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# Corynebacterium glutamicum ATCC 13032, DSM 20300 = ATCC 13032

>cg0181 PUTATIVE DNA REPAIR PROTEIN
GTGCCTACGCTTTTCGACGATCCCCTCCACCAACTTCCCAGACCACCGCG
CAGGGTTGCAGCTGGCGTGGTGCACCTGCCCAACTTCCTCGGCTTGGCCG
AGCAAAAGGCACTGGTCGCCCAGGCTCGAGACCTTGCGCGTGAAGTTGTG
GGCACACCGTTGGCGATGGTCCGACCCAAGCTGAAAAGTGGTCAGATGAG
TGTCCATATGTTGCATTTAGGAAAGTACTGGGCATCCAATCCTTATCGCT
ATGTGGATGTCGTTGATGGTTTTCCAGTGCCACCACTGCCGGATTCTTTC
GTGGACTTGGCACACCGAGCATTGCTGTCTGCAGGATCTTTAAGCAATTC
ACTTCAGTCTTGGTCGGAGGCATATCGAGCAGAAGCGGCATTGGTGAATT
ACTACTCGCCAGATGCTTCAATGGGCATGCACCAAGACGCTAATGAAGAA
TCGGAAGCCCCTGTGATCTCCCTATCGATCGGTGATACCGGAATCTTTCG
ACTGGGCGGCACTCTAAACCGCAATAAACCGTGGACAGATATCCCACTAA
TGAGTGGTGATCTCATCGTTTTCGGAGGTGCAAACAGGCAAGCATTTCAT
GGCATTCCCTCTATTGAGGCCAATACTGCACCTGCAGGATGCGGGTTGAA
AGAAGGGCGAATCAACATCACGATCCGCCAACTTGCACTATAA
>cg3417 NTP pyrophosphohydrolase
GTGAATCAGGCGTGGCAGCAGTCCCGTTTGGTTACTTCTGATGAGACTTC
CGCAGGTGGTCTCGTGGTGTCAGGTTTGGCTGAGGCGGTCAACGCTAACA
ATGAGGTTGATCTGTCGAAGATTTATGTTGCGTTGATTGGTCGCCTTGAT
CGTCGTGGTCGTTTGTTGTGGTCGATGCCGAAGGGCCATGTTGAGCCTGG
TGAGGATAAGGCTGCGACTGCTGAGCGTGAGGTGTGGGAGGAGACCGGCA
TCCACGGTGAGGTGTTCACTGAGTTGGGTGTGATTGATTATTGGTTCGTT
TCGGAAGGGAAGCGGATCCATAAGACGGTGCATCATCATTTGTTGCGTTA
TGTTGATGGCGATTTGAATGATGAGGATCCAGAAGTCACTGAGGTGGCGT
GGATTCCGGCGAATCAGTTGATTGAGCATTTGGCTTTTGCGGATGAGCGG
AAGTTGGCTAGGCAGGCGCATGATTTGTTGCCTGAGTTTGCTTTGAAGGA
AAAGGCGGAGGGAAGGTCCACCCCAAGGTGA
>cg3401 hypothetical protein predicted by Glimmer
GTGGCAGCCGGAACAAATGCTCAGTCCATTGGTAACCATCTTGCTGAACA
CCCAGTACTAAACGCTCATCGAGTTCTAAGAACAGATGGGTCAATCTCAG
ATGGTTTCAGATGGTTAAACGCTGAGGAAACCCGCTCACCAAAAGAAGTA
TTGGAAAGTGAAGGTGTGGAATTTACTTCTTCCAATAGGGCAAACCCTCA
ACAGCGATTGACTCCAGAGGAATTGCTCGCCTTCTTTGCAGCTGAGAATT
AA
>cg1302 Predicted HKD family nuclease
ATGAGCCCATTCGATTCAAAGCTTGGTCGCGATACCCATTTTGGATTCCT
CGATAAGACCACTGCTTCGCAACAACTGCTGAATCCTTCATTGATTTCTA
ATGAGGATCCGCACACCATGTTGCAGGCGATCAAGTTAGAGCTTCGTACC
GCACAGTCTTTTACATTTTCAGTCGCTTTTATTTCCAGTCGCGGTATCGC
GTTGTTGAAACAGGCATTGTTGGACTTCAAGGGTAAAGGACGAATTATCA
CGTCCCGCTACCTGGATTTCAATGATCCAACGATGTTTCGTGAGCTTCTT
ACTTTGGAGAACGTGGAAGTCCTCATACATCAAGGCGATGGTTTCCACTC
CAAGGGCTACGTTTTCCATCACGACGTGGGAATCACCGCAGTAGTGGGTA
GTTCCAACCTCACAGATAATGCTCTGTTGGTAAACCGGGAATGGAATCTG
AAGTTCTCTGCCAGCAAGAATGGCGACATTGCTTTTCAACTTGATGATGC
GATTAATCGCCAAATTGAACGATCCACGCCACTGACGCCTGAATGGATCT
CAGAGTATGAGGCAACCAGACGTGTACCTGAGCGTTTGGTGTCTCAGAAT
ATTCCTCTCGAGGATCAAAGTAACGCCGGAACAATTGTTCCAAACGTCAT
GCAGGAAGAGGCCCTCGACGCTCTACTTTCTTTGACGGAGAAGGGAGAGA
AACGTGGTGTCATTATTTCTGCGACAGGAACTGGCAAGACTATCCTGGCT
GCTCTAGCTACAAGAATGCTCAAGCCTGAACGAGTTTTGTTTGTCGTGCA
CCGCGAACAAATTCTGGATAAGGCGCGATCCGAGTTCATCAAAGTTCTTG
AACGTCCCGCTGTTGATTTCGGAAAAATGTCTGGCTCGACCAAGGAGCTA
GATAAGCCGTTTGTGTTTGGCACCATCCAAACGCTGACAAAGGAAGCTAC
ACTTTCCCAGATCTCCCCTACTGACTTTGATTTAGTCATCGTCGATGAAG
TCCATCGCGCCGGTGCCGAATCCTATTTGGCATTGCTCAATCATCTGCAG
CCACAGTTTTTATTGGGCCTGACTGCTACCCCAGAGCGAACTGATGGATT
CAATATTTATGAGTTGTTCGATTTCAACGTGCCATATGAGATCCGACTTC
AAGCTGCTTTAGAATCCAACATGCTCGTACCGTTTCACTATTACGGTGTC
ACAGACTTCACGCTTGATTCTGAAACAACGGTGACTGATACCTCCAAACT
AAGTGCCTTGGTGAGCGAAGAGAGAGTCCATCACATTCTGGAGGCCCTCA
AAACTTATGGTCATCCAGAAAATGTTCGTGGACTGATCTTCTGTTCCAAG
ACTGAAGAGGCTGAGGAGCTGTCAAAACTTCTCGACCAGTCGTTGTTTAA
TGGCAGCTTGCTTAAAACCAAGGCGCTCTCTGCGAAGGACTCAATTCCCT
ACCGCGAAGAGGTTGTAGCTGAGCTGGAGTCCGGCGACCTGGACTACATC
TTGACGGTTGACATCTTCAATGAAGGCATTGATATTCCTTCGGTGAATCA
AATCGTAATGATTCGTAGTACTCAATCAAGCATTGTGTTTACGCAGCAGC
TCGGGCGTGGACTCCGAAAAGCTGCTGGCAAAGACCATCTGCGCGTTATT
GATTTCATTGGCAACTACGCGAACAACTATCTCATTCCCATCGCATTGTT
TGGCGATAATTCTCGCAATAAGAACAGCATCAGACGCCGCCTGATTGAGA
GCGATATTGATGGAACAATCTCAGGTGTTTCAAGTGTTAACTTTGATCCC
ATCGCGCAGGAGAGAATTTTTGCTGCGTTGAAGGCTGCGAAGTTGGACTC
AAAAGCACAATTCAAGCAGGATATTGTTCAGCTTCAAGATCGACTCAATC
ATGTGCCAGCACTGTTAGACTTCGCTCGCTTCAATACTGTTGATCCGTTT
ATCCTTGCCACGCATTCTGGCAACTACTGGTCGCTGCTCAGTTCAGTGAA
GTTTGTCGATCACGCTCCCAGCGAATCGGAGAAGTACTTTCTGGATTTCC
TTACCGGAGAGCTTCTTAACGGCAAGCGACCTCATGAGCTGTTGCTGATC
CAGGAACTAATGAAACAGCCTGAAACTTCTACTGAAGAATTCCGTAAGCT
CTTGCAGGCCCAATCGACTAGTTCAGATGAGCAAACAATCAACTCGGTTG
AAAGGATTTTGAGCCAAGAATTCTATACGGGACCAAACCGCAAGAAGTTT
GGCGAACATCCGATCCTCTCTGTTCAAAACCGCACCTACTCTTTTACTCC
CGAGTTCCGACGTGCCCTCGACGAAAGCCTAGAAGTGACGGACCGAGATG
AGGCTGCTCAGAATTTTAAGTTTCACGTCCAAGACATCATCGACACTGGT
TTGTTTATCGCCAGAAACAATGGATTTTGGCAAGGAAACCTCGTTGTTGG
CGAGAGATACTCCCGACGAGATGTCTGCCGAATTCTCAATTGGGAACGAA
ACAACGAGAGCACGATTTATGGATACAAAGTGGACAGTTACACATCTACT
TGCCCAATCTTTGTGACCTATCACAAGGCTGATGATGTATCCGAAAGTAC
TCGTTACCAGGATGAACTCGTCGATCCGAATACCCTTCATTGGTATTCCC
GCGGCAACCGAAAGATCACGTCTAATGAGATCAAGCCCATCGCTGCGAAT
GCTGTGGATCTTCATGTTTTTGTGAAGAAGGACGATGCCGAAGGCCTTGA
TTTCTTCTACCTTGGTCAAGCGCATTCAGAAAACAGCAAACAGTCATCGA
TGCCCGGAAACAAAGGAGTTGTGCAACCGGTGGTCACAATGGATCTACAG
TTCGACACACCCGTCGAACAAAGCCTGTTTGAGTACCTGAGCACAAATCT
CGCCGTAACGGAGTAA
>cg3043 NTP pyrophosphohydrolase/oxidative damage repair enzyme
ATGAAAGGCGACGGCGATGGATGGGCAGCAGCACCCAATGGCGGGGCAGT
ATGGGGCAAAAACGGAGCAGCAGGATTGTTGTTGGTAGCAGATAAACAAA
TGCTCATGCAGCACCGAGCCGCATGGACCAACAACGGCGACACCTGGGCA
CTCCCTGGAGGCGCACGAGACTCACATGAAACCGCAGCGGAATCAGCCCT
GCGTGAAGCATTTGAAGAAACTGGAATCCTGCCCGACGACGTGGAAGTTT
TAGATTCAATAGTCACCGCAGGCCCTTTTCCCGCCGATCCAGAACGCCCA
GAACTTGCCGGCAACTGGACCTACACCACGGTCATCGCACGAACTAAAAC
CGGCGAAACCCTAGATACCACCGCTAATGAAGAATCCCTCGAACTACGGT
GGGTAGATATCGCAGCGGTTGACTCTTTGGCTTTGATGCCAGCATTCGCC
AAAGCGTGGCCCTCTTTAAGAAAGCTACTGAACACAACAGAGTAG
>cg0889 PUTATIVE DNA HELICASE RECQ
GTGATCAATTTGCAGGACCTCGACGAGGATCAACGCATCGCTGCTTCTGC
GCCTCGCGGACCAGTGTGCATTCTCGCCGGAGCCGGCACGGGTAAAACTC
GAACGATTACTTATCGCATCGCGCATCTGATTGATCAGGGTTTTGTGAGC
CCGAATCGTGTTCTTGCTGTGACGTTTACATCCCGCGCGGCAGGGGAGAT
GCGTCATCGCTTGAATCTCATGGGGATCGGTGGCGTGCAGGCAAGGACAT
TCCACGCAGCAGCGAGGAAGCAGTTGTTGTATTTCTGGCCTCAGGTGGCG
GGTAATCTGCCGTGGCGCCTGTTGGATAATAAGTTTCAACTTGTGGGTCG
TGCGGTTCGTGGTGCGCGGTTGGAATCGCAGACTGAAAAAGTTCGCGATA
TTTTGGGTGAAATTGAGTGGGCGAAGGCGTCGTTGATTACACCTGAGCAG
TATCCGGATCGTTTGGGTACGAGGACCCCTCCGGCGCCCGCGGAGAAAAT
CGCTGAGGTGTATCAGCGATACGAAAACATGAAGGCAACCCCTGAGGGGA
TGTTGCTTGATTTCGACGATCTGTTGCTTCACACCGCCGGCGCGTTGGAG
AATTCCCCGGCGGTGGCGGAGGAGTTCCGCCAGCAGTATCGCAGCTTTGT
GGTCGATGAGTATCAGGATGTGACGCCTCTGCAGCAGCGGGTGCTCGATG
CGTGGCTCGGCGATCGCGATGACCTGACGGTTGTCGGCGATGCGAACCAG
ACGATTTATTCGTTCACGGGGGCAACACCTGAATTTTTGCTTAATTTCTC
GAGGAAATATCCGGAGGCAACCGTCGTCAAGCTGCAGCGCGACTACCGCT
CAACGCCGCAGGTCACCGCGCTGGCCAATACCGTCATCGGCCAGGCGCGG
GGGCGCGTTGCTGGCACGCGCCTGGAGCTTCAGGGAATGCGGATCGCCGG
GCCGGAGCCCGAATTTTCGGCTTTCGACGACGAACCCACCGAAGCCCGCG
AAGTTGCGGGCCGCATTTTGACGCTGCTTAAAAACGGCGTTCAGGCCTCA
GAAATCGCCGTTTTGTACCGCATCAACGCGCAGTCGGCGGTTTTCGAGCA
AGCGCTTGCCGACGCCGGCATCGTATATCAGGTGCGCGGCGGCGAAGGCT
TTTTCACCCGCCCAGAAATTCGCCAAGCCCTGAGTCAACTGATCCGCACT
TCCCAACGCGACGTCGATGAAAGCGATCTGGTGCGTCTGACGCAACGCAC
ACTCGTGCCACTTGGGTTGAGTTCGGAAGAGCCCAGCGGTGCCCAAGAGC
GGGAACGCTGGCAATCGCTCAACGCTTTAGTCGATCTGGTGAAAGACCTT
GTTAAAGCCACACCAGATTTGGATCTCACAGGCTTGCTGCTGAAACTTCG
GGAACGCCAAGAGGCGAAGCATCCGCCGACCGTCGAAGGTGTCACCTTGG
CATCGCTACACGCGGCGAAAGGCCTCGAATGGGATGCGGTGTTTCTTGTC
GGACTTGTCGATTCCACGTTACCGATCAGCCACGCCATTAAATCTGGCGA
TGAAGCAATCGAAGAGGAACGTCGCCTGTTCTATGTCGGTGTGACCCGTG
CCCGCGAACACCTCCACTGCAGTTGGGCACTCGCGAGGCAAGAAGGCGGA
CGGAAATCGAGAAAGCGGAGTCGATTCCTCGATGGCATAGTCGTGGAGAT
GGCCTCCGAATCGGGCACACCTCGCAGCAATCGTCCGAAAAACTGCCGAG
TGTGCGGATCGGTTCTTTCAAGCCCTGCCGAAAAAGCTGTCGGTCGGTGT
GCGAGTTGCCCGATCCAAGCGGATGAACGAGTCTTCGAACAGCTGCGAAC
GTGGCGCAATGACACCGCGAAGCGCGAAAACAAAGCGGCGTACATGGTGT
TCAGCAATGCAACGTTGATGGCGATCGCTGAAATGAACCCCACCAACGAA
AACGAATTGCTCAGCGTGCCGGGTGTGGGGCCGATGAAGATCGAGAACTA
TGGCGATGACGTGCTCGCGATTTTGGGAGCACTTTAG
>cg2534 putative secreted protein
ATGCGACGAATCTGGCTGCTCGTATGCGGCATCGCATTGACTGTCGCCGG
CTGCACGAGTGGATCCACCACTCCCACAACCGTCACGGTAACCGCAACGC
CAACGTCGGAGGAGGCTGCATCCACGGAGCCGACCAACGACATACTTGCC
AGCCAATTTCATCCGTGTGAAGTACTCACGCAGGAACAGTTCGAAGAAGT
CGGATTGGGAGTCTTGATTGTTGAAGACGCTTACCTCGGCTCGACAGGTT
TAGGTTGCAGTTTCGGGAAAGCAGACAGAGAGGATTTTTCAGGTACGTGG
CTCATTTCAACTGACCAAGCAAACCGACAATTTGTTGAAAACCAAGATCT
AGAGACATTGGATTGGGGATCCAATGACAATCCAGATCTGTATGTGCATC
AAATGTCCGAGACGGGTCGTCAATGTGAGGCAGCAGTTGACTATGACTGG
GGCCGGCTTACGGTTGACTATCTCGAATTAGGTGAGGGCTGGGAGCCAGA
AATTTTGTGCTCTGATGCTGTTGAAATTTTAGAAAATCTCATCAAGGAAC
TAAGGGGAATTCCATGA
>cg1733 conserved hypothetical protein
ATGGAAATTCGAGCAAACGTTTATTCACCGCTTCAAAATACTGCCGTCTG
GCTAGGTGCGTGGCTCTATGAATTAGTGCCCACCGAAGATGTCATCGATG
CGTTCGTCGATCTCGGCGGCCCGCACACCTTCGGCGACGGCGGGCTGCTC
GATATGCTGCGAACTTTAAAAGAATTAACAAGCACGCTTATCGACGCCCC
CTTCCACGGTCCGATTTTAACTCTCGCACTCAGCGGCCCAGGCCAAGTGC
CGGCGTTGCCGGCAGGTTCACGCGCTGCGGTCTTGGCCTCCGCCTCGAAG
GAGGGGGCGTTGGTGCTGGGCGGCGTCGATAAGCAGCATTCTTGGGCGCT
TATTCCTACGCGCGGTAAGGATGCCACTGAGTGGAATTTGGTGGAGGTGG
AGGGCTTTTTGCCGGCGATTGCGACTGTCTCGCCCGGTGAGGCGGATCAG
CTGCTCCGTCAGGCGACAGATCAGGCGGCAAATATCATTGAGTTAAGTGG
CTACGCTTCACTTGCGCCGAAATCTTTGAAGAATCCGCGACTAACCGTGG
GCATGCTGTCAGATTTTTACGACACCCCGGGGCTTCCCTATGCAGTCCCA
GAGAGGTCGGCGAAGCTTTTTGCGCGCGCAGATCGCGTGGCTGCCATCGC
AGAGACCGTGCAGGAAACCATCGGCGATCACAGCCTGGATCCACAGTTGA
TTTTCCTGTGGAGCCATATTCGGACCGCGCGCATGGCTGGGGTGAGTTAT
GCCCTCGCAGAGTTTGCGAGGGACTATCACTCCTAG
>cg4004 hypothetical protein
TTGAGTCCGTCTAACATAATCCGCATCGCAGCTGTTCTAATCCCCAATGA
TCAGGATCAGATTCTCTGCGTCCGCAAAGAGGGAACTGAATTGTTCATGT
TTCCCGGAGGCAAGCAGGAGTTGTGGGAGACTCCTGCACAGGCAGCCGCG
AACTCGAGGAAGAAGACCTCGATCTTTATGGGCGTTTTCAGGCACCGGCA
GCAAACGAACCTGGCTTCTATGTGGACTGCCATGTGTTTAGCACATTTGA
TGTGTTCTTGA
>cg1303 NTP pyrophosphohydrolase
GTGAAGAAACGCATCAATGTAACCGGCGCCGTCCTAGTCAAGGAAAACCG
TATCCTTGCAGCACAACGTGGTCCAGAGATGTCACTTCCCGGATATTGGG
AGTTTCCGGGAGGAAAGATCGAGCAGGGCGAAACTCCAGAAGCTTCACTT
GCACGAGAGCTCAAAGAAGAATTGCTTTGCGACGCCACCGTAGGCGAACA
CCTCACCACTACAGAGCACGAGTACGACTTTGGAATCGTCGTGCTTTCCA
CCTACTTCTGCACACTAAATGATGCAGAGCCTCAATTGACCGAGCATGCT
GAGATCCGCTGGGTGGCACCACACGAATTGGAATCTTTGGAGTGGGCACC
TGCTGATATTCCTGCGGTGAAACTTCTCGTCGAGCAGCTTGCTTAA
>cg3419 Uncharacterized membrane protein, virulence factor homolog
GTGGTGCGCTCGACTGGCTCCATGGCAATAGCCACGCTGCTGAGTCGTAT
CACCGGTTTCCTGCGCACCGTGATGATTGGTGCGGCGCTGTCGCCGGCCA
TCGCTTCGGCGTTCAACACTGCCAACACGCTGCCCAACCTGATCACTGAA
ATCGTGTTGGGTGCGGTGCTGACATCGCTGGTTATTCCGGTCCTTACCCG
CGCGGAAAAAGAAGACGCCGACGGCGGTTCCGGGTTCTTCAGGCGGCTGC
TCACCCTGTCGGTGACGCTGCTGGGTGGTGTCACCATCCTGTCGATTATC
GGCGCGCCGCTGCTGACACGGATGATGCTGTCCTCTGAGGGACAAGTCAA
CGTGGTCATGTCCACGGCCTTTGCGTATTGGCTGCTGCCACAGATTTTCT
TCTACGGCCTGTTTGCCCTGTTCATGGCTGTGTTGAACACCCGTGAAGTG
TTCAAACCCGGCGCGTGGGCACCTGTTGTCAACAATGTGATCACCTTGAC
CGTGCTGGGCGTGTACATGGTGCTGCCTGCGCGTTTGCACCCGCATGAGC
AGGTGGGCATTTTTGATCCGCAGATCATTTTCCTCGGCGTGGGCACCACC
CTTGGTGTGGTTGCACAGTGTCTAATCATGATTCCGTACCTGCGTCGCGC
GGGCATTGATATGCGCCCTCTGTGGGGTATCGATGCGCGTTTGAAGCAAT
TCGGTGGCATGGCGATGGCGATCATCGTGTACGTGGCAATCTCCCAGTTC
GGTTACATCATCACCACTCGCATTGCGTCGATTGCAGACGATGCTGCGCC
GTTTATTTATCAGCAGCACTGGATGTTGCTGCAAGTTCCTTATGGCATCA
TCGGCGTCACCTTGCTCACCGCGATTATGCCGCGACTGTCCCGCAACGCG
GCAGACGGCGATGATAGGGCAGTAGTCTCTGACCTTCAGTTGGGTTCCAA
GCTAACCTTCATCGCACTGATCCCCATCGTGGTGTTCTTCACCGCCTTCG
GTGTCCCTATTGCCAATGGCCTTTTTGCCTACGGCCAATTCGATGCCAAC
GCCGCCAACATCCTTGGTTGGACTCTGAGCTTCTCTGCTTTCACGCTGAT
TCCTTACGCTTTGGTGCTGCTACATCTGCGTGTGTTTTATGCGCGTGAAG
AGGTCTGGACCCCAACCTTCATCATCGCCGGCATCACCGCCACCAAGGTC
GTGCTTTCCCTGTTGGCACCGCTGCTGTCGAGCTCCCCGGAGCGTGTGGT
GGTGCTTCTTGGTGCGGCCAACGGTTTCAGTTTCATCACCGGCGCGGTCA
TCGGCGCGTATCTGTTGCGCAACAAACTCGGCCTGTTGGGTATGCGCTCT
TTGGCTAAAACCTCCCTGTGGGCGTTGGGCTCTGCGGCGGTTGGTGCAGC
AGCAGCATGGGCGTTGGGGTGGCTGATTCAAGCCGTCGTGGGCGATTTCT
TGCTGGGCACTCTAAGCTCCGTAGGCTACTTGTTGTACCTGGCTGTGTTG
GGTGTCTTCTTCATCTTCGTCACCGGCATCGTGTTGTCACGTTCTGGTTT
GCCGGAGGTCCAAAACTTGGGCCAGGCACTGACCCGCATCCCAGGTTTGA
GCCGGTTTATTCGCCCGAATACCAAGATCTCTTTGGATGTCGGCGAAGTC
TCCGAGCAGGATTTCTCCACCCAGCTGGTCGCGCCAAGCGAGTTCGCAGC
AACCCCTGTGCCGCCACCGATGTCCGCCGGTATTGTCCGCGGACCTCGCC
TGGTTCCCGGCGCCCCAGTCGGCGACGGTCGTTTCCGTCTGCTCGCCGAT
CACGGCGGCGTCCAAGGCGCGCGTTTCTGGCAGGCCCGCGAGATCGCCAC
CGGCAAGGAAGTCGCGCTGATCTTTGTGGATACTTCCGGCAACGCCCCAT
TTGCGCCACTGTCTTCGGCAGCCGCAGCGGGCATCGCCTACGAGGTGCAG
CGCCGCACCAAGAAGCTGGCCAGCTTGGGCAGCTTGGCGGTAGCCCCCAA
CATCCACTCCGAGGCGTACCGCAACGGTTGCCTCATTGTGGCCGATTGGG
TGCCTGGCTCCAGCTTGAGCGCCGTCGCGGAATCCGGTGCCGATCCCCGC
GCCGCCGCGTTCGCGCTCGCGGAACTAACTGAAACCATCGGCGAGGCCCA
CGAGATGGGTATCCCGGCCGGCTTGGACAACAAGTGCCGCATCCGCATCA
ACACCGACGGCCATGCCGTCCTCGCCTTCCCGGCGATTTTGCCCGATGCC
TCAGAGCTCCGCGACGCCAAGTCCCTGGCCTCGGCCGCCGAGATGCTTAT
CGACGCGACCCTCGCTCCCAGCGACGTCAAGGCAATGGTCACTGAAGCCC
AGGGGCTAGCTACAGAAGACAATCCCGATTACGCATCACTTGCCATGGCG
ATGCGCACCTGCGGACTGTTCACCGAGGAACCAACCCACCTTGTGGTGAA
GAAGGAAAAGACACCAAAGCCTGCGACACGTGATGGTTTCGGTGCCTCCG
ACTACACCGTCAAGGGCATGGCAGCCATCGCCGCTGTGGTGATCATCTTG
GTTTCCCTGGTGGCCGCCGGTACCGCGTTCCTCACCAGCTTCTTCGGCAG
CAGCACCAACGAACAATCCCCGTTGGCCTCTGTTGAAGCCACCACCTCTG
CAACACCAGAACCTGTGGGGCCACCGGTCTACCTGGATCTGGATCAAGCC
CGCACGTGGGATGACGGTGCAGGAACAGATGTCACCGACGTCACCGACGG
CAACACCTCCACCGCATGGACCTCCACCGGCGGCGACGGCCTCCTAGTTG
ACCTGTCCACGCCTGCCCGCCTCGACCGCGTCATCTTGACCACCGGCACC
GGCTCCGACAGCAACGTGACCTCGACCGTGAAGATCTACGCATTCAACGA
CGCCTCACCACACTCCCTGTCGGAAGGCATCGAGATCGGCACCGTGGATT
ATTCCGGCCGCAGTCTCAGCCACAGCATCCGCGATTCCTCCAAGCTTCCG
GGTCAGGTGGAATCCGTGGTGATTCTGGTCGATGAGGTTCGTTCCTCACA
AACCTCAGACACCAATCCACAGATGCAGATCGCTGAAGTACAACTTGTTG
GTTGGTAA
>cg1400 putative DNA polymerase III alpha subunit, the Gram-positive type
ATGAACTCACCAAGCAATCCATCTCCCACCGTCCCAAGCTTCGACACCAC
CAAGATGCTCTCCTTCGACCTGGAAACAACGGGCGTCAATCCCTTTGACA
CCCGCATCGTCACCTCCGCAATGGTTACGATCACCAGCAAAGGCGCTGAG
CCTATTGAGCTATTGGCTGACCCCGGCATCGAAATCCCCGAGGCCGCCAC
TGCAGTCCACGGCATCACCACCGAACATGCCCGCGCCAACGGCCGTCCGC
ACGATGAGGTGTTAGCCGAAACCATCTCCAGGCTGCGCGCCGGCTGGCAG
GCAGGACTGTCGGTCATTGTCTTCAACGCATCCTATGACCTGACCGTATT
AAGAAACCATGATCCAAGCTTCACCATCGACGGCCTAGTTTATGACCCCT
TCGTTATCGACAAAGTCAAAGACCGTTACCGCAAAGGCAAGCGCACACTC
ACTGATATGTGTGCTCACTACGACGTTCAATTAGGCAACGCCCACGAAGC
CACCTCAGATGCGCTCGCAGCCGCACGCATCGCCTGGAAGCAGGTCCGCC
TGTGGCCAGAACTCACCAAGATGACAGGCGAAGAACTCATGGAGTTCCAA
GCAGTCAACTATTACGAGCAACAAAAGAGCTTCCGTAGCTATCTCATCGG
GCAAGGCCGCGATGCCAGCGATGTGAACACTTCATGGCCAGTGCAAACTG
ACCCCGCATCCTAA
>cg0773 PUTATIVE EXODEOXYRIBONUCLEASE
TTGGCGGATGGAGGATTTCCCCAAGCACCCACTAGTGTGACAAGCATGAG
TTTTCACATCACATCCGTCAATGTCAACGGCATTAGGGCAGCGGTCAAAC
AGCGAAGCGAAACAAACCTAGGTTTCCTTCCGTGGCTTGAAGAAACTCGC
CCGGACGTTGTCCTCCTCCAAGAAGTCCGCGCAAGCGAAAAAGACACCGC
CACCGCACTGCAACCCGCCTTAGATAACGGATGGCACTACATTGGTGCCC
CAGCAGCTGCCAAGGGACGTGCCGGTGTCGGCATTTTGTCTAGGCATGAA
CTTGAAGATGTGAACATCGGTTTTGGATCTTTCCTTGACTCCGGCCGCTA
CATTGAAGCAACCATCAAAGACACCACCCTGGATGTGCCAGTAACCGTGG
CATCTCTTTACCTCCCCTCAGGTTCAGCGGGCACCGACAAGCAGGATGAA
AAGTACCGCTTCCTCGATGAATTCGAAGGGTTCCTGGACCAGCGCGCTAA
AGAACGCTCCCACATGGTCATCGGTGGCGACTGGAACATCTGCCACCGCC
GCGAAGACCTGAAAAACTGGAAAACCAACCAAAAGAAATCCGGTTTCCTT
CCCGACGAACGCGCATTCATGGATTCAGTCTTTGGCACCTTCCCAGATGA
GGCAACCCAGGTTGCAGGGGCCGGCGACTTCTTCGGTGCCGTGGACTATG
AAGGAACGAGGCGTCGAGAAGCAACTACGGACCCTGCGTGGTTCGACGTT
GCACGTCGCCTGCAACCTGAAGGCGACGGCCCCTACACTTGGTGGACCTA
CCGCGGAAAAGCCTTCGACACCGGCGCCGGATGGCGCATCGACTACCAAG
CAGCAACCGCAGCGATGCTCGAACGCGCAGAACGCTCCTGGGTAGACAAA
GCCGCTGCATACGATTTGCGCTGGTCAGATCACTCACCACTGAACGTGAT
CTACTCCTAA
>cg1916 hypothetical protein predicted by Glimmer/Critica
ATGACCATGTACAACGCCGCAAAGACCCTTGTTCCCCAGATTGTTGCTTT
CGATGACACAGCAATCATCGCACTCGACCAAGCCGCGGAAGATGAATTCC
GCAAGGCTAACTACCCCGAGGTTAAAGCCAACCAAGAAGCTGCCTATATC
CTGGCGGAAGCTGCCCAAAACATTCAACGCATTGCAACAGCTCGTGCCAC
AGGCGATGTCCCAGCGACTGCTCGCGTGGTGCGCATTAAGGGCTCTGAGA
AATACTACACCGAGGAGCAGTGGCGCATTCCAGAGAACGCCTACTACCCT
CGCAGTATGGCTGAATCTCCTGATGCTCACCTTGATGACCGTGGCATCTA
TATCATCCCAGCTCAATATCCTTGGGGATACGAGGAAATCATTAACCTAC
CGGCACGCGCTACCTCTACACCTGCTGTTGCTCCTCGCACTGAGGCTGCT
CCAGCTACAGTATCTGATGCTGAGGTCCAGAGCCTGCTTGAGTACTTGCG
TACTAATGCTTTCGTAAGTCGTCACGACGGCGACACCACGAAGGCCGACA
TCTTCAACAAGCACGCGGATACTGTCAACAAGCTTGCAGCACTACGTGCA
CCCTAA
>cg1384 putative NUDIX hydrolase
ATGGTGATGCAGGGCATTGGTGGTAGGAAGCTGGCGGCGACGGTGCTGTT
GGTTCGGGATGGGATCATCAATGGGCGTCCTGATGTGGAGGTTTACATTC
AGGAGCGTGTGTCTACTATGGCTAATTTTCCTCGGGCGACGGTGTTTCCG
GGTGGGGGTGTTGATTCTCGGGATTTTGCGGATGGTCACGGTAAGGAAGT
GTGGAGGGGACCTAGCGCGGAGGAGTGGGGTGTGCGTTTAGGCGTGGAGC
CTCATGTTGCGTATGCGTTGGTTTTTGCTGCGGTTCGTGAGTTGTTTGAA
GAGGCCGGTACGTTGCTTGCGGAGCATACGGATGGTTCTGGTTTGGTGAA
GAATGCTGGTCAGTATCACGGATATCGGGAGTTGTTGGAGACTCATGAGA
TGTCGCTGACGGATATGTTGCAGAGTGAGAATTTGGCGATTCGTAGTGAT
TTGATTGTGCCTTTTGCCAGGTGGGCGAGCCCTGAGGGTAATAGGGAGCA
GTTTGATACGTTTTCTTTTGTTGCTGTGGAGCCGGAGGGGCAGTGTGCGG
ATGGTAATACGTCGGAGGCGTCTTCGACGGGGTATTTTCCTGCACGGCTG
ATTTTGGATGGTTGGCGCGCCGGGTTGTTGAGGTTGGTTATTCCGACGTG
GGCGTCGTTGTTTGAGTTGTCGCAGTTTAAGACTGTGGAGGAATTGCTGG
AGTACAGCGCGCAGGTTGATATGTCTCCTGTGTTGGATGATGCGGTGGAT
AATCCGAGGTATGCGGAGTTTTATCAGGCGATGCGCACGGAACGGTTTTG
A
>cg1839 Uncharacterized ATPase related to the helicase subunit of the Holliday junction resolvase
TTGCTTGGTTGTTTCAGCCAAGCGACTAACCTGTGCACTATGGCCCAGGA
TTCACTTTTTGAAACGCCCGAAACACCGGGATCCGCAGGCAACACAAGCA
GCGTGAGCAATTCCAAAGCCGCCTCGAAGTATTTTCACCCAGGCGGACAC
GCACCCCTTGCTGCCCGCATGAGGCCAAGGACGCTTGATGAAGTGGTTGG
CCAACAGCATTTGCTGGGGGAGGGCAGGCCACTTCGCCGGCTCATTGAAG
GTTCAGGGGATGCCTCCGTCATTTTGTATGGGCCTCCCGGCACTGGAAAA
ACAACCATTGCCTCATTGATTTCTGCAGCTGCAGGCGATCGCTTTGTGGC
GATGTCGGCGCTGTCCTCAGGTGTGAAAGAAGTCCGCGCCGTTATTGAAC
GTGCGAGGATGGATCTGCAATTAGGGCAGCGCACCGTGCTGTTTATTGAT
GAGGTTCATAGGTTTTCCAAAACTCAGCAGGACGCGTTGCTCTCTGCAGT
GGAAAACCGCACCGTGTTGCTCGTTGCAGCGACCACTGAGAACCCCTCCT
TTTCAGTGGTGTCTCCACTGCTGTCCAGGTCCTTGCTGCTCCAGTTGGAA
TCTTTAAGCGATGAGGATATTAAAACAGTCCTTAATAAAGCGCTTGAAGA
TGAGCGTGGACTTGCCGGTCGAATCACCGCCACCGATGAAGCAGTTGACC
AGTTGGTTCTTCTTGCCGGTGGCGATGCCCGCCGAGGCCTGACCTACATT
GAAGCCGCTGCAGAAGCCGTAGAAGATGGCGGCGTTTTAGATATTGACAC
CGTCATGGCCAACGTGAACCGCGCAGTGGTCCGCTATGACCGCGATGGCG
ATCAGCACTATGACGTGGTCAGTGCCTGGATCAAATCAATTAGAGGCTCC
GATGTAGACGCAGCCTTGCACTACTTGGCGCGCATGATTGATGCCGGTGA
AGACCCACGGTTTATTGCCCGCCGGTTGGTGGTTCACTCAAGTGAAGACA
TCGGTATGGCTGATCCTTCGGCCATGCAAGTGGCCATTGCTGCAGCTCAA
GCTGTCCAATTAATCGGTATGCCAGAGGCGCGGATCAATTTGGCGCAAGC
GACCATTCATTTGGCTCTTGCTCCCAAATCCAATGCTGTCATCATGGCCA
TGGATGCTGCTTTGACTGATGTTCAGCAAGGCCACATCGGTACCGTTCCT
GCGCATCTTCGCGATGGTCACTATGAAGGCGCCAAAAAGCTCGGAAATGC
AGTGGGATATTCCTATCCTCACGATGATCCCAGGGGAGTGGTCCGGCAAG
AATATTTACCGGAGAACCTGCGCGATCGGGTCTATTACGAGCCCACCACA
CACGGTGGAGAGAAGCGGATTGCCGAGTACATTGGCAGGCTTCGTCGTAT
AATCCGTGGAACCAAGTAG
>cg1985 Superfamily I DNA or RNA helicase
ATGCCAATTATCATTGATAACCTCAATTCTGACGACGACTCCACCATCGG
CACTGCCACCGAATACAACCCTGACACTGACGCCGATTTACTTGATGCTA
TTAACGCTGATGCTGACCTTGATGGCGACGCCACCATCAGCACTAACGCG
ACAGAAGAAGGTGTAGACGCAGCAGCTGAAAAACCTAAGAAAAAGCGTAA
AGCCCCTGCTCTGAAGCCTAAAGGACTCACGGCAAAGTTCTTCCACCGTG
ATCTTACTGGCGTAGGTGGTAGGACCGGTCGCCTCAACAAGAACGTACAC
CCGACCAACCCAGATCTGTCCTACCAGCCAGTCTCTGATGTCTACACCCC
ACAATCAGCAGATCACAAGGGTATTAAGACCCGCTACATCCTTACCCATC
CAACCCCCGCTGTTGTTCTCAGTGAGTCCATCAGCAACGCGTTTCATGTC
TCTACCCTGCGTCGCAACAATAATGTCAACAACTCTGATTCGGAATTGGC
TGCCTGGCCGTACCTCTACCAACTCGATATTCCGCAGCTGGACCAGATGA
TTAATGTCGCTGACATCTGTGATTACCATTTCCACGGATATAACCTGTGG
GTGGATTTTACCCCGCAGACTATCGCTCTACGATCCGGTAAGACGGTACT
CGATGACGGTACCACCGCCTCTGATAACACCACTCATGTCTATTACCGCG
TCACCGTTCACGTTATTGCCGGTCAAGATCATGGATCTACTCTGCTTGAT
GACCAGGGCAACCAGGTGCTTGATAGGGATGATAATCCTATTTCTACCCC
AAGTATCAAGCGTATTGGCGCTGTCACTGATCTTTTCGATCACAATCCTT
TTGGCTTCGCTAGTGTAAACTCTTTCGCATTTGTCGATTTCTCATGGGAC
CCAGCCACCACCTTGGTCGATATGCTCAACAACCTTGATTCATATCTCTC
TAATCACATCAATATTGCCAGCTCCCCAACCCCCATTGCCCTCGATATGG
TTGTGCTCAATGAATGGTCTGAAAAGTCCTATCAGCTGTGCGAACGCGTT
GTTGCACAGGCAAAGCTCATCAACAGCAACAAGATCACCGCACATGTGAG
TGATGTCATCAAGCAAAATGCCCACAATATCTTGTGGTTTACCGAACAGA
TGAACCCTGGCACCACCAACCTCAGCGAGGTACCTATCTCCAAGAAGTCT
ATGCTGCCGATGTCTCGCCAGCTACGTATTTTGGAGCACTACGATGTACC
ACTGACCGCGTACTCTGCTCTTTTCTGGACTGTCAGCGCCATTAAGAATG
AATCTATGGTGCAGTACCTTGTGCGACAGAATATGCAGCTCACCTTGAGC
TCAAATCTGGATGCACTCAACTCCATTGTCTCCCAGCTCCCTGTACCAGA
TAAGGACGTTGTGGCTGCTTCTGGCTACCAGATTCAGCCACACTTCTCCA
CGCAGCAGCGTGAAGCAATCACCACTGATAATCCTCTCGCGATTATTCAG
GCCGGTGCTGGTACCGGTAAATCCACCGTGATTCTGGAACGCATTGAGTA
CTTGTGCGCTGCAGGCACCAACCCTGAAGAGATTGCTGTGCTGTCTTTTA
CTAATGCTGCCGCCGATAACATCACAGCAAAAAATGACAAGGTGACCTCT
ATGACCATCTCCAAGATGGTTCATGAGATTTACGCACACAATTTCCCTGA
TCATGAGATCTCCACCATCGACACCATTATCAATACGCTTGATATTGAAT
ACGGCGATCAAATGGTGACCTCCGATTACATGATTCAGCTCCGTGACCTG
CTCTATAAGGTCATGACGCAGGGTGGCAACGCCAACCTGACAGCGTTGAG
CATCTTCATGGAATCCCATATCGAGGCGTTCATCTCGGTGTTGGATCAGA
TCAAGCAGACTTCTCTTGAGCTGGAAATCATCATCTGCTACCTGCTCTTG
GATAAGCTGATCGAGCCTCATGCATCGCCGAAGTACCTCATTATTGATGA
GGTGCAGGACAACTCGGTCTTCGAGTTCGTCTTTGCACTTCGTTTTGCGG
CAAAGCACAATACGAGTCTGTACTTGGTGGGTGACTCGTCACAGACCTTG
TATGAGTTCCGTTCTGCTAACCCTAAGGCTCTGAACTCCCTGGAAGCATC
TGGTGTTTTCGGTACCTACCGTTTGACCACCAATTACCGTTCCAACCAGG
AAATTCTTGACTTCGCTAATATCCACCTCTCGGATATTGAAGCTAACCAG
TTCGCAGGTATTCAGCTCTACGCCAACTCTTTTGATGCACCTACTGCGGA
CAGCTTCAAAGAAAAGGTTGAACTGGACATGCACCATGTGTCTAAGCAGT
CTGAGTTTACCGACAGCATTCCTTATTTCATGGAGTCCAATAAAGCTCGC
TTTGATGCTGCGATCTTGAACAATGAGCAAACCATTGTGCTTGCTCATTC
TGGTCGTGAAATTCGTGCAGCGCAGCAAGCGCTAGCCGAGATGTACCCCA
GCATCACGGTGCGTAACTTGCAGTCCGATAAGGGTTTCAACAACACGGTA
TTTTCGACCTTTATTAAGGATTTCTGGTTTGAGGTCACCGCTGTAGACCC
AGCTCATGCCGCATTTACCTTTACCAGCCAAGTCACCGCTCATCTAGATA
AGTTGGTACGCGGAAAGCGTGAGCAGATGGAGGATCGCGTTATCCGGTCT
ATGGCTGCATGGTGGCGTGAAAATGAGCGTGACATCCAGGGTTGGGTGCA
GCAAACTCAGTCCGGTGCGATCACCAACGAAGAGTTCTTCTACCGTCTTC
