAAATACGGCATTTTCGCCGCTATGCAGCAATTTTCCCAAACACACG GCATCGAAACGCGCCTCTTAAGCCGGAACAACGGGCGCAGTCTGACCAAT TATTTCCAACTGCTCGAACTGCTTGCCGCCGAAGACGCGCAAAACCGCAA CCCCGCCGCGCTGCACAAATGGCTGGGCGACCAAATCAGCCTTGCCGAAA ACAACAGCGGCGACAACCGCGCCATCCGTCTGGAAAGCGACGAAGATTTG GTCAAAATCGTTACCATGCACGCCTCGAAAGGTTTGCAGTATCCGCTGGT GTACTGCCCGTTTGCGTGGGACGCGCAAGATACCGGACCGTCCGACTGGC AAATCCTCCACCAAGGCGCAAACCGAACCGAACTGTTGGCAAAGGCGCAA CTGTCGGAAGACGAACAGAAACAATACGCCGATGAAGAAATGGCGGAACG CCTGCGCCTGCTTTATGTCGCGCTGACGCGTGCCGAGGAACAGCTCAACA TCTACGCCGCGTACTCCACCAATACTGCCGACAACCCCCTCGCCTACCTG ATTGAAGGCTCGCCCCAAGACAGCCGTGAAACCGTCCGCCGTGCCTATGC GTGTGAAAAAGACGGCATCGCGATGCTCAAACGCAACTGGCGGCGCGTGG CGGACAACGCCCCTTCCGGCACAAATTTCGCCTTCACCGAAAATGCGCCG CCCCCTGCCGCCTATCGCAGCAACGCCGGTCAAACCGCCGAATTTGCCGC AAACAGCATTCCCGAACGCGGATTCCGATTTGTCCGCCACACTAGCTTTA CCGCCTTAAGCCGCCATACCCAAACGCCCGACGGCGGCGAAGAAGATGCC TGCCCGTCCTTGGATGCCGCCGAAACCTCGGTGCCGGCGATGCCGTCTGA AACGCCGACGGCTTCAGACGGCATATCGATACACGATTTTCCGAAAGGCA CGCAGGCGGGGCTGTGCCTGCACGAAATTCTTGAAGATTTCAAATTCGGA CAAGCAGCCGCCGGACAGGAAACCCTCATTGCCGACAAGCTGAAAAAATA CGGTTTTGAAGAAATATGGCTGCCCGCCGTTGCCGAAATGGCGGAAGCCT GCCGCAAAACGCCGCTGACGGGGGCATACGACCTGTCCGACATCTCACCC GAGTGCCGCTGTCCCGAAATGGGCTTTACCCTCCACACCGAAGACTTCAG CCTCAAACGCCTGCGCGACTGGTTTGCCCGCGACGACATCAGGCTGCCCG AAGTCTGCCGTGCCGCTGCCGAAACGCTCGACTTCCACACCGTCAACGGC TTTTTAAACGGCTTTGTCGATATGGTCTGCCAAGACCCCGACGGCAATAT CTGCGTCATCGACTACAAATCAAACCACCTCGGTACGGACGCATCCGCCT ACACGCAACAGGCAATGGACGAAGCCGTCGCACACCACCACTATTACCTT CAGGCACTGATTTACGCCGTTGCCGCCGCACGCTACTTCAAGCTGCGCGG ACAACCGCCCGCCGCCGTTTCCGTCCGCTACCTGTTTTTGCGCGGATTGG ATGGCAAAGGCGGCGGCGTTTGGCGTTGGGACATAGATGCCGCCGCTTTG GAACAGATAAAATAA >NMB1720 recC, exodeoxyribonuclease V 125 kD polypeptide ATGTTTTATCTGTATCAATCCAACCGTCTTGAAACGCTGGCGGCATTGTT TGCCCGCATTCAAAAAGTCAAACCGCTGAAATCGGCTTTACAGCCCGAAC AGATTATTGTGCAGAGTCAGGGGATGCGCCGCTACCTCAATACCTGCCTC GCCCGCGATTTGGGCGTGGCGGCGAATTTGTCGTTCAGCCTGCCCGCCGG CCTGACGTGGAAGCTGATGAAAAAACTGATTCCCGGTATTCCGGAACTCA GCCCGTTTGCGCCCGAAGTCATGCGCTGGCGGCTGCTGGATTTGTTCCGC AGCGAGGCATTTCGGAATACGGCAGAATTTGAAGATGTGAGGAATGTGCT GCAAGACTATCTGGGCAGCGGCGAATCGGCAGATTACCAGCTTGCGGGAC AGCTTGCGGACATATTCGACCAATACCTCGTGTACCGTCCTCAGTGGATA GACGCTTGGCAGCAGGGCAGGCGGCTCGGTTTGGGCGACGACGAAATCTG GCAGTCCAAACTGTGGCGTTACCTCGACGACGGCAGGCAGAGCGCGCCGC ACCGTGTCGCGTTGTGGGAAAAGCTGTTGGAATCTTTGAGCAGTGATAAG CTGCCCGAGCGTTATTTCGTGTTCGGCATTTCCACGATGGCGCCGATGTA TTTGCAACTTTTGCACAAGCTGTCCGAACATTGCGACGTGTTCGTGTTCG CACTCAATCCGAGCGGGATGTACTGGGGCAACGTCATCGAAGCGGCGCAA ATCCTCAAAGGTGGCGGCGATCCCGATTTAACTCAGGCAGGGCATCCGCT GCTCGCCTCATTGGGCAAGCAGGGGCGGGACTTTTTCGACTTTTTGAACG AAATGGAAATAGAAGGCGAAACGCCGGTATTTGAGGAAGGCGGGCGCGAT ACGCTTTTACACGCCCTGCAAACCGATATTCAAAACCTGAAAATGCCGTC TGAAATGGCGGGAAGCGTCAACACGGGCGACGGCTCGATACGCATCGTCT CCGCACACAGCCCTTTGCGCGAATTGCAGATACTCAAAGACAAGCTGTTG AAAATTCTGCATGAACATCCCGATTGGCAGCCGCACGATATCGCCGTATT AACCCCGAATATCGAATCCTATACGCCTTTTATCGAAGCCGTGTTCGGAC AGGCGCAGCCCGGTGCGCAGGCATTGCCGTATTCCGTGTCAGACGTGAAA ATCAGCCGCCGCCAACCGCTGTTTCATGCTTTGTCATGCCTGTTCGACTT GTTGGAAAGCCGATTTGAAGTCGATAAAGTGCTTGTGCTTTTAGAAACCG CGCCCGTGTTGCGCCGTTTCGGACTGACTGAGGACGATTTACCGCTTTTG CACGACATGGTTGCCGATTTGAACGTCCACTGGGGTTTGGACGGAGAAAT GCGCGGCGGCACGGATCAGCTGTTCACCTGGAAGCAGGCGGTAGAACGCA TGATATTGGGCTGGATGCTGCCCAAAGGCGGCAATCCGATGTGGCAGGAT GTCAGCGCGTGGTATGCCGACGTGAATCAAACCGCCATGTTCGGACGTTT TGCCGCCTTCCTCGAAACCCTGACGGATATTGTACGGATATGGCGGCAGC CCGCAACGGTCGGCGAATGGGTGGCGCGTTGCCGGGATTTGCTTGAAACA TTGTTCCAAGCTGAAGCCGATGACCAAAAGTCAGTCCAAAACCTTGAAAA CGAATGGGTCAAATGGCAGGCGGAAACCGAATTGGCGCAATTTTCCGGAC AGTTGCCGCCGCACACCGTCATCCGCCATATCCGACGCTTTCTCGACAGC GAAAGCGAGGCAGGCTTTTTACGCGGCGGCATCACCTTTTGCAGTATGGT GCCGATGCGGAGCCTGCCGTTCAAAGTCATCTGCCTGTTGGGTTTGAACG ACGGAGATTTTCCCCGTAATACCAAAGCCGCCGTATTCGACCTGATTGCC AAACATCCCGCCAAAGGAGACCGCGCCCGCCGCGATGACGACCGCTACCT GTTCCTCGAAGCCCTCATCAGCGCGCGTGAAATCCTCTACCTGTCCTACA TCGGGCGCGACATCCGCAAAGACGAAGAGCTTGCCCCGTCTTCCCTGTTG GGCGAACTCATCGATACCGTTGCCGCTATGGCGGGCATCGGTAGCCGCCA ACTTGCACAAAACCTGATAGAACAGCATCCGCTGCAAGCCTTCTCGCGCC GATATTTTCAAGAAGGCGGACGTTCAGACGGCATATTCGGCACGCGTACC GACTACGCCGCCGCGCTCGGACAAACGCCCGAACCGCCGCAACCCTTTTT CGATCAACCCGTAGAAAACGCCGAACCTGTTGCCGAAATCGGACAGGACG AATTTATCCGTTTCTGGCGCAACCCTGTCAAAGTATGGCTTCAGCAGCAG CTTGCGTGGAGCGAACCCCATATCGGCGAAGCCTGGGAGCCTGCCGAACC CTTCGAGCCGCAACACGCCGATCAAATCGCCGAAATCTACATCGAAGCAC GGTGCGAAGGACGGGATTTTGCCCAAACCGCCGCCCGCATCGGGGCGGAA AGCCTCCTGCCGTCGGGAGAGTTGGGCAGACTTTGGCAGCAGGACTTCCA AACTGCTGCCAAACAAATCGACACGGCGGTTTTAAACAGCCCCAAACTGC CACCGCTTTCATATGCCATACCGTCGGACGGGCAAATCCTGAAAGGCAGC TTGGGCAATCTGTACCGCTGCGGACAAGTGTTTTACGCCTACGGCAAACC CAACGCGCCGCAACGTATCGCTTTTCTGCTGGAACACCTGATATTTTGCG CCGTTATGCCGTCTGAAGCCGAAATGCGGCAAACCTTTATCGTCCAATCC GGAGAAACCGAAATATTGGCGGAAATCGCGCAAGACAGGGCATTGCAGCT ATTGTCGGAATGGATGGCGTTTTTCAATATCGGGCAAAACCGCCCGCTGC CGTTTTTTGCCAAAACCTCGCTTGCCACCGCCGAAGCGTTTGCCCAAAAA CAAGATTGGGAAGCCGCCCTGAAAAAAGCCCAAACCGCCTACCACGGCAG CAAAGTCAGCAAAGGGCAGAAAGACTATACCGAAGTCGCCCTCGTGTTCG GCAACGCAAGCCAAAACCCGCTCGAACAGCCCCTGTTTGAAAACCTCGTC CGTCTGCTTGCCGACACGCTTGCCGCAGCGGAAAAAAAGGAAGAGGCCGG AGAAGCCTGA >NMB1233 