GTCAGTGCATTCTTGACTATGAAATCAGGAATAACCGAGCACGTCAGTCC
ATGCTCAATGCGCGCAACAACGCTAACAAGGAGGCTGTCGCACAGGAGAA
ACCACTGCTCATGGTCTCCACCATTCACAGTGCAAAGGGTCTGGAATTCG
ATAATGTCATCGTGCTTCAAAAACCAAGCTCCGATGCAGAGATGACCGAA
GAAGGTAAGCGCGCAACCTATGTGGCGCTGACCCGTGCAAAAAAGCGTGA
ACTCATTATTGCTGGTTCTACTCGCGCATACCCACGCATCGTCACCGATT
ATGAGCAAATCGTTGATCTTCTTGAAAAGCGCGATGAGGAGCGCAAAATT
AAGGAGGAAGAGGCTGCAGCACTCGCCACCCTTGAAGCTGAACAGGAGAC
GCGCGCCCTTGCTGCTGCTGAGGCGCAGGCTCAGGCGTTGTTGCTTGAGC
ACAACCCGTGGTTGCGTGATCTCAGCGATGAAGAAGTCACTGCTCTAACT
GAGCAAGAGATCATCAACAATGTTGAGGCAGCCCTACAGATTGAAGAAGA
GGAGGAAGAGGCTCGTGCACTCGCTGCAGCAGAGCCAGCAATTCAGCAGT
ACTTGTCTCAGTTTGCTTTCGATGAGTTCCCGGACGACGACAATGTAGCC
AACACTGTCGTACATGTAGCACCACAGCCTATTCTCCACCAGGCAGTGCC
TGCAGATGTGACTGTACAATCAAGCACCGCCCCCGTAACACCTGTTGTTG
CGGATCTTGAGGTAACCACTGTTGCAGCTGATCCAGTCGAACCGACTATC
GTTGCTGCACAGCCTGAGGTGGACGACAACCTTGTCTACAGCACGTCCAC
CCCTAATAGTCACAGTGACGTTATTGCAGTGAACTCTGATACCTCAGAAA
ACGCTGCTGTTAATCCAGTTCTGTCCGATATTGAGGCACTCCGAGCAATT
TTCAACAACCAGGACTAA
>cg2697 SINGLE-STRAND DNA BINDING PROTEIN
ATGATCAACACACCAGTAACCATCGCCGGCCGCATCGTCAGTGACTCCGT
ATATATTGGCCGTAAAGACAACCTCGACGGCGTCCTAAGAATCCGCGTGG
CCAGCTCCCGCTCCTACAAGCAGGGCGAAAAATGGCACAACGTGGACAAA
GTCTTCATCAACGTTGAAGCCTGGGGAAAACTCGGCGTCAACTCCCACAT
TTCCCTCAAACCAGGCGTCTCTGTGATCGTCCAAGGCTTCCTGTACACCA
ATGAATGGGAAGTGGAATCCGCTGATCCCAATGTTAAAAAGCTAGAAAAG
CGCCAAGAAATCAGGATGCGAGCAACCTCCATCGGCATTGACATGAACCA
CTACATCGTTGGCTTCAAGGAAAGTAAGCCCAACGCATCCAACAGCCCCG
AGGGCGTGGAGATGCCAGATGCAAACTTGGAAGACTATCCAGATGTAGAT
CAGAAGCGGGGAGCGAAGCAGGTGGCGGCTTCGGATGCTTCGGAGGAGGG
GACAGAGGCTTCGGAAGCTGACGAGGCTCCTGAGACTCCTGAGGAAAAAC
GCGAATTAGCTATGGCTGGTGTGGGAGCAGGTTCAGGCTCTGATTCAGGC
GAGGAAGCGCCTTTTTAA
>cg2132 conserved hypothetical protein
ATGACTGAGAACCAGACTCCCAGCTCCACCTCTGCACCGAAGCCGGGACC
TCGCCCGGGCCCACGGCCAGGCCCCCGACCTGGGGCTCAGGTTGCTGCAA
AGAAAGCTGCGGTTGCTACACCTGCGCCGATCGCCAAAACTTCTAACGAT
CCTGCAAAGTTTGGTCGCGTTGAGGCAGACGGATCTGCATATGTCACCAC
CTCTGCTGGCGAGCGTCTGATTGGTTCTTGGCAGGCCGGCACCCCTGAGG
AAGGTCTTGCTCACTACGGCGCCCGTTTTGATGATCTGGCCACCGAAGTT
GAGCTCATGGAACAGCGCCTAATCTCCCACCCTGATGATGCGACCTCCAT
CCGCACGAAGGCTGAAGAACTCAAGGCAACCCTGCCCACCATCGCTGCGA
TCGGTGACCTTGATGGCGTTGAAGCTCGCCTGTCCAAGATCATCAACAAC
TCCGAGGAAGCCAACGAGCGCGCCAAGGAACAAAAGGCTAAAAACCGTGA
GCGCGCAGTAGCTCGCAAGGAAGAGCTCGCTGTTGAGGCTGAAACCTTGG
CAGAAAACTCCTCCGACTGGAAGGTTGCTGGCGACCGCATCCGCGCCATC
CTGGATGAGTGGAAGTCCATCCACGGCATCGACCGCAAGACCGATGATGA
ACTGTGGAAACGCTACTCCCGTGCGCGTGACTCCTTCAACCGTCGCCGCG
GCGCACACTTCGCAGAGCTGGATCGCACCCGCGCATCTGCACGCAAACTC
AAGGAAGAACTCGTTGAGCGCGCCAATGCTCTCAAGGAATCCACTGAGTG
GAACGACACCGCCCGCGCATTCCGCGATCTCATGACCGAATGGAAAGCCG
CCGGCCGCGCACCACGCGAAATCGACGACAAGCTGTGGGCAGCATTCAAG
GGCGCCCAGGACTACTTCTTTGATAAGCGCAACGCCGTAGCCAAGGAACG
CGACCAGGAATTCGAAGCCAACGCAACCGCAAAGCAGCAGCTCATCGACG
AATACGACGCACAGATCAACCCCGAGCAGGGCCTCGATGGAGCGCGCAGC
AAGCTCCGCGAACTGCAGGAAAAGTGGGAAGAAATCGGCTTCGTTCCACG
TGGCGTTGTCCGCGAATTCGAAGAGAAGATCGCCGTGCTGGAAAAGCGCG
TCTCCGCTGCTGAGGAATCCCAGTGGCGCCGCACCGACCCAGAAGCACAG
GCACGCGCAGACCAGTTCTCCGCGAAGGTCGCCGAGTTCAACGCTCAAGC
AGACGCCGCCGAAGCCAAGGGCAACTCCAAGAAGGCTGAGAAGCTGCGCG
CACAGGCTGCACAGTGGGCAGAATGGTCCCGCGCCGCACATGAGGCAGTT
GACCAGCTGTAA
>cg2228 Predicted endonuclease
ATGAAAACACAAAAACAATATCTGGGCGCGTTCGGGGAAGATGTTGCGCT
ACAACAATATTTAGATGATCAAGCAACGCTGCTAGATCGAAATGTTCGCT
ATTCATGTGGCGAACTTGACCTCATTGTTCGCTCGGCAAGCGGAGTTGTT
GTTTTTGTAGAAGTGAAGACTCGGCGGGGGTCGGCTTTTGATTCAGCAGC
GGCTGTGAACAATCAGAAAATGTTGCGGATGAGGCGTGCAGCTGCACTGT
GGCTGGAGGGTAAACCTTATACTCCGATTCGTTTTGATGTGGTGGCAATC
GTTTTGGATCCGCACACGGGGCGCCCAGAGATCACTGTTTATGAGGATGT
GGAACATGGCGCTCGGTAG
>cg1519 hypothetical protein predicted by Glimmer/Critica
ATGAAATACTTTGCACTAAACCGAGACAACCTCATCGGACCTGCAGTAGA
AATCCTTGCACCTCTTGGATGGGCGTCATACGGGCTGTGGCATCGGCGCG
GCACTGAGCAGATTGTGGAGCTTGCTCGCCGTGGTACTGACAGCGCGGAG
ATCGATGCCCTTGTTACACAACAGTGGAACAATACCAGTGAATCCTTTCT
TCACCATGTAGCCATTCCACTTCGGCGTTATGGCCGAGGTATTGATTACA
GCTTTCAGCGACTTCAATTTCAACGAGGAAATCTCATCGACCAGGCAGTG
AAGTGTCATGAGAATGGTAATTACGCAGCCGCTATCCTTCTGACTTTTCC
CAAATCGATGGGCTTACCCGAGATATAA
>cg1234 putative excinuclease ATPase subunit-UvrA-like protein
ATGCAAAAAGCTGATTCCCATGATTGGATTTCGGTCCACGGTGCGAATGA
AAACAACCTCAAAAATGTGTCGGTGCGCATCCCTAAAAGGCGTCTCACCG
TGTTCACGGGTGTGTCGGGATCTGGCAAGTCCTCGCTGGTGTTCGGCACA
ATTGCTGCGGAATCACGCCGGTTGATCAACGAAACCTATAGCACTTTTGT
GCAAGGTTTCATGCCGTCGATGGCAAGGCCCGATGTTGACCATTTGGAAG
GCATCACCACGGCGATCATCGTCGATCAGGAGCAGATGGGCGCAAACCCA
CGGTCTACGGTGGGTACCGCAACTGATGCCACCGCGATGTTGCGCATTTT
GTTTTCCCGAATCGCGGAACCTAACGCGGGTGGCCCGGGAGCTTATTCCT
TCAACGTCCCCTCTGTTTCCGCATCCGGCGCCATCACGGTGGAAAAGGGC
GGAAACACCAAGCGGGAGAAAGCTACCTTCAAACGCACGGGTGGCATGTG
CCCAGCGTGCGAGGGCATGGGCAGGGCCTCAGACATCGACCTCAAAGAGC
TTTTCGACGCCTCCCTCTCCCTCAACGACGGCGCCCTGACCATCCCCGGT
TACACCCCAGGTGGATGGAGTTATCGGATGTATTCAGAATCGGGCCTTTT
TGATGCTGCCAAGCCTATTAAGGATTTCACCGACGAAGAACGCCACAACT
TCCTTTATCTTGAGCCCACCAAGATGAAGATCGCTGGCATCAACATGACC
TATGAGGGTCTTATCCCCCGCATTCAGAAATCCATGTTGTCTAAGGATCG
CGAAGGCATGCAGAAGCATATTCGTGCGTTCGTGGATCGAGCGGTTACCT
TCATTCCTTGCCCTGCGTGTGGTGGAACTCGATTAGCGCCACATGCCTTG
GAGTCCAAGATCAATGGCAAAAACATCGCTGAGTTGTGCGCGATGGAGGT
CCGTGATTTGGCCAAGTGGATCAAAACGGTGGAAGCCCCCTCGGTTGCTC
CCCTGCTCACCGCACTGACTGAAACCCTGGATAACTTCGTGGAGATCGGT
TTGGGCTATATCCAACTCGATCGCCCCGCTGGCACGTTGTCTGGTGGTGA
GGCACAGCGCACCAAGATGATCCGCCATTTGGGCTCTGCATTGACTGACG
TCACCTATGTTTTTGATGAACCCACCGCCGGTTTGCACGCCTACGACATT
GAACGCATGAACAAGTTGCTGCTCGATCTTCGCGATAAAGGCAATACCGT
TTTAGTCGTGGAGCACAAGCCGGAAACCATCGCCATTGCAGATCATGTGG
TGGACCTTGGGCCAGGTGCAGGCGCGGGTGGAGGTGAAATTCGGTTTGAG
GGGAGCGTCGACAAGCTTAAAGACAGCGACACCGTGACTGGCCTCCATTT
TAATGACCGGGCGTCATTGAAGGAATCCGTGCGTGCGCCGCATGGCGCCC
TGGAGATCCGCGGGGCCGATCGAAATAATTTGAACAATGTGGATGTCGAT
ATTCCGCTCGGCGTGTTCACGGCGATTTCCGGCGTTGCAGGTTCGGGTAA
GTCCTCGTTGATTCATGAGATTCCGCGTGATGAGTCGGTTGTGTTTGTCG
ATCAAACCGCAATCCACGGTTCTAATCGTTCCAATCCTGCGACATATACA
GGCATGCTGGATTCGATTCGCAAGGCTTTTGCCAAGGCCAATGATGTGAA
ACCGGCGCTGTTCTCCCCCAATTCTGAAGGCGCGTGCCCAAACTGTAAGG
GCGCCGGCTCGGTCTATGTCGATTTGGGCATGATGGCTGGGGTATCTTCG
CCGTGTGAGGTGTGCGAGGGCAAGCGTTTTGATGAGTCCGTGTTGGACTA
CCACTTTGGTGGCAAGGACATCGCAGACGTGTTGGGGCTGTCGGCTGCCA
ATGCGTATGAGTTTTTCGCGGCGAAAGATTCAAAGATTTTGCCTGCGGCA
AAGATCGCAAAGAGGCTTGTCGACGTCGGCCTCGGCTACATCACCCTCGG
CCAGCCGCTCACCACGTTGTCCGGCGGTGAACGCCAGCGTTTGAAGCTCG
CCACCCACATGGCAGACAAGGCCACCACCTTTATTTTGGATGAGCCCACC
ACAGGCCTGCACCTCGCTGATGTGAAAACCTTGCTGGATCTTTTTGATCA
ACTGGTTGATGACGGCAAGTCTGTCATCGTCATCGAACACCACCTCGGCG
TGCTCGCTCACGCTGACCACATCATTGATGTCGGCCCTGGTGCAGGTTCT
GATGGTGGCTCGATTGTATTCGAGGGCAGCCCCGCGGAACTCATCAAAAC
TGATACTCCAACAGGACGCCACCTTAAAGCTTATGTAGATTAG
>cg0208 hypothetical protein
ATGAGTAAGATAGTTGATCTGCGCTATGGGACCCGGCGTTCCTCGGAGTT
GAGCAAACGCTCTGCTGAAGTCTTTGCCGAAGCTGAAGAACATCCCATTA
CTGTGACACGTCGTGATGGTGAAGCGTTGGTATTGATGTCGCAGCGCGAA
GCTGACGGGCGAGCCCGCCTGCTGGAGTTGGCTGCACAGTTAATTACTGT
GGCCACTGATCATCAGGGCACGTTAGCCGAACGTATGGCGAAAGTATTCC
CGTGGATGCTGGCCCTGTCAGTGGCGGATCGTGAGGCGTGTGCCCGTGAG
ATTCTTGACGCTGCACGAGCATCGTTTGCAACCGAACAACCTCACCTCGC
TCTTACTGAACTGACCTCATGGAAAGAAACAGCAGCAGCTGTTGCTGCTG
GATTGAGTAACACTGATCTGCAGTGGTACGACGATCCGCATCTGGTGGAG
CGTCCCTAA
>cg1663 conserved hypothetical protein
ATGTCGCAGGCCGCTGGTAAGTTTAAGCCCATGACTTCAACGCTCGCCGA
ATCAACACTTACATCCCTTAAAGAACTTGAGGATCCAAAGATCCTTTCCG
TCAATGAACGCCACGGCGATGATCACGCAGTGAACCTCACCAAGCTTCGC
GCCGTTGCCAAAGAGCTGAAAAAGAACCAGCCGCTGGCTCGTGAGCTTTG
GGCAACCGACGATACAGCCGCACGTTTGGTGGCGTTGCTTATTTGCCGAC
CCAAGGAATTTGATCAGTCTGAACTCGACTCGATGATCCATGAGGCTCGC
ACGCCGAAGGTTCTTGATTGGTTGATCAATTATGTGGTCAAGAAGAATCC
TCATTGGAACGATCTCCGTGTGCTCTGGCTTGAAGATCCCGCCGAGAATG
TTGCGGCCGCCGGCTGGGCTCTCAACACTCATGCCGTTATCACAAAGCCG
GACGCATTGGACGATTCCGAAATCCTTGACACCATTGAAGCTCAGATGAA
AACTGCCGAGCCTCGCGTACAGTGGTCAATGAATGAATGTTTGGCGCAAA
TCGGCATCCATCGTCCAGAGCTTCGTGATCGTGCCATTGCCATTGGTGAG
CGCCTGGAAGTTCTCAAAGATTATCCGACCCCTCCAAATTGCACCTCGCC
TTTTGCTCCGATTTGGATCGAAGAGATGGTTCGCAGGAAAAAATAA
>cg1371 Predicted nuclease of the RecB family
ATGCGTTTAGTCATCGCCCGTTGCTCAGTTGATTATGTTGGCCGTTTGGA
AGCTCATCTTCCGTCCGCCGATCGCCTTTTGATGGTTAAGGCGGATGGTT
CTGTATCCATCCATGCCGATGACCGTGCCTATAAGCCACTGAACTGGATG
ACACCTCCATGTTCTTTAGTTGAAACTCCCATCACTGATGAAGATGGTGA
AGCAACAGGGGAAAGCCTGTGGGTGGTGGAAAACAAAAAGGGCGAGCAGC
TTCGAATTACTGTGGAAGAAATTCATTCGGAACAAAACTTCGATCTAGGC
CAAGACCCAGGTTTGGTGAAAGACGGAGTGGAAGATCATCTCCAAGAGCT
TCTTGCAGAGCACATCACTACGTTGGGTGATGGGTACACATTGATTCGTC
GGGAGTATCCAACAGCTATTGGGCCTGTCGATATTTTGTGTCGCAACTCT
GACGGCGAGACTGTCGCTGTGGAGATCAAGCGTCGTGGTGGCATCGACGG
CGTTGAGCAGTTGACCAGGTATTTGGAATTGCTCAACCGTGATGAATTGC
TCAAGCCTGTTCATGGAGTGTTTGCAGCCCAGGAGATTAAGCCTCAGGCA
AAGACTCTCGCGGAGGATCGTGGCATCAAGTGCGTGACGTTGGATTATCA
AGCGCTTCGTGGCATTGAGTCCAATGAGCTGACATTGTTCTAA
>cg2993 conserved hypothetical protein
ATGATTCATCACATCGATTGCATGCCTACAGATGTCTCCGCCGAAGCGCT
CGGCGTGAGCTGGAATGGGGAATCGCCGGAGGTGCTCGTCGATAAGCTTA
TCGACGCATCCCCACACCCCAGCACCTGCCATTTAGCGGTGATTGGCGGC
TCGCATGTGGTTACCGTTGAAACGCCCGATGGGCGTTTCCGGGAAGAAAT
TTCCTGCCATGCACAAGAAGCGGAAGATTCCCGCTGGCCGCTGCCCGACA
GCATCACGCGGGAAAACTACCTGCTGCAAACCAACGTCGCCGTGCTGTCT
GAGGAAGATTTTGCCCGCGCAGCCGAAGAAATCTCCAACGGCGACGACGA
CTGGTTGATCGCCAGTTTCCCCGGCGCCGGCGAACACCACCTCACCGCGC
TGACCGCAGAATTTCTGGAAGACGTATGGGAATGGTTTAGCCACCACCTC
TACCCAGAAGAGCTCACCATCGTGAGCACGAGGAGCATTTACAAACCATG
A
>cg0355 pyrophosphohydrolase
ATGACCTCGAAACCGCTGTGGCAGGGGCGCTGCAGAATGCGTAACTACCC
TGATTTACCGCATGATTTCCCAGGTCAAAACACAGAGCTCACCCCCGCAA
AGGCACCCGTGTGGATGCACCGACTCTTAGACCGCATCCACACCGGCCGC
ATGGCCAACCCGCTGGACGGTGCGGAAACGCTCGGCGACACAGACTCCGA
AAAGCGCGCTGCCGTGCTCATGCTATTTTCTGGCTCGGAAACCTCCTTTG
ACCTGCCCAATGACGCCTCCGTGCTGCTGACGCACCGCACCCCGACGATG
CGTTCCCATGCAGGTCAGATTGCCTTTCCCGGTGGCCGAATCGACCCCAC
CGATACTAACGCCGTGGACTGCGCCTTCCGCGAGGCCTGGGAAGAAACCG
GGCTGGATCGCCGCACCGCAACCCCATTAGCCCAGCTCAACGAGGTGCAC
ATCCGTGCCACCGGATACCCCGTCTACCCAATCCTTGGACACTGGCACAC
CCCATCACCCGTCGCCGTGGCCAGCCCACACGAAACCGACGAAGTTTTCG
ACGCCCCACTCTACGACCTCATCGACCCCAAAAACCGCCTCATGGTCGGC
TGGCGCGAATGGCACGGACCAGCGTTTCGAATCAACGACTACATCATCTG
GGGATTCACCGGCGGACTACTCTCCGCGATCCTCGACACCGCCGGCTGGG
CCACCGAATGGGACACCGACCGCATCTTCGACCTGGAAAATACATTGTCA
ACATCTCGCAACAATGAGCGTATGCGTTAG
>cg1498 RecG-like helicase
ATGTTGGGTTGGCATGACGAGCGTTTGCTCAAAGACATCCTTCCGGCAAA
GGAAGCCACAGCGATTAAAAAGGCGCTGGGCTACACCACTGCGGAAGAGT
TGCTCCGCCACCATGTGCGCAAATACTCCCACCACGGCTCTGGCGTGGGA
ATTGGTGATGCCACTGAGGGCGATCTTGTTACCATCGTGGGTCAGGTCGC
CTTTGCCAAGCAGTCCTATACCCAGTCCGGCAAGATGCTGTACAAGGTTA
CAGTCTTGACTGAGACGGAACGCATCGGCATTTCCTTCTTCGGAGCCAAG
CACATTCCGCGTCTTCTCCCAGAAGGCACTCGTGCGCTTTTTACCGGCAA
GGTGAAGTTTTTTCGCAACGAACCTCAGCTATCTCATCCAGAGTTCATTG
TGATCCCAGATCCTGGATCAGGCCGCCGACTCACCGCCACTGGCGGTATG
AAATCTCTGGCTGCCTACGGCGATGTGGAAGAAGTGGCACTTCGTTTGGT
GGATCGCGAATACATCCCGATCTATGCCGGCACCGCCACCATGACTACCT
GGCGGATCATGGCTGCAGTGCAACGGGTACTGGAAACCATGCCGGTGATC
AAAGAACCACTGAGCGTGGTGCCCGAAGGCATGCCCAGTTTCGACGAGGC
CATCCGCGGCATTCACGATCCAGGCCATGAATCTCCCAGCACGTTTATCA
ACCGTCTGAAATACAACGAAGCACTATCGCTGGCCACGGTGATGGCGATC
CGGCGTGCCGATACCAAGAACCGCAAAGCACCACCCATGCCGCGCGCACT
CAAAGGGCATCAGCACATGCTCATCGATGCACTCAACTTTCAGCTCACAG
TGGGACAGAAGCAAGTGATCCGTGAGATCAGCGCGGACATTGAACAACGC
GTTCCCATGTCTCGTCTGCTCCAAGGTGAGGTTGGTTCGGGTAAAACCAT
CGTGTCGTTGATCGCGATGCTGCAGGCAATTGATTCCGGTAGGCAGTGCG
CCATGCTCGCCCCGACGGAAGTGTTGGCCACCCAGCATGCCCGCAGCCTG
AGCAAAACTCTCGACGACGCAGGCCTTGATATCAATGTTGTGCTCTTGAC
TGGCTCGATGCCCACGGGAGCCAAGAAGGAGGCTCTGCTGGAAATCATCT
CCGGTGACGCAGACATTGTGGTCGGCACGCATGCGCTGATCCAGGACACC
GTGGAGTTCTTCGACCTTGGCCTCGTGGTGGTGGATGAGCAGCACCGTTT
CGGCGTGGAGCAACGCGATCAACTGCGGACCAAGGGCAGGGAAGGCCTGA
CCCCGCACCTATTGGTTATGACTGCGACCCCAATTCCGCGCACCATCGCC
ATGACGGTGTTCGGCGACTTGGCGGTGTCCACGTTGCGTGAACTTCCAGG
CGGGCGCCGGCCGATTCAAACCTCGGTGATACCCGATCACAAACCTGGCT
GGGTTAAACGCGGTTGGGAACGCATCGGTGAGGAAGTCCTCGCCGGACGC
CAAGCCTATGTGGTGTGTCCGCGCATTGAAGGCGAAGGCGGCGTGCTGGA
AATCCACGCCTATCTTTCCGAACAGGTATATCCAGGATTGAATGTTGGAA
TGCTGCACGGTCGCATGGACACGGATCTCAAAGATTCGGTCATGCAGGAA
TTCGCCCAAGGTGAGATCGATATTTTGGTCGCCACCACGGTCATTGAGGT
CGGTATTGACGTTGCCAACGCCACCGTCATGCTCATCCGCGAGGCGGAAC
GCTTCGGCGTTTCCCAGATCCACCAGCTGCGCGGCCGTGTTGGCCGTGGG
CAGCACGATTCCCTCTGCCTGCTGCACACCACCTTCGACGAGGACTCCCC
ACAAGGCCAACGCCTCGCCGCAATTTCCACCACAACCGACGGTTTTCAAC
TCTCTGAACTTGATTTGCAGGTACGCCAAGAAGGCGACGTGTTGGGCACC
CGCCAGTCCGGCAGCGACACCAAACTCCGTCACCTCTCGTTTATCAGCGA
CCAAAAAATCATCGAGCGTGCGCTTATCGACGCCACCGAGCTGGTTGCCG
CCAGCCGTTCCAGGGCGCTTGAGCTGGTCAGCGACATCGCAATGATCAAC
CAGGAATACCTGGAAAAGAGCTGA
>cg1074 conserved hypothetical protein
ATGCCCACCACGGACGTCTTCAACCGCGTCCGGTTGGCATTGGAACCTCT
AGCTGATCCCGCACGTGCCACCGGAATGGCAAGCTACATGCGGGATCAGT
TTTCTTTTCTCGGCATCCCATCCACCCCCAGAAAAGAAGCCTGCAAACCC
GTGCTGTCCGCGCTAAAAGAGTTGGACACTGACTTTGTCTCAGACTGCTT
TGGCGCAGCTGAACGGGAATACCAGTATGTCGCCTGCGATCACATCAATC
GCGTCGGCATCACCGATCTAGGTTTTGCCAAAGCATTAGTGCAGACCAAA
TCCTGGTGGGACACCGTCGATTCCCTAGCAAAACCGATCGGCGCCAAACA
CGATGATGATCTGATGAAAACGTGGGCGCTTGATGAGGACTTCTGGGTGC
GCCGCATCGCGATCATCCACCAACTGGGCCGCAAGAAAAACACCGACGCT
GCCCTGCTGGCCTGGATCATCGAGCAGAACCTCGGCTCCAGCGAGTTCTT
CATCAACAAAGCGATCGGCTGGGCACTGCGGGATTTCGCCCGCCACGACC
CCAGCTGGGTCCGGGCTTTTGTCGACGCCACGGACCTTTCCCCACTGAGC
CGGCGAGAAGCCCTGAAGAATATTTAG
>cg2065 Superfamily II DNA or RNA helicase
ATGATGTCGTTGGGTAATCCAGCAGCAATGCTCGCTGCGTACAACACCAG
CACGCAGGTGGCACCGCAGCCACAGCTGGGACCACGTGCTGGAGAAGTTC
AACTCAGTAGCGAACAGCAAGCCATGATTGATTATGTACTTGCTGGCAAA
GATGTCATTGTTGATGCCACCGTAGGCTCGGGCAAAACTACCGCTATTCA
ACGACTGTGTTCGATCATGGGTGCAGACCATGACGTGCTGTATTTGACGT
ATTCGAAGTTGTTGAAGGTCGATGCACAGCAGCGCGTTCGTGGCGCCAAG
GTGCAGAACTATCACGGCATTGTCTATCCGCATCTACTCAAGGCCGGCAT
CAAGTGTGGTATTAGCGAGTCGATTCGGGAGTTTAACAAGAACTTCAAAC
ACATTTCTCGCACGTTCCCCAGTTACGACCTGCTGGTTATTGATGAGTAC
CAGGACATCAATGAGGACTATGCAGAACTGCTGCGCAACATTAAGTCTGT
GAATCCGCTTATGCAGATTGTCATGGTGGGTGATTTGGAACAAAAAGTCC
GGTCTGACACCACGTTAGATCCACAAGAATTTGCAGCACAATTGTGTGAA
GATCCAGTCTTCGCGCCGTTTACACAGTCGTTTCGAATTGGCGAGGCTAT
GGCAGCGGGTTTGGCTGATGCCTGGAATAAACCGATTGTGGGTGCCAATA
CCGCACAGCAGATTGAATATAGGTCTTTCGCTGAGGCAGTGGTGTTGATC
CAAAGCACCGAGCCGAGCAAACTGTTGTGTTTGGGTAGCCGCAATGGGCA
GATGTCAGATGCGCTTAATGTCGTGGAGAGGAAGTCGCCGGCAAAGTTCA
ATAAGAAAACTGTGTTCGCCTCTATTCGCGATGGTGATTCCCAGATTGCA
CACCCTAATGACGCTGCGGTGTTTACCACCTTTGATTCCAGTAAAGGTCT
AGAGCGCGATACCTGCGTGGTCTTTGACTATGACGAAGAATTCTGGGACA
TGCGTCTTGGTTACCCCAATGTTGATCCAGTGGTCATGCGCAATGTGTTT
TTGGTGGCAGCATCACGCGGTAAAAACAAGGTTGTTTTTGTACGTAGCGA
TTCTCTTCAAGCAGCGTATGAGGCTGGTGCGGACTGGGCTGCAGGGCTCG
CTGTGGGTGTGGTGGACAACAATACTGAGGTTGCACCTGAGGTAGATGCC
CATACGCCGGCAGAAGAAAGTAAGGGTGATGTGGGTGAGGTTCAGTCACA
GATTGAGCGCATGATGGGTTTTATCCCTGTTTCAGTGTTTAAAGAACTAC
CTGAGTTGGCGCCGAGCGAATATGCGCGACCGATCTCTGTGACTGAAGCC
TTTGATTTTAAGTACGCAGAGAATGTCGAAGCATGTTTTGACCTGCTTGA
TGTCAAGCGTCTCGACAACGGCAAGGGTGCAGCCATTGAGGTCAATCGCA
GTGACGGGCTTATTGATCTCTCACCCACAGTGGGAAACTTTCAGGAAGCA
GTGTTCTTCAAGGACTACAACGTTCATACAGCACTATCGGCGTACCCGAG
TCAGTTCGCGAAAAATCTTAAACGTTTGGTGAAGAAAAACAATAGCGTAT
GGCGTAACTGCCTTATTGTCACAGCAGCGTCCACAGAGCAGATGCGGTAT
GTCGATCAGGTGCGCAGCTCTATCCCGGTTGCTGCGGAGAAGGCATTGGT
CTCACGGCTGAGTACGAGGCTGAATGCTGATTCACGTAATCAGATTCCAC
TGATCCTTGACGGCGAGGCAGTACAGAGCAAAGTAGTGCGCACGCCAATG
TCTTTTGCAGGTGTCGCAGATGCGGTGCACAAGGGTGTGCTTTATGAATT
GAAATTCGTCTCTGAGTTGACACATCCGATGTTTTTGCAGCTCGCAATGT
ATTTGGTCATGTCTGGGATGAAGGACGGTATTTTGTGGAACACCCGGACA
GATGAGGCGTGGCAGGTGCGTGTTCCTGACCCGAAGCGTTTTCTTAATGC
TGTGGTGTTGTGTGTCTCCAAGCAGGATTACCGGGTCGGTAACTTTGATC
TGCCGAGCACTGGTGGAGGTGCGCGCTAA
>cg1028 PUTATIVE RESTRICTION-MODIFICATION SYSTEM: METHYLASE
GTGTCGAGACTGACGGAACTGCTGCGGCAGGTGCGCAAGGCGGACGCGCA
ACTTGGTACTGACCTGGAAGCCGAGGTCGCTGCGCTGACCAAGCGTCGCA
CCTTCGGGCTCGTCTTTGAGCAGCATCAGCCTGAGGCTGTCGAGCTGCCC
GGCAGGGTCGTCCGTCGCGGCGACAAGGTGCGGGTGCTGCCTCCGCGAGG
GGGGACAAAGGCAGGTGACCAACGGCTGTGGCGGACAACTCGGATCGAGT
GCGTCGACGGGCAGCGTGTGGCTCATCTCGCGGAGCTCGACGTCGAAGAA
CCCGAGACTCGGGCAGTGCTTGCCGACGACGTGGTGGTCGTCGCGGAGTT
CCGGGATCGCATCTACCCCGGCCTGGTGGAGACAGGCAGGGTTGAGCGGG
GCGGCGACAAGCCGTTCCACACGGTCGTCAACGCTGAGAACTACCACGCG
CTGGAGATGCTGACCTATACGCACCGGCATTCCATCGACGCCATCTACAT
CGACCCGCCGTACAACACCGGGGCGAGGGACTGGAAGTACGACAACGATT
ACGTCGCGAGTGATGACGACTATCGACACTCGAAATGGCTGGCGTTCATG
GAGCGACGGTTGAAGATCTGTCGGGAGCTCATGCGTAGCGATGCTACTCT
TGTGGCAACTATCGATGAGCATGAAGTAAACCGTTTGGGCGTGTTGCTAG
ATCAGCTCTTCCCGGAATCTACGCGGCAACTCGTCACAATTGTCAACAAC
CCTAAAGGCGTTACTCAGGGATATCTTTCGAGGGTCGAAGAGTATGCGTT
CTTTGTATTTGGTCCTGACGCGCGAATCGGTTCGGTCGATGACGACCTTC
TGACGCATCGAGACATGGCCGATGCTGAAGGGGAACTGCAGAGGCCTCGA
TGGAAGGGGCTCTTGCGGTCGGGCGACGACTCGCTTCGAGCTGACCGTAA
AGATATGTTCTATCCGGTGTGGTTCGATGAGTCGACTGGGCGACTCAGCC
ACGCGGGCGAAGCATTGCCACTTGACGAAACTCCTGACTTCAGTCCGCAG
GATGGCCTGACGCCGATCTGGCCTATTAGGCGGGACATGAAGGAGGGGCC
TACCCGGGCAGCGCCACGCCGTTCGATCCTTGACTACGCGCTACACCCTC
ATCTGTGA
>cg1641 Superfamily II DNA or RNA helicase
ATGACTACCTTTCTAGAACTCAAGCTTCCCGACGAGATTGTGCGCGAACT
TCGCAGTCAGGGAATCACCGAGGCATTCCCCATCCAAGAAGCAGCCATCC
CCGATGCGCTCGCTGGCAAAGATGTCCTCGGCCGTGGACCCACCGGCTCT
GGTAAAACCTTCACCTTTGGGCTTCCCATGATCACCCGACTCGCGCGCTC
GGGCGCCTCCAAACCAGGTCGCCCCCGCGGGCTTGTCCTGGTTCCCACCC
GTGAACTAGCAGCTCAGGTGCGTGAACGCCTCGACGATCCCGCCCGCGTT
ATGGGTCTGCGCGTCCTCGAGGTGGTCGGTGGCGTCAACATCAACCGCAA
CATCACCGCACTTGCCACACCAGTGGATATCTTGGTTGCCACCCCTGGCC
GCGCCCAAGATTTGATCAACCAGAAGAAGCTCTCCCTCGCTGATGTTTCC
GTGACAGCGTTGGATGAAGCCGATCAGATGGCCGACATGGGCTTTTTGCC
ACAGGTAAAAAAGCTCATGGACCTAACCCCTAAAAATGGTCAACGTCTGC
TGTTTTCGGCAACGTTGGACGGCGATGTGAGCAAATTGGTCGATCGCTAC
CTCCACAACCCCATCACACACTCCACCGCTCCTGTTCAGGCAGCAGTGGA
CACCATGGAACACTACCGACTTCTGGTTGGCGGACGCGATCCTCGCAATT
CCGTTGTCTTGAGCATCGCTGCACGTGAAGGCAAAACCATCATGTTCATG
CGCACCAAGCACGGTGTGGATCGACAGGTGAAGAAACTGCGCCGCGTGGG
TGTCAACGCAGTGGGTATTCACGGCGATAAAGGTCAGTCCACCCGCACCA
ACGCTTTGGCTGGTTTCGCCGATGGATCAATCCCCGTCTTGGTGGCCACC
GATATCGCCGCCCGTGGCATTGACGTGGATGACGTCTCGCTTGTTGTGCA
CGTTGATCCCCCAGCAGAACACAAAGCGTATTTGCACCGCGCTGGTCGTA
CTGCACGAGCCGGAACTTCCGGTACAGTTGTGACTCTAGTAATGGACGAA
CAAATCAAGGAAGTCCGTGAACTTTTCCAAAAAGCAGGCGTGACAGCCGC
TGAGGTAAAAGTCAACGAAAACTCACCTGAATTGGCTAAAATTACTGGTG
CACGACGCCCGTCAGGCGTTGCTCTTCCAGCACCTGGACAGCAGCAGCCA
AAGCGGGAACAAAAAAATACCCATAATCGTTCTGATTCCAGAGGTTCCAG
CCGGAATCCACGCAGGCGCGGACAAAGCGGATCCAGATCAACGGGCCGCT
CCAACCCGAGGCGTCAGACTTCAAGGAAAGACGGTCCCAAGAGCTAA
>cg1990 NUDIIX hydrolase
ATGACCACACCTCACTCCCACCGCGCACCACGTCTGGCATCCACGGTCAT
TATTGCCCGCGAGTCTGCTGACTCAGGTACCTTAGAATTCTTTATCCAGC
AGCGACAATCCACTATGGCTTATGCAGCAAACGCTGTTGTTTTCCCAGGC
GGCGGTGTTGAGGACAGCGATTATCCCTTTATGCTCCCCCACCGCGATCA
GCACATGTCGCCTGAACACATCAAGCATCATGCCAGCCGACTCCACATGG
ACTCAGAAACTATGGCAGCTCATATTTCCGCTGCACGCCGGGAAGTATGG
GAAGAAACAGGCGTTGATCTCGGTAATTACAACCATGAACTCATCCCGAT
CGACCGCTGGATCACACCTGATATTCCTGCTTTTAGGCGCCGTTACGACA
CCGCCACCTTTGTACTTATTCTAAGCAAAGACAGCACTAACGCAGCTCTG
CAGCACCAGCATCAAACCACCGAGGCCACCCATTCTTATTGGGCAACTGC
AGAAGAACTGCTCACTCAATGGTCAACAGGTCATCTCAACCTGTTGTTAC
CAACGTGGTGGCATATCAACCAGCTCAATCACCTCCACACGCTAAACCAG
CTGTATAGCTTTGCCCAGCGTACCCATAATCCGCAGCACACTCCACCCAC
AGTGTTTGCTAACTGGACTGCACCGGCTGATGAGGCCGCCATGCAGCACT
ATGGGTTCCCTGATCCCGATGCGTACTTTGACCATGCCACTATCGCAGGA
AAACACCACACACTCATCACAAGAAAGTAG
>cg2578 secreted DNA uptake protein or related DNA-binding protein
ATGAAGCCGGATATTGCAGCACGCCTTAAAGGTCTTACCCAGCCCACGGG
TACAGAAGACCTCATGCGCGTGAACTATCCCACGCCTCGGTTTCAGATTT
CCATCAAGCATGCGTTGATCGTGTGCATCGTTCTCGTTGTGGCTTTTGTC
GGTTGGTTTTTCACCCGTGAGAAACCCGTGAATCCACCCACCATGGCGGC
GTTGGCGGAAACCTATCAAACACCGGCGCCGAGTTCGCAGGTGGTGGTGT
CTGTGGTGGGGCACGTGGCTAAACCCGGCCTGGTCACGCTCGCTGAGGGC
TCGCGGGTGGCTGATGCCCTGGCCATTGCAGGTGCCTTGCCAGACGCCGA
TCTGACGGCGCTCAACTTGGCGCAATTGCTTGTCGACGGCACCCAGATCC
ATGTTTTAGCTATCGGCGAGGTACAACCTATTTCGGTTGATGCTGCTGCG
ACTTCTGCTTCTGGGTTGATTTCCTTGAATACCGCCACTGTTGCTGATTT
GGTGACGCTGCCTGGGGTGGGGGAGAAGACAGCGCAGGCGATCATTGACT
TTCGGGAGAGCAACGGTGGGTTTAGCACCGTGGAGGATTTACTGCAGGTC
AAGGGGATTGGGCCCTCAAAGTTTGAGCAGATCTCTGGATTGGTGTCCCC
ATGA
>cg2432 MUTT/NUDIX FAMILY PROTEIN
ATGGCGGTTCCAGAGTTCATTGTTAGTTTGCGGGAGAAGGTCGGTCAGGA
TCCGTTGTGGTTGCCGGCTGTAACTGCGGTTGTTATTCGTGATGTTCCTC
CGGGGTCTCCTTTCCATGTGGTTCCGGATGTGTTGTTGGTCAAGCGCGCT
GATACTGGTGAGTGGACTCCACCGACCGGTATTTGTGATCCGGATGAGCA
GCCTCATGTGACTGCGGTGCGTGAAGTCAAGGAGGAAACCGGCCTTGATG
TCAGCGTTGAGGCGTTGCTTGGCGTGGGCGCGGTGGGGCCTGTGACCTAT
CAAAATGGTGATGTGGCGAGCTACATGGATACGACCATGCGTTGCGTTGT
TTCTGGTGATTCCGATGAGCCTCACGTCGGCGATGACGAGAACGTGGATG
TTGCATGGTTCCCGATTTCTAAGATGCCTGTCACTAATCAGCGTTTCCGC
ATGGTCATCGCTGATGCGGTGGCACAGTTGAAGCATCCGCAAGGTTATAA
GCCCCGCATGGGATATGAGAAAAGGAATGCACGATGA
>cg1500 N6-adenine-specific methylase
ATGGGTCAAACCCGCATCATTTCCGGCGACGCACGCGGCCGCAAGATCGA
AGTACCACCAGCAGGTACCCGCCCCACCTCTGACCGCGCACGCGAAGGTC
TCTTCTCCTCACTGCAGGTCCGTTTCGGATTTGAGGGCCAGCGCGTCCTC
GACATTTTTGCCGGCTCCGGCGCACTCGGATTGGAAGCTGCCTCCAGGGG
TGCCGATGAGGTAGTTCTGGTCGAGTCGAATCCTAAGGCCGTAGAGGTAA
TTCGACGGAATGTGGACGTCGTAAAGCATCCTCGCGTAACCGTCGCAGAG
ATGAAAGCATCCACCTACCTTGCGTCCGCACCCGATAAGTTTTTCACGAT
GGTGCTCGCCGACCCGCCCTATGAGCTTGCCGACGACGCCGTCACCGAGA
TGCTCACCGCATTGACGCCTAAGCTTCTCGACGGCGCCGCCGTGGTCGTG
GAACGCCACGTAGACTCGCCAGAAACCGCATGGCCCGCCTGGCTGGTACC
CACCACCCAGAAACTTAAAAAACGAACCTACGGCATAGCACGCATGGACA
TGGCCGTTTTCGACGAATCTCTGCTTCAGGAGTAA
>cg0934 conserved hypothetical protein
ATGAAAAAAGACTCCCCCATCCCCACCCTCAAGGGGTGGTTGGATACTCA
AAGTGATGATCAGCTCTCCACAATCCTTAGAAATCGACCCGATACGGTTC
TCCCTTTACCACCTAATTTGGCCTCTCTTGCTGCGCGTTTACAGCTGAGG
GCGTCTGCGATTCGCGCGGTGTTGAAACTCAATGCGTTGGAACTTGGTGT
GTTGGAGGCCGTGGCCAACCTTGGTGGTGAACTCCACCCGGTTACTGCCC
CCGAAGTGGTGGAATATTTGCATGTGGCGTTGGCAGAGGATCTTCCAGCG
CAAGACACGATTGGTGCGGCTCTTGCCACGCTGAAAAATTTCGCGTTGGT
TTATGGCGATGACCAGTTGATGATTGCTCAGGAGACGATGCCTGCGTTGC
CTGTTCATTGGCGGTTGCTTCCGGAGGTAAGTGATCGCGGGCAGAGTGAG
GAACAGGTGAGGGAAAGCGTCGATAAGCTTTCTGATAGGCACCGCAAACT
TTTGCACACGCTTGCGGCCTCGGGTGGCTTCGGTCTGACGCGCGATGCGG
CGCCTGATGCGGATCCGTCGCGGCCGATTCCGCAGTTGCTGGCGTCGGGG
TTGTTGGCGCGCGTGGATGAGCAGACCGTGCGCCTGCCGGCGATGGTGCG
GCGTGTGATTGAGGGCCGCGAGCAGCTGCCCGCTCAGGTGCGCCCAATTC
CGCGCACGGCGGCGCCAGGTTCGAATGATGGCGGCATTGCAGCCGGCCTT
GAGGTGGTGCGGCACATGCGATTGCTTATCGACGCCCTCAGCCACGTTCC
CGCCCCCACGCTGAAAGTCGGAGCCCTCGGTGTGCGCGTGGTGACTCGCC
TGAGCAAGGAATTAGACCTTGATGAGACCGAGCTGGCACGTCTACTGAGT
TTGGGTATGGCCAGCGGTCTAATCCGTAAAGGCGTGCCCGATCCATTGCC
CATGGATGATGATGGCGGCGATTACGTCGCTCCCACCCCGCTGGCTGACG
AATGGATGGAATATGATCTGGCGCACCAATTGGGCACGTTGATGTCTGGT
TGGTGGAAGCAAACTTACGCGCCGTGGTTGGTGGGTCGGGCTGATGATAA
GGACAAGCCGATCCATGTTCTCAGTAAAACAAGCATCATTGATTCGCTTC
CTGATGCTCGTGCGAAGATCCTGTCCTCTTTATCTAGGGTTTTAGTGGAC
AATCTGCACGCGGATTTAGCATTCCATTATCCCCTTGCGGCGAGTCGGAT
GAATCCTGACACCATCACACAGCTGGTACAGGAAGCCCAGTGGATCGGAG
CATATTCTCAAGGCGTGACCGCAGCGGGTCAGGCCTTAATTGATGGCGAA
AACCCTACGGAGGTAATCAAGGCTCCTGCGCCGGTGGAGAATTTCATCGT
GCAAGGCGATTTCACCATCATGGTTCCAGGACCACTAACCCCTGCGATGC
AAAAAACCATGGATTCGATCGCATCGTTGGAATCACCTGGTTTGGCCTCG
GTGTATCGACTCAGCGAGAAATCCATCAGGCATGCTCTGGATCTTGGGCT
CACCACCCCGGAAATCTTGGAGTTTCTCAAAGAACATTCCATGACAGATC
TGCCCCAATCTGTGGGCTATTTGCTCAGCGATATCGCCAGAAAGCACGGC
ACCCTCCGAGGCGGCCCTGCACTGTCCTATATCCGTAGCGACGATCCCGC
TTTGCTGCATTCCGCAGTGGAGGCGGGCGCCGATGTGGCGCTTCGGCAGA
TCGCTCCCACCGTTGCGATTGCTCAAGCACCCCTGCTTCAGGTGATCACT
GTGCTGCGTGCTGCCGGGTTCCAACCTGTGGCAGAAGACGGCGAAGGCGC
AAGTCTGAATATCTCGCCATCCCCTGCACGTGTGCCCGCAGCTTCCCCAC
CACCAGTTGTTCCGGCACTGGATGAAAGCCGGGTACAGGCAGCAGTCAAA
GCAATCCGACGGGAAAATTCAGCATCTCAAGGAACTGTTTCCACACAGCC
AACTCTTTCGGTGCTGCAGGCTGCAGTGCGAGGGCAGCGCACGGTGACGT
TGGGGTTCGTCGATAAGCAAGGCGTGGCCGTGCACCGCGTCGTCAAGCCT
TTAACCGTCAACGCCGGGCAGGTGGACGCTGTGGATGAAGCCACAGGTGC
GGTGCATCGTTTCATGTTGCACAGGATCACAGAAGTAATAGTGGATAACT
AG
>cg0933 DNA or RNA helicase of superfamily II
GTGGCTTTTGGCGATGGACCTTTAATCGTCCAATCCGATAAGACAGTCCT
GCTAGAAATAGATCACCCCCAAGCAGGCGAAGCACGCATAGCTCTAGCAC
CTTTTGCAGAGCTCGAGCGTGCACCCGAGCATATTCACACCTACCGCATC
ACCCCTCTGGCGTTGTGGAACGCGCGCGCCGCAGGCCACGACGCCGAACA
AGTCGTGGACATGCTGGAGCGTTTTTCACGCTTCCCCGTTCCGCAAGCGC
TCCTGATCGACATCGCAGAGACGATGTCCCGCTACGGACGTGTGCGCCTG
CACCGTCACCCCGCACACGGGCTGATCCTTGAATCTGGCGAACCTGCGAT
CCTGGTGGAAATCTCCCGGCACAAAAAGATCAAACCCATGCTGGGCGCAC
AAGTGGATCCTGAAACCATCGTGGTCCATCCGTCAGAACGCGGGCGCCTC
AAGCAGGAACTGCTCAAGGTCGGTTGGCCAGCGGAAGATCTCGCGGGATA
TGTGGACGGTGAATCCCACCCCATTGGTCTCTCCACTGAATTTGAAGACT
GGTCGCTGCGCGATTATCAGCAAATGGCAGCCGATTCCTTCTGGGAAGGC
GGTTCCGGCGTAGTCGTGCTGCCTTGTGGCGCGGGTAAAACCATGGTCGG
TGCAGCCTCCATGGCTCGCGCACAGGCAACCACCTTGATCCTTGTCACCA
ACACCGTGGCCGGCCGACAGTGGAAAGACGAACTTCTTCGCCGCACCACA
CTCACCGAAGACGAAATCGGTGAGTACTCCGGCGAACGCAAAGAAATCCG
ACCCGTCACCATCGCCACCTACCAAGTAGTCACCAGGCGTACCAAAGGCG
AATACAAAGCTCTCGAGCTTTTTGATTCCCGCGACTGGGGCTTAATTATT
TACGACGAAGTCCATCTTCTTCCCGCCCCCGTTTTCCGCATGACCTCCGA
CCTGCAATCCAGGCGACGCCTCGGACTGACTGCCACCCTCGTGCGCGAAG
ACGGACGAGAAGGCGATGTCTTCAGCCTGATCGGCCCCAAGCGTTACGAC
GCACCATGGAAAGACCTCGAGTCCCAAGGGTTCATCGCCACCGCCGACTG
CGTAGAAATCCGATCCACCATGACCGATGCTGAGCGCATGGTGTACGCGA
CTGCCGAGTCGGCAGATCGTTACCGTCTAGCCGCCACTGCCCACACTAAG
GTGGCCGTGGTGCGCAAACTCCTCGAAGAGCACGCTGGTAAGCCCACGCT
GATCATCGGCGCATACCTCGATCAGTTGGAAGAACTAGGTGCAGAATTCA
ACGCACCAGTCATCGACGGCAAAACGCCCAACAAAAAGCGTGAAGCCCTC
TTTGATCAATTCCGTTCCGGCTCGCTTTCCGTACTGGTTGTCTCCAAAGT
GGCGAACTTCTCCATCGACCTGCCCGAAGCATCCGTAGCCATCCAGGTCT
CTGGAACATTCGGCAGCCGACAAGAAGAAGCCCAACGCTTAGGCCGCCTC
CTGCGACCCAAGCACGATGGCAGCGAAGCCCACTTCTACTCCATCGTCAG
CCGCGACACCCTCGACACCGAATACGCAGCCCACCGCCAGCGATTCCTCG
CCGAACAAGGCTACGCATACCGCATCCTCGACGCCGACGACATCCTCTTC
CCACTACCCAAGAAAGAGCTATAA
>cg1316 Superfamily II DNA/RNA helicases, SNF2 family
ATGACTTCTCACTTGCTTCACGGTCTCTGGATCAAAGATCGCGGTCTGCA
ACTGTGGATTGAGCAGGTCGAAGGGCACCGAATTGTGCTTCCAGAGGCGG
TGGAAAAAGGCACGTTCCCGCCGGTAGTGGAGCAAATCCTCGACGGGAAA
ACCTTCCGCGCGCGCATGAATGTGCATCTGCGCACTCCGAAAGGGCGCCA
TGTTGAGCTGCCCACGCCAACAGCAGCTTTTACCCCTGAAGAAGCAGTCA
CGGTTTTCTCACAATTAAGTTTTTTGAAAGCAGAAACCCCTGCCGCCACC
CGAGCGCAACGTGACTCCATTGCGCCCGATCTGTGGTGGCTGATTGTCAT
GTATCAAGGCCTGGCGCGTTTTGTGCAGGCCGGCCGCGTCACGCTTCGCA
CGGTGATGATGGATAATGCCTGGTGGCCCCAGTGGCAACTATCTGCCAGC
CTGTCGGAGCGTGGGTGGCTCGCGGAAATGAACCATGCCGCGCCGGGTAT
TTTGCGGATTAATGGTGGCCGAGATTTGGCCGGAAGCATGTCCAATGAGC
TTCCGCACTGGATCGCCAACGCCATTTTGCGTGATTACCGCGATGAAACC
ATGCCGTATGCGCGCCATGAGTTTGTTGAGGCGTTGCTGTTTAACCATTC
GCTGCGCAAGGGCTCGACCATGCTCACCCATGCGCTGAATCAGTGGAAAA
ACACCATTACATCTGCGTCTTTGCAGCTGGTGATTTTGGTGGAGGAGCCC
CCTGCGGAATCGGATTATGAAGATCCGATGGATTCCGTGTGGCCGGTGCG
TTTGATGGTGCGCACGGGCGTGGATGCGCCGCAGGCGATTCAAAAAGGAT
CGATCGATAGCGGGGGAATGGAGCAACTGCGCTCCCAATACGAAACCGCA
AAAACCACCTCCATGCTGCTGGATCCTGCGCGCGAAGACGCGATGCTGGG
GCATATGGTGGACATCGCCCAAAACGGTGACTGGGATATTTTCTTAACCA
CCGAGGAGATCGTCAACTTTATCTCCCACGATGTAGCCAAGCTGCGCAAA
GCCGGCATTCCCGTCATGCTGCCCAAAGCCTGGAGCACCTATGAAACCCG
CGCGCAGGTGGAAGCGCGCACGCCGAATGATGCCGCGGACTCTTCAACCA
AGGCAATCATTGGTCTTGACCAGCTCGTGGAATACAACTGGCGCATCAGC
GTCGGCGATATTCAGCTGTCCGACGAAGAGATGCGCGAACTCATCGATTC
CAAAACAGGCCTCATCCGCCTGCGCGGCGATTGGGTCATGGCGGACCAAG
ACGCGTTGCGACGCATCACCAGCTACATGGAGGAACTATCAAAGTCCTCC
GAAAAACGCGCGCGCACCGAAATGGAAAAAGTGGCCATGCAGGCCAAACT
CGCCGAAGCAAACGGCGAAGAAGGTTGGCAACTCCTGGCTGCCAAGGCTG
AAACTCTCCGCAAGGAATTCAATGAGAAATTCAGTGGCGATGGACAAGGC
GAAGTAACCCTTGCTGAACTGCGCGAAATCGCACTGAAAGCCGCCGAAAA
CGAACCAGTGGAATTCACCGGCTCGCAATGGTTCAACTCCTTGCTCGGCG
GCACCGAAACACCCGCGCCGGTGCGCGTCGACATCCCCGACACGGTCCTT
GCTGACCTGCGCGAATACCAGCGACGCGGCGTGGACTGGCTGTACTGGAT
GTCCGCAAATAATTTAGGTGCAGTGCTTGCCGACGACATGGGCTTGGGAA
AAACCCTCCAGTTGTTGTCCCTTTTGGCAGTCGAGCGCGCAGAAAACCCA
GAGTTGGAACGCGGCCCGACGCTCGTGGTGTGCCCAACATCTGTGGTGGG
AAACTGGGCAGCCGAGGCGGCTAAATTTGTGCCTTCACTAAAGGTATTGA
TGCATCACGGCCCGCAGCGTTTGAATGATGCCGATTTCCTGAGTCAATCC
AAGGGCATGGACTTGATTATCACCTCATACGGTGTGATCACCCGCGATTT
CAAACTCATGGGCCAGGTAGGTTTTGAACGCGTCGTGCTCGATGAAGCGC
AGGCAATTAAAAACTCTTCCACACGCGTATCAAAGGCAGTGCGCTCGTTG
CCTTCCCGCCACCGCGTTGCACTGACTGGCACGCCCGTGGAAAACCGCCT
GTCTGAAATGCGCTCCATCTTGGACTTCTGCAACCCCGGCGTGCTGGGTT
CTGCATCGTTTTTCCGCAACCACTTTGCCAAGGCCATTGAGCGTGAACAA
GACGACACCATGACTGAGCGCCTCCGCCAGCTCACCGCACCGTTTATTTT
GCGACGCCTCAAAACCGACCCGAATATCATCGACGATCTGCCTGAGAAAA
CCGAACAGATCATCCGCGTGGATATGACCACCGAACAGGCATCTCTGTAC
AAAGCGCTGGTTGAAGATGTGCAGAAACAACTCGATGAACGCCAAGGAAT
GTCACGTAAAGGCCTGGTCCTGGCGACCATCACGCGCATCAAGCAGATCT
GTAACCACCCAGCGCACTTCCTTGGCGACGGCTCAGAGGTGACACTGAAA
GGTAAACACCGTTCCGGCAAGGTGGAAGCGCTCATGGAACTGATCGATAC
GGCAGTAAAAGAAGAGCGCCGCATGCTGATCTTCACCCAGTACGCAGCCT
TTGGCCGTATTTTGGCGCCGTACCTGTCTGATCGATTGGGCACGAATATC
CCATTCCTGCACGGCGGCGTGACCAAACCAGGACGCGACCGCATGGTGGC
GGAATTCCAATCCGAAGACGGACCACCGGCAATGATCCTGTCTTTGAAAG
CCGGCGGTACTGGCTTGAACCTGACAGCTGCATCCATCGTGGTCCACATG
GATAGATGGTGGAACCCAGCCGTGGAAAACCAAGCAACTGACCGTGCCTT
CCGCATCGGCCAGCGCAAAAACGTGGATGTATACAAGATGATCACAGTCG
GAACCATGGAGGAATCCATCCAAGATATCCTCGATGGAAAAACACACCTG
GCCAGCGCCATCGTGGGCGAGGGCGAAGGCTGGATCACCGAACTCAACCC
AGAAGAATTGGCTATGCTGATGAGTTACCGCGAAAAGGAGGGTGCAGATG
ACTGA
>cg1205 strong similarity to hypothetical protein Rv2133c-Mycobacterium tuberculosis
ATGATCACCTCACCATTTGAGCGCGAGCTGAAGCTGCTCAACGAGGGGGA
ACTGGGTATTGTCCAGCAGTTGGTGGAATCAAGCAACATCGGATTCATCG
TCGATCTTGAATTAGATGGCGATTATGGGTGGGCGGTCTACAAACCGGAA
TTGGGGGAGCAACCCCTGTGGGATTTCCCTCCTGGCCTGTACAAACGTGA
ACGTGCAGCCTTTGTGATCAGTGAGTTTTTGGGTTGGAACATCGTGCCTC
CAACGGTGATCATGCACGATGCCCCGGCTGGTGTGGGCTCGGTGCAGTGG
TTTATTGAAAACAATGGCGAACACTATTTTCCACTGTTTGACACCCGCGC
TGACCTGCATCCGCAGTTTGTCCGCATGGCTGTGTTTGATCTGTTGTGCA
ACAACACTGACCGGAAAGCGGGCCATGTGTTGTTAGACGGCGATCATATT
TGGGGCATCGATCACGGGTTGTGTTTTTCCGTCGAACCGAAGCTGCGCAC
GGTGATTTGGGATTTCGCAGGCTGCACCATTCCAGATGACTTGGTGACAG
ATGTTGAGCAGCTTTTGGAGGACGTCCCGGAAGAACTTCATCAGCTTCTT
CATCCCGCAGAAATTGATGCGCTGCAGCGCCGTGCCTCAAGAATCAGCAG
GTTACCGTTCCTTCCGCAGGCGAAATCGCATCGTCAATTCCCTTGGCCAC
TTGTTTGA
>cg0888 NTP pyrophosphohydrolase
ATGAGAATTCTTCCCATCGGCCCCCACGATGAAATCGCCGTCAACGGATC
AATAGTCCTTCTATCCGAGCACGACGGAGACATCGTATCGGTCGGCCCCG
ACCTCGGCACGGTGCGAGTTACCCTTGAAGAGATCGAAAGTTTAGGTACA
CCGACGGCACCCCGCGATCTGGGTTCTCGGGAAGTCGACGCATGCGTATC
GTTGCTCCGCAACCGCGAGTTAGTGCGATTCGATCCCCACGATGGCAGTG
AATTAACCTATCGGGAACATAGCGTTGCTTACGGTGCGAGTGGCAAGCCA
TTGTTTCCCCGATTGGATCCAGCGGTGATCGGCATTGTGGAGCTGCGAGG
TGAGGATCGTTTGCTTCTGGGCATGAATGCGCAGAAACGCCAACGCTATT
CATTAATCGCAGGTTATGTTTCGCATGGTGAGTCGCTGGAAGACGCATTC
ACCAGAGAAGTGTTCGAGGAAGCGGCGCGCCGGGTATCTGAGATTTCCTA
TGTGTCGTCTCAACCATGGCCGATCTCTGGTTCGCTGATGCTGGGTATGA
AGGGCTTCACGGAAGATGAGTTGCCTCAAGGCGAAACTGATGGTGAATTA
GCGGAGACAATCTGGGCTTCGCCACTAGACATTATCGATCGTAAGATTCC
GATCGCCCCACCCGGATCGATTGCCTACGACATGATCAACGCCTGGGCGC
GAGATAAACAAAACTAA
>cg1018 PROBABLE ATP-DEPENDENT DNA HELICASE PROTEIN
ATGAACGCAACGAGGGAAGAAGCCAACAACTTACTAGCTGGAATCGCCGG
ACCTGGCGCACAGCTCCGCGATGATCAATGGGTAGCAATTGATGCATTGG
TAAACCAACGCAAACGCATGCTGGTGGTGCAAAGGACCGGTTGGGGTAAA
TCAGCCGTCTACTTCATCGCCGCCAAACTGTTAAGAGCACGCGGTGCGGG
CGCAGCCGTGATTATTTCTCCACTACTAGCCCTCATGCGTAACCAGGTGG
CGTCCGCCGAACGCGCCGGGATTAAGGCAGCGACACTCAACAGTGCCAAT
ATGACGGAATGGGAAACCATCCAGCAACAAGTCGTTTCAGGCGACGCCGA
TGTGCTGTTAATTTCACCTGAACGCCTCAACAACCCAGACTTTAGAGACA
CCATTTTGCCTCGACTAGCAGCTGAAACAGGCCTAGTGGTGGTCGATGAA
GCCCACTGTATTTCCGACTGGGGTCACGATTTCCGCCCCGATTATCGCCG
CATCCGCGACCTGTTAGCGGGACTTGCGCCCAATATTCCCGTGCTAGCAA
CCACAGCCACCGCCAATGACCGCGTGGTTGAAGATGTCCGTGCCCAACTA
GGAGATGGCACAGGTTTGCTTCGTGGTGGGCTAGACCGTGAATCCCTTTA
CCTATCAGTGGTGAACCTGCTCAACCCCACCGAACGCCCAGCTTGGCTTG
CCACCCACCTCAAAGAACTGACGGGTTCGGGCATCATTTACTGCCTCACT
GTGTCAGCTGCACATGATCTTGCCGATGCACTTAATTCTGTTGGATGGAA
TGTTGCCGCGTACACCGGTCGAACCGAAGCAGGAGAGCGCGAACGTTTAG
AACATGCCTTGATCAACAACGAGATCAAAGCACTAGTAGCAACCTCTGCA
CTGGGAATGGGCTTTGACAAACCTGACCTTGGATTTGTTGTGCACATGGG
CAGCCCCAGCTCACCGGTGTCTTATTACCAGCAGATTGGTCGCGCCGGGC
GCGGCACCGCTCGTGCCGATGTCATCCTGCTGCCAGGAACTGAAGACAAA
GAGATCTGGGAGTACTTTGCATCAGTATCGTTCCCACGCGAAGAGGTAGT
CCGCCAACTGCTTGCGGTGTTAACCGATGAGGCGCAATCCACTGTCAAAT
TGGAATCACAAGTAGATCTTTCCCGATCACGCCTTGAACAAGTACTTAAA
GTGCTAGACGTAGATGGCGCAGTCAAACGTGTACGTGGCGGATGGGTCTC
CACCGGGCAAGAGTGGATCTACGATGCGGAACGCTACGCAGGACTTGAAC
AAGCAAGGAAAATTGAACAGCAAAGCATGGTGAACTACCAGAACACCACT
GAGTGCCGCATGCTGTACCTCCGCAAAGAACTAGACGATGTGGAGGCAAC
TACTCCGTGCGGGCGCTGCGACAATTGCACGGGCAAAACGTGGGGGCTCG
ACACCGATGCCTCGATCACTTTGAAAGTGGACCAACAGCTTCAAACACCC
GGAGTGAAAATAGCCCCACGAAAAATGTGGCCGACTGGCATTAGTGTCAG
AGGAAAAATCGCAGGGCTAGAAGAAGGACGAGCACTGGGACGACTCAATG
ACATTGCCCGTGGACCTGCACTAAAGGCCCTGCTGGACAGCGGAGCTTAT
TCTGATGATCCATGGATGGCACGCATCATCGAAGTGCTGAAAAACTGGGA
TTGGACCAACCGGCCTGCCAACGTGGTCGCTCTCGGCAATACCAACTTTG
GATCAACTGAGATGATCATCCAGGTAGCTCAATCAATCGCAGCGGTGGGA
CGAATGAACTTTGCGGGTGTACTTCCCGCCGCGCCGGGTGCTGAAGAAGT
CATGGCTCAGAATTCCGCATACCGAGTAGAAGCCCTATTGAAACAATGGG
ACTGGTCGCAAGGCTTGCAACTAGTTCCCGGTCCCATTTTGCTGGTGACA
GACCTTATTGATACTGGCTGGTCGGTGACAGTTGCAGGAAATGGCATTGC
GCAGCGGACCTCAGAGAAGGTGCTGCCGTTCGCTTTAGCGAGTAGGGGAT
AG
>cg0842 PUTATIVE DNA HELICASE
ATGGTTTCTTATAGCGTGCACGGCGCACTAGATATCGACGGCAGCCTCAA
AAAACTCACCCTCGATTTCCTCAATAAACTAGCCACCAATCCAGCTTCCC
CGGGGCTTCATATTGAGCCCATCAAAAACAGCATCGACTCCCGCGTCCGC
ACAGGTCGGGTCAATGATCAATTCCGCGCAGTGCTTTTTGAGCTTCACGA
CGAATTTGATCATCACTTTGTAGTGGTTGGTGTTTATCCCCATGATGATG
CCATCACCAAGGCAGGAAAAATCCGCCTTGAAGTCAACTCTGTTAACGGC
ATTACTCGACTCATCGAGGAAACTACCGTTCCTGCGCAAAAAGACGATCA
GGAATCTCGTCGCAAAGCGGAAGAGGCCGCAAAGCGGGCGGAGGAGCAAC
TCCGGGACGCCGTCGAAGTACCCACCCCAGTGGAGCTGCCCAGCCCTGGT
GAGGCGCTCGCACATGCAGGGCACACCCCAGAAGTCCTGGAAGCCGAGCT
CGGCATTGACCCGGCTGCCACCCGTATTGTGTTGGAACTTGCCTCAGAGG
ATGACATCGCAGCAGCGCTTCCTAGCAGCCCGACGTGGGAAAAAGACGCA
CTTATCGGCCTTGTCGCCGGTTTGAGCATTGAAGATATCCGCGAATCGCT
CGCTATCCCCGCACCTTCCACAGAGCCGGATACCCGCAGCGAAGATACCA
GGCTCATTGCTGGGCTTAAAACCCCAGCAGCGCAAATGGACTTTGCCTAT
TTGGATACCCCAAATAGCAATGACCTGCGCCGCGTTATTGAAACTGAAGG
TTTTGATAGCTGGCGCGTGTATATCGACCCCAGCCAGCGCTCCTTAGTCA
CCCGCAACTTCAGCGGATCGGGTCGCGTTTTTGGTGGAGCTGGCACCGGC
AAAACCGTGGTGGTAGTCCACCGTGCCAACCGCCTGGTCACTTCTGATGG
ACACCTTGAGACCGACGATAAGACGCCTCGAGTCCTGCTCACCACCTATA
CCCGCGGTTTGGCCGATGCGTTGAAATCCTCCATGAACGCGCTTAATCCC
ACTTTCCCCGAGGCAGAAAAACCCGGTAGTCCTGGCTTGTGGATCAGCGG
AATTGATGCCTTGGCAAATAAGGTGGTTGCGCTAGCAAACACCGCCGAAC
GTGAGGCAGCAACCACTGCTATCTTGGGGCGTGCAGCCGGCAGAATCACC
CCATTCATCGGCAACGGCGAACAAGAATTTTGGATCGACGCGATCATTTC
CGCAGATCCCGGCGATCTATCAGAAGAAATCAGCAATACTGAATTCCTCG
CCCAAGAGTTTGAAACCGTAATCCTAGCCCGCGGAATCACCCAAGAAAAG
GACTATCTGCGTGCACCTCGTCCCGGCCGTGGTACCCCACTAAACCGCGT
ACAACGCAAAAAAGTGTGGGCGATTATTCAGCAATTCATGACTTCCTGTG
CGCGCGAAGGAAAGATGTCCTGGCCAGCGCTTTCCTCCATCGCCGCAAAC
ATCCTGGAGCAGCGCGCCGCCGCCGGCCAGGGCCGGCTATTTGACCATGT
GCTTATCGACGAGGCCCAGGACTTCCACGCCGGACATTGGCTCTTACTCA
GGGCTGCGGTAGCCGAAGGTCCCAATGACATCTTCTTGGCTGAGGATTCA
CACCAGCGCATCTACGGCCAACATCATGTGCTAAGCCGTTTTGGTATTTC
CACCCGCGGTCGGGCGTCTAAGCGACTCACCCTTAACTACCGCACCACCG
CCGAAAACCTCAGTTACGCACTTGGCATGCTCACCGGTGAATGGACCGAC
GCCGAAGGCGAAACGGACACAATTGAGCACTATCGCTCAGCGCGTAAGGG
CCCCAAGCCACACCTCTACCAATTTGAATCTGAGACCGACGAGTTCGAAG
CAATCGCTGAGCTCATCAAGGTGTGGCAGGACAGGACCACCGATGTACGC
ATCGGCATTTTGGCACGCACCCGTCCTTTGATCAACCGCGTGGTTAATGC
GCTCTCTGAGCAGGGCATCGATGCCGTCAAGACGCAAAATGCCGAACTTG
CAGCCCACGAAACTGTCAGTGTAATGACAATGCACGGAGCTAAAGGCATG
GAGTTTACCCATGTCATCTTGATCGGAATGGGCCGTGACCTCATTCCTTT
GCAATACACCATGCAAGGTTTAGGCGAGGCCGAGCGTAACGACGCCCAAC
AGCGCGAACGCTCCTTGCTCTACGTTGCAGCTTCTCGTGCACGTGATGCC
CTTGTTCTCACCACGCATACTGAGCCTTCGGAGTTGCTGCCGCGGGTTTA
G
>cg2107 Superfamily II DNA or RNA helicase
GTGTGGTTGATTGTGAACCTTTCTGAGATGCTTCCTGATCTTTCCGATGT
CCCCGAGAGCTTGATGGATGAGTCCATTTTTGACAGCTTTTTAAGTTGGA
CCCGTGAGCGGGGAATTTCGCTGTACCCGGCTCAGGAAGAAGCAGCTTTA
GGAATCTTGGCCGGGGACAATGTCATCCTGGCAACGCCTACTGGCTCGGG
TAAGTCCATGGTGGCTATCGCCGCCCACTTTATTGCCATGGCCAGAGGCC
AGCGCAGTTTTTACACCGCCCCCATCAAGGCGTTGGTGAGCGAGAAGTTC
TTTGCGCTGTGTGAGATCTTTGGTGCGGAAAACGTCGGCATGATGACTGG
TGATGCAACAGTCAACGGCAAGGCGCCGATTATTTGTGCAACGGCGGAGA
TTGTCGCCAATATTGCCTTGCGTGATGGCTCTGGCGCTGCGATTGATCAA
GTAGTGATGGATGAATTCCACTACTACTCAGAGCCAGACCGCGGTTGGGC
ATGGCAGGTACCACTGCTGGAACTATCACGCGCGCAATTCCTGCTGATGT
CAGCCACCTTGGGTGATACCGAATGGTTGGAAAAGGACCTGCAGCAACGC
ACTGGCCGCACAGCAAACTTTGTTGGAGGCACCGAGCGTCCTGTTCCCTT
GGAGTTTTCCTATGTGTACACCCCAGTGCACGAAACCATCGAGGAGCTGC
TGAAAGATTCCAAGGCACCCATCTATGTTGTGCACTTCACCCAGCGTGAT
GCGATTGAACGAGCCCAAGCATTAACGTCCCTCACGGTGGTGAACAAGGA
AGAAAAAGAGCGCATCGCTGAAGAGATCGGCGATTTCCGCTTCAGCACCA
CCTTTGGAAAAACGCTATCCAAGCTCCTGCGCCGAGGCATCGGAGTCCAC
CACGCTGGCATGCTTCCCAAGTACCGTCGTTTGGTGGAAAAGCTCTCCCA
AACGGGTCTGCTGAAGGTTATTTGCGGTACTGACACCTTGGGTGTGGGCA
TCAACGTGCCTATTCGCACCGTGCTCATGACCGGCTTGGTCAAGTTTGAT
GGGTCGCGGGAACGTGTATTGAAGTCCCGTGAATTCCACCAGATCGCTGG
CCGTGCGGGACGCGCTGGCTATGACACGATCGGCACCGTAGTTATCCAAG
CCCCGGAGCATGAGATTGAGAACCACCGCCTGCGTGAAAAGGCTGGACAA
GACCCCAAGAAGCTCAAGAAGCTACGTCTTAAAGCCACTCGCCCCGGTGA
GGTGACGTGGACCAAGAAGACCTATGAACGCCTCACCACTGCAGAACCAG
AGCAACTGACCAGCTACTTCAAGGTCAGTAACTCCATGCTGCTCAATGTT
ATTGCCCGACCTGGCGATGGCTACCAGCACATGAAGCACTTGTTGCGGAC
CAACCATGACACCCGCACCAAGCAGAACAAGGACATCCTCACTGCTGTTG
AGCTATTCAAGGGCTTGATCAATGCGGGCATCGTGGAAAAAGTCCCAGAT
GGACCCGACGCTACGGGTCGCATCTATGCCCTCACGGAAGAACTTCAGCG
AGATTTCGCGCTCAACCAGCCCCTTGCGCCTTTCGCTTTGGCTGCACTGA
CTCTGCTGGACAAAGAATCTGAAACCTACACCCTCGACGTGATCAGTGTG
TTTGAAGCAATCCTGGAAGATCCCCGACAGATCCTCCTTGCGCAGCAAAA
AGCACAGCGCGGTGAAGAGATTGAAGCTCTTAAAGCCGAAGGCGTTGATT
ACAACGAACGCATGGCCATCATTGAGGATGTCACCTGGCCAAAGCCACTG
GAAGAGGAACTGGAAAGCGCCTTCGAGACCTTCCGTGAAGGACACCCGTG
GGCAAAGGAATTTGAGCTCAAACCCAAATCCGTTGTGCGCGACATGATCG
AACACGGCATGACCTTCTCTGATTTGGTGGCTACCTACGGTGTGGCCAGG
TCAGAGGGTGTTGCGCTGCGCTACCTCACCGATGCCTGGCGTACTCTCCA
ACACTCACTGCCTACGGAAGCTCGCACCGAGGAACTTGATGATGTTGTGG
TGTGGTTGGGCGAACTGATCAAACAGGTCGACTCCTCCCTGGTGGATGAG
TGGGCTCAGATGGCGGATCCAGAAGCACCGATCAGCAAGGAAGCGCTGGA
ACGAGAGCTCGCCTTCGGCGTGGAAGACCCAACAGCACTTACCGCCAACC
GCAGGGCATTTACCATCATGGTGCGCAACGCCATGTTCCGCCTTGTGGAG
CTATTTGCTTATGAAAAGGAAGATCAGCTTAGTCAGATGACTGAATACCT
GGATGAGGCTCCTGATTTCGGTGCTGCGATGGATGCGTACTTTGATGAAT
ATGCGGATCTTGATACCGGCCCGGCAGCTCGTGGACCAGAGTTCTTCAAG
GTAGAGCACACGGGAAGAATGTGGGAGGTGCGTCAGGTGGTGAAGGATCC
AGAAGGTGATAATTCCTTCGCGTTTGTTGCCACCATTGATCTTGATGCCT
CTGATGATGCAGGTGAGGTGCGTTTTGGATCGCTGTCGATTGACCACAAC
TAG
>cg0395 hypothetical protein
TTGATTGTCATGAAATCCATTGATCTTGAGCAGCTGGCGGGCACGCAATC
GCGCACGTATCAATCGCGAAAGATCACCGATGAGATGGTCGCCCGGCCGG
TGCATGTGGCGATCGCGTTGTGGGAAGTGCCGTGGGAGTCGGCAAAATCC
GGCAAGATTGAGGGTTGGGTCATTGCCGTGGATTCGCCGCGTGGGCGGTT
TGTGCGCAGCGGGCAGACCAAAAATGGCGACGCCGTCAACCGGACTGTGT
CGATGCTGAAATCAGCGTTGAAAGGGGTCCGCGGGAAGGCGTGGATTGTA
ACTGGGCGTCGACAAGCAGCTTTACGCGCAGCCCTGGTGCGCGAAAACTA
CCTGGTCACCGGAAGCTTCGCCGAGCAAAATAGGGCCGGCGTGAAGGCGT
CGGCGATCTCGCGCCGCGCCGAACAATCCGCGCTCTACAAGGCGAAAAAA
ATCGGCGAATTCGCCGAGCGCGCCCCACGCGTCAAAGAGCGGCAAGAGGC
ACATTGGTGGCCACGGTTGTCACGCACGCAAGGCACCGCAGGCGTTTTAC
GCTTAGCGACGGACGCCTCTACCGATGGGGTCTTCCGCGGCGCCATGTGC
TTCGTAGCCTCAAACGGCGACTACCTCCTGGAGACCCAAGACACCACCGC
AAGCTCCGACGAATTAGAACTCGAAAGCATCACCCACGCCCTGATCTACC
TCAAAACCATCGGCGCGACCCAAGCCATCATCGAATCCGACAGCAAAGCC
GCACTTGAAGCCATCGACTTCATCCTCAACAACCGACCGCGCCGGGGCAG
GTGGCGCGGCATCACCGCATGCGCCCGCAACCGGTTCCGGGATGCCTGGG
AAGCGCTTATCGACGACTGCGTTGTGGAATTATCCCGCGTACTAGGGCAC
GCCGGGGATCCACTGAACCAAGCAGCCGACCAAATCGCATACATGGGCAT
GCGCGCCGTAATTTTTGAACAAAAATCCGCACACCCCACATTGCTCAAAG
GAATTGACAAGGCGCTTCGCAAGGCCGAGTAA
>cg1837 Predicted endonuclease involved in recombination
ATGAAGGTTTCCGCCGATACACCCGGTCACGATGATCCAGGCCCAGGCCG
GCGCCTTGGCTTAGATGTCGGCACCGTGCGCATCGGAGTGGCAGCCTCTG
ACCGCGATGCCAAGCTTGCCATGCCTGTGGAAACCGTTCCGCGGGAAACT
GGATTCAAAGGGCCAGACCTGGCCGATATTGATCGGTTGGTCGCCATCGT
TGAGGAATACAACGCCGTGGAAGTCATTGTTGGTCTACCCACAGATCTGC
AGGGAAATGGCTCCGCCAGTGTGAAGCATGCAAAGGAAATTGCTTTCCGC
GTCCGTCGGCGCCTCACCAATGCTGGAAAGAACATTCCGGTACGGCTTGG
CGACGAACGCCTCACCACCGTCGTGGCCACCCAAGCCTTGCGGGCCTCAG
GAGTCAGCGAAAAAGCGGGACGTAAAGTTATTGATCAAGCTGCCGCAGTA
GAAATCCTTCAAACCTGGTTGGATGCTCGCACCCGAGCCCTTGAACCACA
ATCCACAGACACCCAAGATTTCGACGAGAAGGGAAATTTCCCAGGATGA
>cg2097 DNA or RNA helicase of superfamily II
GTGAGTTCTAATCTAAGAGCGTGGCAGCGCGCAGCTCTGGATAATTTTCT
AGCAAACAAACCCCGTGACTTCCTCGCCGTGGCAACCCCCGGCGCAGGTA
AAACTACGTTTGCGTTGCGCGTAGCCACGGAACTAAAAGCATCCCGCACT
GTTGACCGCATCATCGTTGTGGTCCCCACCGAGCACCTGAAAGTGCAGTG
GTCGCAGGCGGCCGCCCGAGTGGGGTTGGCGCTGGACCCAGAGTTTAAAA
ACTCCGGCAGCATTAATCCCGCATACGACGGCATCTGTGTGACCTATGCG
CAGGTGTCCATGCACCCGTTCAAGCACTATCAGTTGACCATGGCACGCCG
CAGTTTAGTGATCTTGGATGAGATCCACCACGGCGGCGACGCCAAGAGCT
GGGGCGACGGCATCAGCCAGGCTTACCGCGATGCAGAGCACCGCCTCGCG
CTGACCGGTACACCGTTTCGTTCTGATGATTCACAAATTCCATTTGTGCG
CTATCAGGAAGACGACGAAGGCCATCTGGTTTCCAAGTCCGACCACACTT
ACGGTTATTCGGAAGCGCTTGCCGACGGCGTCGTCCGCCCAGTTGTCTTC
CTGGCCTACTCGGGTGAAGCACGCTGGAGAGACAGTGCAGGTGAAGAGTA
CGCAGCCCGGTTGGGCGAACCGCTCAATGCGGAACAAACAGCCAAAGCTT
GGCGTACCGCACTAGACCCCAAAGGTGACTGGATCCCAGCCGTGTTGTCA
GCTGCCCACACCCGGTTGATGCAGCTGCGCCAAAACATTCCCGATGCAGG
TGGTCTGGTGATCGCCTCAGACACCAAGACAGCGCGTGCCTACGCCAAAA
TCTTGGGCACCTTATCATCTACTCCCGTGGCCGTGATTTTGTCCGATGAA
GCCGGAGCTTCCGAGCGCATCGATGAATTCTCTGCCTCCACCGACGAGTG
GATGGTCGCCGTGCGCATGGTGTCAGAAGGCGTGGACGTCCCGCGTCTCG
CAGTTGGTGTGTACGCCACATCCGCCTCCACACCACTGTTCTTCGCTCAG
GCAATTGGCCGCTTCGTGCGATCACGCATGCCCGGTGAAACTGCATCCGT
GTTCCTGCCTTCGGTACCAGTACTCCTGGAACTCGCAGAAAAGCTGGAAG
TCTCCCGCGACCACGTCCTTGGAAAACCACACCGCCCCAAAGAAGGATGG
GACGATGAACTCCTCCAAGAAGCCAACCGCAAGGAATCCGAACCGGATGA
CATGCCGAAGTACGAATCCTTGGGCGCCGAAGCCGAACTAGATTCCCTCA
TCTATGACGGTTCCACCTACGGCACCGGCACTTTCTCTGGCTCCGCCGAA
GAAGCCGACTACCTGGGACTCCCAGGACTGTTGGACGCAGAACAAATGCG
TGAGCTTCTCCGCAAACGCCAAGAAGAACAACTCGACGCCCGCGACGCTG
CCGAAAAACGCCGCAAGGAATTGGAAAAACAACAGCAACGCGAAGCCGAA
ATCCACGAAAAACCCGTGGAAGAAGTAGCCAGTGATGAGATCCCGCGTCT
GCGCAAAGAACTCAACACCATCGTGTCTATCACCTCTGGACGCACCGGCC
GCCCACACGGCGCAATCCACACCGAAGCACGTAAACACTGCGGTGGCCCA
CCAACGGCACTTTGTAGCGCCGAACAACTCCGGGCACGCATTGACTACCT
GCGAAAGTGGTAA
>cg1241 hypothetical protein predicted by Glimmer/Critica
GTGGGAGACTCCTGCACAGGCAGCCGCGAACTCGAGGAAGAAGACCTCGA
TCTTTATGGGCGTTTTCAGGCACCGGCAGCAAACGAACCTGGCTTCTATG
TGGACTGCCATGTGTTTAGCACATTTGATGTGTTCTTGAACTACACACCG
GATGTGTACGAAGAACTCGCTGAGGCGAAGTACTTCTCGCCTAAACCACG
ATCGAAGAAGCTCGCGCCACTAACTCGTGACGTATTTGAGGCTATCTCAA
GTGAAGTGCGTTAA
>cg0714 polymerase involved in DNA repair
ATGACGCGGGTGATGGCATTGTGGTTTCCGGATTGGCCTGTGCAGGCGGT
TCATTTGGATGAAGATGCTCCCGCGCACAATAAACCTGTGGCGATTGCTG
CGCATTACCGCATCCAGGTGTGTGGCGTGGCTGCGCGCAAGCGTGGGGTG
CGTCGTGGGATGAAGGTTCGGCAGGCGCAGGCTGTGTGCCCTGAGCTGGA
GGTTGTTGACGCGGATGCAGATCGTGATGCCCGGATGTTTGAGGGCATCG
TGGCATCGCTCGGTGAGGTTGCCTCCAGCGTCGAGGTGCTTCGTCCGGGT
CTGGTCGCGGTCGATGCGGGAGCTGCCGCGCGCTATTACGGTTCAGAGGA
CATCGCTGCTCAGATGCTTATCGACGCCGCCCTGCGCCAAGGCATCGACG
TTTTCGCCGGGGTTGCGGATGAGATCACGACGGCCGTCATCGCGGCGAGG
GCGAATGGTGGGACTGTGGTGAAGAGGGAGGCGTCGAGAAGCTTTTTACA
GCAGCAACCCCTGGGCGTGCTGGCGGCCGAGGAAGCGCTGGGTTGTGAGG
CGGAGGTGGTGCGCGCGCTGGCGGATCTGGGCATGCGCACGCTTGGTGAG
CTGGCGGAACTGCCGGTAGAAGCCGTGGCGACGCGTTTCGGCAACGCTGG
TCTGCGGTGTCACAACATTGCGCGTGCCAGGCACGATCGTAAGGTCGCGC
CACCGATCACGCATGCAGATTGGGAGGTTTCGCATGTGCCGGAGGAGCCT
ATTTTGCGTGTCGACGCCGCCTCGTTTGTTGCGCGCAACCTTGCCTCGCG
CCTGCATCAACTGCTGAGCAAAGGTGGCGTGGTGTGCCAATTGCTCAAGG
TCACAGCCGATTTCAGTACTGGTGATACGGTGAGCAGAATTTGGCGTACC
GGTGAACCTTTAACGGAACAGGCAACTGCGGATCGGGTGCGTTGGCAGTT
GGATGGGTGGTTGACTGCGCGCGGTGTGCATTCCGATGATCCGAATGAGC
ACGATGGGATTACGGCGTTGTGGCTTATTCCTTTGGAATGTGTGCCACCG
GATATGGCCAGCGGCGGATTGTGGGATACCGGGCGCAGCCAGCAGCATGT
GGCCAGACAAGTCATTGAGCGTGTGCAATCAAGCTTGGGCGTGGATGCGG