recD, exodeoxyribonuclease V, alpha subunit ATGGAACGGCAGACAGATGAATTTGCCCAAGCGGCGGCAAGGGCGGCAAT CCGTTTTTTGGAACACTATGCGGGTTCCGGCGACGAAGTGCTTGCAAACT GCACCGAACGCCTGTTTCAGGCATTGCAAAACGGTCATTCGTTTATCCGT TTGAGCGGTGGCGAGGCTGACGCGCTGTCGGCACTCGCACCCGTTGTCGG AACATCCGCCGCGCCTTTGATTTTGGAAGGCAGAAGGCTGTTTTTGGGCA GGATGTGGCAGTTGGAATACGATTTGGCTGCCGAGATAAAACGCTTGGCG GCAGCCGGCACATCCGCCCCCGACGCGGCAGGCGCGAGGCAAAACCTCGC AAAATGGTTTCAAGGCACGGGCAGCGAAGGGCAGCGCGATGCCGCCGCCT TGGCACTGTTGCAGTCTTTTATGGTGATTACCGGCGGGCCGGGAACGGGC AAAACGACAACGGTTGCCAAACTGCTGGCGCTGATTTGCGGTGAAGACGA AAATCTTCCCAACATCGCGCTTGCCGCACCGACGGGCAAAGCGGCGGCAC ATATGGCGCGCGCGCTGCACCGTGCAATCAACGGTTTTGACGCGCCGGAG GCCGTCCGCCGCCATTTGCTCAAACTGGAAGGGCAAACCGTCCACCGACT GCTGAAGCTGCGCCCGCCCAAAATGCAGGCGGCGTTCAACCCTGTTTACC CGCTGCCGTTTGACGTATTGGTTATCGATGAAGCCTCTATGCTGGATACG GCATTGATGCTGCAACTTTTAAAAGCGGTCAAAACCGGCGCGCGCGTGAT TCTGCTGGGGGATGAAAACCAGCTCCCGTCCGTCGGAATAGGGGCGGTGC TGTCCGTTTTGTCACAAAAAACCGTTTTGGACGGAGAAACGCACCAAAGG CTGGCCGGCTTCCTTCCGGAACACGGTTTCAGCGTCAGCGCAAATCCACC CGTGTTGGCGCAAAACACCGCCCATCTGTCGTTCAGCCACCGCTTCGGCG ACAACAGCGGCATCGGCTGCCTTGCCCGTGCCGCCGTATCGGGCGATGAA GGGGCGTGGGCATTGTTTGACCGGTTTCCGGACGAACTGGAACATTCGGA ATGCAGTCCGAACGCTCGAGTCGAAAGGTTGTACCGGGCACACAAAGCCT ATTGGCAGGCGGTAAAAGACGGCAATATCGAAGCCGCATACGCGGGCATT TCGGATATCGTGGTTCTGGCAGCTTGGCGGCAGGATGCGGAAGACTTCAA CGAAGCCTATTGCCGCCATGTACGCCGCAAAATGAACATACCGGAACATT TGGCATATTTTGCCGGAGAGCCGATTATGATCAGGCAGAACGACTACGCG CTTGAACTGTTCAACGGCGACATCGGACTGATTATGGAAGATGTCGGACG GCAGGGCAGCCTTGCCGCCTATTTTGCCGATGCGGACGGATTTAAAAAGG TAGCGGTAAGCTGCCTGCCCGAATTTGAACCCGCATTCGCCATGACCGTC CACAAAAGCCAAGGTTCGGAATACCGGGAAGTATGGCTGCTGCCGCCTTC CGCCGCACCTTCGGACGAAGGGGACGATGCATTGTCCGGATTGAGTAAGG AGCTGTTATATACCGCCATTACCCGCGCGAGAGAGAAGTTCGTATTCTTC GGCGGGGAAGAAGCCTTCCGGCAAGCTGCCGCCACCGTCAAAACGCGTCA GACGGCATTGGGCAGTATGCTCGAGCGGGTATTTTCACAAGAATAA >NMB1788 recG, ATP-dependent DNA helicase RecG ATGATGTCGCCCGAAACCCGAAAACAGCTCAAAATCACCGATGTTTCCGC CAAGAAGCTCGACAAACTCAACCTCCATACCGCGTGGGATTTGGTGTTGC ACCTGCCGCTGCGTTACGAGGACGAGACGCACATTATGCCGATTAAGGAC GCGCCGATTGGCGTGCCGTGTCAGGTCGAGGGGGAGGTTATCCATCAGGA AGTAACGTTCAAACCGCGCAAGCAGCTGATTGTCCAAATCGCCGACGGCT CCGGCAGCGTCCTTTTTCTGCGCTTCATCCACTTTTACGCCAGCCATCAG AAACAGACGGCGGTCGGCAAACGCATCCGCGCCGTGGGCGAAATCAAACA CGGCTTTTACGGCGACGAGATGATTCATCCCAAAATCCGCGATGCCGAGG GCGGCGGTTTGGCGGAAAGCCTCACGCCGGTTTACCCGACCGTAAACGGT TTGAACCAGCCCACTTTGCGCCGTATTATTCAGACGGCGTTGGACGTTAC GCCGCTGCACGACACGCTGCCCGATGCCCTGCTGTGCCGTCTGAAGCTGC CACACCTCGCCGAAAGCCTGCGTCTTTTGCATTCGCCGCCGCCGAGTTTC ACGATTCATCAGCTTTCAGACGGCACGCTGCCTGCATGGCAACGGCTCAA ATTCGATGAACTTTTGGCGCAACAGCTTTCGATGCGCTTGGCGCGACAGA AGCGTATCGGCGGCACGGCGGCGGCATTGGGCGGCGACGGCACATTGACC CAAGCCCTGCGCCAAGCCCTGCCGTTTGCCCTGACCGATGCGCAAGAAAA AGTTGTTTCCGAAATCTGCCGCGATATGGCGCAAACCTACCCGATGCACC GCCTGCTGCAGGGCGATGTCGGCAGCGGCAAAACCATTGTGGCTGCTTTG TCTGCTTTGACGGCTATCGAATCCGGTGCGCAGGTGGCTGTAATGGCGCC CACTGAAATCCTTGCCGAACAACATTTTATTAAATTTAAACAATGGCTCG AACCTTTGGGCATTGAAGTTGTCCGCCTTTTTGGCAGTTTGCGTAAAAAA GCCAAAGACGAAGCCAAAGCCAAACTCGCCGACGGCAGCGTCAAAATCGC CGTCGGCACGCACGCCCTGTTTTCAGACGGCGTGGCGTTTCACAATTTGG GCTTGACCATTGTGGACGAACAGCACCGTTTCGGCGTTGCCCAACGCCTC GCCCTCAAAAACAAAGGGCGCGAAGTCCATCAGCTGATGATGTCCGCCAC GCCCATCCCGCGCACGCTTGCGATGAGTTTTTTCGCCGATTTGGACGTGT CCGTCATCGACGAATTGCCGCCCGGGCGCACACCGATTAAAACGCGCCTC GTCAACAACGTCCGCCGCGCCGAAGTCGAAGGCTTCGTCCTCGGCACTTG CCGAAAAGGGCGGCAGGCGTATTGGGTCTGCCCATTGATTGAAGAAAGCG AAACCCTGCAACTGCAAACCGCCGCCGAAACCCTCGCCCGGCTTCAGACG GCATTGCCCGAACTCAATATCGGACTGGTACACGGGCGCATGAAGGCCGC CGAAAAGGCCGAAGTGATGGCGCGGTTTTCTTCGGGGGGGCTGAACGTCT TGGTCGCCACCACCGTCATCGAAGTCGGCGTAGATGTGCCCAATGCCGCC CTGATGGTCATCGAACACGCCGAGCGCATGGGCTTGGCGCAGCTGCACCA ATTACGCGGTCGGGTCGGGCGCGGCGCGGCAGAAAGCGTGTGCGTCCTCC TGTTTGCCGAACCCTTGGGCGAACTCGCCAAAGCGCGGCTGAAAGTCATC TACGAACACACCGACGGCTTTGAAATCGCCCGCCAAGACCTCAACATCCG CGGCCCCGGCGAATTTCTCGGCGCGCGCCAAAGCGGCGTGCCTATGCTGC GTTTCGCCAAGCTCGAAGAAGACCTGCACCTCTTGGAACAAGCGCGCGAA ACCGCCCCGATGCTGATTGAACAAAACCCCGAAATCGTCGAAGCGCATTT GGCAAGGTGGCTTTCCGGCAGGGAAGGGTATTTGGGCGTGTGA >NMB0842 recJ, single-stranded-DNA-specific exonuclease RecJ ATGTCAGTCAAAATCCAAACCCGATCCGTCAATACCGACGTTTTTAATCA TTTGCTCACCGCCGGTGCCGATCCTTTAATCGCCCAGCTTTGTGCTTCGC GCGGTGTGCAAAGTCCTGCCGAATTGGACGACAAACTCGCTTCCCTCCTG CCTTATCAATCGTTGACGAATTGCGAAGCCGCCGCCCGCCGTTTGGCGGA TGCGGTTGGGCGCAAGGAAAAAATCCTGATTGTTGCCGACTATGATGCCG ACGGTGCGACGGCGTGTGCCGTCGGTATGAGCGGTTTGGCGGCGATGGGG GCGAAAGTGGATTTCCTTGTGCCCAACCGCTTTGAACACGGCTACGGCTT AACGCCCGAACTTGCCGAAATCGCTGCCGCGCAGGGCGTGGATTTGCTGA TTACGGTGGATAACGGTATCGCCAGCATCGCAGGCGTGGCGAGGGCGCAG GCTCTGGGTTTGGATGTCATCGTTACTGACCACCACTTGCCGGCCGAGAC CGTGCCCGACTGCATCATCGTCAATCCGAACCAAAAAGGCTGCGGTTTTC CAAGCAAAAGCTTGGCGGGCGTGGGCGTGATTTTTTATGTATTGATGGCG TTGCGTGCCGAATTGCGCCGCCGCAATTATTTTTCAGACGGCATCAAAGA GCCGAATTTGGGCGAACTTTTGGATTTGGTCGCACTCGGCACGGTTGCCG ATGTCGTCCCTCTCGACCACAACAACCGCATCCTCGTGTCGCAAGGTTTG AAACGGATGCGCTCCGGCAAAATGCGCCCCGGTATCCGCGCCTTGTTTGA AGTGGCGCGGCGCGATTGGCGCAAGGCGCAGCCGTTTGATATGGGTTTTG CGTTGGGCCCGCGCATCAACGCCGCCGGACGGCTGGACGATATGTCGGTC GGCATCGCCTGCCTGTTGGCGCGAGATGATTCCGAAGCTCAGGAACTGGC GGCTCAGTTAAACAACCTCAATATCGAGCGCCGCGAAATCGAGCAGTCTA TGCTGCAAGACGCACTGAATGATTTCCCCGAAACCCTGCCTTCAGGTCAG ATGACTTTGGTGGCGTATCGCGACGACTTCCATCAAGGTGTGGTCGGCAT TGTCGCCAGCCGCCTCAAAGACCGTTTTTATCGTCCGACCATCGTGTTTG CGCCTGCCGACAACGGCGAAGTACGCGGTTCGGGACGTTCCATTCCCAAT TTGCACCTGCGCGATGCTTTGGACTTGGTGTCCAAACGCCATCCCGATTT GATTTTGAAATTCGGCGGACACGCGATGGCGGCGGGTTTGAGCATACTTG AACACAACATTCCCGCGTTTCAGACGACCTTTGAAGAAGCCGTGCGCGAA ATGGTGTGCGAAGACGATTTGTCGCAAACCTTCATCACCGACGGCAGCCT GCCCGCCTGCGACATCACGTTGGAACAGGCGCAAAACCTTGCCCGTCACG TTTGGGGGCAGGGCTTCGCGCCGCCGAGCTTTACCGACGAGTTCCACGTC GTCCGCCAGCAACCTTTGGGCGCGGAGGGCAAACACAAAAAAGTCTGGCT GCAAAAAGACGGCTGCGAATTTGAAGCGATGTTTTGGCGTTGCAGCGAAG ACATTCCCGAATACATCCGCACGGTTTACCGCCCCGTTGCCAACGAATGG CGCAACAATCTCGAATTGCAGCTGTATATCGATTACTGGGAAGCCGCGTA G >NMB0740 recN, DNA repair protein RecN ATGCTTCTAACACTTTCTTTGCGTGATTTTGTCATTGTTGAAAATCTGAA TCTGGATTTTCAAAGCGGCTTTACCGTATTGACCGGAGAAACTGGCGCGG GCAAGTCCATTACTTTGGATGCGATTGGTCTGCTGTTGGGCGATAAAGCC GATTACAGCCAAGTCCGCAGCGGCGCAAAAGAAGCGCAGTTGTCGGCGTT GTTTGATATTTCCCATTTACCTGTTTTAAAAGCAGAATTGTATGAACAGG GGCTTTTAAACGACGGAGAAGAAGAACTCAGTATCCGCCGCATTATCGAT GCCAAAGGCAAAAGCCGCAGCTTTATCAACAATCAGGCCGCTACCTTGGC GCAACTCAAAGCCGTCGGTAGCCAGCTTATCGACATCCACGGGCAAAACG CCCATCATTCGCTTAATCAGGAAGCCGCCCAGCGCGAATTGTTGGACGCA TTTGCGGGTAGCAGGGAGCAGGCGGAAACCGTCAGGCAGCTTTATCAAAA TTGGGCCAATGCGAAAAAAGCCCTCCAAGAGGCGCAGGAACACGCCGATG CCGTCATTATCGAGCGGGAGCGTCTGGAATGGCAGTTTAACGAATTGAAT CAGTTGGACATTAAACAAGGCGAGTGGGAAGCCCTCAGCCAAAGCCACGA CAGCCTTGCCCATTCTGCCGAGCTGTTGCAGGCTGCCGAAGAAGTCGGAA GCAAGATTGACGGCGACAACGGCATCCAACGCCATATCTATCAATGTCAA AAACTATTGGCCAATCTGCAAAACATCGAGCCGCGCTTTGCCGAGAGCCT GAATATGTTGGCAAGCATCGAAGCCGAATTGGGCGAAATCAGTGCCAATA TGCGCGATGTGGCAGGTCGCAGCGACATCAATCCCAACGAACTTGCCGCA CAAGAGCAGCGCATGGGCGAGCTGATGGGGATGGCGCGGAAATACCGGAT CGAGCCTGAAGAGTTGCCTGCCAAGTTGGCAGAAATCGAAGAACGCCTGC AAAGCCTGCAAGCTGCCGCCGATTTGGACGCGCTCGAGCATAATGTTGCC CACAATTTTGCCGAATATCAGGAAGCTGCCCACATCCTTTCTGCCATGCG CCATCAGGCGGCAGAGCGTTTGAGCGGCGAAACGACCGAGCATATGCAAC ACCTTGCCATGAAAGGCGCGCGTTTCGACATCGTCCTGTTGCCTTCGTCG CCGACGGCACACGGTTTGGAGCAGGTTCAATTTCAAGTTGCCGCCAACAA AGGCAATCCGCCCCGTCTGCTGAATAAAGTTGCCTCCGGCGGCGAATTGG CGCGTATCAGCCTTGCCTTACAGGTTGTTGCCAGCCAATATACCCAAGTT CCCACCCTGATTTTTGATGAGGTCGATACCGGTATTGGAGGGGGAGTGGC TGAAATGGTCGGCAAGGCATTACGTGCGTTGGGCAGAAAACATCAGGTGC TTGCCGTTACCCACCTTCCCCAAGTCGCATCCTGCGGAGAAAACCACTGG CGGGTGCGCAAGCACAGCGAGGGAGAGCAAACCGTCAGCGAAATCAGTAT ATTGGATGAAATCCAACGGATCGAAGAGGTTGCCCGTATGTTGGGCGGAG AAGTCATTACCGATACGACGCGGCAACATGCGGCAGAATTGCTGCAACTT GCGTCGAAAAATAGTTTATTTTAA >NMB0447 recO, DNA repair protein RecO ATGTCCGAATACCGAGTCAACCATGAACCCGTTTTTATGCTGGCATCTTC GCCCTGGCGCGAAAGCAGCCTGTGGGTTGAAGCATTCAGCCGCCGTTACG GGCGTGTGGCTTTGCTGGCGCGCAGCGCGCGCAAAAGGCAGAGCGAGCTG CGCGGCGTATTGGTGCCGTTCGTGCCCGTCAGCGTGTCGTGGTACGGCAG TCAGGAACTCAAAACCCTACACCGCGCCGAATGGGTCGGCGGTTGGCGGC AGCCTCAGGGCAGGGCGTTGTTCGGCGGATTGTATGTGAACGAGTTGGTG TTGAAACTGACCGCCCGCGAAGACCCGGTGCCCGAGTTATACGACGCGTT GGCGGAAGTGATGGAGGCGGTGTGCTGCAAAGCCGCTTATATCGACGACT TGCGCCGTTTCGAGTGGCGGCTGCTGAACCTGTTGGGCGTTGCCCCCGAT TTGAACCGCGACGGGGACGGCGGGACGATTGCGGCAGGCGGCACATACCT TGTCCGCCCGGAAACAGCCGTCTTCCCCGTCGGAAAAGGATTTGCCGTAC CGCCGCACGCCGCCGGCGTTGTCGCCCCCGGGCAGAGCCTGATCGATTTG CGCGAAGGCAGTTTCCGCACTGCCGAAAGCCTGCAACAGGCATTGAAAAT CACACGGCTTTTTATCCGCCACCTGTTGCCCGAGGGGCTGAAATCGCGGC AGGTGTTGGAACAGATACGGCAGTTTGACCGCAAAGAAACCGCCCGGGAA ACCGTCCCGACTTCGGACGGCACGGCTTCAAATGCCGTCTGA >NMB0274 recQ, ATP-dependent DNA helicase RecQ ATGCACCGACCGACCGCCAAACAGATTCTGCACGAAGTATTTGGTTATCC CGAATTTCGCGGCAGGCAGGAGGCTGTCATCAATACTTTGGCAGGCGGCG GGAGTTTGACGGTGCTGATGCCGACGGGCGGTGGCAAGTCTTTGTGTTAC CAGATTCCCGCGCTGATGCGCGAAGGCGTGGCGGTTGTCGTATCGCCGCT GATTGCGCTGATGAACGACCAAGTGGCAAACCTGCACGCCGCCGGCATCG AAGCGGCGGCAGTCAACAGCGGCACATCGGCAGACGAGGCGCGCGAGATT GCCGACCGGCTTGCCCAAGGCCGTCTGAAGCTGCTTTATGTCGCGCCGGA ACGCTTGGTTACCGACCGCTTTTTGCGTTTTCTCGACCAACAAACCGTCA GTCTGTTTGCCATTGATGAGGCGCATTGCGTCAGCCAATGGGGACACGAT TTCCGCCCTGAATATCAACAGCTCGGCATGCTTGCCGAACGCTATCCGAA CGTCCCGCGCATCGCTCTGACCGCTACCGCCGATGCCGCCACGCGCGCCG ACATCAAGCATTATCTGCACTTGGACGATGCGCCCGAATTTGTCTCCAGC TTTGACCGTCCGAATATTTATTATCAGGTTATCGAAAAAAACAACGGCAA AAAACAATTGCTGGATTTCATCCGCAAAGAAATGACGGGGCAAAGCGGCA TTGTGTATTGCCTAAGCCGCAAAAAGGTGGAAGATGTGGCGCAGTTTTTG CGTGAAAACGGATTAAACGCGATTCCGTATCATGCTGGTTTGAGCATGGA CGTACGCGAGGAAAACCAACGCCGCTTTACGCATGAAGACAATATTATCG TGGTGGCGACCGTGGCGTTCGGCATGGGCATAGACAAACCCGACGTGCGC TTTGTCGCCCATCTCGATATGCCCCAGAGTGTCGAACATTTCTATCAAGA ATCGGGGCGCGCCGGACGGGACGGGCTGCCGGCCGCAAGCTGGCTGTGTT ACGGTTTGAACGATTGGGTGTTGCTGCGCGAACGGATTGCCGAAGGCAAC AGCGACGAGGTGCAAAAGCAAATCGAAATGCAAAAACTCGATGCCATGCT TGCCGTCTGCGAAACCGCCGCCTGCCGCCGCGTACTGCTGCTCAAACATT TCGGCGAAGCATCCGAACCCTGCGGCCATTGCGACAACTGCCTGCATCCG CCCGTACGGTTTGACGGCACGGTGTTGGTGCAAAAATTACTCAGCTGCGT GTACCGCGCCGGACAACGTTTTGCCGCCGGTTACATCACCAACATTTTAC GAGGTAAAAGCGACGATTGGATACGCGGCAACCGGCACGAACAACTGTCC ACATTCGGCATCGGTACGGAGTTGTCCGACAAAGAATGGCGCAGCGTCAT CCGCCAGTGTATCAGCCTCGGCTACCTCACCGTCAACATTACCCGATATC AGGCATTGCAACTGACCGAAGCCGCCAAAAAAGTCCTCAAAGGCGAAACC GAAGTGATGCTGCGTCCGCTCAAGCGCGACAAGCCCGCCGCCCGCACCCT CAAAGACAACTGGCTGCGTACCGAACGCGAAGAACGCCTGTGGCAGGCAT