TGCTGCAGCCTGTTCCGGCTGGTGGTCGGGGAGTAGAAGAACGCATTCAT
TTTGTTCCCTATGGTGAAAAACGTGATGCTATCCGCAATCCAGCGGGGTC
GTGGCCAGGGAAAATACCAGGTCCGCTGCCTGCTCGGTTGGGCGGTGGGA
TCAACCACCCGGCCTCGCAAGTGACCATGATTGATACAGAAGGGCAGCGT
ATTTACGTCACCGCAGAGGCATTGCTCAGCTCGTCGCCGTATGCCTTGTC
CTGGGGGCCGGCCCGCTATTTGATCACTGGCTGGGCTGGGCCATGGCCGG
TGGATGATCGATGGTGGGAGAAAAACGGCACAAAATATGCCCGCCTCCAA
GTGGTGGGACGGGCAGTATCTGAAGAAAGGCAGCTCAGTGCGTGGCTGTT
GATGTGGAAAGACAACAAGTGGCGGATTGAGGCCACATATTAG
>cg2576 putative DNA polymerase III delta subunit
TTGTGGCACGATGGTCACGTGGCTTCAGCACCTATTTCAGTTCAACCAGC
GGTCCATCTTGTTCTCGGCGAGGATGAGTTCCTTGCCGAACGCGCGCGTA
TCAACATCGTGCATGACATCCGTTCATCGATGGCTAGCCCCGATTCGCTT
CAGGTCACCACCTTGAAGGCCAGCGAAATTACTCAGGGTGAATTGTTGGA
TGCGTTAAGCCCATCCTTGTTTGCTGAAGACCGTGTGGTGGTGCTTACCA
ACATGGATCAAGCAGGCCAAGATGCTGTAGATCTAGCCTTATCCGCAGCA
GTTGATCCCAGCCCTGGTACCTACTTGATCGTCATGCACTCTGGCGGTGG
ACGCTCTAAGTCGATGGTGAAGAAGCTGGAAAAAGTCGCGGTGGTGCACG
ATGCCGCAAAGCTGAAAGACCGGGATCGTCCAGGTTGGGTAAAACAAGAG
TTCAAAAACCACAAAGTCCAGGTCACCCCAGATGTCATTCATGCTCTTTT
AGAGGGCGTGGGTTCAGATCTTAGAGAGCTGGCGTCCGCCGTATCCCAAT
TGGTTGAGGACACCCAAGGCAACGTGACGGTGGAAAAAGTCCGTGCCTAT
TACGTGGGTGTTGCTGAGGTATCGGGTTTCGACATCGCCGATTCTGCATG
CGCCGGTCAAATGTCAAAGGCCGTGGCCAGCACCAGACGTGCCCTTCAAT
TGGGTACCAGCCCGGTTGCATTGGCAGCTGCGTTGAGTATGAAAGTTGGC
CAGATCGCCAGGCTGTATTCCACCAGGGGACGCATCAACGGTTTTGAGCT
GGCCAAAGAATTGGGCATGCCGCCGTTCGTGGTGGAGAAGACTGCGAAAG
TGGCCCGAAACTGGTCGGGAGATGCGGTCAGCGAGGCCGTGATTTTGATG
GCCGATCTGGATGCCGCTGTAAAAGGACAAAGTGGCGATCCTGAATTTGC
CATCGAATCTGCCGTGAGAAGAGTTGCAGAGCTGGCGAGGCGGTAA
>cg2064 DNA TOPOISOMERASE I (OMEGA-PROTEIN)
TTGACAATTGGAATTTTGACGGAGAAAGCTTCGGCTGCGAAAAACTTTGC
GAAAGCCCTCGGTGGACCCTCTGGCACTTATAACGGCGAGAAGTACGTTA
TTGCTGCAGCCAGCGGGCACCTTTATGAATTTGTCGAGCCAGAAGAGATG
GTGCCACCAAGCTATGCCGATAAGATCGGCGGCTACTGGGATCTGGCTAA
GCTGCCGTGGGATGAGACGCAGTTTTTGTGGTCACGCGAGCAAAAGCACG
GTGCAGCTAACACGATTGCACGCATTAAGAAAACCTTGAGCAGCTGCACC
ACCATTGTGATCGGATCAGATATTGATCCCACGGGCGAAGGTGATCTGTT
GGCGTGGGAGATTATCGCTGAGCTGGGGTTAGACACCAAGAAGATTCAGC
GTATGGAATTTGTTGATGAGGCGCCGGCCTCGATTCAGCAGGCGTTTATC
AACCGCCGCGATGTGACCTCCATGCATGACGAGCCCAATTATCTTAAGGC
GGAATTCCGATCACGCTTTGATTTGCTGTCGATGCAGTGGACTCGCGGTG
CCACCAAAGTGCTAGAGACCACTGGTCGGCGTGCAGTGTTGCGCAATGGT
CGCCTGAAATCTGCCATGGTTGCGATTGTGGGGCAGGGCTTAGATGCGTA
CAACGATTATAAAAAGATTCCTTTTTATCAAAACCGCTTCATTGATGATC
ACGGTGTAAGTTACGTCAACCCCGAGGAACCGCGTTATAAGACTTGCGAC
GAGGTACCACAGCTTTATAAGGCTAGTGCGGTCGAATGCTATGAGAAGAG
CATGAAAAAGACCGCGCCACCACGTCTACTTGACCTGGCGAGCCTGTCGG
CCCTGCTGTCTAAAGAGGGCTTTAGCGCAAAGAACGTGCTTAAGACTTAT
CAGCAGATGTACGAGGCGCAGGTCGTGTCTTATCCGCGTACCGAGGATAA
GACGATTACCCCTGAGCAGTTTAAGGAACTAGCGCCGTTGGTCGATAAGA
TCGCCGGCCTGGTTGGTGTGAACCCGGCTGACCTTACGCACCGACAGCCA
CGGTCCACGCATGTTAAGCCCAAGGGTGCACACGGCGCCAACCGTCCGGG
TTTGAATGTGCCGACCAGTATTGCAGCGGTGAAAACCACCTACGGTGTGC
TCGGACAGCGCATTTATGAAGTGCTCGCTAAGAGCTATCTCACGATGCTG
GCAGAGGATTACCTCTATGAGCACCAAAAAGGCCGCGTCGTGGATTACCC
AGCGTTTCTCGGTACAGCAAATGTGCCAAAGTCCTTGGGTTGGAAAGGTA
TTTTCGACGTAGACGCTGAGGCTGATGATGATGCTGCCGGCAGTGATGCA
GCACAGCAGGGGATTGGTACTCGTGCTGAGCCAGAAGTGTTTGAGGGTTT
TCCGCAGCGACCACCGCATCCGTCAATGACGTGGTTGATGAAACAGCTCG
ATAAGCATGATGTCGGTACCGGTGCGACACGAACGAGCACCTATGCCGAG
GTCACAGCCGGCAAGTCAGCATTGCTCAAAGAAACGCGTGGCAAAGTCAC
TATGACTGACGCAGGGCAACTGAATTATCTGCTGCTTCCTGGCACCCACA
TTGGCGACCTCAAACTTACCGAGCGCGTTTATGCCGATATGGCAGCGGTT
GCTGCTGGTGAAAAGACTGCAGAGCAGGCACTGGAACCAGTTAAACAGTG
GGTCGAAGAAGATATTGCGACCATGACCCGTAACGCAAAAAACATCCCCC
AAGAACTAGGAAAGAAACTCATGACTACTACTTTTACCCCTTCTGTCAAG
CACTCCGGCACCTGGAACGGTGAGCAGGTGAGCTTTAAGAAGGTCTACTG
CGGGCATGAATTTAGCGATGCAGAATGCGAGGCGTTGCTGCGCGGTGAGG
AGCTCACCATTACCGATGCCATGATTGGTGGACAGATCACGACAGTCACC
GGCAAGCTGGCGCATCAAAGCTTTAACAAAGACGGCAAGACCATTAAGTT
CTTTGGGTTTAAGGGGCAGGTTGATCGCATTGCCTCTGCAGACCCAGCTG
TGTACGCGGTGGGTGTGTGGAAGGTTGAGGGTGAAAAGATTCGCTTCAAG
CGCGTATGGGGTGGTCACAAGTTCACCGACAAGGAGATCGCCGATCTGCT
TGAGGGCCGCGAGATTGCTTTTGATGCCATGTCGAAGGCCAAGAAGCCGT
ACACCGCTCGGGGATCGCTGCAGCGCGGCGAGTACAACGGTAATTCGTTC
GTCGGCTTCCAGCTCGCACCACGCGATTAA
>cg2024 putative nuclease subunit of the excinuclease complex
GTGATTGATCGACCTGTATGGTTGTTTGAACTTTATAACACCGCGAAAGA
AGTAGTATATTCGCTACTCATTGATGAAGTAACTGGGGAAAATACAATAC
TCAAGAAGGATGATGGTTGGCGAGATCAATTCATGATTGAGTCTTTCTTT
GCTTATGATTCAGAAGCTGACGCGACCTCGTGGAGCGGTAAGAACATGAA
TAGCTACTGGTTCGTTAGCGATCTAATCAGCAATATATCCTTCGCTGAGC
GATCCTTGGAAAGCTTTTCTTGGGCTCTTCGAGATCTTGAGGATCTTTCT
TCTAGTGAAACTGGATTTGAAGGGCTTGAAGAGCTGAATCTAAAGTTTAG
TGAGCTCCAAGAATGGTATACGAACCTGGAACTTCCTTTTCAGCCGTCGG
CTGCTGATGTTGATGAGGTGGAGCAGTATCTGCAAGCTGAAGTGACAAGG
CAACGGGGTGACTATCAATGGTCTCCTGAGTTTTGGATACCAAAGCCGGA
TTCATACTATATCGACCATGCACTAGCGGTTGTCACAGATGTTTTGGGAG
CTATTGAACAAGGGGAGCTGCGTGAAGAAGTAGAGGTGCAGCAGGCTTTA
GACGAGGTATCTGAAAATTGGAATCCTTTGGAAGATTCTGATTACTACTT
ACAGGATCACCGTGGGCGCCCTGTACAAGATCTTTCCCGGGAAATGGAGG
AGTTGGTCAGATGTCTAATGCTTGACCAAGAGTGGTGGGGTGCAGAGGCA
AGGATTAGAAAGCTTGTTGAATCAGTTGAGTGGGAGGATACTCAGGCGAT
CAGCTCTTTAATTGAACACGAGCAATATTGGGAGGATGGTCGTTTTCGCC
CACCTCTACATAAGTTTTCGGAAGGACTAGACGAGCCAGAGCCCTTGCCG
ATGACGAGAAAAATGATACTTGCGACGAATCACCCTGATGTTTTACGCGT
AAACATTGCTGATTATTATCAGCAGCATAGGCGCATTGCTACTCAGAAGG
TGGAATGTTATAAGGAAGTTTTGGCATTGTATCCAGAGATTCTTAAGAAA
TTTGATGATTCATCTTTCGTCAATCGACATTGGATCTATAGGGCGTTTGA
TCGCGAAGGTCAGCTTTTGTATATCGGGGAGACAATAAACCCTCTTGTAC
GGTTGAGGGAGCATGCCGGCTTAGGGTCTATTAACCACGCACATCATAGG
CTAGTATCGCCGTGGTTTTCTACGATGGCTACATTTCATCTTGAATCTTG
CTTTACCCAGGCTGAGGCAAAAGAGAAGGAGGCTTTATATATTAAGCTGG
AACAGCCAAGATATAATAAGACGCATAATTCTGCTAGATTGGCGGTTTCT
GAAGAAGGGGTGCCGGTGAACGAGGTGCCGTCAAGAAATGATCCGAGGAA
TGTCGGTTGGAAGGGTCATAGGCACGTGCCACCAATGTTGCCGATTGTTG
CACGTGTTGTCGATGAATCGACAACACGTGAGGGATATGCGTTTTACGAG
GACAACCGGTAG
>cg1683 Superfamily II DNA and RNA helicase
ATGAGTTTTTCTGCCGAAAAGGGCACCCACCTTTCAGAGTTCATAGCAGA
CCTGGGCTTTGATCTGGACGAGTTCCAAATCAAAGGCTGCCACGCTGTGG
AAGAAGACCACGGTGTTTTAGTATGTGCGCCCACCGGCGCGGGCAAAACA
ATTGTTGGTGAATTCGCAGTGTCCCTCGCATTATCGCGGGGGACAAAGTG
TTTCTACACCACCCCCATCAAAGCGCTGAGCAACCAGAAGTACCACGATT
TGGTGGCTAAACACGGCTCCGATGCCGTTGGTCTGCTCACCGGTGATGTT
TCCATTAACCATGATGCTGACATCGTGGTCATGACCACCGAAGTGCTGCG
CAACATGATTTACGCGGGCTCTTTTGCGCTTGAGCGCTTAAGCCACGTGG
TCATGGATGAGATCCACTTCCTTGCTGATGCCTCCCGTGGCGCGGTGTGG
GAAGAAGTGATCCTCAACTTGGATGATTCCGTCAACATCATCGGTCTATC
TGCCACGGTGTCCAACTCAGAGGAGTTTGGTGAGTGGCTGACCACTGTTC
GCGGCGATACCCGTGTGATTGTTACTGATCACCGCCCCGTTCCGCTTGAT
CAGTACATGATGGTGCAGCGCAAAGTGATGCCACTGTTTGAGCCTGGCAC
CGATGGACGCGTGAACAAGGAGTTAGAGGCAACGATTGATCGCCTCAACA
GCAAGCAAAGCGAACAAGGCCGTGCGGCATACCGCTCTGGTGAAGGCTTC
CGTGCACGCAGCAAAGGCGATAAGCAGGATTCTCGCACTGGTAAGCCACG
GGAACAAGACCGCCACAGGCCACTGGGTCGGCCTGAAGTGCTCAGCATCC
TCAAGGGCATCAACATGCTGCCAGCGATTACGTTTATCTTCTCCCGCGCG
GGCTGTGATGGTGCGCTGTACCAATGCTTGCGTTCTAAGTTGGTCTTGAC
GGATCAAGCAGAATCAGAAGAGATTGCACGCATTGTCGACGCCGGCGTGG
TGGGGATCCCCGAGGAAGACCTTCAAGTACTGAACTTTAAGCAGTGGCGT
GCTGCACTGATGCGCGGTTTCGCAGCCCACCACGCGGGTATGCTTCCAGC
GTTTAGGCACATCGTGGAAGAGCTCTTTGTTAAAGGTCTTGTCCGCGCGG
TGTTTGCCACGGAAACCCTGGCATTGGGAATCAACATGCCAGCGCGCACC
GTGGTGTTGGAAAAGATGGTCAAATTTGACGGCGAAGGCCACGTTGATCT
CACCCCTGGCCAATACACGCAGCTGACCGGTCGTGCTGGTCGACGTGGCA
TCGATGTGTTGGGTAATGCTGTGGTGCAGTGGTCACCAGCACTTGATCCA
CGATGGGTGGCAGGTCTTGCCTCTACGCGTACCTACCCGCTGATCTCTAC
GTTCCAGCCGGGCTACAACATGTCGGTTAACCTGCTGAAAACCATTGGTT
ATGAGCCTTCGCTGCGCCTTTTGGAAAAATCTTTTGCACAGTTCCAAGCC
GATGGTTCCGTCGTGGGCGATGTGCGTGAAATTGAACGTGCAGAAGCCAA
GGTGGCAGAATTGCGTGCCCAGCTGAACAAAGAGATTGCTGCCACCAACC
CTGCGGTGCGTGAAGATCAAGACGCAGTGGAGGTGTTTATCGACTACATG
GAGCTTCGCCGTGAGCTCAATGAGGAAGAAAAACTCAATCGCAAGCAAAG
CATCGAAGATCGCAACGTAGAAACAGTCCGTGTGCTGTCCAAGCTGCAAA
TCGGTGATGTCATTGCCATGCCTGGTAGAAAACGACCAGTTCTCGCAGTA
GTGATGACGCCTGCTAATCAGAGCAGAGATCCCCGCCCATGGGTGACCAC
CGAATCTGGTTGGTCAGGTCGTGTGGATGCGGAATCCTTTACTAATCCGC
CGATCACCATTGGGCATATGCGTCTGCCTCGCCAAGCTATTGAAGAGCCT
CGCCGCAATGCCCGGCGCGTCCAGGAACTGTTTAGGCGTGAGCACTTCAA
GCGACCCAACAAGATGCGGGAGTTTGCTCGGGTTCGTCCCAATGAGGCAG
TGACCAAACTGCGTAATGCTATTCGGGATCATGAGGCGCATCATTGGCCT
GATCGGGAGCACTTGGCTCGCACCGCGGAGCGTATGATCCGTAAAGAACG
TGATCTGGCTAAGTTGACCGGCAATGTGGATAAAGCCAGGGAAACCCTCG
GTAGGACGTTTGAGCGCATTTTGTCGCTGCTCAGTGAAATGGACTATGTG
GATTACTCTAATCCAGATAATCCAGTGATCACTGATGAAGGTGAGCGTTT
GGCGAAAATCCACAGTGAGGCAGACCTGTTGGTTGCTCAGTGCCTCAAGC
GTGGCATTTGGGACAACCTTGATCCCGCAGAGCTCGCCGGTGTGGTGAGT
ATGTGCACGTTTGAAAATCGTCGCGAAACCGGTGGTGAGGCTCAAGCTGT
CACAGAGGCCATGGCTGATTCCATGAATAGCGTGGAACGTATTTGGGGTG
AGCTGGTTGAAGATGAGCGCCGTCACCGTCTGCCAATTACTCGCCAGCCG
GAAGCAGGTTTTGCCACCGCGATCCACCAGTGGGCTTCAGGTGCTCCGCT
GGGATATTGCATGGCTGCGGCAGCGGAAAACGGCGCGGAGTTGACCCCTG
GTGACTTCGTGCGCTGGTGCCGTCAAGTCATCGATCTTCTAGAGCAGGTT
GCTAAGACTGCCTACTTTGATGAGACCACACGGAATGCTCGTCAGGCTAT
TGATGCGATTAGGCGTGGAGTTGTGGCGATCGGTTCCTAG
>cg1843 Superfamily II DNA/RNA helicase, SNF2 family
ATGGCAGAATCAAACGCTATGGACCGGGCACAAATCTCTGCACTGCTAGA
TAGAGCACAGCACACAATCAACCTTGCCGAACAAGCAAACAACGTGCTCC
GACTGTTGAAAACACCCGGAACGGCCACAGTAGGGGACAACGGGACACTC
GGCACCGATACCTATCTGATCCCATCCCGCAACATCACCTGGCCTGACAA
CCTGTATGTCAACGTCTTTCTAGACGGCATGAATGCAGAAGCCACCCTTA
CCGATTACGTCGCATCAGTCGCTTCGATCCCACGCCTATGCCAGATCATC
AACGAGGGCCAAGGCGGCATGTTCCGCAGACTATTCAACCCCACCAAGGT
CCAAGCCGGCGACCAAGCTGTCTTCGACCTCATGGTCAAACTCGACGAGA
TTTCATCTACCACCCACGAAGTCTCCCGCATGCTCGAGGGCGTCCACGCT
GCCCGCACCCGCCAACAACAAGGCGTTGCACTTTTCCCAGGTATTCATGG
AGTGGGAGAGCGCTACATCGAACGCGCACAACAGGTACTCGCCTCAGCCC
TCGGTATCGCTGGATTCGGTGCCGAACCCTGGGACGGACATACCCTTGCC
CAAGCGCGCCGGGTAGTCCAACGCTACGCCCAAGATCCTAACTCCGAATA
CCGGCTGAAAAGCGAAGCCGAGAAACACCTCACATCCATCAACGAGCTCC
GCGTACAGATACTCCTCGAACAACTCCCCGTTGATGCCCTACGCATGGCT
ACCGACCACCGCCTGCGCTTTGGATCCCTCGATTCCATCCACGTCGCAAC
CGTCGCCGACGTCCTAAAAACACACACCTCCATCCTCACCACCGTGCAAG
GTATCGGCGCCCAAACCGCGGGGCGGATGAAAGCCGCAGCAGAAACACTC
AAACAAGAAGCACTACGCCGCCAAAACACCTCCATCGGCGACGAACCTAC
CCAACCCGCCATGCGTCTAATCAACGTGCTGGCCCGCTTCGACCAAACCG
AAACCATCACGCCCGAAGAACGCGCCCGCCGCACCCGCGTCATCGACTAC
GTAGAACACATACCCCCAAGCCTCGACCCCTACATCGTCATCAACCCAGC
AACGCCTGAGTTCAACAACTTCACCGACGACCTCCGCTGGATCGACGCAA
ACCCCAACCTCTTCCACCCACAAACAATCACCACCCCACCCGCCGACATC
TGGGACGACTACATCTCCCGTCCCGCTCACTACCAAGGCCTGCTAGCCAC
GCTGCTCGGCCGCGACATCGAAGGCGCAGACGAACTCCTCGACGCCACCA
CCCTCCAAAAAATCAGAGACCTCACCCTCGACAAAACTCATCTCACCGAC
CTCCACCTCCGCGGATACCAATCATTCGGCGCCCGCTTCGCCATCATCCA
AAAGAAAACCCTCCTCGGCGACGACATGGGACTCGGCAAAACAGTCCAAG
CCCTCTCCGCAGCTGCACACCTTGCCGCCACCGAAAAAGACTTCCGCACC
CTCGTCGTCGTACCCGCATCCGTCATTGTTAACTGGACCCGCGAATGCAA
ACGCTTCCTCAACCTCCCCGTATTCATCGCCCACGGAGACAACAAACAAG
ACGCCATCAACGCCTGGTCTAACACCAACGGAATCGCAATCTGCACCTAC
GACGGCGTCCGCACCATGGACATCCCCGCGCCGGGTCTGGTCATTGCCGA
TGAAGCCCACCTGATCAAAAACCCCTCCACCAAACGCACCCAAGCACTGC
GCAAACTTATCGACGCCGCCCCATACACCCTTCTGATGACCGGCACACCA
CTAGAAAACAAAGTGGAAGAGTTTGTAAATCTCGTGCGCTACATCCAACC
GGAGCTGATCACCCGTGGCATGTCCAAAATGCAGGCCGAGAATTTCCGCG
AGCGCATCGCACCAGCCTATCTGCGCAGAAATCAAGCTGATGTGCTTGAC
GAACTCCCAGAGCGCACCGACTCCATCGACTGGATCGACCTCACCCCAGA
AGACCGCAGCGCCTACGACGACCAAGTCCGCCAAGGCAGCTGGATGGGCA
TGCGCCGCTCCGCCATGCTCTCACCAACACCACGCCTAACTTCCGCAAAA
ATGCAACGCATCCTAGAACTCTTCGAAGAAGCAGAAGAACACGGCCGCAA
AGCCCTCATCTTCACCTACTTCCTCGACGTCCTCGACGAACTGGAAAAGC
ATCTAGGCGAGCGCGTCATCGGCCGCATTTCCGGCGACGTGCCAGCCACC
AAGCGCCAATTGCTTGTCGACGCCCTGTCCCACTCCAAACCCGGATCCGC
CCTCATTGCCCAAATCACCGCCGGGGGAGTAGGCCTAAACATCCAATCCG
CGAGCCTATGCATTATTTGTGAACCTCAAGTAAAGCCAACCATCGAACAG
CAGGCCGTCGCCCGAGTCCACCGCATGGGCCAAACCGCCACCGTCCAAGT
CCACCGACTCATCGGCGACGAAACCGCAGACGAACGCATGCTAGAAATCC
TGGCAGGCAAAACTCACGTCTTCGACGTCTACGCCCGGCTATCTGAAACC
GCAGAGATTCCAGATGCTGTGGATATCACTGAATCACAGCTGGCAGCACG
GGTTATTGATGAGGAGCGTGCACGGTTAGGGCTTACTGAATCCACTGGCC
CTAAAGATGAAGAAACGGCCTTAAGCTAG
>cg1307 Superfamily II DNA and RNA helicase
ATGAGTAATACCGAGAACGTCAACGGCGACGTAGAACAGCCGAATAACGT
CATTTCGTCGGAATCTCAGGAAACCCCGCAGGGTGACTCAGCATCAGCTG
ACTTCGCTCTCGAAACCCCAACCAACACTGTTGAAGATGCACCAGCATCT
GAGGGTAGCGAAGAGATCACCAGGGTTGCGGATACTTCTGAGGACGCCGA
CTCTGCAGATGCAGACAACGCGAGCAATGTAATCAATGAGAATGAGGACT
CCTCGGAAGGTGCTAACCAGCCTTCAAACGAGTCATCCTCTACGGAAGCC
AAATCCGGCTTCGATGCACTCGGACTGCCAGAGCGTGTTCTTGACGCTGT
GCGCAAGGTGGGTTACGAAACTCCTTCCCCAATTCAGGCACAAACCATCC
CAATCCTCATGGAGGGCCAGGATGTTGTTGGTCTAGCACAGACCGGTACC
GGTAAGACTGCAGCTTTCGCGCTGCCAATCCTTGCCCGTATTGACAAGTC
CGTGCGCAGCCCACAGGCACTTGTGCTTGCCCCTACCCGTGAGCAGGCAC
TTCAGGTTGCTGACTCCTTCCAATCCTTCGCTGACCACGTCGGTGGCCTG
AACGTTCTGCCAATCTATGGTGGACAGGCTTACGGCATTCAGCTCTCTGG
CCTGCGTCGTGGCGCTCACATCGTCGTGGGTACCCCAGGCCGAATCATCG
ATCACCTCGAAAAGGGCTCCCTGGATATCTCCGGACTGCGCTTCCTCGTG
CTCGATGAAGCAGACGAGATGCTGAACATGGGCTTCCAGGAAGATGTCGA
GCGCATCCTCGAGGACACCCCAGACGAGAAGCAGGTTGCACTATTCTCCG
CAACGATGCCAAACGGCATTCGTCGCCTGTCCAAGCAGTACCTGAACAAC
CCTGCTGAAATCACCGTTAAGTCCGAGACCAGGACTAACACCAACATCAC
CCAGCGCTTCCTCAACGTTGCACACCGCAACAAGATGGATGCACTGACCC
GTATTCTCGAGGTCACCGAGTTTGAAGCAATGATCATGTTCGTGCGCACC
AAGCACGAAACTGAAGAAGTTGCTGAAAAGCTCCGTGCACGCGGATTCTC
CGCAGCAGCCATCAACGGCGACATTGCTCAGGCACAGCGTGAGCGCACCG
TCGACCAGCTGAAGGACGGCCGCCTGGACATCCTCGTTGCAACCGACGTT
GCAGCCCGTGGTCTTGACGTTGAGCGCATCTCCCACGTGCTTAACTTCGA
CATTCCAAACGACACCGAGTCCTACGTTCACCGCATCGGCCGCACCGGCC
GTGCAGGACGTACCGGCGAGGCAATCCTGTTCGTGACCCCACGTGAGCGT
CGTATGCTTCGCTCCATCGAGCGCGCAACCAACGCACCACTGCACGAAAT
GGAACTGCCAACCGTCGATCAGGTCAACGACTTCCGCAAGGTCAAGTTCG
CTGACTCCATCACCAAGTCCCTCGAGGACAAGCAGATGGACCTGTTCCGC
ACCCTGGTCAAGGAATACTCCCAGGCCAACGACGTTCCTCTAGAGGACAT
CGCAGCGGCACTGGCAACCCAGGCACAGTCCGGCGACTTCCTGCTCAAGG
AGCTCCCACCAGAGCGCCGTGAGCGCAACGACCGCCGTCGTGACCGTGAC
TTCGACGACCGTGGTGGACGTGGACGCGACCGTGACCGTGGCGACCGCGG
AGATCGTGGCTCACGCTTCGACCGCGACGACGAGAACCTGGCAACCTACC
GCCTCGCAGTGGGCAAGCGCCAGCACATCCGCCCAGGCGCAATCGTTGGT
GCACTTGCCAACGAAGGTGGCCTGAACTCCAAGGACTTCGGCCGCATCAC
CATCGCAGCCGACCACACCCTGGTTGAACTGCCAAAGGATCTCCCACAGA
GCGTTCTTGACAACCTGCGCGACACCCGCATCTCCGGCCAGCTCATCAAC
ATAGAACGCGACTCCGGTGGACGCCCACCACGCCGCTTCGAGCGCGATGA
CCGTGGCGGACGCGGCGGATTCCGCGGCGACCGTGATGACCGCGGTGGAC
GTGGACGTGACCGTGACGATCGTGGAAGCCGTGGAGGTTTCCGCGGTGGA
CGTGACCGTGATGATCGTGGCGGACGCGGTGGATTCCGCGGACGCGACGA
CCGCGGAGACCGTGGTGGCCGTGGCGGTTACCGTGGCGGACGCGACTAA
>cg1395 conserved hypothetical protein
GTGTCTTCTATGTCAGCTCGCAATCCGTTCCGCCCCACTTTCGGAGTTTC
CCCCACCGTACTTGCAGGCCGAGACTCACTTCTACAGTCTTTCAAACTTG
GTCTCGCGGAAGGCCCCGGAAGCCCCTTTAGAGCATTGCTGATTTCGGGA
TCTCGTGGCATGGGTAAAACTGTGTTGCTCAATGAATTTGAAGATGCAGC
TGCGTCTCAAGGGTGGATCACGCTGCGCGCCTATCCGGATAATTCCATGG
TGGATGGCTTAGTTAATTCCGCCATCCCGGAGGCGCTACAGAATCTTGAC
GGACCGCAGTCCAAAAGAATGCTCAGTGGTGTGGCCATTCCTGGTATCGC
TACGGTGACGGCCATTGCTGATCCAACCAAGAAGGATCCCACTCCCACGC
TGATTTCCAGGCTCCGCGAGTTGGCTACTCGTTTGCAAAAGCACGGCTCC
GGAATTTTGATCACCCTTGATGAACTCCAAAGCGCCAATGTGGATCTTTT
GCATGTGTTGGCCACTGCGGTCCAGGATCTCCTACGGGATGATTTCGATA
TCGCATTGGTAGCAGCGGGTCTGCCAGAGGGAATCGATCGTCTTCTCCAG
CATGAGGGCACAACCTTTATCCGCCGAGCCGAAAGAATCCTGCTCAATCC
TGTCAACCATGAAGATTCGGTGGAGATGTTCCTGGATACCGCTGCGGAAG
GCCAACGCCACATGACTTCCGAGGCCGCCGAACTCGCGGCGCAGATCAGC
AAGGGCTACCCCTACTCCATGCAGCTGACTGGTTCTCTGGCATGGGCGCG
AAGTACTCTTGACAACTCCGATACCATCCAGGCCGAACAAGTAGATGCTG
TCCGCGACGAGGTTGTGCGCCGCATGGGCATGCAAGTCCACGAGCCAAGC
CTGCACCAGGTCCCTGATGGTGAGCTGACCATTTTGTACGCGATTGCCCA
ACTGTCAAAAAACGGCGAGATGGTGTCTACTGGAGATATCGCACACCTCA
TGGGCGTCAAGCCCAACGCCTTGTCGATGCAGAGAAAGCAACTTCTCAGC
AGAGGTCTCGTAGAGGTTCCCAAGTACGGTTTCCTCAATTTCACTTTGCC
GTACATGCGCGAGCACCTCCTCAACAGCCCGCACCACCGACCAATCACAT
AA
>cg0186 Methylated-DNA--protein-cysteinemethyltransferase
ATGGAGGAATTAGAATTTGATGAGCTCACCTCCATGGTGCTCGACTGCGC
AGACCTCATTCCGCAGGGAAAAGTAGCAACCTACGGGGACATTGCCAAAA
TAGTAGGAACTGGTCCGCGTCAGGTCGGCCGGATCATGGCGACCGCTGGG
CAATTCACATCTTGGTGGAGGGTGGTTCGCTCTGATGGTGGCTCCCAGGT
AGCGGGCACCGCGCGGTCTAAATGGGCAGAGGAAAATATTGCGTTTTCAG
AGCTCAGCGCACCAAAAGTGAGAATGCAGCAGCATCGTCTTTCTGAAGAA
GAACTAGAAACTATCGCAGGGAAGCTTCAACAAATAGCTGACTAG
>cg2226 Predicted Rossmann fold nucleotide-binding protein involved in DNA uptake
ATGATTGACTCCCGCTTGCTGGCATGGGCGTATCTCTCAAAAGTGGTGGA
GGGTCCCAATGCACACCTGCAAAAGCTCCTGAAAGAAGGTCATGATGTAG
AGCGGATCGCATTTGGTATTAAACACCGCGAAGAGTGGATTGGCGAAGGT
CTGCTGAAAAACACCGATTCCCGGTACTCGATTGATACCGCGCAAACTGA
TCTGGAAACTATCGCCAAACTCGGTGGGCGGCTCATCACACCTGAAGACG
ACGAATGGCCGATGGAAGAATTAGACCATGCTTTTGGATTTGCCGCTTCT
GGCATGAGTGATCATGTGCGTACCTATCAAGATGATGCGCTGCCACCGCA
TGCGTTGTGGATTAGGGGAGGAAATCTCAGAACACTCAGTGCACAGTCCG
TCACACTCGTGGGCACCAGGGCAATAAGCCAATATGGCACGGAAGTAACT
CGGGAATTCACCCAAAACCTTGTGTCTCATCAGTGGACAATCATCTCAGG
TGGTGCCTTGGGAGTTGATAGCGTCGCCCATAGTGAAGCCGTACGTGCAC
AAGGCTCCACCATCGCGATCGCAGCATGCGGATTGGATCGCTCGTACCCC
AGCCACAATCGAGATCTGTTCAACCAGATTGCCAAATCCGGAAAGGGGGC
GTTGGTGAGTGAATATCCACCGGGAACTCCACCTCAACGCCACCGCTTTC
TCACTCGCAATCGTCTCGTTGCTGCTCTATCTCAAGGAACTGTCGTGGTG
GAGGCAGCCTGGAGGTCAGGCGCGCTAAACACTTTGAGCTGGTGTGCTGG
TTTAGGCAGGATTGCTATGGCGGTCCCTGGGCCGGTAAATACTGCTGGAT
CACTTGGGTGCCACGAAAGGATTCGAAACGGCAGCGCACAAATGGTCACC
AGTGCGGATGACGTTCGGTCACTTCTGGGTGCAGTGGGTGCAATGGATAG
CCAAACTCAGTATGAATTAAACTTCGCGGCCACTCCAGTACAGGGTTTAA
CCAGAAATGAGCTGCGAGTTTTTGATGCGTTAGACGACCGAGGAGAGGGG
AGGGAAGCGGCGAGTATCGCTACCGAAGCCGGGTTGACCTTGCAGTTAAC
AATTTTCCTTCTCATTGCATTGAACAAGCGCGGAATCGTGAAACGCGACG
GAACTGCTTGGTCGAGAAATGCGGAAATGCCATAA
>cg0885 HELICASE, UVRD/REP FAMILY
ATGTCGGAATACAAACCACCCATTCCATCGGATCCACAAGTTCGGCTGAT
TAAGCCAACATCCAAGCTTCGTCCTCGTTCGTGGGAGGGCGAAGTTTCGC
ATTTAGTTAAACAAGGCACCGGTTTGTGGCGGGTGACTGGTGAGGCGGGC
TCGGGGGTGAGCTCCGCTGTTGTCGATACTGTCCTTGAACGCATTCGCCA
AGGGTGGGAGCCGTCATCGATGTTGGTTGTCGCCACGTCGAAAGAGGCGG
CGAGTCGCTTGAGGCAAGAGATCTCGGAATCCGTAGCCCAGATGGATTAT
GTGTCGGAGGGGCCGTTGGTGCGATCGGTGCACTCGGTGGCTTTCGCGCT
GATTCGTGATGCGTCGGATGATGATGTGCGGTTGATTACGGGCGCTGAGC
AAGATGCGGTGATTCGGGAGTTGCTGCGTGGTCATGCTGATGATGGTCGT
GGGGGGTGGCCGCAGGAGCAGCGTGAGGGTTTGCGGATGGTGGGGTTCGC
TAGGCAGTTGCGTGACTTTTTGCTTCGTGCGGTGGAGCGTGGTGTGGGCC
CTGATGAGTTGGTGGAATTGGGGGAGCGATTTGAGCGCGCCAATTGGGTT
GCTGCGGGTGAGTTCCTTCGTGAGTACAAGCAGGTGATGAAGCTGTCGGG
GGCGCATAGTTTTTCTGCGTCTGAGTTGGTGACTGAAGCGCTGCGTGGTC
CTGAGCCGTCGGTGAAGTATCGCGGTGTGTTTATTGATGATGCGCAGCAT
TTGGATCCGAAGTCGGCGGAACTTGTGTCGCGGTTTTTCCCTGAGGCGGA
GTTGGCTGTGGTGGCGGGTGATCCGCAGCAGTCGGTGTTTAGGTTCCGTG
GTGCGAATCCGGATTTTCTCACCAAGTTGAGTGTGGATCACGAGGTGGTG
TTGAAGGGGAGGAGGAAAGCGTCGACAAGCATTGTCGTGGCAGAGACCGA
GTCGGCGCATGCGGACCTGCTTGCTGACACGGTGCGGCGCGCGCATCTCA
TTGATGGGCGCAGCTGGTCGGAGATCGCTGTTATCGTGCGCTCGGCCGGC
ATGATTGCGCCGATTTGGCGCACCCTGCTGGCCGCCGGCGTGCCCGTGCA
CATCAGCCCGACTGATGTGGTGCTCGCCGAACAACGTATCGTTGCCGCAA
TGATTCTCGGGCTGCGCGCGCTGACGGAATCGCTCAACGCCATCGAGTTG
GAGGATCTTCTCCTAGGACCGATCGGTGGCGCCGATCCGGTGACTCTGCG
TCGTTTGCTGCGCGGGTTGCGGCAGGCGGAGATGAAGATGGGTGGGCAGA
GGCGAGCGATCGAGGTGCTCAGAAGCCTGCTCGCAGAGTCGGATGCGGAG
ATGTTGGGCTTTTTGACCGATCGTGAGCTGAATTTGCTCGAGCGGGTGCG
ATCTGTGTTGGAAGCGGGTCGTGAAGCGCTCGCGGAACACGGCAGTATCG
AAGAGGTGTTGTGGGCGCTGTGGTCGGCGACCGATCTGTCGAACTCGTTG
TCCGCGATCAGCCTTCGAGGCGGCGCATCGGGGTCCCAGGCCGATCGCGA
TTTGGATGCGATGATGGCGCTTTTCGACGCCGCCGGCGACTACGTGGAGC
GCTACCCGTCAGCGGGCGTGCGGAGTTTCATTCTGCATATTTCTGAGCAG
GAACTTCCGACCGGCATGCGTGAGCGACGCGGCGCGATCCCGGAGGCCGT
CGAGGTGCTGACGGCGCACGCGACGACGGGTCGTGAGTGGAAGCGCGTGA
TCGTTGCTGAGGTGCAGGAGGGCAGTTGGCCGTCGCTCGGTGAAACTGGC
ACGCTGCTTGGTCAGGAAGAGTTCGTCGATTTGGTGGATGAGGGTATTGA
TCCCGATATCATCATTTCCCGATCCGCCGAACGACTGGCGGAGGAACGCC
GACTGTTCTACCTCGCCACCACCAGATCCACCGAATCGCTCCTGGTTACC
GCTGTGAATTCCCCCGACTCCGACGAAGTCCGCGAACCCTCCCGGTTTTT
GGAATTGCTGAGTCAACCGATCGTTGTTCTCGAGGGGGAGGAAGCTTCGG
CGATCGCGGAACCGGAGGAGATTGGGCATCGGTTGTTGTCGATTCCTGCG
ATGGTTGCTGAGTTGCGTCGTGTGGTGAATGATCCGCGGGATCCGCGTCG
GAAGCAGGCTGCGAGGCAGTTGTCGAGGCTTGCGGAGGCGGGGATTCCGG
GTGCGAATCCTGCCGAGTGGACGAATCTGCGCACTCCGTCGACTGATGAG
GAGTTGATCAAGGGGGCGGTGTCGTTGTCGCCGTCGCGGATTGAGCAGTT
GTTGAATTGTCCGCTGCGCGCTGTGTTGGATCGTTTGGACAGTGAGGAGG
AAACGCCGATCGCGATGCTCAAGGGCACCTTGGTGCACGCGTTTGCGGAG
GCGGTCGCCGGTGGCGTCGATGCGGCGCTCGCCGAAGAGAAGGTGACCAG
CGCCTACATGCAGCTGGCGAACGTGCCGAGCTGGTCGCGCGAAAGCACCG
AAATTGCTTTTCGACGCATCCTCTCACGTACCGATACCTGGCTGAAGACT
TCTCGCGCCGATTTTACGGAAGTGGGAACGGAGATGGACGTATCGGTGAC
CATCGATGACTCCGTATCGATCCGTGGTCGCATGGACCGTTTGGAGCGAA
ACAAATCCGGCGAGTTGGTGGTTGTTGATTTCAAAACGGGCAAAACTCAA
ATCGCTGCAAAAGACATGGGCGATCACCCACAGTTGTTTGCGTATCAATT
GGCGTTGTCGAAAGGCGTGCTGCATGGTGACAAAATCAGTGACCCCAATC
CCGGCGAAACCCCCGATCCTGTAGGCGGCGGATTGCTTGTCTACCCAGCA
ACCGACACCAAGGCAGTCGGCCAGCGAATGCAGGATCCGAAAACTCAAGA
AGATCTCGACGATTTCGCAGCGATGCTCCCCGGCTTGGCAGAACACCTCC
GCGGCCCCAATCTGCTCGCCCGAGTAAATCCCACATGCTCGACGTGTCCC
GTTCGAAGCCTGTGCCCAGTTCAACCCGAAGGACGTGTCATCCATGCGTA
G
>cg1318 DNA repair exonuclease
ATGTCCACCGTGCATGATGAGATGGGCGTTATGAATACAACAGTGAAGTT
TTTACACTCCTCGGACCTACAAATAGGCATGACACGGTGGTTCTTATCCG
ATGAAGCCCAGGCCCGTTTTGACGATGACCGGATTAGGGCCATCGAAAAG
ATGGGCAAGATCGCACGGAAAAATCAGTGCGAGTTCATTGTGCTCGCCGG
CGACGTCTTCGAGCACAACTCTTTAGAACAACGCACCACTGGACGTGCCT
TAGAAGCCTTACGATCCTTAAAGCTGCCGGTTTATCTGCTGCCGGGTAAC
CATGATCCTTTAACAGCGGATTCGTTGTTTTACCGCGCCAAAGATATTGA
TGGCGTGACAATCTTGTCGGACACCACCGTGCATGGGGTGGCCCCTGGGG
TGGAAATTATTGGAGCACCCTTGCTGCACAAGATGGCTACTTCAGATCTA
GTGGCAGAAGCATTGAAAGATTTGGAACCAACCTCCAACGTCCGTATCGC
TGTGGGGCACGGCCAAGCAGAAGCTCGCACCACTGACCACCGGGCTGACT
TAATCGATCTGAACACTGTTGAAGCCAAATTGGCTGACGGTACGATTGAC
TACCTCGCTCTCGGCGATACCCACTCGGCTCAGCCAGTAGGTACCAGTGG
AAAAGTCTGGTTTTCTGGAGCTCCAGAGACCACAGACTTCCATGACTTAG
ATCCAGACCGTGTGGGCGGTGAGGTGAACTCTGGCAAAGTTCTCATTGTC
AGCGCCTCAAAGGGTGACGTTTCAGTCGAAGAAGTCGAGGTGGGGAAGTG
GACCTTCCACGCTTTATCTAAAGAAATCACCTCGGGTACCGATGTGGAAG
ATTTCTTGGATACCTTGCAGGCATACCCTGATAAATCTCGAACAGTCATC
AAATATGGTCTCCGCGGAACCATCACCCTGGAACAAAACAGGCGTTTGGA
AGAAGGCATCGCTGGGTTAGAAGATGTCTTTGCTTCACTCAAGCCTCGGG
AACGCACCACTGACCTCGTGCTGGAGCCAGGGGAGGAAGAATTAGCCAAT