TGCGCGTTTGGCGTATGAAACAGGCAGAAGCCGAAGGCATCCCCGCCTAT ATGATTTTCGGCGACAAAACCCTGCGCGACCTTGTCGAAAAAATGCCGCA AGACCTCAACGGTCTGCACGACATCTACGGTTTGGGCGAAGCCAAAATCG ACCGTTTCGGACACGGCATCCTCGAAGTCTGCCGCAACGCCGCCGGCTTC AGCCGCGACGCGGTCATCCGTCCGCAAACCGAACGCGAACAACAACTGCG TCAAAAACTCGAAGCCTGGCGGTATGAACAGGCAAGGGCGGAAAACTGCG CCCTGCATGCCGTCCTCTCCGACGAAAGCCTTGCCGATATGCTTGCCGAT ACGCCCGAAACCGAAACCGACCTCGAAGGCGTGTACGGCTTGGGCAGCGT ACGCGCCGCCAAATACGGACGGGACATCCTCGCCGTCTGCCGTCCGTTTT CAGACGGCATCGATGAAACCGCCAAACGCAAACGCCGCCTGATGCGCGCC CTGATCCAATGGTGCGGCGAAACGGCAAAACACGAACAGTCCGAACCCTA CCGCATTCTCAGCAAAGCCGCACTGCGCGCCATTGCCGCCAAACAGCCGG AAGGCTTGGCGGAGCTTGCCGCCGTATACGGCGTAGGCGAAGAAAAAGCC GCACGTTACGGTGCGGCGGTGTTGGCGGTATTGGAACGAAATGCCGTCTG A >NMB1237 recR, recombination protein RecR ATGATGAGCCACAAAAAACAAGATGCCTTCCAAGGATTGATCGACGCGCT GAAGGTTTTACCCAACGTCGGGCCGAAATCGGCACAGCGGATAGCGTATC ATTTGCTCCAACACAAGCGCAAAGAGGCTGAAAAACTGGTGGATGCCTTG CAGACGGCATTGAAGCAGGTTTACCATTGCGCGATGTGCAACACGTTTTG CGAAGGCGGATTGTGCGATATTTGTGCCGATGAAACACGCGACGGGCGGC GGCTGATGGTGGTGCATATGCCTGCCGACGTGTCGAATATGGAAGCGGCA AACTGCCACGACGGGCTGTATTTCGTCCTGATGGGGCAAATCAATACGGC ATTGGGAATGGACGTATCCGCCATCGCATTGGACAGGCTGGCGCAACGGC TGGGCGGCGGGGAAGTCGAAGAAATCATTATTGCAACCGCTTTTACCGCA GAAGGCAATGCGACGGCGTATGTCCTGTCCGAGTTTTTTAAAAACCTGCC TTACAAAGTCAGCAGGCTGTCGCAGGGCATTCCCTTGGGCGGCGAATTGG AATATGTCGATGCGGGAACGCTGGCGCAGGCGGTGTACGAACGCCGCCTG ATTAAAGAAGGCGGGGCATAA >NMB1447 rep, ATP-dependent DNA helicase ATGATGAAACTCAATCCCCAACAGCTCGAAGCCGTCCGCTACCTCGGCGG CCCACTGCTCGTCCTTGCCGGTGCAGGCAGCGGCAAAACCGGCGTGATTA CTCAAAAAATTAAGCATTTGATTGTCAATGTCGGCTACCTGCCGCATACC GTTGCCGCAATTACCTTTACCAACAAAGCCGCTGCGGAAATGCAGGAGCG CGTTGCCAAAATGCTGCCCAAACCGCAAACGCGCGGGCTGACGATTTGCA CGTTCCACTCTTTGGGCATGAAGATTCTGCGCGAAGAGGCGAACCATATT GGTTACAAAAAAAACTTCTCCATTCTCGATTCTACCGACAGCGCGAAAAT CATCGGCGAACTCTTAGGCGGTACGGGCAAAGAAGCCGTATTCAAGGCGC AGCACCAGATTTCCTTGTGGAAAAACGATTTAAAAACGCCTGAAGATGTC GTTCAGACGGCATCGAACATTTGGGAACAACAAACCGCACGCGTGTATGC GAGCTATCAGGAAACCTTACAAAGCTATCAGGCAGTGGACTTCGACGACT TAATCCGCCTGCCTGCCGTGCTGTTGCAGCAAAACAGCGAAGTGCGCAAC AAATGGCAGCGGCGGCTGCGTTATCTGTTGGTTGACGAATGCCAAGATAC GAATACCTGCCAATTTACGTTGATGAAGCTGCTGACCGGCGCGGAAGGTA TGTTTACCGCCGTCGGCGACGACGACCAGTCCATCTACGCATGGCGCGGT GCGAACATGGAAAACCTGCGTAAAATGCAGGAAAACTATCCGCAGATGAA GGTCATCAAACTGGAGCAAAACTACCGCTCCACCGCGCGGATTCTCAAAA TCGCCAACAAAGTCATCGAAAACAACCCCAAGCTGTTTACCAAAAAACTT TGGTCGCAATTGGGCGAAGGCGAGCCGGTCAAAGTCGTTGCCTGCCAAAA CGAGCAACACGAAGCCGACTGGGTCGTCAGCCAAATCGTCAAACAAAAAC TCATCGGCGGCGACAAAACCCAATATGCCGATTTCGCCGTGTTATACCGG GGAAAGCATCAGGCGAGGATTTTCGAGGAAGCATTGCGCGGCGCGCGCAT CCCCTACCAGCTCTCCGGCGGACAAAGCTTTTTCGACAAAGCCGAAATCA AAGACGTGTTGTCTTATGTGCGGCTGCTTGCCAACCCCAACGACGATCCC GCCTTTCTGCGTGCCGTTACCACGCCCAAACGCGGCATCGGCGATGTCAC GCTGGGCAAGCTCAACACTTACGCGCACGAACACGAATGCAGCCTGTATG AAGCCGCGCAAAACGAAGAAGCCCTTGCCACGCTGAACAATACCAACCGC CAACACCTGCAAACCTTTATGGATATGTTCGTCAGCTACCTCGCCAAAGC CGAAACCAGCGAAGCGGGCGAGTTCATCAACAGCCTGCTCGAAGAAATCG ACTATGAAAACCATTTGATGCAAAACGAAGAAGGCAAAGCCGGCGAAATC AAATGGCGCAACGTCGGCGATTTGGTATCATGGTTTGCGCGAAAAGGCGG GGAAGACGGCAAAAACATCATCGAACTCGCCCAAACCGTCGCCTTGATGA CGCTTTTGGAAGGAAAAGACGAAGAAGAAACCGATGCCGTCTCGCTATCC ACGCTACACGCCGCCAAAGGTTTGGAGTATCCGTATGTTTTCCTTGTCGG TTGCGAAGAAGGCGTTTTGCCGCACAACGACAGTATCGAAGAGGGCAACG TCGAAGAAGAACGCCGCCTGATGTACGTCGGCATCACCCGCGCCAAACGC CAACTCACACTGACCCACTGCGTCAAACGCAAAAAACAAGGCACATGGCA GTTCCCCGAACCCAGCCGATTCATAGACGAAATGCCGCAGGAAGATTTGA AAATCCTGGGGCGCAAAGGCGGCGAACCGATTGTCAGCAAAGAAGAAGGC AGACGCAACCTTGCCGATATAATCGGAAGGCTCGACAACCTAAAAAAAAG CGGCGCGGCGGATTAA >NMB1618 rnhA, ribonuclease HI ATGAACCAAACCGTTTACCTTTACACCGACGGCGCGTGCAAAGGCAATCC CGGCGCGGGCGGCTGGGGCGTGTTAATGCGCTACGGTAGCCACGAAAAAG AACTTTTCGGCGGCGAAGCGCAAACCACCAACAACCGCATGGAACTGACT GCCGTCATCGAAGGACTGAAATCGCTCAAACGCCGCTGCACCGTCATCAT CTGCACCGACTCGCAATACGTCAAAAATGGCATGGAAAACTGGATACACG GTTGGAAGCGCAACGGCTGGAAAACCGCCTCCAAACAGCCCGTCAAAAAC GACGACTTGTGGAAAGAACTCGACGCTCTAGTCGGACGGCATCAAGTCAG TTGGACTTGGGTGAAAGGACACGCGGGACACGCCGAAAACGAACGCGCCG ACGATTTGGCAAACCGTGGCGCAGCGCAGTTTTCCTGA >NMB0192 rnhB, ribonuclease HII ATGCACATACTGACCGCCGGCGTGGACGAGGCAGGACGCGGACCTTTAGT CGGCAGCGTGTTTGCCGCCGCCGTCATCCTTCCGGAAACATTCGACCTGC CCGGACTGACCGACTCCAAAAAACTCAGCGAGAAAAAACGCGACGCGCTT GCCGAAATGATAAAAAATCAGGCGGTTGAGTGGCACGTTGCCGCCGCCTC GCCCGAAGAAATCGCCAGCCTCAACATCCTGCACGCCACCATGCTCGCGA TGAAACGCGCCGTTGACGGCTTGGCTGTGCGTCCCGAAAAAATATTCATC GACGGCAACCGCATTCCTGAACATTTGAACATCCCTGCCGAAGCCGTCGT CAAAGGCGACAGCAAAATCATCGAAATCTCCGCCGCATCCGTTTTGGCAA AGACCGCACGCGATGCGGAAATGTACGCACTGGCGCAACGCCATCCCCAA TACGGTTTCGACAAACACAAAGGTTACGGCACGAAGCAGCATTTGGAAGC CCTCGAAAAATACGGCGTGCTGCCCGAACACCGCCGCGACTTCGCCCCCG TCAGAAACCTGCTCGCGCAGCAGGCCTTGTTTTAA >NMB0265 ruvA, Holliday junction DNA helicase RuvA ATGATCAGCAGACTGACCGGCAAACTGGTTGAAAAAAACCCTCCGCAAAT CGTCATCGATGTCAACGGTGTCGGCTATGAGGCCGACGTATCGATGCAGA CCTTCTACAACCTGCCGCCCGTGGGTGAAAGCGTACAACTGTTTACCCAG CTTATCATTCGGGAAGACGCACATCTTTTATTTGGTTTTGCCACTGCGGA AGAACGCAAGACCTTCCGCCAACTGATCAAGGTCGGCGGCATCGGCGCGA AAACGGCTTTGGGCATTTTGTCGGCAATGACTGCCGACGAACTGGCGCGG GCGGTTGCAGAAGAAGATGTCAAACGCCTCTCCTCCGCCCCGGGAATCGG CAAAAAAACCGCCGAACGTATGGTTTTGGAACTGCGCGGCAAGCTGGTCG CGCATACGGTAACGGACGGGCTGTTTGCCGCCGCACCCGCCGCCGACGAA ACGGAAGACATCGTCAGCACGCTGCTTGCGCTGGGTTACAGCGAACGCGA AGCAAAAGCGGCGGTCAAAGGCGTTCCGGAGGGGACGGACGTGGGCGAAG GCGTGCGCCTTGCTTTGAAAAACCTGCTGAAATAA >NMB1243 ruvB, Holliday junction DNA helicase RuvB ATGCTGCAAACCGACAACCTGACCGCCGCGCAACCGCAACGCATCGTTGC CGCCCAAACCGCCTCCGCACAGGAAGAACTGCTCGAACGCGCCCTCCGCC CCAAAACGCTGGACGACTACATCGGGCAAGACAAAGCCAAAGAACAGCTT GCCATTTTCATCCAAGCCGCCAAAAAACGCGGCGAAGCACTCGACCACGT TTTGCTCTTCGGCCCGCCCGGACTGGGCAAAACCACACTGGCGCACATCA TCGCCAAAGAATTGGGCGTAAATTTGCGCCAAACCAGCGGCCCCGTCCTC GAACGCGCAGGCGACCTCGCCGCCCTTTTGACCAACCTTGATCCGCACGA TGTATTGTTCATCGACGAAATCCACCGCCTCAGCCCTGTTGTCGAAGAAA TCCTCTATCCCGCGCTCGAAGACTACCGGCTCGACATTATGATAGGCGAA GGACCCGCCGCCCGTTCCGTCAAAATCGACCTGCCGCCCTTCACGCTCAT CGGCGCGACCACCCGCGCCGGTATGCTGACCAATCCGTTGCGCGACCGCT TCGGCATCGTCTCCCGCCTTGAGTTTTACGAAAACCGAGACCTTACCACC ATCGTCAGCCGTTCGGCACAACTGTTGCAGCTCGATATGTCCGAAGAAGG CGCGGAAGAAATCGCCAAACGCAGCCGCGGTACGCCGCGCATCGCCAACC GCCTGTTGCGACGCGTGCGCGATTTCGCCGACGTGAAAAACAACGGCACA ATCGACGGCGGCATCGCCGATGCCGCTTTAAGTATGCTGGACGTGGACGC GCAGGGGCTGGACGTGATGGACAGGAAATTTCTCGAAGCCGTTTTGCACA AATTCGGCGGCGGCCCGGTCGGTTTGGACAATGTTGCCGCCGCCATCGGC GAATCTACAGACACCATCGAAGACGTTATCGAACCCTACCTTATCCAACA AGGCTTCCTGCAACGCACCCCGCGCGGCAGGATGGCGACCGAACGCGCCT ACCTGCATTTCGGGCTGCCCGTCGAAAAATAA >NMB1419 ruvC, crossover junction endodeoxyribonuclease RuvC ATGGCTGCAAGCGTCCGTATCTTAGGCATCGACCCGGGCAGTCGCGTAAC GGGTTTCGGTGTCATCGATGTCAGGGGGCGGGATCATTTTTACGTCGCCT CCGGCTGCATCAAAACGCCTGCCGATGCGCCTCTGGCAGACAGGATTGCC GTCATCGTCCGGCACATCGGCGAAGTCGTTACCGTTTACAAGCCTCAACA GGCGGCAGTGGAACAGGTGTTCGTCAACGTCAATCCGGCATCGACGCTGA TGCTCGGTCAGGCTAGGGGCGCGGCATTGGCGGCATTGGTCAGCCATAAG CTGCCCGTTTCGGAATACACGGCCTTGCAGGTCAAACAGGCGGTAGTCGG CAAGGGCAAGGCGGCAAAAGAACAGGTGCAGCATATGGTGGTGCAGATGT TGGGACTTTCGGGAACGCCCCAGCCGGATGCGGCGGACGGTCTTGCCGTC GCGCTGACCCACGCCTTACGCAACCACGGGCTTGCCGCCAAACTCAATCC TTCGGGGATGCAGGTCAAGCGCGGCAGGTTTCAATAG >NMB1460 ssb, single-strand binding protein ATGTCATTGAACAAAGTCATCCTCATCGGCCGCCTCGGACGCGATCCCGA AGTGCGCTATATGCCCAACGGCGAGGCGGTTTGTAATTTCAGCGTCGCCA CCAGCGAAACTTGGAACGACCGCAACGGCCAACGTGTAGAGCGTACTGAG TGGCACAACATCACCATGTACCGCAAACTGGCGGAAATTGCCGGGCAATA CCTCAAAAAAGGCGGGCTGGTTTATTTGGAAGGCAGAATCCAAAGCCGCA AATACCAAGGCAAAGACGGCATCGAACGCACCGCTTACGATATTGTCGCC AACGAAATGAAAATGTTGGGCGGGCGCAATGAAAACAGCGGCGGTGCGCC TTACGAGGAAGGTTACGGTCAGAGTCAGGAGGCTTACCAACGCCCCGCGC AGCAAAGCCGGCAGCCCGCCTCCGACGCGCCGTCCCATCCCCAAGAAGCA CCAGCCGCGCCGCGCCGCCAACCCGTGCCTGCCGCCGCCCCGGTCGAGGA CATTGACGACGATATCCCGTTCTGA >NMB1673 tag, DNA-3-methyladenine glycosylase I GTGAACTATTGCGAATTTGCCGCCTCACTTCCCGAAAACACCGATAACCC GAACAAACATTACCACGACACGCAATACGGTTTTCCGATTGAGGACGACA ATGAATTGTTTGAGCGGCTGGTGTTGGAAATCAATCAGGCAGGATTAAAC TGGACGCTGATGCTGAAGAAGCGGCAGGCGTTTCAGACGGCATTTGAAGG TTTCGACATCGATACGGTTGCCGCCTTCGACGACACCGACCGCGAACGCC TGCTTGCCGACGCGGGCATTGTCCGCAACCGCCTGAAAATCGATGCCGCC ATTTTCAATGCACGGCAAATCCAAGCGTTGCAACAAGAATACGGCTCGTT CAAGAACTGGCTCGACACGCACCATCCGCGAAGCAAAGACGAATGGGTTA AACTCTTTAAAAAACATTTCAAATTCGTCGGCGGCGAAATCGTCGGCGAA TTTCTGATGAGTACCGGCTACCTCAAAGGCGCGCACGCCGAAAGCTGTCC GGTTTACCGTGAAACCCTGAAATACCACCCGAAATGGCTCGATGCCATCT GA >NMB0118 topA, DNA topoisomerase I ATGGCGAAAAACCTATTAATCGTCGAATCCCCGTCCAAAGCCAAAACCCT GAAAAAATATTTGGGCGGCGATTTTGAAATCCTTGCATCCTACGGACACG TCCGCGACCTCGTCCCCAAAAGCGGCGCGGTCGATCCCGACAACGGCTTT GCGATGAAATACCAACTCATCAGCCGCAACGGCAAACACGTCGATGCCAT CGTCGCCGGTGCCAAAGAAGCTGAAAACATCTACCTCGCCACCGACCCGG ATAGGGAAGGCGAAGCCATTTCCTGGCATCTTTTGGAAATCCTCAAATCC AAACGCGGCTTGAAAAACATCAAGCCGCAGCGTGTCGTGTTCCACGAAAT CACCAAAAACGCCGTGCTCGATGCCGTTGCCCATCCGCGCGAAATCGAAA TGGACTTGGTCGATGCGCAACAAGCCCGTCGCGCTTTGGACTATTTGGTC GGTTTCAACCTTTCGCCATTGTTGTGGAAAAAAATCCGTCGCGGTTTGAG CGCGGGCCGTGTACAAAGCCCCGCACTGCGTTTGATTTGCGAACGCGAAA ACGAAATCCGCGCGTTTGAAGCGCAGGAATATTGGACGGTACATCTAGAC AGCCACAAAGGCCGCAGCAAGTTCACCGCCAAACTCGCCCAATACAACGG CGCGAAACTCGAACAATTCGACCTGCCGAACGAAGCCGCTCAAGCCGATG TGTTGAAAGAACTCGAAGGCAAAGAGGCCGTCGTTACCGCCATCGAAAAG AAAAAGCGCAGCCGCAACCCCGCCGCGCCGTTTACCACATCCACCATGCA GCAGGATGCTGTGCGCAAACTCGGCTTCACCACCGACCGCACCATGCGTA CCGCCCAGCAGCTTTACGAAGGTATTGACGTAGGGCAGGGTGCCATCGGT CTGATTACCTATATGCGTACCGACAGCGTGAACTTGGCGGATGAAGCCTT AACCGAAATCCGCCATTACATTGAAAACAAAATCGGCAAAGAATATCTGC CGAGTGCCGCCAAACAATACAAAACCAAATCCAAAAACGCCCAAGAAGCG CACGAAGCCATCCGCCCGACTTCCGTGTACCGCACGCCCGAAAGCGTCAA ACCCTTCCTGAGCGCCGACCAGTTCAAACTCTATCAAATGATTTGGCAGC GTACCGTCGCCTGTCAGATGACGCCCGCCAAATTCGACCAAACCACCGTC GATATTACCGTCGGCAAAGGCGTATTCCGCGTAACCGGACAAGTGCAAAC CTTCGCAGGCTTCCTCAGCGTTTACGAAGAAAGCAGCGACGATGAAGAAG GCGAAGACAGCAAAAAACTGCCCGAAATGAGCGAAGGCGACAAATTGCCC GTGGACAAACTCTACGGCGAACAACACTTTACCACTCCGCCGCCACGCTA CAACGAAGCCACGCTGGTTAAAGCCCTCGAAGAATACGGCATCGGCCGCC CCTCGACCTACGCCAGCATCATCTCCACGCTCAAAGACCGCGAATACGTT ACCCTTGAGCAAAAACGCTTTATGCCCACCGACACAGGCGACATCGTCAA TAAATTCCTGACCGAACACTTCGCCCAATACGTCGATTACCACTTCACTG CCAAACTCGAAGACCAGCTTGACGAAATTGCCGACGGCAAACGCCAATGG ATTCCCTTGATGGACAAATTCTGGAAACCGTTCATCAAACAAGTGGAAGA AAAAGAAGGCATCGAACGCGCCAAATTTACCACGCAGGAACTTGATGAAA