CTCGATGCCACAGGTTACGCCGCTGAAGTATTGCGAGAGCTCGCTGACTC
TGTGGTCAATGGTGCAGCGCCGGAAGAAGACCGCGATGCGCTCAACCTAT
TGTTCCGACTAAGCCGGGAGGTCTAA
>cg0886 PROBABLE DNA HELICASE II PROTEIN
ATGCGTAGGATTTCTCCTCGACTGCTCTCCCAATATTTGGGACAAGAGCA
TGCGCCAACTGATCAGCAATCTGCGATCATTGGATCCGAACCCGGCCCAC
TGTTGGTAGTGGCTGGTGCCGGCGCAGGAAAAACGGAGACGATGGCTGCA
CGAGTGGTGTGGTTGGTAGCGAACGGATTCGTCGCCCCAGATCAAGTGCT
GGGTCTGACATTTACCAGGAAGGCGGCGCAACAGCTGTCGCAGCGCATCC
GAAAGCGTTTGGAGACTCTTGCTGGTGTGCCTCGCCTGAAAGACATTGAT
CCCACCGGCCAGTTGGAGAAAAACCTTCAGGCGATCACCCCAACGGTATC
CACCTATGACTCCTATGCGGGCACGTTGATTAGAGAATACGGATTGCTGC
TTCCAGTAGAACCTTCCGCAAGGTTGATCACACAAACGGAGCTTTATCAC
ATCGCTCGCAACGTGGTGAACAACTACGACGGTGAGCTCACCGCCACCCA
AACGCCGGCCACTGTCACGGAATACCTCCTCAAGCTGGTATCCGAAATGG
ACAACCACATGGTTACCGCAGAGGATATCCGTGAGGAGTCCGATCCGTTC
ATTAAGCTTTTCGACGAACTCCCCAAGGGCAAGGGTCAGCGCGACAACCT
CAACGCCGAAATGACGAAGTGGCGGGATACACAGGTCGCTCGCCTCCAGT
ACTTGCCCCTCGTGAAGGCTTTGAAAGAGGAACTGCACAATCAGGCTGTG
GTGACGTTTGGTGAGCAGATGTCTAAGGCAGCTCATCTCGCATCGACGCA
TCCTCAGGTGGGCTATTCGCAGAGGCGACGGTTCCGCGTTGTCATGCTTG
ATGAGTATCAGGACACCAGCCACTCGCAGCGTGTGTTGTTGAGCAGTCTT
TTCGGTGGCACCGATCCTGGTCTCACTGTTAATGCTGTGGGCGATCCAAT
GCAGGCGATTTATGGTTGGCGAGGTGCGACAGCGGCGAACTTGGAGAATT
TCGTTGACGATTTCCCCGTCATCCATCTCGATGGAAAAACGAGAGCACCG
AAAAACGAGTTGACCACAAGTTGGCGAAACCCACCAGAAGTCCTCACCCT
TGCCAACGCAGTTTCGCGGGAGGTGCTTGGGTCGCCCGATGCGCCGACTC
GGACGGTGCAGCCGCTGCAGCCTCGGGAAGGCGCACCGACCGGTGAAGTG
TCGCTCGGATGGTTTGGTACGGCGGCGCAGGAACGTGAGTTTGTGGCTGA
TGAGATGGTGAAGCATTGGAATGCGCGGGAGGAGAAGGGCACATTTACTG
CTGCGGTGTTGGTGCGTAAGAAGCGTCATTCGGCACCGATGGCGGAGGAG
CTGACCAAGCGTGGCATCCCCGTGGAGATCGTCGGACTGTCTGGTTTGTT
GGATATCCCTGAGATTGCCGATCTAATTTCTCTAGCAACTATGCTCGTGC
GTCCTCACGATAATCGGGCTGCGTTGCGTATTTTGGCGGGCCCGCATGTG
GGTTTGGGTGTGGCGGATTTGCAGCGGTTGCAGGGTCGTGCGCGCAATAT
TGCGGGTCGTGTGTCTCGTGAGCGTCGAGAGAAGAACCCAGATCCATTAG
CGGAGCTTGATGCGATTATTGAGGAAGCGACTGCGATTGAACCGGAAGCT
GTGGTTGGTCTAGCTGATGCGGTTGCCGATTTGGGTGAGGGCGATCGTTT
CAGCGAGGAGGGGTTGAGTCGTTTGAAGCGACTGGCCACTCAGTTGCGAT
ATTTGCGTAAGTACAGCTTGGGTCGTTCGGTGGCGGACATTTTTGCTGAT
ATTGAAACTGTGTTCAATATTCGCACGGAGGTGTTGTCGAGGCAGGATCC
TCACGCCGATGGTGCTGCTGGAACGGTGCATTTGGATAAGTTCGCAGAAG
AGGTCGCAAGTCACGGTGGCATTGGGCTGCCTGAGCTGTTGGACTATTTT
GAGCTCGCGAAGGATCAGGAAGAGGGCCTTGAGCCGGGTGAGGTGACGGT
TCGCAGCGATCGTGTGCAGATCCTTACTGTCCACAAGGCTAAGGGTTTGG
AGTGGGATATCGTTTCGGTGTTGCATGCCGATGCGTCGACCTATGATGCG
AAGGCTTCGACGTGGTTGAAAAATGTCACGATGATCCCGTCGTCGCTTCG
TGGCGATGCCGGGACCGGCGCCCCAGAGATGGATACCTCTGAGGCGGACG
ATCGCAAAGCTCTGGAAGATTCCGGCAAGGAGTACACCAGTGAAGTGCGT
GAGGGGTTACGGGAGGAAAATTCGCGACTGTTTTATGTCGGTATCACGCG
CAGCGAACGGGTGTTGCTCGTGACGGGTTCGGCGCTTGATGAAAGTGGCA
CAAAGGCGAAAGTTCCCTACGGCCACTTGGAGATCCTTCGGGATAAAGCG
CCGGAGTGCGTGGTGTCGTGGTGGGAAGGGGAAGAGGGGGACGTCGAAAA
GCAAAAACCTGCGGAAGGCGTCTTCCCGCAACTGCTCGCCGCTGACTCCT
CCGGCGCGGATTTGGTGCGCGGCCCGCGCGCCGAGCCAAACAACGAGGGC
GGGCTGGAAAGCTTGTGGGAAAAAGAGGTAAGCGCGCTTATCGACGAACA
CCGCCGCCTTTCCAACCCCATCGTCGAAGTCGAAACGCCCCGCGAACTCA
CGGCCACCGACCTCGTCTCTATGAAAAACAATCCCGAACAGTTCGCCCGA
CGAATGCGTCGCCCTGTCCCGTTCAAACCAAACACCTACGCAAAACGCGG
CACACTGTTCCACCAATGGCTCGAAGATCGGTTTGGCAGCACCGCGCTTC
TCGACGAAACCGAGCTCCCCGGCATCGACGAGGACTACTCGGATGACGCA
TTCATCGAACTCCGCGACGCGTTCCTAGGATCTACTTGGGAAAACCGCAC
ACCGGAATTCGTCGAACATCCCTTCGAAGTAACGATCGGCGAACACGTCA
TCCGCGGCCGCATGGACGCCGTCTTCCACACCGATGGCACCTGGATGGTG
GTCGACTGGAAAACCGGACGCACCCCAACCGGCCCCGAAATGGACGCAGC
GATCATCCAGCTCGCTGTCTATAGACTCGCCTGGGCACGACTCAAAGGCC
TCGAACCTGAAGAAGTCCGCGCAGCATTCCATTACGTCGCCCACGATCAC
ACCTTTGAGCCGAACGATCTGCCGACTCAAGAAGAACTAGCCCGGCTGCT
CAGTCAGGAATGA
>cg1035 TatD related DNase
ATGTCTAAGAAGAAGCCTCGCCCCATTCCGGTTCCTGCCCAATTTATCCC
TGGTCTCATTGATGCGCATACACATTTGGCATCGTGTGGAGGAGATCTTG
CAGGGTTGGTGGAAAGGGCCAAGGAGGCGGGCGTCGAAAAGCTTTGTACC
GTCGGTGATGGTTTGGCTGAGGCCGAGCTTGCGCTGGAGGCCGCGCAACA
GTTTGGCAATGTGTTTGCTGCGTGTGCGATTCATCCGACGAAGGCTGATC
AGTTGGATGGGGCTGCGCGTGCGCGGCTGACGCAGATGGCGGCGGATCCG
AATTGTGTGGCCATTGGTGAGACTGGTTTGGATTCGTATTGGATCAAGCA
CGATCCAGAGGACACGGCGGCGTTGGATGTGCAAGAGGAGGCGCTGCGCT
GGCATATTGATTTGGCAATTAGTGCGGATAAGCCGTTGATGATTCACAAT
CGTGAGGCGGATGCTGATTTGATGCGAGTGTTGGCGGATGCTCCACCTCC
AAAAGATACGATTCTGCATTGTTTTTCTTCGCCGTTGGACGTGGCGAAGG
AAGCGTTGGATCGTGGATATGTGTTGAGTTTTGCGGGCAATGTGACGTTT
AAGCGTAATGAGGAGTTGCGGGAGGCTGCTCGTATTGCGCCGATTTCCCA
GATTTTGATTGAAACCGATGCGCCGTATATGACGCCGGAGCCGTTTCGGG
GGAGTAGGAATGAGCCGTCGTTGATTGGTCATACGGCGCTATGCATTGCG
GAGGTTCGGGGGATGGCTGTGGAGGATGTTGCGGCGGCTTTGAATGAGAA
TTTTGATCGCGTTTATGGGGTCACAAATCTATAA
>cg2977 putative membrane protein
ATGAATCAAGACCTGTCACACGAGGATTCCGGCGACGGCAATTCTGTCGA
CCGTGGACAGATTCTGCTAGCAGTACTCATTGGACTTGCCCTGATTGCCA
GCGTCATCATGCTGCTGGCCAACAGTGACGGCGCCATGAAAATAGCACTT
CTTGCAGCGCTGTGGGCGGCAATCATCGGATTCTTCCTTGTTTATCGGTC
CCGCAAACAAGTCGAAGCTGCTGCGCGGGAGAAGGAAACCCTCGAATACG
CACACCAATCTGAACTCAACCGACTAGAAGCTGAACTCGTCCAAGAAAAA
ATGGAGATTTCTGAATCCCGTCGTGCACGCGATCAGGAAACCCTTGAGGA
AATCAAACTTCAACTGGAGGAAATGCGCACCCAGCTGTCTGAGCTTTCTG
GCCGTGAATGGGGCTATGAGCCAACCATGCTGCGTGCCGAAGCCCGACGA
ATCCTTGAGTTGGAATCCCAGCAGCTTTCCCAGCAGTTCCAGGCACCGCA
GCCAGAAGTCCCGGAGCCTGTTGCAGTTCCAGAGCCAATGCCGGAACCTG
CACCGGTGCCGGAACCAGTACCAGAACCTGAGCCAGTTGAAGTTGCTGTC
GAAGCTGAGGAAGAACCAGCACCAGGTCGCAGAAGGCGTAGGCACGCAGC
TCCCGAAGAAACTGGCGGACGCCGACGCAAAGATGAACGCCAAGGCGGTT
TGAGCGTGGCTGATCTTCTGGCAGCAGCAAGGAAAAAGGAAAACAACTAA
>cg2321 DNA polymerase III epsilon subunit or related 3'-5' exonuclease
TTGATTCAGATCGAAAGGACCACACCTGTGATCGCGGCTTACGGCGCATC
CATCTCTTTGGATGATTCCACCCTCACCATCTCTTATTCCCCTCTTCTTG
CTGCTCTTTCTAAGTCCAGCGCACAATCGGAATCGGTTGATCTGACACAG
GTCTCTGGAGTATCTGTGCAGGATCCCACTGCTTTTACTCACGGCTTTTT
AAACCTGGAGGGCGTGGATAAATCCATCGCCTTTGCCCCAAATAGTTCGG
CAGATTTAGCTGCGCTGGCAGCTGATATTGATGCTGTGTTGAAGGGTGAA
AAGCCACAGCACCTGGGTGGCGGAGCCCCAGTAGTGCCTTCAGCTCCATC
TACTGTTGCTGGTCTGAATTTCGTGGGCTTTGACGTAGAGACGGCCAATG
ATGATTGGGGTTCCATCTGCCAGATTGGTTTGGTCAAGTACGTCGATGGT
GTGGAGGAATCTTCGGAGTCATGGTTGTGTACTCCTCCTGAGAGCCTGAA
TTTCTTCAATGAGATCAACATTGGTATTCACGGCATCACCCCAGAGATGG
TTGCTGATCAGCCTCGTTTTGCAGACCTTGTGCCCAAGATGGTGGAGTTC
GTTGGGGATTTGCCGTTGGTTGCTCACAATGCGCAGTTTGATTTCACCGC
ATTGTCGCGCGCGTGTGCTGCCTCAGGGATCGATGTCCCAGAGATGATTT
ATGGCTGCTCGTTGACGTTGGCACGCAATGAGAAGCTGCAGGTGGAAAAC
CATAAGCTTCCAACGGTGGCTAGTCATTTAGGGTTTGAGCTGAAAAACCA
CCACGATGCTGCTGAAGATGCTCGCGCGTGTGCTGCGATTACCATTGCGT
TGGCAAAGCGCCACAGCTTTGAGGGCAGCTTTGTGGATTTCGTTCACAGC
CGTGGTTTCACCATGGGAACCGTGGATAACGCCCGGGTGTATCCGGTGCT
GAAGGATCGTTCTGGAGCTAACGTTGCGTTGCAGCGTCGAAACTTTGGTT
TGGATGCAGGCAAGACCGAAGTCCCCGTGCAGCCAGCTGTTGATCCAGCG
TGGGAAACCCCGAAGGCGGAGCCAAAAAAGCAATCTGGCCGCCGTGCACC
GTGGGACAAGGTGGCTACCCCTGAGGTCATTCCAGATCCCAATCCCGATG
CTGATCCGTCGAGCATTCTCTATGGCCAGAATGTGACCTTGACTGGTGAT
TTCGAGCCATATGAAAAGGGTGCGCTGTGGCAGCGGATCGCTGATCAAGG
TGCGCTGATCGGTAAGAACGTGACTAAGAAGACCACCATTTTGGTTGCTG
GCCCGTGGGCAACGATTACCAGTAAGCAAAAACGTGCTGAGGAGTTGAAA
GAAAAAGGACAGGACATCCAGATCTGGGATGAAAAGCAGCTGTTTACGGC
TCTGGGGTTAGATGAACAGCCCCCGTTTTAA
>cg1607 NTP pyrophosphohydrolases including oxidative damage repair enzymes
GTGATCATGGTTTCGAAGATGCACATTCCCGGTACCCATGAGTTCACGGT
GACAGATACTGAACTGTTGTTAGAGTCCCCAATTTTGGGCGTTCGTCGAG
ATTCATTGATCATGCCGGGTGGTTCCACTGCCCGCCGTGAAGTGGTTGAA
CACTTTGGGGCGGTCGCAGTGGTTGCCTTTGATGGTGAAAACATTGCGAT
GGTCAAGCAGTACCGTCGCAGCGTGGGGGATTCCTTGTGGGAGCTGCCTG
CAGGTTTGTTGGATATTGCTGATGAGGATGAACTCACGGGCGCGCAGCGC
GAGCTCATGGAGGAGGCTGGTTTGGAGGCCAGTGAGTGGTCCGTGCTCAC
TGATTTGATTACCTCGCCTGGTTTCTGCGATGAAGCGGTGCGTGTCTTTC
TAGCCCGAGGCCTCACAAAGGTTGAGCGCCCGAAGGTTATGGGCGATGAA
GAAGCGGACATGATTAACCAGTGGGTTCCGCTACATGAGGCAGTGGGAAT
GGTGTTTAGTGGCCAGTTGGTTAACTCCATTGCCATTGCGGGTGTCATGG
CTGCTGATGCTGTGATTGCGGGTCGTGCGTCTGCGCGTGCCGTCACCGCG
CCGTTTACCTATCGCCCTACGGCGTTGGCGCAGCGTCGAAAAGCGCACGG
CATTGTTCCTGACATGAAAAAACTATGA
>cg1963 Superfamily II DNA/RNA helicase
ATGACCTCAACAACCCAACCTGGCACAACACCTGAGCTCAGCGCAGACAC
TCATTCTGAGCCCTGGGATGTCGTCATCGAAAACACCCTTGAACCTTTTC
AAAAAGTCGTTCGTCAATTTATTATTGACCGCCCCTATTCCGGCATTTTC
CTCACCATGGGTGGCGGCAAAACACTCACTACCCTCTCCGCATTGACCTA
TATCCAGCCACCTGGACACATTCTGGTTGTCGCGCCTCTAAATATCTCTC
GACTCACCTGGCCCGAAGAGGTTCGCAAGTGGAATATCCCTGTTAACGCA
ATCTCGCTGATCACCAATGAGCGCGGCACCAAACTCACCCGCGCCAAACG
CCTCAAACTCTATGAGGAAACAGCGACCACACCACCAACGCTGTATTACA
TCACCATTAATCTGCTCGAAGATATTGTCAATTACTTTGGTGATAGGTGG
CCGTTTTGGACAGTCATTATTGATGAGTCACAGACAATCTCTGATATATC
CTCCAAGCGCACTAGAGCGCTCTTTTCTGTGCGACCCTATATCGGCAGAC
TAATTCTGCTCACCGGAACCCCCAGCGCCAACAAGTTCGACTCCATTTAC
GCCCAAGTCGCAGTGCTAGATTATGGTGCCAGCCTGGGTGACAACATCGA
CGTATTCCGAGCCAGATGGTGTGCGCCCGACATTATTACCGATAAACAAG
TGCGTCGCTGGAAGCCGGCTAACAAGCAGGCTGAAGCAGAGGTGTACCGC
ACTATTAGCCACCTGGTCATGTCTGCCGTCAACACGGATATTAAGCTGCC
ACCGCTGCATTTTGTTGATCACGAGGTACACATGAGCGACGATGAGCACC
GCGACTACGAGCTCTTCAAAAAGGACGCGGTGCTTGCTGCATTGCTCGAT
ATGGCTGAAGAGAATGAGGGTGGCGAAGGCGCTGATGACACTGACGCTGC
TGATTCAGCGACAACGACCCCACCTGCGTCATCACAGCCAACAAACCCTG
CCATCCCCGCTGGACTGCTTCAGGCAATACAACAAACCCAGGACACCAAT
GGTCGCGCCATCGCGCCTGTGACCACAGCTGAACTTGATCATTTTGATGA
TCTGCCAGTACAGCGCCAAGAAGATCTTGGCACCTTAGTTGTTATCTCTG
CTGTTCACGCAGCGACTCTGCGCATGAAACTGCTGCAATACGCAGGTGGT
GCTGTCTATGTCGATCCAGAAGATTCTGCGCAGTCCCAAGACCTGGATGC
CAGCACTGCACGTGATGTTATCGACGCTACCAACACCGCCATGACCACTA
TTACCTCTCGCCCCACCATGATTGTGCACCTGCACAAGGTGCGAAAAGTC
ATTGAGATTTTATGCAACCCTGCACTCGGCGGTGAACCTGTCAATATCGA
CCAGGACGAGACCGGAAAACAGGTGTACACACCCACCCCAACGCTTGTCG
CCTATCGCTTTATCTCTGACAAAGAAATCCTGCTTCATTACCTGGCGCAG
GCGGGTGTGCAGGGTGTGGAGGTTTTTGACGGGTCGCCTGACATGCTGAG
CCGTTGGAATGCGGGACGCATTCCGGTCTTACTTTTGCAGCCTGCGTCTG
CTGGTCACGGCTTGAATTTCCAGCACGGCGGGCATCGCTTGGTGTGGTAC
AACCTGCCCGATAATAACGAGCATTATATGCAAGCGAATGCTCGTCTACA
TCGCATTGGTCAAAAGAATCCCGTGACCATTCACCGCATTATTACCGCTG
ATACTTATGATGCGAATATGCCGGCGATTCTGGCCGGTAAAGCAAATAGA
CAGCAACGTCTCATCGACGCCGTGCGCCGTGATCCAGTCTAA
>cg0302 DNA polymerase III epsilon subunit or related 3'-5' exonuclease
ATGAGCACCACTTCGGAATCACAAGATCACGCCGCAAGAATCGAAGCTGA
GCGCCAAGAAGCTATTGAGGCGGCTCCTTTTGTTTCCGTCAGCATTCAAT
CAAGTGGAATCCACCCATCGACTTCACGCATGGTCACCATTGATTTGGTA
ACGCTGTCCCCTAATTTGGAGCCGGTGGAAACTTTTCATGCCGTGTTGGA
TTCCAAAACTGATCCTGGCCCCTTCCACCTTCATGGCGTGACAGAGGAAG
AATTTGCCAGCGCTAAGCGTTTCGGCCAGATTTTGAAAAGCTTGGACCGC
CTCATCGATGGTCGTACCCTGTTGATCCACAATGCTGCGCGAAGTTGGGG
CTTTATTGTTTCCGAAGCCAAGCGCGCTATGAATGATGCTGCGCGCGCCA
ATCGCAACAGCAATCGTGGAAATCGCCGTGGTGGTCGCGGACGCCGCAGG
CAGCGCGTGGGGCACATCCCAAAGCCGCTGGTGATCGTCGATACGCTTGC
ATCGGCGCGTCGACAAGCAATCGCTTTAGACGACGTGCGCATCCGGGGTG
TCGCACACACCCTCGGCCTTGACGCGCCTGCAGCGGAGGCGTCGGTGGAA
CGCGCGCAGGTGTCGCACCGCCAGTTGTGCCGCGAAGAAACTTTGCTTGT
GGCACGGCTTTATGGTGCGTTGAAGCAGTCAGGACCGCTGGCGGAAATCG
ATCCCCAGTCCTTGCGCGCCGATAAGTTTGGTTTGCAACGCTCGATCATC
CGGGTGCAGGCGCAGGAAGCTTCGCCAACGCTGGTCAACCCTGGTACGTA
TGAGCCGGGAAAGACGCTGATCGCTGGGATGGAAGTTGTGGTCGCGCCGG
AAATTGAGATGGATCCGGACATCATTATCCAAGCGTGCGTCGATGCAGAT
TTGTCCTATTCTGAGAAGCTCACCCGGCAAACCTCAGTGGTGGTGTGCAA
TCAAACCCGCGACATTGACGGCAAAGCGATGCATGCCCAGCGTAAAGGAA
TTCCGCTGCTGTCCGATGTTGCCTTCTTAGCAGCTGTTAAAAGGGTAAAA
GAAGGGAAGAAAGTGGACGTCGAAAAGCGCTAG
>cg3274 Site-specific recombinases, DNA invertase Pin homolog-fragment
GTGCACTTCATCAAGGAAAACCTGATCTTCTCGGCGGAATCCAATGCTTT
GCGGGCCCAGCTCATGCTGAGCATTCTCGGCTCCTTCGCTGAGTTCGAAC
GCTCCATCATCCGGGAGCGCCAAGCCGAGGGGATCGCCTGGCGAAAAAGG
CCGGCAAGTACAAGGGCCGCAAACGCGCCCTCACCCCGGACGACGTCGAG
AAAGCCCGGAAACGGGTAG
>cg0845 Superfamily II DNA/RNA helicase, SNF2 family
ATGTCTGAATCAGGTGCGCTAAGTTCTACTGACTCTCTATCCCCGGGTGT
CACCATTGAAGTCCGAGATGAAATTTGGCTGGTTACTCACGTTACTCGCT
CCACAGATGGTTTTAGGGTTAAAGCTCGTGGTCTCTCTGATTATGTGCGG
GACCACGAAGCTACGTTCTTCACCGCACTTGATAAAGATTTGAAGGTCAT
TGACCCTACCCAGGTCACCGTCAGTCTTGATGATTCCTCCAATTACCGTC
GCACCCGCCTGTGGTTGGAGGCCACCATGCGTAAAACTCCGGTACCGCTC
TATCAAGAGTCACTTTCCGTGGCAGATCAAATGCTCGCCGATCCACTGGA
GTACCAATTAGCAGCCGTGCGCAAAACCCTCTCTAGTGCTAACTTGCGCC
CCCGCGTGCTTATTGCTGATGCCGTGGGACTTGGCAAAACCCTAGAAATG
GGCATGATCTTGGCGGAACTTATCCGCCGTGGCCGTGGTGAGCGCATTTT
GGTAGTCACCCCGCGCCACATTATGGAGCAGTTCCAGCAGGAAATGTGGA
CCCGTTTTGCCATCCCGCTCGTTCGTCTAGATTCCGTGGGCATCCAGCAA
GTGCGCCAAAAATTGCCAGCATCACGCAACCCTTTTACTTATTTCCCGCG
CGTGATTGTCTCTATGGATACTTTGAAATCTCCGAAGTACCGCGCGCAAC
TAGAAAAGGTGCACTGGGATGCGGTGGTTATAGATGAAATCCACAATGCA
ACCAATGCTGGCACCCAAAATAATGAGCTAGCCCGCACACTTGCGCCTAC
TGCCGAGGCTCTTATTTTGGCCTCTGCCACCCCGCACAATGGTGATCCAG
AATCCTTTAAGGAGATCTTGCGTTTGCTTGATCCCACCGCTGTGATGCCT
GATGGCACCATTGATGCCGAAGCTGCACAGCGTCTGATCATTCGTCGCCA
TCGCAATAGCCCTGAGGTTTCAGGTTTTGTGGGCGAAAAATGGGCTCCAC
GCAATGAGCCTCAGAACTTCCTGGTCGCTGCGTCAAAAGAAGAAAACGGC
GTTGCTGCAGAACTCAACCATGTGTGGATTTCACCAGGTGCGAGCAATCC
GATCAAGGATCGCCTCTTCCCCTGGACATTGGTGAAGGCTTTTCTCTCCT
CCCCTGCAGCCTTGGGCGAAACAGTGTCCAATCGCCTCAAAAAGGCCTCT
GCACCAGAAGAAAAACGCGCCCTAGAAACCCTTTCACAACTTAATTCTGC
GATCACCCCGCAGACCTCACAGAAGTACCAATCTCTACTGAGCTACCTCG
GTGACATCGGAGTGAAGAAGAACTCCGATACCCGCGTGGTGATTTTCTCT
GAGCGTGTCGCTACTTTGCACTGGCTGCAGGAAAACCTCATCCGTGATCT
CAAGATGCCACCCAACTCTATTGCTGTTATGCACGGCGGTCTCCCCGACC
AGGAGCAAATGCGCCTGGTGGATGAGTTTAAAAAGACGGATTCTCCCATC
CGCATCATGATCACCGGCGATGTTGCCTCAGAAGGTGTGAACCTGCATAC
TCTCTGCCACAACTTGGTGCACTATGACATCCCGTGGTCACTGATCCGCA
TTCAGCAGCGCAATGGCCGTATTGATCGTTATGGTCAAACCCACAACCCT
TCCATCGTTACCTTCTTGCTCGATCCCGCCGAGGATTCCAAAGTAGGTGA
AGTCCATGTGCTGGAGAGGCTCATGGAGCGCGAACATGAGGCGCACTCTT
TGCTCGGTGATGCCGCATCTCTCATGGGCAAGCACTCTGAGCGTTTGGAA
GAAGAAACCATCCGCGAAGTCCTGCGCGGTGCCCAAAACTTTAATGATGC
AGTGGCTGATCCAGCGGAAGTCCTAGAAAACCCAGCAGGCCTAGATGATA
TTGATTGGTTGCTAGCCCAAATCGCCCAAGCCGATGCCAAGGCAGAAACA
GAAGCAGAAGCAGAAACAGAAAACCAAACAGCACCAGATGCAGCTTCCAA
TAGCACGCAGCATGCACAACGCCGGTTGTATGCACAGGAAAGCTCTTTCC
TCTATGACTGCCTCCTCGAAGGTTTCAATAACGTACCGGAGGATTCCATC
AACCGCGGTGGCGTGGGGTTCAAAAAACACGATAATGACATCGTGGAGCT
CACCCCCACCGATGATCTGCGCCGTCGTCTAGATTTCCTCCCGCAGGATT
ATGTGGCTGCCCGGAAAGTTAAGGAAGATCTCCTACTAGCTTCCACACTG
ATGCGTGGCCAAGAACGCCTCAACGCTGCGCGCACTGGTGAAGATGGCAG
TACCTGGCCAAGTGCCCACTATCTAGGCCCCCTGCACCCAGTCACTTCGT
GGGCAGCTGACCGCGCGCTGGCAACCATGCCACGTTCGGAAATTCCGGCG
GCTAGTGGCAAAGTCACAGAGCCAACGGTGCTGCTTATGTCCACATTGAG
CAATCGGCGTGGCCAAATTGTGTCTCGTTCTTTTGTGGCTTCTTCTGGCC
CCTTTGATACTGAGGTGCTGTCCGATCCCATCCAATGGTTACATTCCATA
GGCCTCGATGAAACCGCCATTAACCCAGGTACCGCTGCACTCCCCGACGA
TATTGAGCAGCTTATTTCCCTTGCTGTTCAGGCCGCCCGCGGCGAGATCC
GTCCATTAATGATCGCCGCCCGCGCTCAGGCTCAAACTCGCGTTGAGCAT
TGGGCTAAGCGAGCCGAAGCCTGGAATAACAAACGAAGTGGCGCAGCGTC
CACGTCCCGTACCGCGCGAACTGCAAAATTGATTGAGGAGCAGCAGAAAT
TGAGTAATGCTCTCGAGCCAGACCGTGAACTTATTAGGCCTTTGGCCGTC
ATTCTTCCGCAGCCCGCAACTTTGAACACCGAGGTTTAA
>cg1752 'int, putative phage integrase-fragment
GTGATGCACACTTCATCTCCGATGAACGAGTTGCAGGCCGCCGGAGAAAG
GACGCCACCCGAAACTGCAACATCTGTGCGAACTATCCCTATTGCCGATG
ACCTCATCACGGTGCTTGACCACAGAGTTGCGGCGTCCATTCAGGGCGGG
ATCTTTGAAACCGCTCGCGGTGCTCCATACCGAATTGCTTCTGCCGACGG
TGAATTAAGGAAGACAGTGACGCGCCTTCGTGAGTGCGTGACGTTCCACA
GTTTCCGCCACCTGTATGCGTCGAGGTTGATCTCAGCGGGTGTCTCGGTG
AAGCAGGTTCAGAGAGATTTGGGGCATACGACGGTATCGACAACCTTGGA
CACTTATGTCCCCTTCTTCCCTGGCCTCAACAATCAGCCAGCAGCTGAAA
TAGCCCGCATGATGAAATTCATGCGGGCAACTTGCGGGCGGCTAAGTGCA
GGAGTTTAA
>cg1998 cglIIR, RESTRICTION ENDONUCLEASE CGLIIR PROTEIN
TTGTCACACCACACTCACCTCAATAACTACATCACGAGCTTGAGTGATAA
CGCTGATCTCCGTGAAAAAGTCACCGCAACCGTAGACGCTTTCCGCCATA
CCGTCATGGATGACTTCGACTACATCAGTGATCAACAAGTCCTGCTTTAT
GGCGATGTCCAAAGCGGTAAAACCTCACACATGCTGGGAATTATCGCAGA
TTGCCTCGACAGTACGTTTCACACCATTGTTATTCTGACCTCGCCTAACA
CACGGCTCGTGCAACAAACATACGACCGTGTTGCCCAAGCATTTCCAGAT
ACTTTGGTGTGCGACCGTGACGGATACAATGATTTCCGTGCGAATCAAAA
GAGCCTCACCCCGCGAAAATCTATCGTAGTCGTCGGAAAAATACCTGCAG
TTCTTGGTAATTGGTTACGCGTCTTTAACGACAGTGGCGCACTTTCTGGA
CACCCTGTACTCATTATTGATGACGAAGCAGATGCGACAAGTCTCAACAC
CAAAGTAAATCAGTCTGATGTTTCGACCATTAACCACCAGCTCACTAGCA
TAAGAGACCTTGCCACAGGATGCATCTACCTTCAGGTCACAGGTACACCT
CAAGCGGTGCTTCTTCAAAGCGACGATAGCAACTGGGCAGCGGAACATGT
GCTTCACTTCGCACCTGGTGAGAGCTACATCGGTGGTCAACTTTTCTTTT
CTGAGCTCAACAACCCTTATCTACGACTTTTCGCTAATACCCAATTTGAC
GAGGATTCTCGCTTCAGCGACGCCATTTACACCTATCTCTTAACCGCAGC
ACTGTTCAAACTTCGCGGTGAAAGCTTGTGTACCATGCTCATTCACCCCA
GCCACACTGCATCCAGTCATAGAGACTTCGCGCAAGAAGCCCGCCTCCAA
CTCACTTTCGCCTTCGAGCGATTCTATGAACCAATGATTCAGCACAATTT
CCAACGTGCTTATGAACAGCTCGCACAAACTGACAGCAACCTGCCACCCT
TGAGAAAAATTCTTAACATTCTTGGTGGCATGGAAGATGACTTCTCCATC
CACATCGTCAATAGCGACAACCCGACTGTTGAGGAAGATTGGGCTGATGG
TTATAACATTATTGTCGGTGGCAACTCGCTTGGGCGCGGTTTAACATTCA
ACAACTTGCAAACCGTTTTCTACGTGCGCGAATCCAAGCGACCACAAGCA
GACACCCTGTGGCAGCACGCCCGCATGTTTGGCTACAAACGCCACAAAGA
CACCATGCGTGTGTTCATGCCGGCCACTATTGCTCAAACCTTCCAAGAGG
TCTATCTCGGCAACGAAGCTATTAAAAATCAGCTCGATCATGGCACGCAT
ATCAACGACATTCGGGTCATTTTAGGTGATGGCGTCGCACCTACTCGTGC
CAATGTTCTCGACAAACGCAAAGTTGGAAACCTCAGCGGTGGCGTCAACT
ACTTTGCCGCTGATCCTAGAATCAAGAATGTCGAAGCACTCGACAAAAAA
CTCTTGGCCTACTTAGACAAGCACGGTGAGGACTCCACCATCGGTATGCG
CGCGATAATCACCATTCTCAACGCCTTTACTGTAGACCCCAACGATCTCG
ACCTCGCGACCTTCAAGGCTGCGCTCCTTGACTTTGAACGCAACCAACCT
CATCTCACAGCACGTATGGTGCTGCGAACAAACCGCAAAGTCAATCAGGG
TACAGGCGCCCTGCTCTCCCCTACTGATCAAGCTCTCAGCCGTGCAGAAG
TCGCACACCCATTATTGATCCTATACCGCATTGAAGGTGTTAACGATGCT
GCTGCGCAACGAGGTGAACCTACGTGGTCAAGCGACCCTATCTGGGTGCC
TAATATTAAACTCCCTGGTCAACGTCAATTCTGGTGCGTAGACGGCTAA
>cg1996 cglIM, MODIFICATION METHYLASE
ATGAGTACAAAACCCACTATTGTGTCCACATTTTCTGGTTGCGGTGGCCT
CGATCTTGGCCTCCAAGAGGTCGGATTCGACCCCATTTGGGCCAACGACT
TCTCAGAAGAAGCAGTCCAAACCTATAAGCACAACATCGGTGACCACATT
GTTCACGGCGACATCACTGAAATTGATCCGTTTACTGATGACACCATCCC
TGACGGCGATCTCGTCACCGGCGGCTTCCCGTGCCAGGACTTCTCCATGA
TCTGGAAGCGTCCTGGACTCGACGGCAAGCGTGGCACCCTGTACCAAAAC
TTCCGTGACTTTGTTGCAGCAAAGAAGCCTAAAGCCTTTATCGCAGAAAA
CGTGAAGGGCCTACTCACTGCTAACCAGCACAAGGCTATTAAGACCATCA
TTGAAGACCTCGAAGCTGTTGAGCCTGGCTACATCGTCAAGCCTCGCCTG
TACAACTTCGCTGAATACGGTGTCCCACAATTCCGCGAACGTGTGCTCAT
TGTTGGCATTCGCCGTGACACCGGCTTTGATTTCAAGCACCCAGCTCCTA
CCCATGGCCCTCGCGGTGACATGCCGTATAAGACTGCCGGCGAAGCGCTC
AAAGGCGTGAAGGATGTCCCCACAAACAACAACCACATGAAGATCATGCC
TCGCACCGTTGAAGTGCTTAAGCGCATCCCTGAGGGCGAAAACTTCACCG
CGATCCCCAAAGATGACCCCTACTACGTCAAGGGCATGATTAGTCACGTT
TACCGTCGCTTGCACCGTGATGAGCCATCCAAAACCCTTATCGCCGGTGG
CGGCGGGGGTACATGGGGATACCATTATGAAGAAAATCGAGCATTGACCA
ACCGCGAGCGGGCTAGAATTCAATCGTTCCCCGATGACTTTGAGTTTTTG
GGATCAAACACCGAAGTCCGCCGCCAAATCGGTAATGCTGTTCCTCCTGT
AGGTATGCACGCTGTGGGTGAGCGACTGATGAACCTGTACACCGGGAATT
ACACTCCCGTCGATCTAGAGGAACAGCACGCGTACCTGCAGACGCTCTCC
ATTAAGGAACGTCTCGCGCTGGCTGATCAGGAAGCTGATTAA
>cg2776 dinG, PROBABLE ATP-DEPENDENT DNA HELICASE-RELATED PROTEIN
ATGGCTAAGGCTGTGACCAAGGCTTTTGATACAGAGCGTCACTTGGCGGT
GCAGGCGGGTACGGGTACGGGTAAGTCTTTGGCTTATCTTGTTCCGTCGA
TTCGTCATGCGCAGAAGTCTGATTCCACGGTCATTGTGTCTACTGCGACG
ATCGCGTTGCAGCGCCAGTTGGTCAATAGGGATCTCCCCCGCTTGGTGGA
TGCGTTGGAACCCTTGATGGAACGTCGCCCGACTTTTGCGATTATGAAGG
GCCGTTCCAATTATTTGTGCATGAATAAGGTTGCCCGCCAGGAAGAGCTG
AATCAGGAAGATGCCCTGATTGAGCAGGAGGATATCTCGTGGTTAGGTAA
GCACATTGTGCGCCTTAATGAGTGGGCCAATGAGACTGAGACTGGCGATC
GTGATGATTTGGATCCGGGTGTTCCTGATCTTGCGTGGAAGCAGGTAAGT
GTTACTGCCCGTGAGTGCATTGGCGCGTCAAGGTGCCCGCATGGCGAGGA
TTGTTTCGCTGAGATTGCCCGCGGGAAGGCAAAGGAGGCTGATGTGGTGG
TCACCAACCATGCGTTACTTGCTATTGATGCGTTGTCGGATGTTTCTGTG
CTTCCTGAACATGATGTGGTGGTCATCGATGAGGCCCATGAGCTAGATGG
TCGCATCACTGCTGTGGCGTCGGCTGAGATCACGGTGAATTCGCTCAATT
TAGCTGCTCGCCGTGCGTCCAAGTTGGATTCCGATAAGCGGGAAGAACGC
GTCCAGGAAATCGCTGGCGATTTGGAAACCTTGTTGCAAACCATGCAGCC
GGGCCGGTGGAATGACATGGATGAGGGTTCCAAAGGCACACTGGTGGCAT
TGAAGGACGCGTTGTGGGCATTGCGTGCTCAGATCGCGGGAGCACCTGAG
GGTGAGGCTGCGAATGATCCGGAGCGTTTCGCCGAGCGACAGAATTTAAG
CAATCACTTGATGGAAATCCATGATGCCAACGTGCGCATTTTGGAGGTCT
TCGCGGAGGAGGATCCCTCCAAGCAGTACGACGTGGTGTGGCATAACCAC
GATGATCGTCGCGGGGATTCCCTCAATGTGGCGCCGCTGTCGGTTGCAGG
GCTGTTGCATGAGAAACTGTTCGCGGAAAACACCGTGGTTTTGGCCAGTG
CGACGCTGACCATTGGTGGCAATTTCAACGCAATGGCTGCCAGCTGGGGT
TTGCCGAAAGGGTCGTGGGATTCCATGGATGCCGGCACGCCGTTTGATCC
AGCGAAGTCGGGTATTTTGTACACCGCTCGACACCTTCCGGACCCTGGCC
GCGATGGGTTGCCGGAGGAAACGCTTGATGAAATCTACGAGTTGATCACT
GCGGCGGGTGGCCGAACTTTGGGGCTCTTTTCGTCGAAACGCGCTGCGGA
ACAAGCCACCAAGGCGATGCGTCTGCGCCTGCCTTTTGATGTGCTCTGCC
AGGGAGATGACAATACTGCCGCGCTGGTGAAGAAGTTTTCCGACAGCGAA
AACACGTGCCTTTTTGGCACTCTCACGCTGTGGCAGGGCGTCGACGTCCC
CGGCCGTTCGCTGTCGTTGGTGTTGATTGACCGCATCCCGTTCCCCCGCC
CCGACGACCCGCTGCTGCAGGCCCGCAAGGAGGCCGCCGATGCCGAAGGC
CGCAACGGTTTCATGGAGGTCGCAGCCACCCACGCGGCGTTGTTGATGGC
GCAGGGCGCGGGCCGGTTGTTGCGGCACGTCGGCGACCGCGGCGTGGTAG
CAGTGCTAGACCACCGCTTATCGACGAAACGTTACGGCGGTTTCCTGCGC
TTCTCCATGCCCAGATTTTGGGAAACCACCAACCCAGAGACCGTACGCGC
GGCACTCAAACGATTGGTGACTAAGTAA
>cg2355 dinP, Nucleotidyltransferase/DNA polymerase involved in DNA repair, DinP homolog
ATGCAACGCTGGGTGCTTCACATCGATATGGATGCCTTCTTCGCATCCTG
CGAACAACTGACCCGGCCCACTTTAAGAGGCCGCCCCGTCTTGGTCGGTG
GAGTCTCCGGTAGGGGAGTTGTCGCCGGAGCATCCTATGAAGCCAGAAAA
TTTGGCGCCCGCTCAGCGATGCCCATGCACCAAGCCAAAGCCCGAGTAGG
TTTTGGGGCAGTGGTGGTGACACCCCGTCATATCGTTTACTCCGCAGCCT
CGCGCCGGGTGTTCCAAATCGTGGAAAAACGCGCCGGAATTGTCGAACGC
CTCAGCATCGATGAAGGCTTCATGGAACCAGAGGCTCTCGTTGGAGCCAC
CCCAGAAGAGGTGAAACAGTGGGCGGAAGAATTACGCGCGGAAATTAAAG
AAGTTACTGGCTTACCCTCCTCGGTTGGTGCTGGCTCCGGTAAGCAGATC
GCCAAAATTGGTTCAGGCGAAGCAAAGCCAGATGGTGTGTTTGTCGTGCC
AGTAGACAAGCAACATGACTTGCTTGATCCACTTCCTGTGGGCGCACTTT
GGGGAGTGGGTCCTGTGACAGGCTCCAAGCTTGCCTCAATGGGGGTGGAA
ACAATTGGTGATCTAGCAGCGCTAACCCAAAAAGAAGTAGAAATCAGCCT
CGGTGCAACCATCGGAATATCACTGTGGAACCTTGCCCGAGGAATCGACG
ACCGCCCTGTGGAACCCCGCGCCGAAGCAAAACAGATCTCCCAAGAGCAC
ACCTATGAAAAAGACCTCCTCACCAGGCAACAAGTAGATGCTGCCATCAT
TCGATCAGCCGAAGGCGCACACCGACGGCTCCTCAAAGACGGACGCGGTG
CCAGAACTGTCAGCGTGAAACTGCGGATGGCCGACTTTCGTATTGAGTCT
CGTTCCTACACCTTGTCCTATGCCACCGATGATTACGCAACTCTTGAGGC
AACAGCATTCCGACTTGCCCGCTACCCCGGAGAAGTAGGCCCCATCCGCC
TTGTCGGAGTAAGTTTTTCTGGTTTGGAAGAATCCCGCCAAGACATCCTC
TTCCCGGAACTTGACCAACAAATCATCGTACCACCAGCACCCGACACCGA