CCTGCCCGAAATGCGGCGAACACAAACTGCAAATCAAATTCGGCAAAATG GGTCGTTTTGTTGCGTGTGCCGGTTATCCCGAGTGCAGCTACACGCGCAA TGTCAACGAAACCGCCGAAGAAGCTGCCGAACGCATCGCCAAAGCCGAAG CCGAACAGGCCGAACTCGACGGACGCGAGTGCCCGAAATGTGGCGGTCGC CTAGTGTACAAATACAGCCGCACCGGCAGCAAATTCATCGGCTGCGTCAA CTATCCGAAATGCAAACACGTCGAGCCGCTGGAAAAACCGAAAGATACCG GCGTCCAGTGTCCGCAATGCAAAAAAGGCAACCTCGTCGAGCGCAAATCC CGCTACGGCAAACTGTTTTACAGTTGCAGCACCTATCCCGACTGCAACTA CGCCACTTGGAACCCGCCCGTTGCCGAAGAATGCCTGAACTGCCATTGGC CGGTCTTGACCATCAAAACCACTAAACGCTGGGGTGTAGAAAAAGTCTGC CCACAAAAAGAATGCGGCTGGAAAGAACAGATTGAACCGCCCGCGCCGAA GGAGTAA >NMB1222 ung, uracil-DNA glycosylase ATGGACACTTGGCACGATGCACTCGGCGGCGAAAAACAGCAGCCGTATTT TCAGGAAATTTTAAATGCAGTCAGGCAGGAACGTTTGTCGGGACAAATCA TCTATCCGCCGGCGGCGGATGTGTTCAACGCATTCCGCCTGACAGCGTTC GACCGGGTCAAAGCCGTCATTCTCGGACAAGATCCGTATCACGGGGCAGG GCAGGCGCACGGTTTGGCATTTTCCGTCCGGCAGGGTATCCGCATACCGC CGTCTTTACTCAATATCTACAAGGAGTTGGAAACCGACATCGAAGGCTTT TCCATTCCCGCGCACGGCTGTCTGACAGCGTGGGCGGAGCAGGGCGTATT GCTTCTGAACACGGTTTTGACGGTGCGTGCAGGACAGGCGCATTCGCACG CCCTTTTAGGCTGGGAACGCTTTACCGATACCGTTATCAGGCAGCTTGCG ACACACCGCAAGCACCTTGTCTTCATGTTGTGGGGTGGGTATGCACAACA AAAAGGGAGGCTGATAGACAGTCAAAATCATTTGATATTGACCGCACCGC ATCCGTCTCCTCTGTCGGCATATCGCGGTTTTTTCGGCTGCCGCCATTTT TCACAGGCAAACAGCTATTTGAGCCGGCACGGTATCGATCCGATAAACTG GAAGCTGTGA >NMB0962 uvrA, excinuclease ABC, subunit A ATGTGCAACCATCATCCCCAACATTCGCACGACAACGACACCATCCGCAT CCGCGGCGCGCGCACGCATAATTTGAAAAACATCGATTTAGACATTCCGC GCCACAAACTCGTGGTGGTAACAGGATTGTCGGGCAGCGGCAAGTCGTCG CTGGCGTTTGACACGCTGTATGCCGAAGGGCAACGGCGTTATGTCGAGAG CCTTTCCGCCTATGCGCGGCAGTTTTTGCAGATGATGGACAAACCCGATG TCGATTTAATTGAAGGTCTGTCGCCTGCAATTTCCATCGAGCAAAAATCC ACCAGCCACAACCCACGCTCCACCGTCGGTACGGTAACTGAAATCCACGA CTATCTGCGTCTTTTATACGCCCGTGTCGGTACCCCGTATTGTCCCGAAC ACAAGCTGCCGCTGTCGAGCCAAACCGTATCGCAGATGGTCGATGCCGTA TTGAAACTGCCGGAAGACACGCGTGTGATGATTCTTGCCCCCACCGTGCG CGAGCGTAAGGGCGAGTTTGTCGATTTCTTTGCCGACTTGCAGGCGCAGG GTTTTGCGCGGGTGCGCGTGGACGGCGAGGTCTATCAGTTGGACGAAGTG CCGAAGCTGGAAAAAAACATCAAGCACAATATCGACGTGGTCATCGACCG CGTGAAAGTGAAGGCGGACATCAAGCAGCGGCTGGCGGAAAGTTTTGAAA CCGCGCTGCGCCACGGCAACGAGCGTGCGCTGGCGATGGAGATGGACAGC GGCGAAGAACATTGGTTTTCCGCACGTTTCGCCTGCCCCGTGTGTTCGTA CAGCCTGCCCGAATTAGAGCCTCGCCTTTTTTCGTTCAACAACCCGATGG GTTCCTGCCCGACTTGCGACGGCTTGGGCAACACCAATTTCTTCGACCCC GAAAAAGTGGTCGCCCATCCCGAATTGTCGCTGGCAACAGGTGCGATTGA CGGTTGGGACAAGCGCAACCAATTCTATTTCCAAATGATTCAATCATTGG CGCGGCATTACGGTTTCGATGTGCAGGCTGCTTGGGAAACACTACCTGAA AAAGTGAAAAAAGTTGTGCTGCACGGCTCAGGCAAAGAAGTCATTGATTT CACTTACCTGTCCGAACGCGGCACCACCTTCAACCGCAGCCACGCCTTTG AAGGCATCATCCCCAATCTCGAACGCCGCTACCGCGAAACCGACAGCGAA ACCGTGCGCGAAAAACTGCGCGAATACCAAAACCACCGCGCCTGCCCAAG CTGCGGCGGCGCACGTTTGCGCAAAGAAGCCCGCTACGTTTACGTCAGCG GTGAGCCGTTGCACGAAGTTTCCGCCTGGCCGCTCACCAAAACCCACCAA TTCTTTGAAACACTGGATTTAGACGGCAACAAAAAACAAATCGCCGAAAA AATCCTCAAAGAAATCACCGAACGCCTCGGCTTCCTGATTAACGTCGGGC TGGATTACCTGAATTTAAGCCGCTCCGCCGAAACCCTCTCCGGCGGCGAA GCCCAGCGCATCCGCCTCGCCAGCCAAATCGGCAGCGGCCTGACCGGCGT GATGTATGTACTGGACGAACCCTCCATCGGCCTGCACCAGCGTGACAATG ACCGCCTGCTGGCCACCCTCAAACGCCTGCGCGATTTGGGCAACAGCGTG ATTGTGGTCGAACACGACGAAGACGCCATCCGCGAAGCCGATTTCGTGGT CGATATGGGCCCCGGCGCAGGCGAACACGGAGGCAACGTACTGATTGCCG ACACGCCCGAAAACGTCGCCCAATGCGAAAACTCCGTTACCGGACAATAC CTCAGCGGCAAAAAATCCATTGCCGTGCCGTCTGAACGCACGCCCGTCAA TCCCGACCGGATGCTCGTCCTCAAAGGCGCACGCGGCAACAATCTCAAAA ACGTTACCCTTGAGCTGCCGCTCGGTTTGATTACCTGCATCACCGGCGTG TCCGGCAGCGGCAAATCCACCCTGATTAACGACACCCTCGCCAAAATTAC CGCCCGCGAACTCAACCGCGCCCAAGAAGAACCCGCCCCATTCGACGACA TCCACGGCCTCGAACACCTCGACAAAGTCATCAACGTCGATCAGTCCCCC ATCGGCCGTACTCCTCGCTCCAACCCCGCCACCTACACCGGCCTGTTCAC CCCTATCCGCGAACTCTTCGCCGGCGTCCCCCTCTCTCGCGAACGCGGCT ACAACGTCGGCAGATTCTCCTTCAATGTCAAAGGCGGCCGCTGCGAAGCC TGCCAAGGCGACGGCGTGATTAAAGTCGAAATGCACTTCCTGCCCGACGT GTACGTCCCCTGCGAAGTCTGCCACGGCAAACGCTACAACCGCGAAACGC TCGAAATCCAATACAAAGGCAAAAACATCAGCCAAGTCCTCGACATGACC GTCGAAGAAGCCCGCGAATTTTTCGACGCCGTCCCCACCGTATCGCGCAA ACTGCAAACCCTGATGGACGTAGGCCTAGGCTATATCCGCCTCGGACAGT CCGCCACCACCCTCTCCGGCGGCGAAGCCCAACGCGTGAAACTCGCCTTG GAACTCTCCAAACGCGACACCGGCAGAACGCTCTACATCCTCGACGAACC CACCACCGGCCTGCACTTCGCCGACATCGCCCTGCTGCTGGAAGTCATAG GCCGTCTGAAAGGCAAAGGCAACTCGATAGTGATTATCGAGCATAATCTG GATGTGATTAAAACAGCGGATTGGATTGTGGACTTGGGGCCGGAAGGCGG AGATGGCGGGGGGAGGATTATTGCTAAAGGTAGTCCTGAACAGGTGGCGA AAGTTAAGGGGAGTTATACTGGGAAGTATTTGAAGGTGGTTTTGAGGTAA >NMB1331 uvrB, excinuclease ABC, subunit B ATGGAAGTTATCCAATACCCAAATTCCCCCTTCAAACTCCACCAACCCTT CCCGCCCGCAGGCGACCAGCCCACCGCCATTGCAGGCCTGCTCGAAGGGC TTTCAGACGGCCTTGCCTATCAAACCCTGCTCGGCGTAACCGGTTCGGGC AAAACCTACACCATGGCGAACGTCATCGCCCAAAGCGGCCGCCCCGCCAT CATCATGGCGCACAACAAAACCCTTGCCGCCCAGCTTTACGCCGAAATGC GCGAATTTTTCCCCGAAAACGCAGTGGAATATTTCGTCTCCTACTACGAC TATTACCAGCCCGAAGCCTATGTGCCCAGCCGCGATTTGTTCATCGAAAA AGACAGCGCGATCAACGAACACATCGAGCAGATGCGCCTTTCCGCCACCA AAAACCTAATGACGCGCAACGACGTGATTATCGTCGCCACCGTGTCCGCC ATTTACGGTATCGGCGACCCGACCGAGTATCAACAAATGGTGTTGTCCGT CAAAGAAGGCGATACCATCGAGCAGCGCGACATCATCGCCACGCTCGTTT CCATGCAATACGAACGCGGCGATTTGGACTTCAAACGCGGCAGCTTCCGC GTGCGCGGCGACGTGATTGACGTGTACCCCGCCGAAAGCTCCGAAAACGC CTTACGCATCAGCCTGTTTGATGACGAAATCGACCGCCTCGATATGTTCG ACCCGCTTTCAGGCAGCCTTATCCAGCGCGTCGGCCGCTACACCGTCTTC CCGTCCAGCCACTACGTTACCCCGCGCGACACCGTCTTGCGCGCCTGCGA GTCCATCAAAGAAGAATTACGCGAACGCATCGAATTTTTCGCCCGCGAAC AACGCCCCGTCGAACAACAACGCATCGAACAGCGCACCCGTTTCGACCTC GAAATGCTCTACGAAATGGGCTTCTGCAAAGGAATCGAAAACTACTCCCG CCACTTTTCCGGCAAAAAAGAAGGCGAACCGCCGCCTACGCTGATGGACT ACCTGCCCGACAACGCCATCATGTTCATCGACGAAAGCCACGTTACCGTA ACCCAAATCGGCGGCATGTACAAAGGCGACGCATCGCGCAAGCAAAACCT CGTCGACTACGGCTTCCGCCTGCCTTCAGCCCGCGACAACCGCCCGCTCA AATTCCACGAATTTGAAAAAGTCATGCCGCAAACCATCTTCGTTTCCGCT ACCCCCGCCAAATACGAAGAAGAACACGCCGGACAAGTGGTCGAACAAGT CGTCCGCCCCACAGGGCTGGTTGATCCCCAAATCATCATCCGCCCCGTTG CCACCCAAGTCGACGACTTAATGAGCGAAATCAACGACCGCATTGAAAAA GGCGAACGCGTACTCGTTACTACCCTCACCAAACGCATGGCGGAGCAACT CACCGACTATTACAGCGAACTCGGTATCAAAGTGCGCTACCTGCACAGCG ACATCGACACCGTCGAGCGCGTTGAAATCATTAGAGATTTACGGCTCGGC CTGTTTGACGTACTCGTCGGCATCAACCTCTTACGCGAAGGCCTCGACAT CCCCGAAGTCTCTCTCGTCGCCATCCTCGACGCAGATAAAGAAGGCTTCC TGCGCTCCCACCGCAGCCTGATTCAAACCATAGGCCGCGCCGCGCGCAAC GTGAACGGCGTCGCCATCCTGTACGCCGACAAAATTACCGACTCCATGAA AGCCGCTATCGACGAAACCGAACGCCGCCGTGAAAAACAGATTAAATTCA ACGAAGAACAGGGCATCGTGCCGCAGCAGATTAAAAAACAGGTCAAAGAC ATCATCGACGGCGTGTACCACGAAGAAGACGGCAGTAAAGGCCGTCTGAA AGGTAAAAACAAGGTTAAAGTGGGCGAGATTCACAACGAAGAAGATGCGA TTAAAGAAATCGCCAAACTCGAAAAAGCCATGCAGCAGGCGGCTAGGGAT TTGCAGTTTGAAGAGGCGGCTGTGTTGCGGGATAGGATTAGGGATATTAA AGAGAATTTGTTGTTTGGGGCGGAGTGA >NMB1326 uvrC, excinuclease ABC, subunit C ATGAATAAAGAAACCCGTTTTCCGGAACACTTCGACATCCCACTTTTCCT CAAAAACCTGCCCAACCTGCCAGGCGTATACCGTTTTTTCAACGAAAGCG GCAACGTCTTATACGTCGGCAAAGCCGTCAACCTCAAGCGGCGCGTGTCC GGCTATTTCCAGAAAAACGACCATTCCCCGCGCATCGCATTGATGGTGAA ACAGGTTCACCACATCGAAACCACCATCACCCGCTCCGAATCCGAAGCCC TGATTCTCGAAAACAACTTCATCAAAGCCCTGTCGCCCAAATACAATATT CTTTTCCGCGATGACAAAAGCTATCCTTATTTGATGCTCAGCGGCCATCA ATATCCGCAAATGGCGTATTACCGCGGCACGCTGAAAAAGCCTAATCAAT ATTTCGGCCCATATCCCAACAGCAACGCCGTGCGCGACAGCATTCAAGTG TTGCAAAAAGTCTTTATGCTGCGTACCTGCGAAGACAGTGTATTCGAGCA TCGCGACCGTCCTTGTCTGCTTTACCAAATCAAACGCTGCACCGCGCCTT GTGTAGGCCACATCAGTGAAGAAGATTATCGTGACAGCGTGCGTGAAGCC GCGACTTTCCTTAATGGCAAAACTGACGAATTGACGCGTACCCTGCAACA CAAAATGCAAACCGCCGCCGCTAATCTACAATTCGAAGAAGCCGCACGTT ACCGCGATCAAATCCAAGCGCTCGGCATCATGCAAAGTAATCAGTTTATC GACAGTAAAAATCCGAACAATCCCAACGATATCGATTTGCTTGCACTGGC GGTTTCAGACGGCCTGGTTTGCGTACACTGGGTCAGCATCCGCGGCGGAC GGCACGTCGGCGACAAAAGCTTTTTCCCCGACACCAAAAACGATCCCGAG CCAAACGGACAAGATTACGCCGAAGCCTTCGTCGCCCAACACTATCTGGG CAAAAGCAAACCCGACATCATCATCAGCAACTTTCCCGTTCCCGATGCGC TAAAAGAGGCTTTGGAAGGCGAACACGGCAAGCAGATGCAATTTGTCACC AAGACCATAGGCGAACGCAAAGTCCGGTTGAAAATGGCGGAACAAAACGC GCAAATGGCGATTGCACAACGCCGCCTGCAACAAAGCAGCCAGCAACACC GCATTGATGAACTGGCAAAAATCCTCGGCATGGATTCAGACGGCCTCAAC CGCCTTGAATGTTTCGACATCAGCCACACACAAGGCGAAGCCACTATTGC GTCCTGCGTTGTGTACGATGAGCAAAACATCCAGCCTTCGCAATACCGCC GCTACAACATCACGACCGCCAAACCCGGCGACGACTACGCCGCCATGCGC GAAGTGTTGACGCGCCGTTACGGCAAAATGCAGGAGGCCGAAGCCAACGG CGAGACCGTCAAATGGCCGGATGCCGTGTTGATTGACGGCGGCAAAGGGC AAATCGGCGTAGCCGTATCGGTATGGGAAGAACTCGGGCTGCACATCCCT TTGGTCGGCATTGCCAAAGGCCCGGAGCGCAAAGCCGGTATGGAGGAGCT CATACTGCCTTTTACCGGCGAAGTCTTCCGCCTGCCGCCCAACAGCCCGG CCTTGCATCTATTGCAAACCGTACGCGATGAATCGCACCGTTTCGCCATT ACCGGTCACCGCAAAAAACGCGACAAAGCCCGCGTTACCTCCTCCTTAAG CGACATCCCCGGCGTAGGCAGCAAACGCCGCCAAGCCCTGCTCACCCGCT TCGGCGGTCTGCGCGGCGTGATTGCCGCCAGCCGCGAGGACTTGGAAAAA GTGGAAGGCATCAGCAAGGCATTGGCGGAAACGATTTACAATCATCTGCA TTAG >NMB0232 uvrD, DNA helicase II ATGTTTCCCGACCAATCCGCCCCCAACCTGCTGCAAGGCTTGAATCCCGA ACAACTCTCCGCCGTAACCTGGCCGCCGCAATCCGCACTTGTGCTGGCGG GCGCGGGCAGCGGCAAAACGCGCGTGCTGACCACGCGCATCGCATGGCTG TTGCAAAGCGGACAAGCCAGCGTGCACAGCATTATGGCGGTAACGTTTAC CAACAAAGCCGCCAAAGAAATGCAAACCCGTTTGGGCGCGATGATTCCCA TCAATGTCCGCGCCATGTGGCTCGGCACGTTCCACGGTCTCTGCCACCGC TTTTTGCGCCTGCACCACCGCGACGCCGGTCTGCCGTCTTCCTTTCAAAT CCTCGACGGCGGCGACCAGCTTTCCCTCATCAAACGCCTGCTCAAAAGCC TCAACATCGCCGAAGAAATCATCGCGCCGCGTTCGCTGCAAGGCTTTATC AACGCGCAAAAAGAATCCGGTTTGCGCGCTTCCGTGTTGAGCGCGCCCGA TCCGCACACACGCCGCATGATTGAGTGCTACGCCGAATACGACAAAATCT GCCAACGCGAAGGCGTGGTCGATTTTGCCGAACTCATGCTCCGCAGCTAC GAAATGCTGCAAAACAACGAAATCCTGCGCCAGCACTACCAAAACCGCTT CAACCACATTCTCGTTGACGAGTTCCAAGACACCAACAAACTGCAATATG CTTGGCTGAAACTGATTGCCGGCAACCACGCAGCAGTATTTGCCGTCGGC GACGACGACCAAAGCATTTACCGTTTCCGTGGCGCAAGCGTCGGCAACAT GACCGCGCTGATGGAAGAATTCCACATCGACGCGCCCGTCAAACTCGAAC AAAACTACCGCTCCGTCGGCAACATCCTTGCCGCCGCCAATGCCGTGATT GAAAACAACGACGAACGACTCGGCAAAAACCTGCGCACCGACGCCGAAGC AGGCGACAAAATCCGCTACTACTCCGCCTTTACCGACCTCGAAGAAGCCC GGTTCATCTTGGACGAAACCAAAGCCCTCGAACGCGAAGGCTGGGATTTG GACGAAATCGCCGTCCTCTACCGTAGCAACGCCCAATCCCGCGTTATCGA ACAAAGCCTGTTCCGCAGCGGCATTCCCTACAAAATCTACGGCGGCTTGC GTTTTTACGAACGCCAAGAAATCAAACACGCGCTCGCCTACCTGCGCCTC GCCGTCAATCCCGACGACGACAACGCCCTCTTGCGTGTCATCAACTTCCC ACCGCGCGGCATCGGTGCACGTACCGTCGAAAATCTTCAGACGGCCTCAA ACGAACAAGGCATCACCCTCTGGCAAGCCGCCTGCAACGCCGGCGCGAAA GCCGCCAAAGTCGTCGCCTTCGTCCGCCTGATTGAAGCCCTGCGCAACCA AGTCGGACAACTGTCCCTGTCCGAAATCATCGTCGGCATCCTCAAAGACA GTGGCTTGACCGAACACTACCGCACCCAAAAAGGCGACAACCAAGACCGT CTCGACAACCTTGACGAACTCGTCAACGCCGCCATCGAATTCAAACCCGA AGACAGCAACTTCGAAATCCTGCCTGAAAACATTTCAGACGACCCCGCCT TCCCCATTCTCGCCTTCCTAAGCAATGCCGCCCTCGAATCCGGTGAAAAC