TTATGAGGTAGGCGTGCAATCCTCTTCTAGTTCCGAAAGTACTCAAGTTG
AAGCGCCGCAAGATGTCGCGTTGAGTATGTGGTGCGCAACGCAAGATGTC
TACCACCCAGAATATGGCCACGGTTGGGTACAAGGTGCCGGTCACGGTGT
TGTATCAGTACGTTTTGAAACCCGCAGCACCACAAAAGGGCGAACTAAAA
GTTTTTCCATGGATGACCCGGACCTCACCCCGGCAGACCCTCTAGATAGT
TTGGATTGGGCTGACTGGTTTGCTGAAAATGGTGAAACGGGGGATGACGA
ATAG
>cg0001 dnaA, CHROMOSOMAL REPLICATION INITIATOR PROTEIN
GTGAGCCAGAACTCATCTTCTTTGCTCGAAACCTGGCGCCAAGTTGTTGC
CGATCTCACAACTTTGAGCCAGCAAGCGGACAGTGGATTCGACCCATTGA
CGCCAACTCAACGTGCATATTTGAACCTGACGAAGCCGATTGCCATCGTC
GATGGCTACGCCGTGCTGTCCACACCCAACGCGATGGCAAAAAATGTCAT
TGAAAACGATTTGGGCGATGCTTTGACCCGTGTGTTGTCGCTGCGCATGG
GCCGATCATTCAGCTTGGCTGTCAGTGTGGAGCCTGAGCAGGAAATTCCA
GAAACCCCAGCTCAGCAGGAGTTTAAATATCAGCCTGACGCACCTGTGAT
CTCTTCCAACAAGGCGCCAAAGCAGTATGAAGTTGGTGGTCGGGGAGAGG
CGTCGACAAGCGACGGCTGGGAACGTACCCACTCTGCACCGGCTCCCGAG
CCGCACCCGGCACCTATCGCCGATCCTGAGCCAGAGCTGGCCACCCCGCA
GCGCATTCCGCGCGAAACCCCAGCTCACAACCCTAATCGGGAAGTGTCCC
TCAACCCGAAATACACTTTTGAAAGCTTCGTGATCGGGCCGTTCAACCGT
TTCGCCAATGCAGCCGCAGTTGCTGTGGCGGAAAGCCCAGCGAAAGCTTT
CAACCCGCTGTTTATTTCCGGCGGTTCCGGCTTGGGCAAAACTCACCTGC
TGCACGCAGTAGGAAATTATGCTCAAGAATTGCAGCCTGGCCTGCGGATT
AAGTACGTCTCAAGTGAGGAATTCACCAACGACTACATCAACTCCGTGCG
AGATGACCGCCAGGAAACCTTCAAGCGCCGCTACCGCAACCTGGATATCC
TCATGGTCGATGACATCCAGTTCCTGGCTGGCAAAGAAGGCACCCAGGAA
GAGTTCTTCCATACCTTCAACGCATTGCACCAGGCAGATAAGCAAATTAT
TTTATCCTCGGACCGCCCACCCAAGCAGCTGACCACGCTGGAAGATCGCC
TGCGCACCCGCTTCGAAGGTGGCCTGATTACTGATATTCAGCCACCTGAC
CTGGAAACTCGCATCGCGATTTTGATGAAGAAGGCCCAAACCGATGGCAC
GCACGTGGATAGGGAAGTCCTCGAGCTCATTGCCAGCCGCTTTGAATCTT
CGATCCGTGAATTGGAAGGCGCACTGATTCGTGTGTCTGCCTATTCTTCG
TTGATTAATCAGCCGATCGATAAAGAAATGGCCATCGTGGCGCTGCGCGA
TATCCTCCCAGAACCTGAGGATATGGAAATCACCGCACCGGTGATCATGG
AGGTCACTGCGGAATATTTTGAAATTTCCGTGGATACACTCCGTGGAGCA
GGCAAAACTCGTGCGGTCGCGCATGCACGCCAACTGGCGATGTACCTGTG
CCGCGAGCTCACCGATATGTCATTGCCCAAGATCGGTGATGTGTTCGGCG
GAAAAGACCACACAACTGTCATGTACGCGGATCGGAAGATTCGCCAAGAA
ATGACAGAAAAGCGCGATACCTACGATGAAATCCAGCAACTTACCCAGCT
GATTAAGTCGCGCGGACGTAACTAA
>cg3304 dnaB, PUTATIVE REPLICATIVE DNA HELICASE
ATGGCTACAGATACACACGCCGCAAGTTTTGATGATGACTACGTACCTCC
ACAGGAGCCAAGCGATTCCTTCGCGGATGACGCACACGTAGATGTCCCTG
CTCCGGCGTTTGAAGATTTCTCCCCGGCCCAGGCCTTTGGTCAGGGAACT
AGGGGAGGAGACTCTCAGGGCTTCAAGAAGAGGGGTCGCAAGGACGAGTC
CCGTGAATACCGAGACTTCCGCCAACCTCCCTATGACAATGACGCTGAGA
TGGGCGTGCTGGGCGCGATGCTGCTCAGTCCGACCACGGTCATCGACATT
CTGGATATCCTCACCCCAGAAGACTTCTACAGGCCGTCCCACCAGCTGAT
TTTCCAGGCGATCATTGACCTGTTCAGTGACAACCGTGATATTGACCCCG
TGATTGTCTCCGGTCGCCTCGATCGAACCAACGATCTGGACCGCGTCGGC
GGTGGCGCGTACCTCCACGACCTCATCCAGTCCGTTCCCACCGCAGCCAA
CGCGCGCTACTATGCGGAAATCGTTTCGGAAAAGGCAGTGCTTCGCAGGC
TTGTCGACGCCGGCACCCGCGTCGTCCAGCTCGGCTACGAGGGCGATGAA
GGCGCCGAAATTGACGCGGTGATTGACCGCGCGCAGCAAGAAGTCTTCGC
CGTTTCCCAAAAGAATCAGAGCGAAGACTATGCAGTCCTAGCCGATATTC
TGGATGAAACCATGGCTGAGCTGGAAATGCTCAACGACGGCGGCATCGCC
ACCGGTATTCCAACCGGCTTCAAAGATCTCGATGACCTCACCAACGGTCT
GCGCGGTGGCCAGATGATCATCGTTGCAGCTCGTCCTGGTGTGGGTAAAT
CCACCATCGCCTTGGACTTCATGCGTTCGGCATCCATCAAGAACAACATG
GCGTCTGTCATTTTCTCCTTGGAAATGTCCAAGTCAGAGATCGTGATGCG
TTTGCTCTCTGCAGAAACAGAAATCCGCCTGGCTGATATGCGTGGTGGAA
AGATGGATGAAACCGCATGGGAAAAGATGGTGCAGAAGTTAGACAAGGTA
GCCCAGGCACCTTTGTTCATCGATGACTCCGCGAACCTCACCATGATGGA
AATCCGCTCCAAGGCCAGAAAGCTGAAGCAGAAGCATGATCTGAAAATGA
TCGTGGTGGACTACCTCCAGCTGATGAGCTCCGGTAAACGCGTGGAATCC
CGTCAGCAGGAAGTCTCCGAGTTCTCCCGTCAGCTCAAGCTGCTGGCCAA
AGAACTCGATGTGCCGTTGATCGCGATTTCCCAGCTGAACCGTGGACCTG
AATCCCGTACCGATAAGCGACCACAGCTTGCTGACCTTCGTGAATCCGGC
TCGCTGGAGCAGGACGCCGATATCGTTATGCTGCTATACCGCCCAGACTC
CCAGGATAAGGACGACGAGCGCGCGGGCGAGGCCGACATCATTTTGGCTA
AGCACCGTGGTGGCCCGATCGATACCGTCCAGGTGGCGCACCAGCTGCAC
TATTCACGTTTTGTGGACATGGCGCGCGGTTAA
>cg2338 dnaE1, PUTATIVE DNA POLYMERASE III, ALPHA CHAIN
ATGGCCAAGCAATCCTCATTTGTACATCTTCACAACCACACCGAGTTTTC
CATGCTTGATGGAATGGCCAAGATCGATATGTTGGCCGATGAGGTTAAAG
CCCAGGGAATGCCTGCGGTCGGAATCACCGACCACGGCAATATGTATGGC
TCCAACCCCTTTTATCGCAAGATGACAGAGATGGGCATTAAGCCCATCAT
TGGCATTGAAACGTATATGGCACCTGAGTCTCGTTTTAAGAAAGAGCGTG
TGCGTTGGGGCGAACCACACCAAAAATCAGATGATGTTTCTGGTTCCGGT
GCGTATTTGCACCAGACGATGCTTGCAGAAAACACCACAGGTTTAAGAAA
CCTCTTTTATCTATCTTCGATGGCATCGTACGAAGGCCAGCTAGGCAAGT
GGCCCCGCATGGACGCCGATATCATCGCTGAGCACGCCGAAGGCATCATC
GCCACCACGGGTTGCCCTTCCGGCGATGTGCAAACACGCCTGCGCTTGGG
CCAGTTCGACGAAGCCCTTGAAGCAGCCGCCATGTGGCAGGACATCTATG
GTCGCGACAACTACTTCCTCGAGTTGATGGACCACGGGCTCGACATTGAA
ACCCGTGTGCGCAGTGAGCTGCTCGAAATCGGACGCAAGCTCAATTTGCC
ACCCCTGGTCACCAACGACTGCCACTATGTGCTGGAATCTCAGGCGCAAG
CCCACGAGGCAATGCTCTGCGTGCAAACAGGCAAGACGCTTCATGATGAA
GACCGATTCAAATTCGGCGGAACCGGCTATTACGTTAAATCTGCAGAACA
AATGCGTGCACTCTGGGACGACATGGTTCCAGATGGCTGCGACAACACCC
TGTGGATCGCTGAACGTGTGCAGTCCTATGACGAAATCTGGGAAGAACAC
TCACACGACCGCATGCCTATCGCTGATGTTCCAGAAGGCTACACCCCAAC
CACTTGGTTGCACCATGAAGTGATGGCTGGCTTGGAGGATCGTTTCTCTG
GACAGCAAGTTCCTGAGGATTATATTGAGCGCGCGGAGTATGAGATCTCC
GTTATTGATATGAAGGGCTACCCTTCCTACTTCCTCATCGTTGCTGAAAT
TATCAAGCACGCTCGTTCCATTGGCATCCGTGTAGGACCTGGCCGTGGTT
CGGCTGCAGGTGCATTGGTTGCCTACGCGTTGACCATCACCAACATTGAC
CCCATGGAACACGGATTGCTGTTCGAGAGATTCCTCAACCCAGAACGACC
ATCCGCACCCGATATCGATATTGACTTCGATGATCGCCGCCGCGGTGAAA
TGATCCGTTACGCAGCTGACCGTTGGGGCGAGGACAAGATTGCTCAGGTG
ATCACCTTCGGTACGGTGAAAACAAAGCAGGCACTGAAAGACTCCGCCCG
TGTGCAAATGGGGCAGCCAGGCTATCAAATCGCTGACCGCGTGATCAAGG
AGCTTCCACCTGCCATTATGGCGAAGGATATTCCGTTGTCCGGTATCACC
GATCCGGATCACCCTCGTTTTAATGAAGCAGGTGCGGTGCGCCAGCTGAT
CGAAACCGACCCTGATGTGAAGCGCATTTACGACACCGCTCGTGGTTTGG
AAGGCGTGGTGCGCCAATCTGGCGTGCACGCGTGTGCCGTGATTATGTCT
TCTGTACCGCTGCTGGACTGCATTCCGATGTGGAAGCGGCCAGCCGACGG
CGCACTGATTACAGGCTGGGATTACCCAGCATGTGAGGCCATTGGCCTGT
TGAAGATGGACTTCCTGGGACTTCGAAACCTTACCGTTATTGGCGATGCG
ATTGAAAACATTAAGGCCAACCGCGATGGGGAAGTGCTTGATCTAGAAAA
CCTAGCGATCGAGGATGAAGAAACCTACAAGCTGCTAGGCCGTGGAGAAA
CCCTTGGTGTGTTCCAGCTTGATGGTGGTGGCATGCAGGAGCTGCTGAAG
CGTATGCAGCCAACCGGCTTCAATGACATCGTCGCAGCGCTTGCGCTGTA
TCGCCCAGGCCCCATGGGTGTGAACGCGCACTGGGATTACGCCGACCGTA
AAAACGGACGCAAGCCCATTACTCCAATTCACCCAGAGTTGGAGGAAGCT
CTGGAAGAAATCCTTGGTGAAACCTATGGTCTGATTGTGTACCAGGAGCA
GATCATGAGGATCTCCCAGAAGGTCGCAAACTACACCGCTGGTCAAGCAG
ATGGTTTCCGTAAAGCCATGGGTAAGAAGAAGCCCGAGGTCCTGGAAAAG
GAGTTCGCAAACTTCGAAGGTGGAATGAAGGCGAACGGCTATTCAGATGC
CGCGATTAAGACTTTGTGGGATACCATTCTGCCGTTCGCCGGCTACGCGT
TCAACAAGTCTCACGCCGCAGGTTATGGACTTGTATCCTTCTGGACTGCC
TATTTGAAGGCGCACTACGCGCCGGAATACATGGCAGCACTGCTGACTTC
TGTGGGTGATAACAAGGACAAATCGGCGATCTACCTTTCTGATTGCCGAC
ACCTTGGAATTCGAGTGCTTTCGCCGGATATTAACGAGTCCTCGTTGAAC
TTCCTTCCTGTTGGCACCGATATTCGCTATGGCCTGGGAGCCATTAGAAA
CGTGGGTGCTGAAGTTGTGGATTCCATTTTGGATACCCGCAAGGAAAAGG
GCCTATTTAAGGACTTCTCAGACTACTTGGACAAGATCGATACCCTGCCG
TGTAACAAGCGCATCACCGAGTCTTTGATCAAGGGTGGCGCTTTTGACTC
CCTTGGACACGCACGAAAAGGCCTCATGCTGGTCTTCGAAGATGCCGTTG
ATTCCGTCATCGCTACCAAAAAAGCTGCTGACAAGGGACAATTTGATCTC
TTTGCAGCTTTCGACTCGGATAACAACGACGATGTGGCAAGTTTCTTCCA
GATCACCGTTCCTGATGACGAATGGGACCGTAAGCATGAGCTCGCACTCG
AGCGAGAAATGCTGGGTCTGTATGTTTCTGGACACCCACTCGATGGCTAT
GAAGATGCCATTGCTGCCCAGGTTGATACAGCACTGACCACCATTGTTGC
CGGTGAACTCAAGCACGGCGCAGAAGTGACCGTGGGTGGCATTATCTCTG
GTGTGGATCGACGGTTCTCCAAGAAGGACGGTTCCCCTTGGGCGATTGTC
ACCATTGAAGATCACAACGGCGCGTCCGTTGAATTGTTGGTCTTCAACAA
GGTGTATTCCATCGTTGGATCCATGATTGTGGAAGACAACATCATCTTGG
CCAAGGCACACATCTCCATTCGAGATGATCGTATGAGCCTTTTCTGTGAT
GATCTCCGCGTTCCAGAGCTTGGGCCAGGAAACGGGCAAGGACTTCCGCT
TCGTTTGTCCATGCGTACTGATCAGTGCACCATGTCCAACATTGCCAAGC
TCAAGCAGGTGCTGGTGGACAACAAGGGTGAATCTGATGTGTACCTCAAT
TTGATCGATGGGGATAACTCCACGGTCATGATTTTGGGTGATCACTTAAG
AGTCAACCGATCCGCAAGTTTGATGGGCGACCTCAAGGCAACGATGGGGC
CAGGCATCCTCGGTTAA
>cg0738 dnaE2, PUTATIVE DNA POLYMERASE III ALPHA CHAIN
ATGTATCCTATCATTATGGAATGGAATGGCGGGGGAAGCTTTAACGGCAG
GCCATTATCGTGGTCCAAATTGGAAAGAATCCTCTCAGGTAAAAAGGTCG
AATCTCTGCGTCCGGTGCTGCATGAGCCGGATGCGCAGGCGCCTTCATCT
GCCATGCAGGGGGAAGCGTCGGTTCCTTTTGCCGAGCTGCATGCCACCAG
CAGTTATAACTTTCTCACTGGCGCATCGGATCCGTCTGATGTGGTTGTGC
AGGCCAAAAAGTTAGGACTTGTTGCTCTATCAGTCATGGATAGGGATGGT
TTTTATGGTGCAGTGAGATTTGCGGAAGCTGCCGCGGAAGCTGGAATGCA
TACCGTTTATGGTGCGGAGCTGAGTCTGCAAGAAGGCGTGTTGACAGTCT
TGTGTAAAAATCCGGAAGGCTACAAAAAGCTCAGTCACCTGATCAGTGAC
GCGAAAATGGCAACGGGAGAAAAGGGGGAAGTTCGCTATCCGCCGCTGCC
AATGGTTGCTGAACATGCTGCAGGGGATTGGGTGGTCCTTGCAGGTTTTC
AGTGGTTGGACAAAATCGACTATGTGATCGATTGCTTTAAACCGGAAAAT
ATTGTGCTGGAATTCGGTTCAACCATGACACCGGAAGACGCCGACCGCAA
TGAATACCTCAGAAGAACGCAAGCCAAATTCCAGCTTCGAGGCATCCTAA
GCACCAACCCAGAATCCGCTGCCCGGGGGAGCGTGCGGCTTGCCGGCGCC
AAGCAGGCACTAGCCCGCAAGATGCCGCTTGCCGACGCCGAAAGCGAGCT
ACATCCCATGGGCACTACCTGGATGCGCAGCGGGGATACATTGTTAAAAG
CACACCCTGATTACGCGGATCTCATTGCAACCACGGTGGAATTAGCTGCT
GAATGTGCTTTCACCCTAGATTTGGTGGCCCCGAATCTGCCCAAGTGGGA
TACCCCTGGTGAACACACGGAAATGTCCTGGCTTGCGCACCTGGTTTCCA
CTCGGATTGATACCCGCTATGTGGGGCGCTCCGCAGACATCAAAGCACGA
GCTGCCACACAAATTGACTATGAATTAGGCGTTATTGAAAAGCTGGGTTT
TCCAGGCTATTTCCTCGTCGTTAATGATCTGGTGGAGTTTTGTCGCGATT
CCAATATTTTGTGCCAAGGCAGAGGTTCCGCGGCGAACTCGGCGGTGTGC
TTTGTCCTAGGCATCACCAACGCGGAGCCGATCTCTGCTGGATTGTTGTT
TGAACGGTTTTTATCTCCTGACCGGGATGGTCCACCAGATATTGACATTG
ATATTGAATCCGGCAGGCGCGAAGAAGTAATCCAATACGTGTATGAAAAA
TACGGAAGGGATAACGCAGCTCAAGTAGCCAATGTCATTACCTACCGAAC
AAAAGGCGCGATGCGTGATGCTGCCCGTGCACTGGGTTACCCGCAAGGTG
CTGCCGATGCCTGGGCTAAAGGAACCTCGGAACCACCCGATGATGTGCTG
GAATTAGCTGCGCAATTTAAAGGGCAACCACGGCATTTGGGTATTCACTC
CGGTGGCATGGTCATTTGCGATCGCCCCATCGCCGATGTGGTGCCAGTGG
AATGGGCTCGGATGGATAACCGCTCGGTTGTGCAATGGGATAAAGATGAC
TGTGCCACGGCAGGCTTGGTCAAATTCGACCTTTTGGGATTGGGCATGTT
GGAAGCCATCCATCACATGCTGGATCTGGTGGCAGAACACCGAGGTAAAA
AGATCAATTTGTGGGAACTAGATCTGGCGGAACCGGAGGTCTATGACATG
TTGTGCAAGGCAGATGCCGTGGGTGTGTTCCAGGTGGAATCACGTGCGCA
GTTATCCACGCTGCCTCGACTCAAGCCCCGCACCTTCTTTGACCTGGTCG
TGGAGGTAGCTCTGATTCGTCCAGGTCCCATCCAAGGCGGATCGGTGCAC
CCGTATTTGCGGCGCCGTGCTGGTGAAGAGGCCATCACTTATGACCACCC
CGTGTTGGAAAAGTCTTTGGGTAAAACCTTAGGAATCCCACTGTTTCAGG
AACAGCTCATGCAGGTAGCTGTTGATGCTGCAGGTTTTAGTGGTGGGGAA
GCGGATTCCTTGCGCAGAGCGATGGGGTCGAAACGCTCACCTGAACGCAT
GGCTGCGTTGCGCTCGCGGTTTTTCCAAGGGCTGAAAGATACCAATGGGA
TTGTGGGGGAGACCGCCGAGAAACTGTGGAACAAAATTGTGGCCTTTGCT
GCCTACGGTTTTCCGGAATCGCATTCGCAGTCGTTTGCGTCCTTGGTGTA
TTTCTCCGCGTGGTTTAAATACCACTACCCGGCTGAATTCTGCGTGGGAT
TATTGCGGGCACAACCCATGGGTTTCTATTCACCACAGTCTTTGATCAGT
GATGCCAGACGCCACGGCGTGAGTATCCTGCCGATCACGGTCAATGATTC
CGGTGTGGAGGCCGATGCTCCGAATGGTGCGATTCGATTGGGGCTCAACC
TGGTGAAAGGCCTTGGCCACGATGCCGCGCAAAGAATAGAGGACAACGCC
CCGTTTGATTCCATTCCGGATTTATCGCGCCGGGCTGATCTTAATGTTGC
TCAAGTTGAGGCATTGGCGCGAGCGGGAGCGGTGGACTGCTTGGGGGTCG
GACGTCGACAAGCATTATGGCAAGCGGGCGTCGCAGCGACCGAAAAACCT
GGAATGCTGCCTGGCCTTTCGGTGATTGAAGCTCCGGCGTTGCCGGGGAT
GAGCGCCTTTGAGCTGATGGCGACCAATATTTCCGCCACGGGAGTCACCG
CGGATTATCAGCCGATGGCGTTGATTCGGGAGCGGATGGAGGAGCTGGGG
ATCGTGCCGGCGGATCGGCTATTGGAGGTGGAAGATGGCACGCGGCTGCG
GATCGCTGGCATTGTCACGCACCGGCAGCGCCCGCAAACTGCGTCGGGGC
TGACATTTTTAGGGATGGAGGATGAGACCGGGCTGATGAATGTGATGGTG
TCCGTTGGGTTGTGGCAGCGGCAGCGCGTGCTGGCCAGAAATGCCAAGGC
GTTGATTATTCGAGGGATTGTGCAGAATGCGCAAGGGGTGGCGACAGTTG
TCGCTGACCGGTTGGAACCGTTGGACATGGGGGAGTTTCTCAGCCGTGGC
TCACGAGATTTTCGATAA
>cg2489 dnaG, DNA PRIMASE
ATGGTCATGGCAAAGGGACGTATTCCGGAAAGTGACATTCAGGCAATCCG
CGAGCGCACCCCGATCGAGGAGATCGTGGGTGATTATGTGCAGCTGAAAT
CGGCAGGTGCTGATTCGCTCAAGGGGCTTTCTCCCTTTAAAGATGAAAAA
ACACCATCGTTCCATGTGCGCCCCAACCGTGGTTACTACCACTGTTTCTC
CACCGGCAAAGGTGGAGATGTGTTCTCCTTCCTCATGGAGATGGAACACA
TCTCTTTCCCTGAGGCTGTGGAAGTGTGTGCGGAGAAAATTGGTTATCAG
ATCAATTACCAAGGTGGTGGCCCGGGGCGCCGTGAGGAACCTGGAACTCG
CCAGCGCCTTATTTTGGCTAATAAGGCTGCGCACCAGTTTTATCGCGAGC
AATTAGAAACCCCCGAAGCACAACCTGGCAGGGAGTTTTTGCTGCAGCGT
GGATTCGGACAGCAGCACATTTATCATTTCGAATGTGGCTATGCGCCTGC
CGGCTGGGATACCTTGACCAAGCATTTGCTGAAGAAGGGCTTTGAGTTCA
AGGAATTAGAAGCTGCCGGTCTAAGCAAGATGGGTAAGCGCGGTCCGATT
GATCAGTTCCAGCGCAGGTTGCTGTGGCCGATCAAGAACCTGTCTGGTGA
TGTCATTGGTTTTGGCGCCCGCAAGCTTTTCGATGACGACAAAATGGGCA
AGTACATGAATACGCCTGAGACGTTGTTGTACAAAAAGTCCAAGGTGCTC
TTTGGTCTAGATTCTGCAAAGAAGGCCATTGCAGCTGGCCACCAAGCAGT
AGTGGTGGAAGGCTACACCGATGTGATGGCCATGCATGCCGCGGGCATTG
ATACAGCCGTGGCATCGTGTGGCACTGCGTTTGGTGAAGAACACTTGCAG
ATGCTTCGTCGACTCATGCTGGATGATAACTACTTCCGCGGTGAACTGAT
TTACACCTTCGATGGTGATGAGGCCGGCCAGAAGGCCGCCATGCGTGCCT
TTGAGGGCGATCAGAAGTTCACAGGACAATCATTTGTGTCTGTGGCACCC
AACGGCATGGATCCGTGTGATCTGCGCCTTGAGCGTGGCGATGCGGCGGT
GCGTGATCTTGTGGCACGACGCATCCCGATGTTTGAGTTCGTCATCCAAT
CGATCATCAGCGAATACACCCTCGACACCGTGGAAGGCCGTCTGGCTGCG
CTTCGTCGGGCAGTCCCCATCGTGGCGGATATTCGCGATAAGACGCTGCA
GTCTGAATACGCCCGCCTGCTGTCTGGTTGGGTCGGCTGGTCTGATCCTT
CAGAGGTGCTGCGTCAGGTTCACGAGGAAGCACGTCGCCCCAAGCGCGAT
AAGAAGCCTGTGCGTGCAAAGCGTTTCGATCAACCGCTCGAGGATCAAAG
CCTGCGACCCACCATGGCGCTGCCTAATCCGCGGAACCCTGTGCTGTGGC
AGGAACGGGAATCACTCAAGATCGCCCTGCAATATCCGGAGCTCGCGGGA
TCGTACTTTGATGGACTGCCAACCGATAGCTTCACCAACCCTGCCTACCG
CATGGTACGCGATGCCATTTCGGCTGCTGGGGGATGTGAACGTGCCCTCG
ATGGCACTGATTGGTTGCCTGCCGTATCGGAAAATATGACTGATATTTTG
GGCACGTCGTTGGTGTCAGAGCTGGCGATGGAACCCATCGAGGTGGAAGC
GCAAGACCTGGAATCATATACCGATGGTGTGTTGTCCAGGCTGCAGGAAA
CACGAGTGGGCAACCAGATCGCCATCTTGAAAGGACAGCTGCAAAGAATG
CGTCCGTCTGAAGATGAGCAAGCCTACAACTCGCTGTTTTCCGATCTGGT
TGCCCTGGAACAGGCGCGCCGGGAGCTGTTGGCCCGGGCGTTTAGAGGGT
AA
>cg0004 dnaN, DNA POLYMERASE III, BETA SUBUNIT
ATGGAGTCACAAAACGTGTCCTTCCGTGTGGCCAGGGAAGACCTGGTTAC
CGCGGTAGCCTGGGTCGCTCGCAACCTGCCCACCAAACCGACTCAGCCGG
TACTTCGAGCCATGCTGATCACTGCCGATGATGAGGGTCTTGAACTCGCC
GGTTACGACTACGACGTATCCACCCGAGTTCGCCTCTCAGCTGAGGTTTC
TCAGCCAGGTCGCATCGCAGTAGCCGGCAAGCTGCTGTCTGAAATCACAG
GATCTTTGCCCAACAAGCCCGTTGATTTCCGCATCGACGGATCCAAAGCT
TTTGTCACTTGTGGTTCTTCCCGCTTCGAGCTGCCACTGATCCCGCTTGA
TGATTACCCAATGCTGCCCAAGCTTCCTGCAGGTACCGGTTCCATCAACG
CCAAGCTGTTCACCGAAGCAGTCTCCCAGGTGGCATCCGCTGCAGGTAAA
GATGATTCTTTGCCGATGCTCACCGGTGTCAGCATGGAAATCGTGGGCAA
CCAGATCAACTTGGCTGCTACTGACCGTTTCCGCCTGGCGCTGCGCACCT
TCGAATGGGAAGCAAACGACCCAGAGCTCAACGTTAAACTGCTGATTCCT
GCCCGCACCCTGCTGGACAACGCGCGTTCTTTGGATTCCGGTCTCAACGA
TTCCATCGACATCGCTGTCGGTACCGGCGATCAGGTTGGCCGCGAAGGAC
TATTCGGCGTTCACACCGATAACCGCGAAACCACCACCAGGCTTCTCGAC
GCCGATTTCCCCAACATCGCACCACTGCTTCCCAAAGAGCACACCGCGAT
CGCATCAGTTGAAATCGCACCGCTGGTCGACGCCATCCGCCGCGTATCCC
TGGTGGCAGAACGCAACGCTCAGATCGTCTTGCACTTCAGCGAAGGCCAG
GTCATCTTGACTGCAGGCGCAACCGAGGCAGGCCACGCGGAAGAAACCCT
GCCGTGTGCATTCACCGGCAAGGAACTGACCATCGCGTTCAACCCTGGCT
ACCTGAAGGATGGACTTTCTGTAGTTCCAACTTCTCGAGCAGTCTTCGGA
TTCACTGAGCCTTCCCGCCCAGCGATCATGATCCCAGAGCCTGAAGAAAT
GCCTTCCGCCAACGAAAATGGCATTTTCCAAACTCCGGACACCTATTTCA
CCTACCTGCTCATGCCAGTGCGCCTGCCAGGCTAA
>cg1457 dnaQ2, DNA POLYMERASE III, EPSILON SUBUNIT, PUTATIVE
GTGCCGCGGCCGGGGGCGTCGACACGCATTGAAGACCTGAAGCTTCTGGC
TGTGGACGTGGAAACGACGGGCCTGAAGCCCCACCGGCATCAAATTGTGT
CGATTGGGTGGGTGCCGATTAACGGCGACGTGATTGATCTGAGCGGCGCG
GGGTATGTGGTGATTCGCGGCAGCGAGGGGTTTTCGGTCGGCTCGTCTGC
GGTGATTCACCAGCTCACCGACGATGAAATCGCCGCGGGTATCGACATCA
AAGAGGCGCTTGGCCAACTACTGCAGGCGCTCCAGGGACGCGCCATGCTG
GCGCATTTTTCACCCATCGAGCGCGATTTTATTTCGGCCGCATGCCTCAA
GCATTTCGGAACGCTTCTCGACGTCCCCCTCGTGGATACTTTTGCCATGG
AACGCCGCCACATGGAGAGGATGTCCACCTACCCACGTGGCGAAGACCTC
CGGCTTGCACGCATTCGACAACGATATGGTCTTCCCAATTACTCCAATCA
CCAGGCATTAACCGACGCTTTGGCGTGCGCCGAGGTGTATTTGGTGCAGA
TCACGCACCTTCGGGCGAACACCCTCAAAGATATTTGGGAATAG
>cg0376 dnaX, PUTATIVE DNA POLYMERASE III, DELTA' SUBUNIT
GTGACTAATTCGAGTGTGTTTGACAGTCTCGCCGGCTCCAAAACAGTGTC
CAAGACGCTTTTCGACGCGGCCTCCAGCGCGCGTGCCCTTGTCCGCGCCC
GAACCACAGAACGTGCCCGCGCCCGGGCAGAACACCAAAACCCTGCAATG
ATCCACGACTCCGGCTTTGCCCAGTCATGGCTGTTTACAGGCCCTCCCGG
ATCGGGACGTTCTGTGGCAGCCAAGGTTTTCGCCGCTACGCTCGTATGTT
CGAATCCGGATGTTGTGGGCTGTGGACAATGCGAGGATTGCCGCGCCGCC
ATGGGAGGCAGCCACCCCGATATTGAACACATCGTCCCGCAGCAATTGTC
TATCGGTGTTGATGCAGCTAGAGAGGTCATCAAAGCCGCAGCGGTCAGTC
CTGTTGCAGGAAACTGGCGAGTCGTCATCTTCGAAAACGCCGACCGACTC
ACCATGCAAGCCGCCAACGCCTTGCTGAAAACCGTGGAGGAACCAACCGA
AAGCACCGTGATGATTCTGTGCGCACCCACCACAGACCCCCGCGACATTG
CGATCACCCTCCGCTCCCGCTGCAGGCACCTCTACATTCCCACCCCCTCC
ATCGCGGAAGTCGCACGAATCCTCGTAGCTGAAGGCAACGTCAGCCAAGC
GGATGCAGAATTAGCGGCGGCTGCCTCAGGCGCTCACATCGGCAGGGCTC
GATACTTAGCGCACAACAACGCCGCCCAACGCAGACGCGCCAGCATCCTC
AACCTGGCCGAATTAATCTTCCACGGTGATGTCGCCTTCCGCTCCGTAAA
CACCTTGGTCAAAATGGTGGAAACCGAAGCCAAAGACAGCAACAAAGAAA
AAGAAGAAGCCGAACTCGAAGCCGTAAGAATCTCACTCGGCATGGGGGCC
AAAGGCAAAGGTGTCCACAAAGCAGTACGTGGAGGAGCGGGAGATTTCAA
AGCACTCGAAGACCAACAAAAACTCCGACGCACCCGATTCCTCCGCGACA
GCCTCGACCTCGCACTCGTCGACCTAGCCGGCATCTACCGCGATGCCATC
ATCATTTCCTCCCAAGCCCAAGTCGGACTCACACACCCCGATATGGAAGG
CCTCTCCCAAGAACTCGCAACAAAAGTAAGCCAAGAAGGACTCCTGGCAT
GCCTCGACGCGATCTCCAAATGCCGCGAATCCTTCGGCTTCAATGTACGA
CCCATCGTGGCCATGGACGCCCTGGTAGGACGCCTGCGCAAAGCCTACAA
AGTGTCCTAA
>cg0296 dnaZX, DNA POLYMERASE III GAMMA AND TAU SUBUNITS
GTGGCTTTGTATAGCAAGTATCGACCGGCAAGTTTTGGTGAACTAGTTGG
GCAGTCGCAAGTGACTGACCCTCTGTCCGCAGCTTTGGATAGCGGGCGCA
TCAACCATGCGTACCTTTTTTCGGGTCCGCGTGGTTGTGGCAAGACGTCG
TCGGCACGCATCCTTGCCCGGTCCCTCAACTGCGTGGAAGGCCCAACTTC
CACGCCGTGTGGGGTGTGTAATTCTTGCGTAGCGCTGGCCCCGGGTGGCC
CTGGAACCCTTGATGTAACAGAGCTCGACGCCGCGAGTAACAATGGTGTC
GATGACATGCGTGAACTGCGCGAACGCGCGAACTACGCCCCGGCGGAATC
TCGCTACCGCGTGTTCATCATTGACGAAGCCCACATGATCAGTACCCAAG
GCTTCAACGCCTTGCTGAAAATCGTTGAAGAGCCACCAGCGCACCTGATT
TTCATCTTCGCCACCACCGAGCCGGACAAAATGATCGGTACGATCCGTTC
CCGCACGCACAATTACCCATTCCGCCTGCTCACCCCAGGGGATATGCGCA
AAGTGCTGAAAAATGCGGTCGATGGCGAAGGCGTCCACGTCGACGATTCC
GTTTACCCACTGGTCATCCGCGCCGGCGGCGGCAGCCCCCGCGACAGCCT
CTCCATCCTCGACCAGCTCATCGCCGGCTCGGGCCCGGAGGGCTTGACAT
ATGAGCGCGCCTTGCCGCTGCTCGGTGTCACAAGCTTCACGCTTATCGAC
GATTCGATCCATGCCCTTGCATCTAAAGACAACGCAAGCATGTTCACCAC
GATCGATAACGTCATCGAAGAAGGCCTCGAACCGCGACGCTTCACGATCG
ACCTCCTCGACCGCCTCCGCGACTTGATGGTCCTCCAAGCCGTCCCAGAA
GCACTAAACCTCGGGCTTGTCGACGCCCCCACCGACCGCGCCGACGCCCT
AATCGAACAATCCACCCTGTTCAAAGGCAACGAGCTCGCCAACCTAGCCT
CCATGGTGAACTCCGGACTCGACGACATGCGTGGTGCCACCTCACCGCGC
CTCCTTCTGGAAATCCTCTGCGCCCGACTGCTCCTGGCAAGCAATACCGT
GGCAGGTCCAGCGGTCAGTAGTTCGACTGACGCTGCGCCTGCAGCTACTC
CGGGTGGTCTCACTGGTATTGCTGCTGCCCGCGCGAAAGCACGGGAGTAT
GGACAGAAGAAGGCAGCTCCAGCTCCTGCACCAACTCCTGCGCCCGAGCC
AGTGCGCGAACAGTCTCTTGCACCAACGCCTGAACCAACGCCAGCGGCTG
AACCTACATCTCAGCCCGCGCCGGAACCGGAACCCGCCAGGGAACCAGTG
GTGGAAGTGCGGGAGGCGAGCGTCGAAAAGCAGCCTGCAAGCAGTGATCC
CCTCGAAACCATTCGAAGCCGCTGGTCAGAGCTGCGCAACATCGTGGAAA
AACAAAGTGTGCGCACCTCAATCATGCTGACCGAAGCGCGAGTTTTGGGA
CTGCGAGGCGATACCCTCGTGCTCGGTCACAGCACCGGGGCGTTGGCTGC
GCGTTTGAACGCTGCTGATCACAACGGAATTTTGGTCAAGGTGTTGGCTG
AGGAAACTGGTCTGCAGCTCAAGGTCGAATGCATTGTGGGCACGAACCCA
GCCGAAGCTGGATTTACCGCCCAGCCTGCTGTGCAAAAGAGCACGTGGAA
CCCCAACTACGACTCCAAACCAGCCACTCCAAGTGCGCCTGCGCAGCCTC
AGACGCCTAAGCAAGAATCCGTGCCCACCGAGCCAGAGGAGCCTGAGAGT
TCGGCTGAAACTTCGGGATGGGGGCAACCGGTAAAAATCGGTGGGCCAGC
ACCTGAGGCACAGACTCCAACGCCTCCGCCTGCTCCGGTGGTTCCGGCTA
CTCCTGCTGCTCCGGCTGCGGGTGCTGCGAAACCAGCGTGGAAGGAACGC
GTCGAACAAGCCGCGGCAAATGCAGCGCAACAACGTCAGCATCGCCAGGG
CAGCTCCGAGCCCTTCGAGCGGGGTGTTCCGCTGCCACCAGAACCTGACC
TGCCACCGGACCCCTATGGATACCCAGCTGACGAGGGTTTCCCCGAACGA
AACCAAGGGTTCCAGCAACAGCCAGCGCCTCCCGTTGAGCAACCAGCTCC
TGAGCCTGCGACGGAGCCAGTTCCAGCAGTTGCGCCTGAGCCGGAGGTCA
GCCAGCTATCTGAAGAAGAGCAGCTGATCCGCGAAGCAGACGAAGAGCCA
GGTGAAATGGATCGTCGTGATGCGAAAACCATCGCGATGGAACTGCTTGC
TCAGGAACTCGGCGCGAAACCTTTGTAA
>cg0015 gyrA, DNA TOPOISOMERASE (ATP-HYDROLYSING)
GTGAGCGACGACAATACCGGACAATTTGACCGCGTTAATCCCATTGATAT
CAATGAGGAAATGCAGTCGAGCTACATCGACTACGCGATGTCAGTCATCG
TCGGACGTGCCCTCCCAGAGGTGCGCGACGGCCTGAAGCCAGTCCACCGC
CGCGTCTTGTACGCGATGTTCGACAACGGCTACCGCCCCGACCGCAGCTA
CGTGAAGTCTGCAAAACCAGTGGCAGACACCATGGGTAACTTCCACCCAC
ACGGCGACACCGCAATTTATGACACGTTGGTGCGCATGGCTCAGCCATGG
TCCATGCGATACCCGCTGGTAGACGGCCAGGGTAACTTCGGTTCCCGCGG
CAACGACGGCCCTGCAGCAATGCGTTACACCGAGTGCCGCATGACCCCAC
TGGCCATGGAGATGGTGCGCGACATCCGCGAAAACACCGTCAACTTCTCA
CCAAACTACGACGGTAAAACCCTCGAACCAGACGTTTTGCCATCGCGCGT
TCCAAACTTGTTGATGAACGGTTCGGGCGGCATTGCGGTCGGCATGGCCA
CCAACATCCCACCGCACAACCTCAACGAGCTTGCCGACGCCATCTTCTGG
CTCCTGGAAAACCCAGACGCCGAAGAATCCGAAGCTCTCGAAGCCTGCAT
GAAGTTTGTGAAGGGCCCAGACTTCCCAACCGCTGGCCTCATCATCGGTG
ACAAGGGCATCCACGATGCCTACACCACCGGCCGCGGCTCCATCCGCATG
CGCGGTGTCACCTCCATCGAGGAGGAAGGCAACCGCACCGTCATCGTTAT
CACCGAGCTGCCATACCAGGTCAACCCGGATAACCTGATCTCTAATATCG
CGGAGCAGGTGCGCGACGGCAAGCTCGTGGGCATCTCCAAGATTGAAGAT
GAATCCTCCGACCGCGTCGGCATGCGCATTGTGGTCACCCTCAAGCGCGA
CGCAGTTGCCCGCGTGGTGCTGAACAACCTGTTCAAGCACTCCCAGCTGC
AAGCCAACTTTGGTGCGAACATGCTCTCCATCGTCGATGGCGTGCCACGC
ACCCTTCGCCTGGACCAGATGCTGCGCTACTACGTGGCACACCAGATCGA
AGTCATCGTGCGCCGCACCCAATACCGCCTCGACAAGGCTGAAGAGCGCG
CCCACCTCCTCCGCGGCCTGGTCAAGGCCCTGGACATGCTGGACGAGGTC
ATCGCGCTCATCCGCCGCAGCCCAACCCCAGATGAAGCCCGCACCGGCCT
CATGTCGCTTCTCGACGTCGACGAGGCGCAGGCTGACGCAATTCTGGCAA
TGCAGCTGCGTCGCCTGGCGGCACTGGAACGCCAAAAGATCATCGATGAG
CTCGCTGAAATCGAGCTGGAAATCGCTGACCTGAAGGCCATCCTGGCAAG
CCCAGAACGTCAGCGCACCATCGTTCGCGATGAGCTGACCGAAATCGTGG
AAAAGTACGGCGACGAGCGTCGTTCCCAGATCATCGCTGCCACCGGCGAC
GTGTCTGAAGAAGACCTCATTGCGCGTGAAAACGTTGTCATCACCATTAC
CTCCACCGGTTACGCAAAGCGCACCAAGGTCGATGCCTACAAGTCGCAAA
AGCGTGGCGGCAAGGGTGTTCGTGGCGCAGAGCTCAAGCAAGATGACATT
GTTCGTCACTTCTTCGTCAGCTCCACCCACGACTGGATTTTGTTCTTCAC
CAACTACGGTCGCGTGTACCGCCTCAAGGCATTCGAACTTCCAGAGGCAT
CCCGCACCGCACGTGGACAGCACGTGGCCAACCTTCTGGAATTCCAACCT
GGTGAGCAAATCGCCCAGGTCATCCAGTTGGAAAGCTACAACGACTTCCC
ATACCTGGTGCTCGCAACCGCACACGGTCGCGTGAAGAAGTCCCGCCTGC
TCGACTACGAATCAGCACGTTCCGGTGGCCTCATCGCCATCAACCTGAAC
GAGGACGATCGCCTCATCGGCGCCGCACTTTGCGGTGAAGAAGACGATCT
GCTGCTGGTCTCTGAATTCGGACAGTCCATCCGCTTCACCGCCGACGATG
AGCAGCTCCGCCCCATGGGCCGCGCCACCGCCGGTGTCAAGGGCATGCGC
TTCCGCGACAACGACCAACTGCTGTCCATGTCCGTGGTCCGCGACGGCGA
ATTCCTCCTCGTTGCCACCTCCGGCGGCTACGGCAAGCGCACCCCACTTG
AGGATTACTCCACCCAGGGCCGTGGTGGCCTCGGCGTGGTGACCTTCAAG
TACACCCCGAAGCGCGGTCGCCTCGTCAGCGCCATCGCAGTTGAGGAAGA
TGACGAGATCTTCGCCATCACCTCCGCCGGCGGCGTTGTTCGCACCGAAG
TCAAGCAGATCCGACCATCCTCCCGTGCAACAATGGGTGTTCGACTGGTC
AACTTGGAAGAAGGTGTAGAACTGCTTGCCATCGACAAGAACGTCGAAGA
CCAGGGCGAAGCATCCGCAGAAGCAGTAGCAAAGGGTGCAGTCGAAGGAC
CAGCATCCAAGACTGCTGCCGAAGAAACCGACTCCGTTGACAACGGATCC
GACGAAAACGGCGAGGAATAA
>cg0007 gyrB, DNA GYRASE SUBUNIT B
GTGGCAAACACTGAACACAATTATGACGCTTCATCGATCACCATCCTTGA
AGGTCTTGAGGCGGTACGTAAGCGCCCGGGCATGTACATCGGTTCAACTG
GACCGCGTGGACTGCACCACCTGATTTGGGAAGTCGTTGACAACTCAGTG
GATGAGGCCATGGCTGGCCACGCCACCAAGGTTGAAGTGACCCTTCTGGA
AGATGGTGGCGTTCAAGTTGTCGATGACGGTCGAGGAATTCCCGTCGATA
TGCACCCATCCGGTGCACCAACCGTGCAGGTTGTTATGACCCAGCTGCAC
GCCGGCGGTAAGTTTGACTCCGATTCTTACGCCGTTTCCGGTGGTCTGCA
TGGTGTTGGTATTTCTGTGGTGAACGCCCTGTCCACCCGCGTGGAAGCCG
ACATCAAGTTGCACGGCAAGCACTGGTACCAAAACTTTGAAAAGTCTGTT
CCAGACGAGTTGATCGAAGGCGGCAACGCTCGCGGCACCGGTACCACCAT
TCGTTTTTGGCCAGACGCTGAAATTTTCGAAACCACCGAGTTTGATTTCG
AAACGATTTCTCGACGTCTGCAGGAAATGGCATTCCTTAACAAGGGTCTG
ACCATCACCTTGACGGACAACCGCGCCACCGACGAGGAACTCGAGCTCGA
AGCACTCGCTGAGCAGGGCGAAACCGCAACGGAACTATCCCTCGATGAGA
TCGACAACGAAACCGAACTCGTTGAAGAGACCACCGATGCTCCAAAGAAG
CCAAAAAAGCGTGAGAAGAAGAAAATCTTCCACTACCCCAATGGCCTCGA
GGACTACGTTCACTACCTCAACCGCAGCAAGACCAACATCCACCCTTCAA
TCGTGTCATTCGAGGCAAAGGGAGATGACCACGAGGTTGAGGTGGCAATG
CAGTGGAACTCCTCCTACAAGGAATCCGTCCACACCTTCGCCAACACCAT
TAACACCCGCGAAGGCGGCACCCACGAGGAAGGTTTCCGCTCTGCGCTGA
CCTCCCTGATGAACCGCTACGCACGTGAGCACAAGCTTCTGAAAGAAAAG
GAAGCAAACCTTACCGGTGACGACTGTCGTGAAGGCCTGTCCGCGGTTAT
TTCCGTGCGCGTTGGTGACCCACAGTTCGAAGGCCAGACCAAAACCAAGC
TGGGCAACACGGAGATCAAATCCTTCGTGCAGCGCATGGCCAACGAGCAC
ATCGGCCACTGGTTGGAAGCAAACCCTGCTGAAGCCAAGGTCATCATCAA
CAAGGCTGTCGGTTCCGCGCAGGCACGCCTTGCTGCTCGAAAAGCCCGTG
ACCTGGTCCGACGGAAGTCAGCAACCGATCTGGGTGGACTGCCCGGTAAG
CTTGCCGACTGCCGTTCCAAGGATCCAGAAAAGTCCGAACTTTACATCGT
GGAGGGCGACTCCGCAGGTGGTTCTGCGAAGTCCGGCCGTGACTCCATGT
TCCAGGCAATCCTTCCACTGCGAGGCAAGATCCTCAACGTGGAAAAGGCC
CGCCTAGACAAGGTTCTGAAGAACGCCGAAGTCCAAGCGATCATCACCGC
ACTGGGTACCGGCATCCACGACGAGTTCGACATCAACAAGCTGCGCTACC
ACAAGATCGTGCTGATGGCCGACGCCGATGTTGACGGCCAGCACATCGCA
ACGCTGCTGCTCACCCTGCTTTTCCGCTTCATGCCAGACCTCGTCGCCGA
AGGCCACGTCTACTTGGCACAGCCACCTTTGTACAAACTGAAGTGGCAGC
GCGGAGAGCCAGGATTCGCATACTCCGATGAGGAGCGCGATGAGCAGCTC
AACGAAGGCCTTGCCGCTGGACGCAAGATCAACAAGGACGACGGCATCCA
GCGCTACAAGGGTCTCGGCGAGATGAACGCCAGCGAGCTGTGGGAAACCA
CCATGGACCCAACTGTTCGTATTCTGCGCCGCGTGGACATCACCGATGCT
CAGCGTGCTGATGAACTGTTCTCCATCTTGATGGGTGACGACGTTGTGGC
TCGCCGCAGCTTCATCACCCGAAATGCCAAGGATGTTCGTTTCCTCGATA
TCTAA
>cg2111 hrpA, PROBABLE ATP-DEPENDENT RNA HELICASE PROTEIN
ATGACTACTTCTGAAACTGCCCCATCAAAGGCTTCCCTGTATGAACTTTT
AGAGGGCGTATCCCTCTCCGACGAGCGCACGTTTAGGCGCCGACTGTCCA
AAGCCCGCGCGCCCAAGGCGCTTGGTGCGATTAAGGCTGATATCGATAAG
GCACGCTTGCTTATCGACGAAAAGAGCCAGTTAATTCCGTCTATCACCTA
CCCAGAAAACCTTCCGGTGAGTTCCCGGCGCGATGATATCGCCGAGGCTA
TCCGTGATAATCAGGTGGTTATTATCGCCGGTGAGACTGGTTCGGGTAAG
ACGACTCAGATTCCTAAGATTTGTTTGGACCTAGGCCGTGGCCGGCGTGG
GCTCATTGGCCACACACAGCCACGTCGATTAGCAGCTAGGACCGTCGCCG
AGCGCATCGCCGATGAATTGGGGCAAGACATCGGCGAATCGGTGGGTTAT
GCGATTCGTTTTGATGATCGAGTTTCCTCGCATACATCCGTGAAGTTGAT
GACGGATGGTATTTTGCTTGCTGAAATGCAGCGGGATCGTTTCCTCAATG
CGTATGACACCATCATCATCGATGAGGCGCATGAACGTTCCCTCAACATT
GACTTCATTCTGGGTTATTTGCGCCAGTTGTTGCCTAAGCGCCCTGATCT
TAAAGTCATTATTACCTCCGCAACGATTGACCCTGAGCGTTTCGCGGAGC
ACTTTGCTGATGCTTCTGGAAAACCAGCACCAATTATCGAGGTCTCCGGC
CGCACCTTCCCGGTAGAGATCCGGTATCGCCCACTTGAGGTATTAGACGG
CGATAAAATTATCGATACCGATCCCCTTGACGGCTTGTGTTCTGCTTTGG
AAGAGCTCATGGCTGAAGGCGACGGCGATATCCTCTGCTTCTTTGCCGGT
GAGCGTGATATCCGCGATGCCATGGAGGCAATCGAGGCCCGACGCTGGAA
AGGTGTGGAAGTCACTCCCCTGTTTGGCCGCCTGTCCAACCAGGAGCAGC
ACCGTGTATTTAGCCCGCACTCTGGTCGACGCATTGTGCTTTCCACCAAT
ATCGCAGAGACATCCCTGACGGTTCCGGGCATTCACTACGTGGTTGATAC
CGGTACGGCGCGTATCTCTCGTTATTCAGTGCGCACCAAGGTGCAGCGCC
TTCCGATTGAGAACATTTCCCAGGCCAGCGCAAACCAGCGTTCTGGTCGT
TGTGGTCGTGTCGCAGACGGTATTGCGATTCGTTTGTATTCCGAAGATGA
TTTCAACTCTCGCCCAGAGTTCACCGATCCGGAAATTCTGCGCACCAACT
TGGCGAGCGTTATTTTGCGCATGGCGTCGCTGCGTCTTGGCGATATTAAT
GATTTCCCCTTCGTCCAAGCCCCAGAGCAACGCTCCATCAGGGATGGTAT
TTTGCTGCTCCACGAGTTGGGCGCACTCACCGACGACACCCAAGCCGATG
GTTCACCGCAGCTCACCCAGATCGGTAAAGACTTAGCCAACATCCCAGTC
GATCCCCGCATGGCCCGCATGCTCGTAGAAGCCAACACTCTAGGCTGCCT
GCATTCTGTCATGGTCATTGTGTCCGCTCTGACGATTCAAGATGTTCGCG
AACGCCCCCTGGAATTCCAAGCCCAAGCTGATCAAGCCCACGCTAGGTTC
AAGGACACCACCTCAGATTTCTTAGGCTTTTTGAAACTGTGGGAGTACAT
CGCCGATCAGCGCAATCAAAGCAGCGGCAATTCCTTCCGCAAGCAGATGA
AAAAAGAATTCCTCCACTACATGCGTATCCGCGAGTGGTGGGATTTGGTG
CGCCAATTAGAGCAGATTGGCCAGCAACTTGGTTGGGCAAAGAAGGAGCA
GGTTGCAGGCACCGCCAGCCCTGACATCATTCACCAATCCTTGCTCACCG
GTCTGCTCTCGCAAATCGGTTCCCGTGATGGTGAGAGCAAAGAATTCACT
GGAGCCAGAGGTACCAAATTCTTGGTCTTTCCTGGTTCTGCGCTAACCAA
GAAGCCGCCACAGTTCATCATGGCTGGCCAATTGGTAGAAACCTCACGTT
TGTGGGCTCGCGATGTAGCCAAGATTGAACCAGAGTGGGTGGAAAAAGCA
GCCGGCCCATTGCTCAAGCACCAATACTCTGAACCGTATTGGTCCTCAAA
GCGTGGCGCTGCCATGGTGCACCGCAAATCAACGCTCTACGGTGTGACAA
TTGTTGCCGACAAGGTAGTTCCCTACCACACGGTTGATCCCGTGGCTGCG
CGCGATATGTTCATCCGCCATGCCCTCATCGAAGGCGATTGGTCCACTCA
CCACCGCTTCTACCACGACAACGTGGCCAAATTGGAGGCAATCGGAGAAC
TTGAAGCCAAGGCGCGTCGCCGCGACATCGTCGTAGATGAAGACACCCTG
TTTGATTTCTACGATGCCAAGCTTCCAAGCAACGCCACCACCACCCGCAA
TTTCGATTCCTGGTGGAAGAAAACATCACGCGTCACACCAGATCTTCTCG
ATTTCGACCCAGATAGTCTGATCAACGAAGACGCTGACGGCGTTAACGAA
GAAGCCTTCCCCGACAAGTGGATTAAAGGCAGCCTGATCTTCGATCTCAG
CTACCACTTCGAACCCGGCCACCGCGATGACGGCGTCACAGTCCTCATCC
CCATTCCAGTGCTGGGTGGACTTGATACCGAAGGCTTCGATTGGCTAGTT
CCAGGCTTAAGGCTTGATTTGGTGACCGAGTTAATCCGCACCATGCCTAA
GGCTTTACGACGCACCGTTGTCCCTGCCCCGGATTTCGCCGAGCGGGTCT
TGCCGTTACTGCGTCCCTACATGACACCACTGACCACCCAACTTGCCGAT
GCACTCCATACCCTGGGCGGCCAAGGAATCAACGCCTCTGATTTCGATCC
TGCCAAACTCCCCGATCACCTGCGCATTTCCTATGCAGCAGTAGATCGTC
GTGGCAAGATCATCGACCGCGACCGTGACCTCGAAGCACTAAAGAAACGC
CGCGCGAACCAAATCAGGGCATCTGTTTCTAGCGTTGCTAAGGCATCCGA
ACAAGATGAAACTACGCAGTGGACCACAGATACCTTGGGCACCATCGATG
AAGAAATCGAGACCACTGTCGATGGACAGTCCGTCACCGCGTACCCCGCC
TTGGTTGTCACCCCGACTGGCGTATCCGTCAAGGTCATGCCCACCAAGGC
TGCTGCTGATGCCTCGATGATCACCGCAACATTGACACTGTTGATGCGTG
AGATTGAAGTATCCACAAAGCAAATGGTCAAGGGACTACCCTTGCAACAA
CGAGTCGCAGTGGACAACTATCCCCACGGCGGTGCCGAAGGACTGGTTTC
TGATGCCCGTATCGCCGCAATTCGCGATTTGATGTTTGAACACGGCGGAG
CTGTGCGTTCACCGGAAGAGTTCGACGTTCTTCTAGCCAAGGTGAAGCCG
GAAACACCAGGAGTTGTTCGTCGAACTGTCGTTGAGCTAGCCCCAGCATT
GGTTCACTATGCATCCGTTGTGTCAGAGCTGGAGTCCTGGTCTGGACCTG
CCATTGACGATATGACCGCCCAGTTGGATTTCCTCTTGCCAAAGCAGGCC
ATCAGCATTCACGGCATCAGTAGGTTGAGGCACCTTCCGAGGTATCTGCA
GGCGTTGACGATTCGCCTAGAAGAGATGAACCAAAATCCGGATCGTGACG
CCGACCGTCAAGATGAAGTGAACTTCGTTGAAGAGCAGCTGGAGAAACAG
CTCAGTAAGCTACCCGCTGCGCGAGCCAACACCAAGGAAGCCAAGGATAT
TGCCTGGCAGATTCAGGAACTAAGGATCAGCCTCTTTGCACAGCGGTTAG
GCACTCCCCGACCTGTATCGGCGCAGAGAATCCAGAAGGCTATTGCCAAG
CTTCGATAA
>cg0178 hrpB, PROBABLE ATP-DEPENDENT RNA HELICASE PROTEIN
ATGTGTTCACTCAGCAAATTCTTAATGTACAGGCAATTGATGAGTTCAAG
AATTGGCAATTTTCTTATAAATCGCATTTCCACGGGCCTGCCCGTAGAAA
ATATTATCCCTCACCTGCAAGAAGCTTTTTCGGCCGGACCTAAAAACCTT
GTCATTCAGGCCCCTCCCGGCACAGGAAAAACGACACTTCTCCCCCCATT
AGTAGCTAACATCTTATGTAATGAAGGAGCGGGAAATGCCACCCCAACCA
AGGTTTTAGTAACGGCACCTCGTCGTGTGGCCGTCCGAGCAGCAGCTCGC
AGACTCGCCCAACTAGATGATAGCCAGCTCGGAACAAAAGTGGGATTCAG
CGTGCGTGGTGAACATATTTCAGGCTCCCACGTGCAATTTATGACCCCCG
GTGTGTTAATCCGCCAGCTCTTAAACAACCCAGAATTACCCGGCATCGGC
GCTGTGATTATCGATGAAGTCCACGAACGTCAACTCGATTCCGATCTACT
GCTAGGAATGCTTGCTGAACTCAGTCAACTGCGCGACGATTTCTCCCTCA
TCGCCATGTCCGCAACCTTAGATTCAGATAAATTCGCAAACTTATTAGAC
GCTCAGGTCCTTAGTGTTGAAGCACCGATTTTCCCCTTAGACATTTCTTA
TGCTCCAGCCCGCGCGCCTCGCCTCAATGCAAAAGGTGTCGACTGGGATT
TCCTCGACCACATGGCGCAGAAAACTCACGATGCGGTGACACATTCAGAG
CACTCTGCACTCATTTTCGTCCCAGGTGTGCGTGAAATTGATCGAGTAAT
GAGCACGCTCAAATCGCTCGGCCATAATAATGTTTTCCCACTTCATGGCC
AACTCAGCCCGACCGAACAAGACCGCGCCCTCGCACCGTCACAACAGCAG
CGCATCATTGTCTCCACTCCCGTTGCGGAAAGCTCCCTAACTGTGCCTGG
AGTTCGCATCGTGGTGGATTCCGGCCTCTCACGAAGCCCCAAACGAGACT
CTGCCCGCGGCATGACAGGACTGATCACCAGCAGTTGCGCGCAGGCTTCA
GCAGGCCAACGCGCAGGTCGCGCTGGCCGTGAAGGACCAGGACAAATAAT
CAGATGCTATTCCGAAGAAGACTTCTCCCACTTCCCACGATTTGTGACAC
CAGAAATCAGCTCCGCTGACCTCACCCAAGCAGCCCTCTGGCTCGCCCAA
TGGGGAACGTCACCTGCGGATTTACCGCTTCTTGATCAACCCCCTCACGC
AGCCTGGACGGCTGCACAACAGATCCTGCGCCTCATCGGCGCGCTTGAAG
GTGACGCTATCACGAGCCTGGGACATCGCTTATCGACGCTTCCCCTCTGC
CCTCAACTCAGCGCTTCTCTCCTCCGCTTCGGTGAACAATCCGCAAAAAT
CTTGGCGGTGGTGTCCGAAAACCCGCAGGGGGACGTCGAAAAGCAACAAC
CCGACAAGCGTGAAGTGGAACGCCTTCGCCGTTTGGCACCTGCGTCGGTT
GGAAAAGCGAGTGCGGGGCAAATCGTAGGCGCTGCATTCCCGCAGCTCAT
CGGCCGAAAAATAGACAATGGAGAATACCTTTTAGCCAGTGGAACCCGCG
CACGCCTCATGGATTCAGATCTCAAAGATGCCGAATGGATCTCCGTTGCT
GCAATTAACCGCTCACAAAATTCTGCCATCATCCGCGCCGCCGCCCGCAT
TTCAGAGGACGATGCCATAGACATCATCGGAGTCGTGGAAGAAACCCGCG
CGATTTTTGTCAACGGAAAAGTCCAAGCCCGGAAGGTCAAAGCAGCAGGC
GCGATCGAATTAAGTTCCACTCCGACAAAACCAACACCCGCCGAAGCCTC
GGAAACAATCGCCACAGCCCTTGCCAAAGGCGGAATCGACCTATTCCACT
TCTCCGACAAAGCGGCATCCTTGCGTGACCGACTGAAATTCATCCACGAA
CACCGTGGCGAACCCTGGCCAGATATTGAAACTGCGGACCCGCACCTGTG
GTTATCTCCAGAAATTGAGGCGCTCAGCCACGGAACACGACTAAACAATA
TCGATATGTATCCCGCACTCCAGCGACTTCTCCCCTGGCCTGAAGCAACC
AACTTTGAAGAATTCGCTCCTTCCCACCTATCCGTACCCAGCGGGAATCA
GCACCGACTAGATTATTCATCAGGCAGGCCAGTTATACGAGTGAAATTAC
AAGAATGCTTCGGATTAGAAGAATCCCCGCAGCTCTGCGGAATCCCGGTG
CAATTTCATCTCCTGTCACCTGCGGGAAGACCTCTTGCAGTTACCGATGA
CCTGCGTAGTTTCTGGTCTGGCCCGTACAGCCAAGTCCGTGCAGAAATGC
GGGGCCGGTACCCCAAACACCCGTGGCCGGAGGATCCATGGACCGCTCCT
GCCACTGCGCGCACCAAGAATCGCATGTAG
>cg1507 int1, probable phage-type Integrase
GTGCGACCTGTAAAAGCACAAACCAACGAGCCCCAAGCACTGCAGGTTGC
TGACATTCAACCCTTTCACGCTGTTATTGCGGCCTCAAAACAATTGACTC
TCATCGACGTTGTCGATGTCTGCCTTGGAACAGTGTTGCGAGCATGGGAA
GCACTGAGCCTGCGATGGGTAGACGTGGTGCTTGACGAGGAGCATCCAAG
AATCTTTATCCGAGGCACCATTGTCTACAACAAAGAAAAAGGTAACCACA
GACAAGATAAAACAAAAACGACCAGCAGTAGGCGTGTCATTCAGTTGCCA
GAAATTGCCTCAGACGTCTTACGCAAAAGACATGCACTCTACGCCGAACA
TCTCGAAATGGTGTTCCCTTCCGCTAGAGGCACATATATTTATGAGTCCA
ATTTCAACAAATTGTTGCGAAAACACCGAAAGGGTACTGCATATGATTGG
GTGACCGTGCACAGCATCAGGAAAACCCTTGCATCAATTGTCTCTGAGAA
CCTTGATTCCAAGGCCGCATCAGACGTACTCGGCCATGCTGACTCACGAC
TCACAGAACGGGTCTACATCGCTAAAACTGACAAAGACGTTCCGATTGGT
GATGTCGTCAACCAAGCGCTCAAAGAGGCACGAAAAGTCTCCAAAAAGTC
TCCAAATAAAGAAGCTAAAGAAGAAGAATAG
>cg2071 int2', putative phage Integrase (N-terminal fragment)
TTGCGCTCGGAGAGGTACAGGGCACGCTTCATGCACGAGGGTAGGCGATA
CTCTGCCCCGTACACTTTCGGTACCAAGGGTGAGGCTAATGAGTTCTTGG
CCTCTGAACGCACAGCCATCATCAATGGCACATGGATGGATTTTGAGATG
CGGGAGAGGTTTGAGCGGGCACAGCTTGAGGCTGAAGAACGCATGATGGA
GACCTTCTTTAGTTATGCATCGAGGTGGATAGAAACCCGGACAAATGCCC
AAGGAAAGAAACTTAGCCAAGGGGTGAAAGATGATTACTTTCGTTATATA
AAATCAGATCGACTAAGTTATTGGGCTGATTATGCGCTCTGCGCAATCAC
CGTCGCTGATGTCCGTGAGTGGTATAGCGACACCATTCAGGATGGGAAAT
TGACCTCAATGGCACGGAGTTACAGCATGATGAAGTCTGTCATGGAGACT
GCGGTAGAGGATGGCATCATTCCGACGAATCCGTGCAAAGTACGTGGCGG
GGGTAATACCAAAACAGGAAAAAGGTTGATCCCCCAACCGATGCCGAGCT
TGAAGCGAACATTGGTGCACTGCCGAGTAAGTACTTTTGTTTGGCTATTG
TTGCTGCTGCCGGCGCACTTCGATTCGGTGAAATCGTTGCGCTACGAACC
ACCGATGTCGATGTTTATTTTGATCGCAGCGGATTTGTAG
>cg2710 int3, integrase
GTGAACCTAGATATTGCAGCACCGAAGCCCAAGAAGTCAGGCCGCCGCAC
ACTCACAAAACCCGAATGGGATGCCGTCATTAAGCATCTGTTAACGCGGG
ATACCGAGCCACTGTTAACCCCCACCAAGCACAAGAACATCCGACAAAGC
ACCAAGAACATCCATGCCCGCATTGTGCGGCTCACTCTCCTCCAAGCCGT
TTCAGGGCTGAGAATTGCCGAAGCCAATCAATTGCAGTGGAAGCACATCA
TCGACGGTGACGATGGCATGCTCATTAATGCCAGCGCCGATATTGTCAAG
GGGCGAAAAGGCAAGGAAAGAGGGCGGTATATCCCTATCCTGAGGGCCGA
CGTAGCGGAATACCTGCGTACACACCGCGAGGACGACGAGCATTTCATCG
TAGGCTCACCGACGACGACCGCGAGGCCCTGGGACGCGACGAACGCAGAT
GACAAGGTGCCCGAGCTATACCGGCAAATTGCAGAAGCTACAGGCGTGAA
GACTCTTCAAGACCTCCGAAGCCACTCCTGGCGTGCGACGCTGCACGGTG
TGTACGCGGACGTGATGGACCCAGCTACACGCGCCGCCATTTTCGGCCAC
ACCGAGCAGGTAGCTGAGGAGTACTACAACGACCGCCAAAATATTGAATC
ACTCATGAGACAAGTCAAGCGCGCCTACGCGTAA
>cg1401 ligA, DNA LIGASE
GTGACTGAAGATAATGCTCAACTGCGTAGAACGTGGAACGACTTAGCCGA
GAAGGTTCGTTATCACCGAGATCGTTATTACAACGAACAGCCAGAGATCC
CTGATGCTGATTTTGATGCGCTTTTTAAGCAGCTTCAGCAGTTGGAAGAA
GACCACCCGGAGCTCGCCGTCCCTGATAGCCCCACCATGGTTGTGGGCGC
TCCGGTGGCAGAGCAATCAAGCTTTGACAATGTTGAGCACTTGGAGCGAA
TGCTCAGCTTGGACAATGTTTTTGATGAGCAGGAGTTGCGTGATTGGTTG
GGCAGGACGCCAGCCAAGCAGTATTTGACGGAGTTGAAAATTGATGGCTT
GTCCATCGACTTGGTGTATCGCAATGGCCAGTTAGAGCGTGCCGCTACTC
GTGGTGATGGTCGCGTGGGCGAGGACATCACGGCCAATGCTCGCGTGATC
GAAGATATCCCGCACCAGCTTCAGGGCACTGATGAATATCCTGTGCCTGC
TGTGCTGGAAATTCGCGGTGAGGTGTTCATCACTGTGGAGGATTTCCCAG
AGGTCAACGCGCAGCGCATTGCTGATGGTGGCAAGCCGTTTGCCAACCCG
CGTAATGCTGCGGCTGGTTCTCTGCGTCAGAAAAATATTGAGGACGTGAA
GAAGCGCCGCCTGCGGATGATCAGCCATGGCATCGGTTTCACTGAAGGCT
TTAGCCCTGCGTCTCAGCATGATGCGTATCTGGCATTGGCTGCCTGGGGT
TTGCCCACCTCGCCGTACACAGAGGCTGTGACTGATCCAGAAGATGTGGT
GAAAAAGGTCAGCTACTGGGCTGATCACCGCCACGACGCACTCCATGAGA
TGGATGGCCTGGTGATTAAGGTCGATGACATCGCATCTCAGCGTGCTTTG
GGTTCCACCAGCCGCGCGCCTCGCTGGGCCATTGCGTACAAGTACCCTCC
GGAGGAGGTCACCACCAAGCTGCTTGATATTCAGGTTGGCGTTGGTCGCA
CCGGCCGTGTCACCCCATTCGCGGTCATGGAGCCGGTTCTTGTTGCAGGA
TCAACGGTGTCTATGGCGACGCTGCATAACCAGAGCGAAGTCAAGCGTAA
AGGCGTGCTCATCGGTGACACCGTGGTTATCCGCAAGGCGGGCGAGGTTA
TCCCAGAGGTGCTTGGCCCTGTCGTAGAGCTTCGTGACGGCACAGAGCGC
GAGTACATCTTCCCAACGCTGTGCCCTGAATGCGGTACCCGTCTGGCGCC
CGCGAAGGCCGATGACGTGGATTGGCGTTGCCCCAACATGCAAAGCTGTC
CAGGTCAGCTGTCCACGCGTTTGACCTACCTTGCTGGTCGTGGCGCTTTT
GATATTGAAGCATTGGGCGAAAAGGGCGCTGAAGACCTCATTCGCACCGG
CATTTTGCTTGACGAGTCTGGCCTGTTCGACCTCACAGAGGACGATCTGC
TGAGCTCCAATGTCTACACCACCAACGCCGGCAAAGTAAATGCCAGCGGC
AAGAAACTGCTGGACAACCTGCAAAAATCCAAGCAGACCGACCTCTGGCG
AGTCCTCGTGGCATTATCTATCAGGCACGTAGGCCCCACCGCAGCGCGCG
CCCTTGCAGGTCGCTACCACTCCATCCAGGCGCTTATCGACGCCCCCCTC
GAGGAACTCTCCGAAACCGATGGAGTAGGTACCATCATTGCCCAATCCTT
CAAGGACTGGTTCGAGGTTGATTGGCACAAGGCCATCGTGGACAAGTGGG
CAGCCGCTGGTGTGACTATGGAGGAAGAAGTAGGGGAGGTCGCTGAACAA
ACCCTTGAAGGCCTAACCATCGTGGTCACCGGAGGGTTGGAAGGCTTCAC
CAGAGATTCGGTGAAGGAAGCCATCATCTCCCGTGGCGGAAAAGCCTCTG
GATCTGTCTCGAAGAAAACTGACTACGTGGTGATTGGTGAAAACGCAGGT
TCCAAGGCCACCAAGGCAGAAGAACTAGGGCTGCGCATTCTGGATGAGGC
AGGATTCGTCCGTTTGCTCAATACCGGCTCAGCTGACGAATAG
>cg0151 mag, PUTATIVE 3-METHYLPURINE DNA GLYCOSYLASE
ATGCCTATCGACTTCCTCCAACCCGCCGATATTGTTGCCCCACAACTTCT
GGGATGCACACTCACACATGGAGGCGTTGGTATTCGTATCACCGAAGTGG
AGGCATATTTAGATTCGACCGACGAAGCTGCACACACCTACCGTGGCAAA
ACCCCAAGGAATGCCGCGATGTTTGGCCCCGGTGGTCACATGTACGTCTA
TATTTCTTATGGGATTCACCGAGCGGGAAATATTGTGTGCGGGCCAGAAG
GAACAGGTCAAGGCGTACTTCTTCGTGCTGGTGAAGTGGTTTCAGGGGAA
TCAATTGCACAGAGCCGACGAGGGGAAGGAATTCCTCATGCACGTCTTGC
GCAAGGCCCAGGAAATTTTGGACAAGCGCTCGGTTTAGAAATCAGCGACA
ACCATGCTTCAGTTTTTGGTCCCTCATTTTTAATTTCTGACCGTGTTGAA
ACACCCGAAATTGTGCGAGGCCCCCGCATTGGCATCAGCAAGAACACCGA
AGCACTTTTAAGATTTTGGATTCCCAATGATCCAACAGTCAGTGGTCGCC
GAGGGTATCCGAAGGAGTAA
>cg1099 mfd, PUTATIVE TRANSCRIPTION-REPAIR COUPLING FACTOR
GTGACACCTATGCTCGCGGGGCTGTTGAAGGTCGCTGCAACCGACCCCAA
GTTGAAGGGGTTGATGTCGAATGTGGGGCAGCAGCATCTGCATATCACTG
GCATTGATCAGGCTCGTCCGTGGGCGATTGGTGCGTTGGCGCATCATGCT
CCGGTGTTGGTGGTGACTGCTACTGGCCGTGAGGCTGAGGATCTCACGGC
TGAGTTGAAGGCGATGATGGGCGATAAGGTGGCGTGGCTTCCGTCGTGGG
AGACTCTGCCACATGAGCGATTGAGTCCGGGTGTGGACATTGTGGGCAAG
CGTGCTCAGGTGCTCAATCATCTAGGCGACCTCAAAGTCGTGGTGGCTGC
TGCGCGTGCGTTTTGCCAGCCGGTACTCAAAGATGCTGAAGGTCGTGCAC
CCCTCACTCTTAAAGAAGGCGCGGAGTTTGATTTCTCTGCCCTGACCACT
GAGCTGGTTTTCCGTGCGTACAAGCATGTCGATATGGTGGCCAAGCGCGG
TGAGTTTGCTACCCGCGGTGGCATTTTGGATATTTTCCCCACCACATTGG
ATTATCCGGTGCGTGTGGAGTTCTGGGGCGATGAAGTCTCTGACATTAGG
CAGTTCTCTGTCGCCGATCAGCGCACCATTCCAGAAATCACCATCAAGAG
CATTGAGATTTTCCCGGCACGGGAATTGCTCATTACTGAAGAAGTGGCAT
CGCGTGCGGAGTCTCTTATTTCTAAGCACCCGGGCAACCCGACGCTTGTG
GAGATGCTGTCGAGGATTGCGGATTCCCAAGATGTTGATGGCATGGAGGC
GTTGATTCCGGCGCTGACGGATACGCCGATGGTTCCGATGCTGGAGCTCA
TGCCGGAAAACACCCATGTGTTGGTGATTGCTCCGGAGAAGGTGCGCCGA
CGCATTGCGGATCTGGAAGCAACCGATGCTGAGTTTTTGATGGCTGGTTG
GGAAGCAGCTGCGATGGGTGCTGATGGTCCAGTGGCTGCGGAAGGCCTGG
ACTTGGAAGCTTCTAGCTATCGCAGTTATGAAAGTTTGGAGGTTTCTGCG
TCGAAAAGCGATGTGCGTTGGTGGACTTTCGCGCCGCCGGGCATGTTTGA
GGCCTCGGAGGAGGCGACGCTGCCGCTTGATTTTGAAGCCGGGCCGGCGC
CGCGCGGTGAGCTGCCGAAGATCGATGCGATGATGGCGCAGCTGCTTGCG
CACACAACCGGCGGTGGGCGGGCTGCGTTTATCGCGCCGACCCAAGGTGC
GATTAAGCGCATGGTCGATCGTTTCGCGGAAAAGGGCATTCCCACCCATG
TGGCGACCCCGGGTTGGGAGCCAACGCCTGGTCAAGTGACTCTTTATCAT
GCGCTGAGCCATGCTGGCCTGGTGTTTCCGAAGGTGCGTAAACACCGCGA
TGGCGCTGCAATGCCGTTGGTGGTTATTACAGAAACCGATCTGACTGGTA
ACCGTGTTGGCGATATTGCAGGGGCGAAACGTCGACCTGCAAAACGCCGC
AACAAGGTGGATCCTTTGGCGCTGGAGCCAGGGGATTTGGTGGTTCATGA
AACCCACGGCATTGGTCGTTTTGTGAAGATGACTGAACGAACCATTTCTG
CGGGTGATGAGACCTCGCGCCGTGAATACATTGTGCTGGAGTACGCGCCA
TCTAAGCGCGGACAGCCCGGCGATCAGCTGTATGTGCCGATGGATGCGCT
GGATATGCTCAGCCGCTACGTCGGTGGCGAGAAGCCGACGCTGTCCAAAA
TGGGTGGTTCTGACTGGAAGAACGCCAAGAAGAAGGCTCGCGCTGCCGTG
CGTGAAATCGCCGGTGAGCTGGTAGAACTCTACGCTAAGCGCCAATCCGC
GCCGGGTCACCCGTTTGCGCCGGATACGCCGTGGCAAAAAGAGATGGAAG
ATAACTTCCCCTACGTTGAGACCGAAGACCAGATGTTGGCGATCGATGCG
GTCAAGGAGGACATGGAGAAAAGTGTCCCCATGGACCGCGTCATCATCGG
CGATGTGGGTTATGGCAAGACGGAAGTGGCGGTGCGCGCGGCGTTCAAGG
CTGTGCAAGACGGCAAGCAGGTAGCCGTTCTGGTGCCCACCACGTTGCTT
GCGCAGCAGCACCAGTCCACGTTTGAAGAGCGTATGACTGGTTTCCCTGT
CACCATCAAGGGATTGTCACGCTTTACTTCGCCTGCGGAATCGCGGGAGA
TTCTCTCCGGTTTGGCTGCAGGATCGGTGGATATCGTCATCGGTACTCAC
CGTTTGCTGCAGACTGGCGTGCAGTGGAAAAACCTAGGGCTTGTCATTGT
GGATGAGGAGCAGCGTTTCGGCGTGGAACATAAGGAGCACATCAAGGCTC
TGCGTACTCACGTGGATGTGCTGACCATGTCCGCGACCCCGATTCCGCGC
ACCCTGGAAATGTCCATGGCCGGTATCCGTGAGATGACCACCATGCTCAC
CCCGCCGGAAGATCGCCACCCAATTCTTACCTATGTGGGACCGTATGAAG
ACAAGCAGGTCGCGGCATCAATTCGCCGTGAGCTGCTGCGCGATGGCCAG
GTCTTTTTCATCCACAACAAGGTGGCAGATATTGAGAAGAAGGCCCGCGA
GATCCGCGATCTAGTTCCCGAAGCCCGAGTGGTCGTTGCCCACGGCCAGA
TGAGTGAAGAGCTGCTGGAACAAACCGTTCAAGGTTTCTGGGACCGCGAA
TACGATGTGCTGGTGTGTACCACCATCGTGGAAACTGGTCTGGATATTTC
CAACGCCAACACGCTTATCGTGGAAAATGCCCACCACATGGGCTTGTCTC
AGCTGCACCAGCTGCGTGGCCGCGTGGGTCGTTCCCGTGAGCGCGGTTAC
GCCTACTTCCTGTATCCAAAGGGCGCGACACTGACTGAAATGTCCTACGA
CCGCCTGGCAACGATTGCCCAAAACAATGATTTGGGTGCCGGTATGGCGG
TTGCCATGAAGGATTTGGAAATGCGTGGCGCCGGCAACGTGCTGGGTGCA
GAACAATCAGGCCATATCGCTGGCGTGGGCTTTGACCTGTACGTTCGCCT
CGTCGGCGAAGCAGTGGAAGCCTACCGCGCGCTGGCTGATGGCAAAGTTG
TTGATGGCACCGTCAAGGGACCAAAGGAAATCCGCGTGGACCTTCCCGTG
GATGCCCACATTCCCGAAAAGTACATCAACGCCGAGCGTCTGCGTCTGGA
AATCTACCGCAAGCTCGCGCAGTCCGAATCGGAAGTGGATCTGCGCCTTG
CGGTGGAAGAAATGGAAGACCGCTACGGTCCCATTCCAGAAGAAGTGGAG
CGCCTGCTGGCTGTGTCCAGATTGCGCCACCTCATGCGCGAAGCCCACCT
CACCGACATTGCGGTGCAGGGCACGCGCATCAAGGTCCACCCCGTTGACC
TCGCCGATTCGCAGCAAGTGCGCCTAAAGCGCCTGTTCCCAGGCGCCACC
TACCGCGCAGCCGCTAAAGCAATCCAGCTGTCTTTCCCGAAGACAGGCAA
CAAGGTCACAGATCCTTTGCTTCGCGACGTCGACCTCCTCCAGTGGGTAG
CGAACTTCATTTCCAACATGTTCAACTTGGAGGAAATCGATGTTCGCGGA
CCACAACCAGGAAAGCCTAAGAAGAAATCATCAGTGATCTCCGTCAGCCT
GTAA
>cg2272 mutM1, FORMAMIDOPYRIMIDINE-DNA GLYCOSYLASE
GTGCGCCGCGGTTTAGAAGATCATATGGTCGGCCACACCATCGTGTCCGC
CACAGTGCTTCACCCGCGCGCAGCCCGCAATCAACTCGGCGGTGGCCCCG
AAATCGAGGCCAACATCGCAGGGCTTAGGGTCAGCGCTGCCAAGCGACGC
GGCAAATTCCTCTGGCTTGAGCTTATCGACGCACCCTCCGGCGAAACCCG
TCCCGATTTAGGGCTACTGGTTCACCTTGGGATGAGTGGACAAATGCTCA
TCAAAGAACCAGATGCACCAATTAGTCCACACCTTCGAGCCAAAGTCGAG
CTAGATAATGGCGATGAAGTGTGGTTTGTCGATCAACGCACCTTCGGTTA
TTGGTGGCTCGGCGACCTAGTTGATGGAGTACCCGAACGCGTCTCTCACA
TTGCCACAGATGTATTGGATGAGTCTGCTGATTTCTCTGCGATTGCGCGG
AATTTGAAATCTCGGAAATCGGAGATCAAACGCCTCCTGCTTAACCAAGA
GATCGTCTCCGGCATCGGAAATATCTATGCCGATGAAATGCTCTGGCAAG
CAAAAATTCACCCATTGCAACGTGCCGATCGACTGTCCCTAGCTCGCTTG
GAAGAACTTCTTCAAGCTGGCAAAGACGTGATGACCAAAGCACTTGCTCA
AGGTGGCACCTCTTTCGACGCGCTCTATGTCAACGTCAATGGCAACTCCG
GCTACTTTGCGCTGTCATTGAATGCTTATGCGCAAACCGGGGAGCCGTGC
GGACGCTGCGGAACATTAATCATCCGGGAGAGTTTCATGAACCGCGGCTC
CCACTACTGCCCAAACTGCCAGAAGCGGCGCTAG
>cg3328 mutM2, PROBABLE FORMAMIDOPYRIMIDINE-DNA GLYCOSYLASE PROTEIN
ATGCCTGAAGGACACGTGATTCATCGACTAGCTGGGGAACTCACCAAGAA
TTTTGGCGATACCATTTTGGACGCCACTTCACCTCAAGGACGCTTTACTT
CTGAAGCGGCGATCATCAACGGTCACCGCATCGCGGTTGCGGAGGCTTAC
GGCAAGCACCTGTTCGTCGAGTTCGATGCGGATCACCCTGAGCACATTTT
GTATATCCATTTGGGGCTGATTGGCACGTTGCAGTTTGAACCTGCGGAAG
AAACCCGCGGGCAGATTCGCCTGCACCTTTCCGACGGGGAGATCGCAGCT
AATTTGCGCGGACCCCAATGGTGCAGGTTGATCACCGATGCAGAGCGCAC
CCAGGCCATTGGAAAATTGGGCGCTGATCCGATTCGCGATGATGCCGATC
CGGAACCAATTCGGATTAAGGTGCAGCGCTCAGGGCGAAGCATTGGTTCG
TTGTTGATGGATCAGAAGCTTTTCGCAGGTGTGGGAAATATCTACCGTGC
GGAGACACTTTTCCGCCTGGGGATTTCACCGTTCACCATTGGAAAAGACA
TCACCACGGCACAGTTCCGATCCATTTGGGCGGATCTTGTTGGGTTGATG
AAAGACGGTGTTGTGACTGGTCGGATTGATACTGTGCGCCCGGAACACAC
ACCGGAGGCGATGGGTAGGCCACCGCGGAAAGATGATCACGGCGGTGAGG
TTTACACCTATCGGCGAACCGGTCAAGAGTGCTTTCTGTGCGCAACTCCC
ATCAAGGAGCAGGTCATGGAGGGTCGCAACTTATTTTGGTGTCCCGGCTG
CCAACGCTAG
>cg2955 mutY, A/G-SPECIFIC ADENINE GLYCOSYLASE
ATGTCATTTACAGCTTTTCAAACAGCCCTGCTCGTGTGGTTTAGAGCAAA
TGCCCGCGATCTTGCGTGGCGTGATCCCAATACTTCAGCATGGGGAATTC
TCCTTTCAGAGGTGATGAGCCAACAAACTCCCGTCGCGCGAGTCGAGCCG
ATTTGGCGTGAGTGGATGGAAAAATGGCCCACTCCGGAAGATTTCGCGAA
TGCGAGCACCGATGAGATTTTGCGGTCGTGGGGCAAGTTGGGCTATCCAC
GTAGGGCGCTGAGGTTGAAGGAATGTGCGGAGGTGATCGTCGAAAAGCAT
GCCGGCGAGGTGCCGGATACGGTGGAGGCGCTGCTCGCGTTGCCGGGGAT
CGGTGATTACACGGCGCGCGCGGTCGCGGCGTTTCATTTTGGGCAGCGCG
TGCCGGTGGTCGATACGAACGTGCGTCGCGTGTACCAGCGCGCGGTAGCC
GGACGTTACCTTGCGGGGCCTGCGAAAAAGCAAGAGCTTATCGACGTCTC
CCTTCTCCTTCCCAACACTCACGCCCCAGAATTCTCTGCCGCAATAATGG
AGTTGGGTGCTCTTATCTGCACGGCCACTTCCCCAAAGTGTGACACCTGC
CCACTGCTTGACCAGTGTCAATGGCAAAAACTTGGCTGTCCCTCCCCGAG
TGAAGAGGAGCTGGCTTCAGCGAAAAAGCGTGTGCAGAAATTTGTGGGAA
CCGACCGACAAGTCCGTGGCCTAATCATGGACGTACTGCGCAATGCCACC
GCACCTGTGCCACTATCCGCGATTGATGTCGTGTGGCCTGACGATGCCCA
ACGCTCCCGGGCGCTGTTTTCGCTCATTGAGGACGGACTCGCGGAACAAA
ATGAGGCGGGTTATTTCCACCTGCCACGGTAA
>cg0969 nei, ENDONUCLEASE VIII REMOVING OXIDIZED PYRIMIDINES MA
ATGCCAGAAGGTGATTCCGTATTCCAACTCTCCCGCAAACTTCAATTCAT
GCGCGGAAGAGAAGTGCTGGAAACCTCCCTGCGTGTGCCATCAGTGGCAC