CAGGCAGGCGCAGGCGAAAAGGCCGTCCAACTCATGACCGTCCACGCCGC CAAAGGCTTGGAATTTAACGCCGTCTTCCTCACCGGCATGGAAGAAGGCC GCTTCCCCAGCGAAATGAGCCTTGCCGAACGCGGCGGCCTCGAAGAAGAA CGCCGCCTCATGTACGTCGCCATCACCCGCGCCCGCAAACGCCTCTACAT CACCATGGCGCAACAACGCATGCTGCACGGACAAACCCAATTCGGCATCG TCTCCCGCTTCGTCGAAGAGATCCCACCCGAAGTATTGCACTACCTGTCC GTCAAAAAGCCTGCCTACGACAGTTACGGCAACACGCGCCAAACCGCCGC ATCCAAAGATAAAATCATCGACGACTACAAACAGCCCCAAACCTACGCAG GTTTCCGTATCGGACAAAACGTCCGCCACGCCAAATTCGGCACCGGCGTG ATTATCGATGCCGCAGATAAAGGCGAATCCGCCCGACTGACCATCAATTT CGGCAAACAGGGCGTGAAAGAGTTGGACACCAAGTTTGCGAAATTGGAAG AGATGTAA >NMB1868 xerC, integrase/recombinase XerC ATGGGTTTGGACGGACTTGCGGCATACTTGGACGCTTATTTGGAAAATAT CGTGCGCGAGGGTAAATCGGAGCACACGGTTGCCGCATACCGGCGCGACT TGCAGGAACTGCTTGCCCTTCTGGAAGAAATGCCGTCTGCAAACCCTTCA AATTGCACTCGCGGCGACTTCGTACAGGCATTACGCCGGCTGTCCGGCCG CGGTTTGGGGGAACGGACGCTGGCTCGCAAGCTTTCGTCTTGGCGGCAGT ATTGCGTTTGGCTGGTAAAGCGCGGCCTGATGCACGCCGACCCGACCGCC GACATCAAACCGCCGAAGCAGCCCGAGCGCGTACCCAAAGCCCTGCCGCA GGAATGGCTGAACCGGATGCTGGATTTGCCCGTGGACGGCGGCGACCCGC TGGCGGTGCGCGACCACGCCCTGTTCGAACTGATGTACGGCAGCGGTTTG CGCGTGAGCGAGATACACGGCTTGAATGCAGATGATGTCTATTTGGACGA GGCGTGGGTACACGTTATCGGCAAAGGGCGCAAGCAGCGGCAGGTGCCGC TGGTCGGCAAAAGCGTGGAAGCCCTGAAAAACTATCTGCCGCTGCGTCAG ACGGCATCGGACGGCAAAGCCCTGTTTACCGGCAGGAACGGCACGCGCCT GAGCCAACGCCAAATCCAAAAACGTTTGGCGCAATGGGCGGCGCAAAACG GCGACGGCAGGCACGTTTCGCCGCATATGATGCGCCACAGCTACGCCGGA CACCTATTGCAGGCTTCGCGCGACATCAGGGCGGTGCAGGAGCTGCTCGG GCACAGCAGCCTTTCGACCACGCAGATTTATACCAAGCTCGATTTCGACC ACATCGCCCGCCTGTATGACGAAGCCCACCCGCGCGCCAAGCGGCAGGAC GAATGA >NMB0751 xerD, integrase/recombinase XerD ATGGAAGAAGGTTTGATCGACAGGCTGCTTGAAACGCTGTGGTTGGACAG GCGGCTCAGTCAGAATACTTTAAACGGTTACCGGCGCGATTTGGAAAAAA TCGCCCGCCGCCTGTCCCAATCGGGCAGAATGCTGAAGGATGCGGACGAA GCGGATTTGGCGGCGGCGGTTTATGTTGACGGAGAGCAACGGAGTTCGCA GGCGCGCGCATTATCGGCATGCAAACGCCTGTATATATGGATGGAGCGTG AAGGCATAAGGACGGACAATCCCACCCGTTTGCTGAAACCGCCCAAAATC GACAAGAATATTCCGACCCTGATCACCGAGCAGCAGATTTCCCGACTGCT TGCCGCCCCGGATACCGACACGCCGCACGGTTTGCGGGACAAGGCTTTGC TCGAATTGATGTACGCGACCGGCTTGCGCGTCAGCGAGGCGGTCGGGCTG AACTTCGGCAATGTGGATTTGGACAGGGGCTGTATTACCGCGCTGGGAAA GGGTGATAAGCAGAGGATGGTCCCGATGGGGCAGGAGTCGGCGTATTGGG TGGAACGCTATTATACGGAGGCACGCCCACTTCTGCTGAAAGGCAGGAAT TGCGACGCATTGTTTGTCAGTCAGAAAAAGACGGGCATTTCCCGTCAGTT GGCATGGATGATTGTCAAAGAATATGCAAGTCAGGCAGGCATCGGGCACA TCAGCCCGCACAGCCTGCGCCACGCCTTTGCCACGCATCTGGTGCGGCAC GGCTTGGATTTGCGCGTGGTTCAGGATATGTTGGGACATGCCGATTTGAA TACGACGCAGATTTATACCCATGTTGCCAACGTATGGTTGCAGGGTGTAG TGAAGGAACACCATTCCCGAAACTGA >NMB1363 xseA, exodeoxyribonuclease, large subunit ATGTCTGATTTTTTTCATTCTGACGTGTTGTCCGTTTCCGAGTTGAACGC ATTTGCCAAAAGTCTTTTGGAAAACCACCTTGCCGGTTTGTGGATTGCCG GCGAAGTATCCAACCTGACCCGTGCCGCCAGCGGGCATTATTATTTCTCG CTCAAAGACAGCCGCGCACAGGTGCGTTGCGCGATGTTCAAGGGTGCGGC GGTGCGTTTGGCGAAGCCTTTGAAAGAAGGCGACCATATCGAGGTATCAG GAAAAATCAGTATTTATGAAGCGCGGGGCGAATTTCAGATTACCGTAAAC GAAGTACGGCTCAAAGGTTTGGGGCAGCTTTACGAAGCCTATGAGCGGTT GAAGGCGCAGTTGCAGGCGGAAGGCGCGTTTGCGGCGGAACGCAAGAAAC CTTTGCCCGTCCGTCCGCAATGTATCGGCATCGTAACCAGTCTGGCGGCG GCGGCTTTGCGCGATGTCGTTACTACCTTGAAACGCCGCGCACCCGAAAT CCCCGTTATCGTTTATCCGACACCCGTTCAAGGCGCAGGCAGCGAATTGC AAATTGCCCAAGCGATTAAAACCGCCTCGCAACGCGCCGAATGCGATGTG TTGATTGTCTGTCGCGGCGGCGGCAGCATTGAAGACTTGTGGGCGTTTAA CGAAGAACCGGTCGTGCGCGCCATCGAATCCTGCACGGTTCCGGTCGTCA GCGGCGTAGGCCACGAAACCGATTTCACGCTCGCCGATTTCGTCGCCGAT ATGCGCGCGCCCACGCCGACCGGTGCGGCGGAACTGGTCAGCCCCAACCG CCAAGAATCGCTGCACCGCCTCGCCCAAGCCCAATGCCGTCTGAAAACCG TTTTGGAACAACGCTATTTCGATGCCAGCCAAAAACTCGACTGGCTGGCG CGGCAAATCCGTCATCCGCGCCAAAAACTCGACGAACAGCGCGCTTCAAT CGGCAAGCTGGCGCAAACGCTGTCTTACTCGATGACGCAAAACGTCCGTA CCCACACCGCCCGTTTCGAACGCCAAACCCAAGCCCTGAAACATTGCCGT CCTGATGTTTCCGTTTGCAAAAAAAACATCGACCGCTTTCAGACGGCCCT GTCGCACGCCTTCCACCAACTGCTTACCCACCGCCGCCAAAGCCTGACTG CCCAAGCCGCATTGCTCGAAGCCGTTTCGCCGCAGCACATTCTGGAGCGC GGCTTTTCCGTCGTCAAAAACACACGCGGACAAGTCATCCGCAACGCCGA TGTTTTGAAGCAGGGGCAGAAGCTGCACATTATCTTCGCCGACGGCGAAA CCGACGTGCGCGTAAGCAAAGAACAAGGGCAGCAGGATTTGTTCGATTGC ATTTAA >NMB0262 xseB, exodeoxyribonuclease, small subunit ATGAAGAAAAACGCCCCGAAATCGTTTGAAGAAGCCTTGTCGCGCCTCGA ATCGCTGACGCAGTCTATGCAGGGCGAAATGCCCTTGGAAGACGCGCTTG CCGCCTATCAGGAAGGCAACGAACTGGTCAGGTACTGCCAAACCAAACTG GCACAAGTCGAACAAAAGCTACAGGTTTTAGACACAGACGGGCTGAAGGA GTTAAACCTTGAATCCGACGAATGA >NMB0399 xthA, exodeoxyribonuclease III ATGAAAATCACCACTTGGAATGTCAATTCGCTCAATGTGCGGCTGCCGCA GGTGCAAAACCTGCTTGCCGACAATCCGCCCGATATTTTGGTTTTGCAGG AACTCAAACTCGATCAGGACAAATTTCCGGCCGCCGCTTTGCAAATGATG GGCTGGCACTGTGTTTGGAGCGGGCAGAAAACCTACAACGGCGTGGCAAT CGTCAGCCGCAGCGTGCCGCAGGACGTGCATTTCGGTTTGCCCGCACTGC CGGACGATCCGCAACGGCGCGTGATTGCGGCAACCGTCAGCGGCGTGCGC GTCATCAATGTCTATTGCGTCAACGGCGAGGCTTTGGACAGCCCCAAATT CAAATATAAGGAACAGTGGTTTGCCGCACTGACGGAGTTTGTCCGCGATG AAATGACCCGCCACGGCAAACTGGTGTTGCTGGGCGATTTCAATATCGCG CCTGCCGATGCGGACTGTTACGACCCTGAAAAATGGCACGAAAAAATCCA CTGTTCGTCCGTCGAACGGCAGTGGTTTCAAAACCTGCTGGATTTGGGAC TGACCGACAGCCTGCGCCAAGTCCATCCCGAAGGCGCGTTCTATACCTGG TTCGACTATCGCGGCGCGATGTTCCAACGCAAACTGGGCCTGCGTATCGA CCATATTTTGGTGTCGCCTGCGATGGCGGCGGCGTTGAAGGATGTCCGCG TCGATTTGGAGACGCGCGCGCTGGAGCGTCCGAGCGACCACGCGCCGGTG ACGGCAGAATTCGATTGGTAA