TTCACGATTTCACCGGTCAAACCGTCAACCGCGTATGGCCCTACGGAAAA
CACCTCTTCATGCAATTCGGTGAAGAGATCCTCCACACCCACCTCAAAAT
GGAAGGGACGTGGGCTGTCCACCGCAAAGGCGATCGCTGGCGCAAACCTG
GACACACCGCGAGGGTAGTGCTTGTGCTGTCGGAAAACATCGAGGTGGTG
GGGCATTCCCTCGGCTTTGTCAGAGTGTTCCCCGCAAACCGCTACTCCGA
AGAGATCGCTTACCTCGGCCCCGACGTCCTTGCCGAAGAATTCGACATCA
ACACCGCACGGAACAATATTGCATCGAACCCTTCCCGAACAATTGGCGAA
GCCCTCCTCGACCAATCCAACCTCGCTGGAGTAGGCAACGAATACCGCGC
TGAGATCTGCTTCCTCATGGGCGTCCACCCGGCGACACAAGTAGGATACG
TTGACGTCGAAAAGGCTCTGAAGATTACCCGAAGACTCATGTGGGAAAAT
CGAAATTCGCCGATTCGAGTGACCACCGGGGTTCGACGCGCCGGGGAATC
CACCTATGTGTTTGGGCGTAACAATAAACCGTGCAGGAGATGCCGAACCC
CAATCGTGAAAGCCGAGTTGGGGGAGCGAATAATCTGGTGGTGTCCGCGC
TGCCAACCGCTAAACTCGTGA
>cg0353 nth, PROBABLE ENDONUCLEASE III PROTEIN
ATGGGTTCCATTACTCCGCAGAAGCGGCCTCGCGTGGGGTCTCACATCGC
GAACAAGGGTCAAGAGACTGATATCGGGCGAAAACGCCGAGCTCGACGCA
TCAATCGCACACTCACCGTGGCATATCCGGATGCGCACTGCGAATTAGAT
TTCACCAATCCGCTAGAACTCACGGTCGCCACCATTTTGTCCGCCCAGTG
CACGGACGTTCGCGTGAACCAGGTGACGCCCGCGTTGTTCAAGCGCTATC
CGACGGCCACAGATTACGCCAACGCCGATCGCACGGAATTGGAGGAGTTC
ATCCGTCCGACAGGCTTTTACCGCAACAAGGCCACTTCTTTAATCGGCCT
GGGTGAGGCACTAATTTCGCTTCACGACGGCCAGGTCCCCGGTACCCTTG
AGCAGCTAGTTGAGCTGCCGGGGGTCGGGCGGAAAACCGCCAACGTGGTG
CTGGGAAATGCTTTCGGTGTTCCGGGAATCACGGTGGATACACACTTTGG
CAGGTTGGTGCGTCGCCTGAAGCTCACTGATGAAGAAGATCCCGTCAAGG
TGGAAAAAGTGATGAACGAACTCATCGAAAAGCCTGAGTGGACCATGTTT
TCACATAGGCTGATCTTCCACGGACGTAGGATATGTCATAGTCGACGCGC
CGCCTGTGGAGCCTGCATGCTGGCAGCTGATTGCCCATCCTTTGGTTTGG
AGGGGCCGTCAGATCCATTTGAGGCGCAAAAACTCATTAAAAGTGATGAT
AGGGAGCACCTGCTGAAAATGGCAGGAATGTAG
>cg3331 ogt, METHYLATED-DNA--PROTEIN-CYSTEINEMETHYLTRANSFERASE
ATGCACCATCTACGCTATGAATCACCAATCGGAGAGCTTCTTCTTGTTGC
AAGTGACCAAGGGCTAACCTATGTGGCATTCTCCGATGAAAACTACGCAG
CTTGTACTGTCGGGTCGACCCCGGGAACCAATGCGGTGCTGGAACAGGCA
GTTGCTGAGCTTGAAGAATACTTCGCAGGGAAACGTAAAGAGTTCAGCAC
TCCCCTGGATTGGCCAAGCCAAAATCTGCTGAGCTTCCGCGGTAAAGTGC
AGGAATTTTTGCTGTCCATTCCTTATGGGGAGAGTAAAACTTACAAACAG
ATCGCCGCTGAGCTTAATAATGTGGGCGCGGTTCGTGCAGTGGGAAGCGC
CTGCGCCACCAACCCCTTGCCAATCTTTGCTCCTTGTCACCGAGTACTGC
GCACTGATGGGGCGTTAGGTGGCTACAGAGGAGGCTTGGAAGCAAAACAG
TGGCTGTTGGAGCTGGAACGTCCTTAG
>cg0976 pcrA, ATP-DEPENDENT HELICASE PCRA
ATGAATACTTCTCCTTTTACCCCAGGTTCCCCCGATCTCATCGATGGCTT
GAATGAGCAACAGCGTGCTGCTGTGGAGCATATCGGTTCTCCGCTGCTGA
TTGTCGCTGGTGCTGGTTCAGGCAAGACTGCTGTGTTGACCAGGCGTATT
GCTTATTTAATGCGTTACCGTGGTGTGCATCCGCAGCAAATTTTGGCCAT
TACCTTTACCAATAAGGCTGCCGCTGAGATGCGTGAGCGTGTCAGTCAGC
TGGTGGGCCCGGTTGCGGAGCGCATGTGGGTGGCTACGTTCCACTCGGTG
TGTGTGCGTATTTTGCGTCAGCAGGCGCAGTTGGTGGAGGGGCTGAACAC
TAACTTCACTATTTATGATTCGGATGATTCGAGGCGTTTGCTCACGATGA
TCGCCAAGGATCTGGAGTTGGATATTAAGAAGTTCTCGGCGCGTACGTTG
CTGGGTGCTATTTCTAATTTGAAAAATGAGTTGGTTACTCCGCAGGAGGC
TCTTGCGGATGCTGAACGCACGCACAATCCTTATGAAACAGTCGTGGCCA
GGGCGTTTTCGGAGTATCAGAGCAGGCTTCGCCGTGCCAACGCTGTGGAT
TTTGATGATTTGATTGGGGAGACTGTTCGGATTTTCCGGGAGCATCCACC
TGTTGCGGAGTATTACCGCAGACGTTTCCGCCACGTGCTGATCGATGAGT
ATCAGGACACCAACCACGCTCAGTATGAGCTGATTTCTACGCTCGTCGGC
AAGCCTGACCAGGATCCGTCTGAGCTGTGTGTTGTGGGTGATTCGGATCA
GTCTATTTATGCTTTCCGTGGCGCCACGATCCGCAACATTGAAGAGTTTG
AGCGCGATTTCTCCAACGCCCGCACCATTTTGCTGGAGCAGAATTACCGT
TCCACCCAGACGATTCTTTCTGCTGCCAACGCGGTGATTTCTCAAAATGA
GAACCGTCGACCTAAAAACCTGTGGACTGCGCTGGGGGAGGGCGAGCAGA
TCATTGGTTATGTTGCCGACAATGAGCACGATGAAGCCCGTTTTATTGCT
AGTGAGATCGACAATTTAGTTGACCACGGCATGAGCTATTCCGACATCGC
GATCATGTACCGCACGAACAATTCCTCGCGCGCACTAGAGGATGTCTTCA
TGCGCACCGGCGTCCCCTACAAAGTAGTCGGCGGCACGAAGTTCTACGAA
CGCAAAGAAATCCGTGACATCATCGCTTACCTGCGCGTTTTAGAAAACCC
CGATGACACCGTCAACCTCCGTCGCATCATCAACACCCCCAAGCGCGGCA
TCGGCGATCGCGCGCAGGCGTTCATCGCGCTGCACAGCGAGAACAATCAG
ATCAGCTTCGGGCAAGCGCTTCTCGACGCCGCCCTCGGCAAGGTCGACCT
GCTTGGAGCGCGCGGCAAGAATGCGGTGATTAAGTTCAATGAGCTTTTCG
ACGCCCTCCGCTCCGAACTCCCCACCATGGTCAATGAGGTCACCGGCCTG
CCAGACATCGGCCAAGTCATCAGTCGCATCCTCGACATCACTGGCTACAA
GGCAGAACTTGAGGCATCCAACGACCCTCAAGATGGCGCACGCCTAGACA
ACCTGAACGAGCTTGTCTCCGTGGCCCGCGAGTTCTCCTCCGACGCCGCA
AACCGCATGGTTAATGAAGTTCCAGAAGGCGAAGCCCAACCGGGCAGCTT
ACAGGCATTCTTGGAGCGAGTCTCCCTGGTTGCCGACGCCGACCAAATCC
CCGATTCCGACAACGGCGTAGTCACCCTCATGACCCTGCATACCGCCAAG
GGCCTTGAATTCCCCATCGTGTTCCTCACAGGCTGGGAAGACGGACAGTT
CCCACACCTGCGTTCCCTTGGTGATGCCAAAGAACTTGCCGAGGAACGCC
GCCTCGCCTACGTGGGTATCACCCGCGCCCGCAAGCGCCTCTACATGACC
AGAGCCATGCTGCGTAGCTCCTGGGGCAACCCGGTGACCAACCCACCGTC
ACGTTTCCTCCAAGAAGTGCCCGCAGAACTCATCGATTGGAGGCGCGAAG
AACCCCAGATGTCTTCCGCCTGGGCTCCTCGACCCACCCGAAGCATCCCC
ACCAAAACTCGCACCAACAATAAGCAGTTGGATCTGTCGGTGGGGGATCG
CGTCAATCACGACAAGTACGGCTTGGGAACCGTGCTCTCTTCAGATGGCA
GCGGCCCCCGAGCCACCGTCACCATCGATTTCGGTTCCTCCGGCAAGGTT
AGATTGATGCTTCTTGGTGGCGTCCCGATGGAGAAGCTATAG
>cg0728 phr, DEOXYRIBODIPYRIMIDINE PHOTOLYASE
ATGAATGCAAACGCAAGGGTGTTTATTTTAAACTCATTAGCTATGAATGA
TCCACAACGCTCTCCCACCCTTCTATGGTTCCGCGATGACCTCCGACTAA
GTGATAATGCTGCCTTAAAATGGGCTGCTGATCATGGCCCCGTTATTGGA
CTCTTCATTGATGAAACGATCAATCGCAGCATTGGGGCCGCAGCACGATG
GTGGCGAGAACAAAGCCTTAATGCTTTAGCCCAAGATCTTTCTTTTTACG
GAGTACCTTTACTACGACGTACCGGTAATCCGCTTGAAATACTGCCGAAA
ATAGTCTCTGAGATGGAAGTCAAAGCCGTCACATGGAATCGACGCTATCA
TCAACCGTTATGTGAAGTGGATGCCACTCTCAAAAAGAATCTCCGTGATA
AAGGGATTGAAGTGCATAGCCACCCAGGTTTTTTACTCACTGAACCCTGG
GAAGTCAGTACCGCTACCGGAACTCCCTACAAGGTATTTACCCCTTTTTC
TAAAGCCGCATGGGAAGTAGCCAGAGTACATGCATATGAAACTGTTAAAA
ACAATGTGCCTGTCCCCTCTCACCTAACAGGACCAGAGGATGTAGAGCTG
CCCATCCTAGAAATGGAGCAACCTTTTTGGTCAACAACGTTAGTTAAGGA
GTGTGCTCCCGGTGAAAAAAATGCTTCGGAAAAACTCTTTGATTTTTTGG
AACATCTACAGGACTACCCGCAAGCTCGAGACAGCTTAGCCCGATCCGCT
ACAAGTAAATTATCTGCTCATCTAAGGTTTGGTGAGATCAGCATCCACCG
CGTGTGGGCAGAGACTGCAGCAATAGACTCTGAAGGAACTGAGTTATTTC
TTAAAGAACTTCTCTGGAGAGATTTTGCGTGGCATCGACTTTATGCCCTG
CCACACATGGACACGCAAAACGTTCGTATGCAATTTAATCGTTTCGGATG
GTCCTGGGATCCGAGTGAAAAAGATAAACTTAACACTCCATCCACCCCTC
TTATCCCCACCAAAGCTGACCAATTCCATGAGGATTTAGCAGCATGGCGT
GCAGGAAAAACAGGAATTCCGCTGGTCGATGCAGGCATGCGAGAATTATG
GGCCACCGGGTCAATGCACAATCGCGTCAGAATGGTAGTAGCTAGTTTTT
TAACCAAGAATCTCCAGATCCATTGGCGTCATGGCGAAGAATGGTTTTGG
GAAACTCTCGTAGATGCTGATCCAGCTTCTAATGCTTTCAACTGGCAATG
GGCTGCGGGTAGCGGAGATGACGCTTCGCCTTATTTCCGTATTTTTAATC
CGGTCACCCAAGCGAAAAAATTTGATCCAGATGAAACTTATATTCGTCGC
TGGGTACCCGAATATGGAACACCATCATATCCGGATCCCATCGTCGATCT
GAAAGAATCCCGTCAAATTGCTTTAGACGCCTACTCTGCGATTAAGTGA
>cg0059 pknA, SERINE/THREONINE PROTEIN KINASE
ATGAGTCAAGAAGACATCACTGGAAAAGATCGACTCCAAGAACTCATCGG
CGCTGATTATCGTCTGCAGTGGATCATCGGACACGGTGGCATGTCCACCG
TATGGCTCGCAGATGATGTGGTCAATGATCGCGAAGTAGCCATCAAGGTA
CTGCGCCCGGAATTTTCCGACAACCAGGAGTTCTTGAACCGTTTCCGCAA
TGAAGCGCAAGCGGCTGAGAATATCGATTCTGAACACGTGGTGGCCACCT
ATGACTACCGTGAGGTTCCAGACCCTGCTGGGCATACTTTCTGCTTCATC
GTCATGGAATTTGTCCGCGGTGAATCGCTTGCGGATCTTCTAGAGCGCGA
AGGCAGACTGCCGGAAGACCTGGCTCTTGATGTGATGGAACAGGCGGCAC
ATGGTTTGTCGGTGATTCACCGGATGGACATGGTGCACCGCGATATCAAG
CCGGGCAACATGCTGATCACAGCCAATGGCATTGTGAAGATCACGGACTT
TGGTATCGCTAAGGCTGCCGCTGCTGTGCCTTTGACCCGCACCGGCATGG
TGGTGGGTACTGCTCAATATGTTTCACCTGAGCAAGCCCAGGGCAAGGAA
GTCACCGCGGCTTCTGATATTTATTCTCTCGGTGTGGTCGGCTATGAGAT
GATGGCTGGCCGCCGCCCGTTCACTGGAGATTCTTCGGTGTCTGTGGCGA
TCGCGCACATCAACCAAGCTCCGCCGCAGATGCCCACCAGCATTTCGGCA
CAGACTCGCGAGTTGATTGGCATTGCGTTGCGCAAGGATCCGGGTCGCCG
TTTCCCTGATGGAAATGAAATGGCGCTAGCTGTTTCTGCTGTGCGCCTTG
GCAAGCGCCCGCCTCAACCGCGCACGAGCGCGATGATGGCGCAGGCGGAG
GCGCCGTCGCCAAGCGAATCAACGGCGATGCTGGGCAGGGTGGCCCGGCC
TGCAACAATCACCCAAGAAGCGGCCCCGAAACGCGGTTCCGGCATTGGCA
TTGGTCTGTTCATCGCAGCTTTGCTTGCCGTGATTATTGGCGCGGTGATC
TATGCGGGCACCACCGGAATTTTGTTCAACGACACTCCGGAAGAAACCAC
CACACCTGAAACCATTACGGAAACATACACCCCAACCGTGGAGGAAACCA
CCTCTCAGTGGGTACCGCCAACGCCTCCAACACGGTCAACATTCACCGAA
CCTGAAACAACTTCACACCGTCCGACGACAAGTGAAGAGAGCACATCCGA
GGAACCAACCACGGAAGCTCCAACAAGTAGCCGAACTGTGCCTCAAATCC
CTACCTCTACACCTAGGACGAGTGCTAGCGTTCCAGTTGAGACTAATGCA
CCGGCTGATGATTTAATCGACGCCGTAAATGGCCTATTGGATGTAGGAGG
AGCGCAGTGA
>cg3046 pknG, Serine/threonine protein kinase
ATGAAGGATAATGAAGATTTCGATCCAGATTCACCAGCAACCGAAGCTGT
TGCCTTCAACCCTTTCGACGATGACGATGAGGATGATTCCCCCGCTACCT
CAGCCGTTGCCTTTAACCCTTTTGAAGATGACGATGACGACGATGAGTTC
CAAGGCGAAGGCCTAGAATTCCTGCTGCGCGACCTCGACAATCTGCGAGC
CACCCAAGGTCAAATGGTGGTGGAACAACCAGCAGTTGAAGACAGCCTCG
GGTCAGCATCTGCGCATACGGAGACAACTGCGGCCTCACTGCGTCCCCGC
CCAGAGGTGGATCCAAGTGAGAGGAGTCGTCGACAAGCAATTTCGCTGTT
CCGCGAACGGCGCCGCGTAAGGCGCCAATCCCGCCCAGTTGCTGATGGCA
TGGTGGAATTGCCGTTCATCACCCCCAAACCGGAAGATGAGCTGCTCATC
GACCCGGAAAAGAAGCGCAAACCTGGTGTGGCAGCGCCGCAACTTGTCGC
GGGCGATATCGTCGCAGAGCAATATGAAGTCCTCGGCGTCATCGCGCACG
GCGGCATGGGTTGGATTTACCTCGCCAACGACCGCAATGTGTCCGGCCGC
ATCGTGGTGCTCAAAGGCATGATGGCGCAATCTTCCGTTCAAGACCAAGG
CACCGCTGAAGCCGAACGCGAATTCCTCGCCGACATCACCCACCCCGGCA
TCGTGAAGGCCTACAACTTCATCGACGACCCCCGCGTCCCCGGCGGATTC
ATCGTCATGGAATACGTCAACGGCCCCTCCCTGAAAGACCGCTGCAAAGC
CCAACCCGACGGCGTGCTCCGCGTCGACCTCGCCATCGGCTACATCCTCG
AACTCCTCCCCGCCATGGACTACCTGCACCAACGCGGCGTAGTGTACAAC
GACCTCAAACCCGAAAACGTCATCGCCACCGAAGACCAAGTTAAACTCAT
CGACCTCGGCGCGGTTACCGGCATCGGCGCATTCGGCTACATTTACGGCA
CCAAAGGATTCCAAGCACCCGAAGTAGCCACCCATGGCCCCTCAATCTCC
TCCGATATTTTCACCATCGGACGCACCCTCGCAGCACTCACCATGCCCCT
CCCCGTTGAAGACGGTGTCCTCGCACCGGGCATCCCCTCGCCCAAAAATT
CACCTCTTCTGCGCAGGCATTTGTCGTTCTACCGCCTCCTGCAACGCGCC
ACCGCCGACGACCCCCAACACCGATTCCGCAACGTCAGCGAACTACGCAC
CCAACTCTACGGCGTACTGCGTGAAATTTTGGCAGTCCGCGACGGCAAAC
AATACCCGCCACAGCACTCACTATTCTCCCCACAGCGAAGCACCTTTGGC
ACCAAACACCTCGTGTTCCGCACCGACCGCATCATCGACGGCATCGAACG
ACAAGCACGCATCACAGCACCAGAAATTGTCTCCGCGCTGCCTGTCCCAC
TCATCGACCGCACCGACCCCGGCGCCCGTATGCTCTCCGGATCCTCCTAT
GCAGAACCCTCCGAAACCCTGGAAACTCTGCGCAACTCCATGGAAGACGA
GCAATACCGCCAATCAATCGAGATCCCCCTCGGTGTCGTCCGAGCCCTCC
TTGACCTAGGCTTTACCACCGAAGCACGCCAATGGCTCGAAACCCTAGAG
GGACGCATCGGCGACGACTGGCGACACAAATGGTTCTCCGGAATCACCTA
CCTCCTCCTCGACGACTACGCCACCGCCCAAGTATTCTTCAACCACGTCC
TGACCATCCTGCCCGGCGAAGCCGCTCCTAAACTAGCCCTCGCAGCTGTT
GACGAACTCATCCTCCAACAAATCGGCGCCGAATCCACCGCCTATCTCAC
CCCAGACATCGTCTCTGCAACCGCGACCCTCAGCAAAGATTTCGAAGACC
TCGACGCCTCCGCCTTCGAATCACTCAGCGACACCTGGTCCCACATCTCC
AGCGACCCACACGTAGTCCGCTTCCATTCACTGCGCCTCTACGCACTTGT
CTGGGCAACCAACCCCACCACCGTGTCCTCCGCGTTCGGGCTCGCCCGCC
AACTCATGGCCGAAAACCAAATCGAACTCGCAGTCCAAGCCCTAGACAAA
CTCCCCCAATCATCCACCCACTACCGAATGGCCACCCTCACCACCATCTT
GTTGCTGGTCAGCTCCAATTTGAGTGAATCCCGCATCCGACGGGCTGCCC
GCCGACTCACCGAAATCCCCACAAACGAACCCCGCTTCAACCAAATCAAA
ATTGCCATCATGTCGGCAGGCCTCAGCTGGCTTCGAGAGCGAAAACTCAA
AGCTTCCGCCTCCGCGAACCCTTTGTTTGAATACCCGTTCTCCCAAAAAG
GCCTGCGCACCGGCATCTCCGAGGCACTCCGCATTCAGGCACGTTCTGCA
CCGTTCCCGCACCACCGTTACGCACTTGTGGATATGGCGAATGCCGTGCG
GCCACTGAGTTGGTTCTAG
>cg1525 polA, DNA POLYMERASE I
ATGCTTATCGACGGCCACTCGATGGCTTTCCGCGCATTCTTTGCTTTGCC
GGCTGAGAATTTCTCCACGTCGGGCGGGCAGGCCACCAATGCTGTCTATG
GCTTTCTCTCGATGCTGTCCACGTTGTTGAAGGATGAGCAGCCTACTCAT
GTGGCGGTGGCTTTCGATGTGGGGCGTAAGACGTTCCGTACCGATATGTT
CCCGGCGTATAAGGCGCAGCGTGAAGCAACGCCACCTGAGTTTAAGGGCC
AGGTGGAAATCCTCAAGGAGGTGTTGTCCACTTTGGGAATTACGACTATT
GAGAAAATCGATTTTGAGGCTGATGATGTGATCGCCACGTTGTCTGTGGC
GGCGAAACCTTTAGGCTTTAAGACGCTGATTGTTACGGGTGACCGTGATT
CCTTCCAGTTGGTCAATGACACCACCACGGTGTTGTATCCGATGAAGGGC
GTGTCTGTGCTGCACCGTTTCACGCCGGAAGCAGTGGAGGAGAAGTATGG
ACTGACACCGAGGCAGTATCCGGAGTTTGCAGCGCTGCGTGGTGATCCTT
CCGATAACTTGCCTAATATTCCTGGCGTGGGCGAGAAGACTGCTACCAAG
TGGATTGCCCAGTATGAAACTTTGGATAATTTGCTTGATCACGCTGATGA
GATCAAGGGCAAGGTTGGCGCCAGCCTGCGTGAGCGCATTGAGCAGGTCC
GGATGAACCGCAAGCTCACGGAGATGGTGAAGGATCTGGAGCTGCCGCTT
GGTCCGGACGATTTTGAGATGAAGCCTGTGCAGGTTGCGGAGGTTGCGGC
GAAGTTTGACGATCTGGAGTTTGGTACCAATTTGCGTGAGCGGGTGCTGG
CGGTGGTGAAGGCCGAGGGTTCCGCTGCCCCCGTGGAGGAAGTGGAAGCG
GAACAGGTTGTCGTCGATACGCAATCTTTGGCGCAATGGCTGCCTGCTAG
GGCTGGCCAGGCGCTTGCTTTAGCGCTGGCTGGAGTGGCTAAACCTGCTG
CTGGCGACACGTATGCGCTAGCGATTGCGGATACCAAGCGCCATGCGGTG
TTGGTTGATGTGGCTGATATTTCAGCGGAGGATGAAAAGGCGCTGGCCAC
GTGGTTGGCGTCGGAAGATCCAAAGATGCTGCACGGCGCTAAGGCCGCCT
ATCATATGCTCGCTGGGCGCGGTTTTGAGCTGCACGGCGTGGTGCATGAC
ACGGCGATCGCGGCATACTTGCTGCGTCCGGGCCAACGCACCTATGAGCT
TGCCGACGTCTACCAGCGGCATCTTCAACGACAGTTGTCTACAAACGACA
ATGGCGGCCAGCTCACGCTGCTCGACGCAGCTGATGACCAATCGCTTGTT
GATGATGTCATTGCAATCCTTGAGCTGTCTGAAGAATTGACCAAACAGCT
TCAGGAGATTCAAGCTTTTGAGCTTTACCATGACCTGGAAATTCCGCTGT
CGGGAATTCTGGCGCGCATGGAGGCCATCGGTATCGCTGTTGATGTTGCC
ACTTTGGAAGAGCAGTTGAAGACTTTCATTGGTCAGGTTGCTCAGGAAGA
GGAAGCAGCTCGCGAGCTCGCTGAGGATCCAACCCTGAATCTCTCGAGCC
CGAAGCAGCTGCAAGTGGTGCTTTTTGAGACGTTCGGAATGCCGAAAACC
AAGAAAACCAAGACCGGCTACTCTACGGCTGCCGCGGAAATTGAAGCCCT
AGCGATCAAGAATCCGCACCCATTCCTAGATCACCTGTTGGCACACCGTC
AGTACCAAAAGATGAAGACCACTCTGGAAGGTCTCATCCGTGAGGTGGCT
CCTGATGGCCGTATTCACACCACCTTCAACCAGACGGTGGCGTCTACGGG
ACGTTTGTCATCCACTGATCCCAACCTGCAAAACATTCCTGTGCGCACTG
AGGCTGGCCGAAAGATTCGTTCGGGATTCGTCGTAGGCGAGGGGTATGAA
ACCTTGCTGACTGCCGACTATTCGCAGATTGAAATGCGCGTGATGGCTCA
CCTTTCCCAGGACCCAGGCTTGATTGAGGCGTACCGCGAAGGCGAAGACC
TGCACAATTACGTGGGTTCCAAGGTGTTTAATGTGCCCATCGATGGCGTG
ACCCCTGAGCTGCGTCGCCAGGTCAAGGCCATGTCTTACGGTCTGGTGTA
CGGCTTGTCCGCGTTTGGTTTGTCTCAGCAGCTGAGCATTCCTGCTGGCG
AAGCGAAGCAGATCATGGAGTCCTACTTCGAGCGCTTCGGCGGAGTACAG
CGCTACCTCCGGGAGATCGTGGAGGAGGCTCGAAAAGCTGGCTACACGGA
AACGCTGTTTGGGCGTCGTCGCTACCTGCCGGAACTGACCTCGGATAACC
GTGTCGCTCGTGAAAACGCTGAACGTGCCGCACTGAACGCCCCGATTCAG
GGAACTGCCGCAGACATCATCAAGGTGGCCATGATCCGGGTGGACCGTTC
ACTCAAGGAAGCTGCCGTGAAATCTCGCGTGCTGCTTCAGGTGCATGATG
AATTGGTCGTGGAAGTAGCGGCCGGTGAGTTGGAACAAGTCCGTGAGATT
CTGGAACGCGAAATGGATAACGCCATCAAGCTGTCCGTTCCTTTGGAAGT
TTCAGCTGGTGATGGCGTTAACTGGGATGCTGCAGCGCACTAA
>cg1805 priA, Primosomal protein N' (replication factor Y)-superfamily II helicase
ATGGCAAAAACCCGCGTCCCCGCTCCTGAAAAGTCGGTGGCGCGGGTTTT
ACCTCTTTTGGGGTTACCTCACCTGGATCGACTGTTTGATTACCGCATCA
GCGAAGACCAACACGATGATGTGCAACCTGGCGTGCGGGTGCGCGTGCGT
TTTGGTGGACGTTTAGTTGATGCCATCGTGATGTCACGCACCGCGCAAAC
CTCGCACGAGGGAAAGCTGATGTGGCTGGATCGGGTGATTTCGCCGATCG
TGGTGTATCCACCTCAAACAGCAAAGCTAATTGAGCAACTCAGTGATCGC
TATGGCGGGGTACGTTCGGATCTCATCCGTTCGGCGCTACCGGCGCGGCA
TGCTGGGGCAGAAGAGGCAGATACCTCCACGTCGTGGGAGTCATTGGGTG
AGGTTAAAGAACCCGATTTATCGTCGTGGTCTGCGTATCAGCATGGTCAA
TCATTTGTTGACGCCGTCTTGGCGGGAACAACTGCGCGGGCGTCATGGCA
GATTGCTCCCGGAGATGATTGGGCGCTGGCTTTGGCTTCTTTGGCGGTCA
AGGTTGTCAAAGACGGCGGCGGAGCGCTTCTCGTAGTGCCTGATCAGCGC
GATCTCGACCGCTTGGAAGCTGCGCTTCGAGGTTTGGTTGCGGCGAAACA
AATCACTGTGCTTAATTCAGGTCTTGGTCCGCAGGCACGATATCGGCGTT
TCCTATCGGTACTCAGTGGGCAGGGACGACTGATTATTGGAACCAGAAGT
GCCGCTTTTGCACCCGTGAAGGATCTGAAACTGGCCGTCATTTTAAATGA
TGGCGACGACAACCTCGTTGATCCTAGAGCGCCCTATGCCCACGCCAGGG
AAGTGCTGACCACGCGTTCCAGTTTGGAAGCAAGCTCCTTGATTATTGCG
GGACATGCGCGGACCGCGGAAACCCAATTGCTGGTGGAATCGGGATGGAT
GCACAATCTCATCGCACCGAGGGATACCATTCGCACTAGGATGCCGCGTA
TTCAGGCAGTGGGCGATTCCGATTTCCAGATGGAACGCGATCCAATGGCC
CGATCAGCGCGGCTGCCTGGCATTGCGTTTCATGCGGTGCGCAGCGCCTT
AGAACGTGATCAACCAGCGCTTATCCAGGTACCAAGGAAAGGCTACGTGC
CAACCTTGGCGTGTGGAAACTGCCGCACCCCAGCGCGGTGCCGGCACTGT
AATGGGCCTGTGGGACTTCCCCAGGGAAGCTCTGATCTAGCGGGAGTGCC
CACTTGCCGATGGTGCGGACGCCCTGATTCGCGGTTTAAGTGCCAAAACT
GCGGCTCTCCAAAACTGCGTGCTGTGGTGCTGGGAACGGAACGCACAGCA
GAAGAACTGGGCCGCGCGTTCCCGTCTGTGCGGGTAATTACCTCTGGTGG
CAACAAGGTGGTGGATTCGGTGGAAAACCGAGCCAGCATTGTGGTGTCCA
CGCCAGGTGCAGAACCTTTTGTGGCCAACTCGCCGGAGAGACCAGAGAAA
TCGGAGAAACCAGAGCACAAGGGCGCTTACGGTGCCTTGTTATTGCTGGA
TACCTGGGCGTTGATGGGTCGGCAAGATCTGCGCGCCATGGAGGACGCGC
TGCACAAGTGGGCAGCGGCGGCCACGCTGGTGCATTCTCATCTGCACCAG
GGTCAAGTCATCGTGGTTGCAGATCCATCGTTTCCTGCTGTGCAATCGTT
GATTCGGTGGGATATGGCAGGTGCTGCAGCGCAAGAGTTGGCTAGCCGAC
GCGAGGTTATGTTCCCGCCTTCTGTACACATGGCAGCAATCGATGGGGCT
ACCGCTGCATTGGAAAGTTTCTTGGATTTGGCGGAGCTTCCCGATCATGC
TGAAGTCCTCGGCCCTGTTGATCTGCCACCGGGTGTGAGTTTGCCTGGTG
AATATGATGAGCAGCGCTTTGGTCCGCCGCAGCGCCTTCTCATCAGAACT
CCATTGGGACCGCGGTCTGAGTTGGGTAGAGCGCTGCGCTCAGCCCAGGT
GGCGCGTGCGGTGAGGAAGAATGATTTGCCGTTGCGTATTCAGATGGATC
CGATTCACATCGGATAA
>cg2141 recA, DNA RECOMBINATION/REPAIR
ATGGCTCCCAAGAAGACAGCAACAAAGGCAACTGCCGCCAAGGGGAATGA
TCGTCAGAAGGCACTTGATGCCGCACTAGCCCTGATTGAGAAGGATTTCG
GTAAAGGCGCTGTCATGCGTCTGGGTGATGAGAATCGTCCGCCAATCCAG
ACCATCTCATCTGGTAACACCGCGATTGATATTGCCTTGGGTATCGGTGG
ATTCCCACGTGGTCGAATCGTTGAGGTGTATGGCCCAGAATCATCAGGTA
AAACCACCGTTGCACTGCACGCAATTGCGCAGGCACAAAAGGCCGGCGGC
ATCGCTGCATTCATTGACGCCGAGCACGCGTTGGATCCAGATTATGCTCG
CAAGCTTGGTGTAGATACTGATGCGCTTCTGGTTTCGCAGCCAGACACTG
GTGAGCAAGCACTAGAAATCGCCGACATGCTGGTTCGTTCCGGCGCAATC
GACATCATCGTGATTGACTCGGTGGCTGCGCTGACACCAAAGGCTGAAAT
TGAAGGCGAAATGGGCGATAGCCACGTTGGTCTTCAGGCCCGCCTCATGA
GCCAGGCGCTTCGTAAGATGACAGGTGCGCTGTACAACTCGGGTACCACC
GCGATCTTCATTAACCAGCTGCGTGAAAAGATCGGTGTGATGTTCGGTTC
CCCAGAAACCACCACCGGTGGTAAGGCCCTGAAGTTCTACGCATCTGTTC
GTTGTGACATTCGACGAATCCAGACTCTGAAGGACGGACAGGATGCCATT
GGTAACCGCACCCGCTTGAAGGTCGTTAAGAACAAGGTCTCCCCACCGTT
CAAGATCGCTGAATTCGACATCATGTACGGCGAAGGCATCTCCCGTGAAT
CCTCCGTCATTGACTTGGCAGTGGACAACGGCATTGTGAAGAAGTCAGGT
TCCTGGTTCACCTACGAGGGCGAACAGCTTGGTCAAGGTAAGGAAAAGGT
GCGTCTTTCCCTCAAGGAGAACCCTGAACTCACCGATGAGCTGGAAGATA
AGATCTTCAAGAAGCTGGGAGTAGGCAAGTACGCTGCAGCCTCAGATGAA
CTCACCGACGATCCAGTAGAGCTCGTGCCTAACGTTGACTTCGATGATGA
AGCCGACACCGAAGCAGACGCTGAAGACTAA
>cg1694 recB, RecB family exonuclease
ATGACCAGCCCAGTTGAAAACGTTAAGAAAAAGCCACGCCCATTGGCGCT
GTCACCGTCGCGCGCCGGGGATTACCAGCAGTGTCCCCTGTTGTATCGCT
TCCGCGCGATTGATCGCCTGCCAGAGCCTAAGACCGTCGCCCAGGTCAAA
GGCACGTTGGTGCACGCTGTGTTGGAATATATGCACAAGTTGCCGCGTGA
AGAACGCGAATATCCAGCCATGGTGAAGCAACTCAAGCCCACCTGGGCGC
AGATGTGTGAAGAAGACGCAGAGCTCAAAGAGCTTGTTCCAGAAGATGAG
CTTTATGATTTCCTCGTGGATTCCCGCACCCTGCTGCGTGGCTACTTTGA
AATGGAAAATCCTCAAGGTTTCGACGCCACCGAATGCGAAATGTACGTGG
ACACTGTGCTGCCCAACGGCGTTCCTGTTCGTGGTTTTATCGACCGTGTG
GATACCGCCCCCACCGGCCAAGTCCGAGTTATCGACTACAAGACTGGCAA
GAAACCAAAGCCGCAGTGGAGCCAGCAAGCGCAGTTCCAGATGCTGTTCT
ATGCACTGGTCTACTGGCGCATGTTCAATGAAATCCCAGCTCAGCTTCGT
TTAATGTACCTCAAAGTCAACGATTCAATGTTCCTCAACCCATCACGGGA
GCAGCTGGAATTCTTCGAACGCGATCTGGGTGATCTGTGGGCAAAGATTG
AAATGGACGGCAAAGCAGGCCATTTTCGAACGAAGACCTCCAAGCTGTGT
GGCTGGTGCCCACACCAATCACTGTGTCCGGAGTATGGTGGGGTTCCACC
CGAGTACCCCGGTTGGCCTGGCAGTACAGCAGACTAG
>cg0005 recF, DNA REPAIR AND GENETIC RECOMBINATION PROTEIN
ATGCACATCCGTTCTTTGGAATTACGTGATTACCGTTCCTGGCCTGAACT
CAAAGTGGATTTGGAACCTGGAATTACAGTTTTTATCGGCCGCAACGGTT
TTGGTAAAACCAACATCGTCGAGGCCATCGGCTATCTTGCGCATTTGTCA
TCGCATCGGGTGTCCTCTGATGCGCCATTGGTGCGGGCGCACGCTGAAAA
CGCCCGAGTTTCGGCGGTTGCTGTTAATCAAGGCCGAGAATTGGCAGCTC
ACTTGCTGATCAAACCCCATGCTGCGAATCAGGCAAGTTTGAATCGCACA
AAAGTCAGGACTCCCCGGGAGCTGCTTGGTGTGGTGAAAACGGTGCTGTT
TGCGCCGGAAGATTTGGCATTAGTCAAAGGCGAGCCAGCAGAACGTCGCC
GCTATTTAGATGACATTATTGCCACTCGCCAGCCTCGGATGGCGGGGGTC
AAGGCCGACTACGACAAGGTGCTGAAACAAAGGAACGCCCTGCTCAAGAC
CGCCACCATTGCGCTTCGTCGAGGTTACGGCACCGAGGAAGGCGCAGCTG
CGCTGAGTACTTTGGATACCTGGGATGGCCAGTTGGCACGCCTGGGTGCT
GAAGTGATGGCAGCCAGATTTGCCCTGCTCAATGAGTTGGGGCCGAAAAT
CTATGAGGCTTACACCACGATCGCCCCGGAATCCCGGCCAGCTGCGGTGA
ATTACAAAACCACCATCGATCAAGGCCTGTCGCAGTTTTCCGAATTCGAT
GCCGGCATCATCGAAGCCACGCTGCTGACAGAATTGGCAGCGAAACGTCA
ACGAGAAATCGAACGCGGCTCAAGCCTGGTCGGCCCCCACCGCGATGATG
TCGATTTAATGCTCGGCGATCAGCCCGCCAAAGGCTTTGCCAGCCACGGC
GAGACCTGGTCTTTCGCGCTTTCACTGCGAATTGCAGAATTTAACCTGCT
GAAATCCGATGGCACCGACCCGATCCTCATCTTGGATGATGTGTTTTCCG
AGCTCGACGCCGGCCGTCGCGAAAAACTCGTGGGCATAGCGCAAGAGGTG
GAACAGGTGCTCATCACCGCTGCAGTCCACGACGATCTGCCGGAGAATCT
CAAGAAAGTGCTCACTGCGCAGCACACCGTCACCGTCCAAGACACCGGCA
CCGGGCGGATTTCACTCCTGGATGTGCAACCATGA
>cg1956 recJ, SINGLE-STRANDED-DNA-SPECIFIC EXONUCLEASE
ATGACCGTTACCTCACCAGCAGCGCTCGCACTCAGCGACATGTCCTATGT
GGACATCATTAAGAAGAAGCGCGGATGGACAACCGAGTTTTTCCACAGCA
CCATCAACACCGGTGAAACCACCACACCGCTACCAGACAGCGACCGTGCC
ACAGCACTAATCCATGACCACATCACCAAGGCTCAAGAGATAACCATCAT
CACCGACTTTGATATGGACGGTATTTCAGCCGGTGTCATTGCCTATGCAG
GTCTTGCCGAACTGGGCGCACAGGTCAATATGGTGGTGCCCGACTATCGT
GGCGAACGAAATGTCACAGCCAGCGATATTGATCGTGCGCTAGAGCTCTA
CCCTGCAACCTCACTCATCATCACCTGCGATGTCGGCATCGGCTCCCATG
AAGGTATTGCCCGTGCTCACGAACGCAGTATCGCCGTCCTGGTCACAGAT
CACCACATGGAGGTCGAACCCTGCCAGGCCGATGTGGTTCTTAACCCCAA
CAGAATTGACTCTGACTACCCCAACAAAGATATTTGCGGTGCGCAGGTCA
TTTTCGCCACATTGAGTGACTATGCACGTCGTTATCGGGCGGACAAGATT
ATCGACATTAATTTGTTGGCTGTTTTCTCAGGCATTGGTGCACTCGCCGA
TGTCATGCCTCTCACCCGTGACACTCGACCAACAGTGAAGCAGGCTATTG
CGTTGCTTCGGCTTGCTATCCCACAAGTAAGTAAAAACCGTTTCGGCGGT
TGGGATACCTATGCTGCACGCTCTGTTAATCCTGATACGTCCACACTCAT
GCATATTGTCAATGCCAGCCAGCATGATCACCGCTTCATTGCAGCCTTCC
AAGGCATCTCAATTCTTCTTGGTGAACTGATTGCGCAAAAGAAGCTAGTA
AACATCGACAATATTTCTGAGTCATTCATTGGCTTCACTCTTGGTCCGAT
GTTTAACGCTACTCGTCGTGTTGGTGGCGACATGCACGATTCATTTCTCG
TGTTTGCGCCCCATGCCGCACTAGCATCACAGCCGTCGATGAATCCAAAT
CGACATGCTGCGATCTCTCGCATCATTGATAACAACGAACGTCGCAAAGA
GCTCTCCAAGTCCTCTTATGCTGCCGTACACAGCTCAGATCAGCCCTACG
CGCCCTTTGTGTGGCTCTCTGAGGCACCAAGCGGCATTCTTGGTCTCATT
GCCTCACAGCTCACTCGTGAGTCTGACGTGCCTGCCATTGTCATTAATCC
AGATACCTTGTCCGGTTCAGCTCGCTCACCTGAGTGGGCACCGATCATCA
CCCAAGTAAACACCCTCAGCGCACAAGGTCACGGCGGTATTCATGCTGCA
GGCCATGAGTACGCCTGTGGTATGCGTTTTGATAACCATGATGACATTGT
GACCTTTGTTGCAACACTCGACGCACTCGATAAAAACACGCCACGGGAAG
CACAGCCGGCAGATCTGCATTTGGTTGACATTGACCACGCGCGTCCTGTG
CTTGATAACCCCTCACTCACCCAAGAGCTCAGTACGGTCGATGCTGCAGT
GGATGCTGCACAGTTGCTTGTTCTCATTGATCAGCTTGATCAACTGCAGC
CATTTGGACATGGTTTTACCTATCCGCGCATCGACGTGACGTTCAGGCCG
GCAGAAACAGAATTCAAGGTTATGGGTCAGCACCATCAACATCTCAAGGT
GATCACTCACTCAGGGTTGACCTTATTGTGGTGGAATAAGGCTCAGCAGC
TCGATGAGATCGCACAGTCTGAATTAGTCACCATGTCTGTGGAGCTCGAT
GTCAATATGTTCCGTGGGTTTATTTCCCCGCAAGGCATTGTCTCTGCGTG
CACAGTTATCTAG
>cg1602 recN, DNA REPAIR PROTEIN RECN
ATGCTCGTAGACATTGCTATTGAGAACCTCGGAGTTATTCCAGCGGCCTC
AGCTGAGTTCAGCTCAGGTTTAACAGTGCTCACCGGTGAGACCGGCGCCG
GAAAGACCATGGTAGTGACAGGTTTACGCCTGTTATCCGGCGGTCGCGCC
GACGCTTCACGCGTGCGCACAGGATCCCCTCAAGCTGTTGTGGAGGGGCG
CTTTGTTACGCAAGGCGTGCCCTGCGACATTGTCGAACGTGCAACCGGAA
TCGTTTCGAACGCCGGAGGTGCCGCAGATGAAAATGGAGAGTTTTTAGCT
GTCCGTTCCGTCGGCGCCAACGGCCGTTCAAAAGCTCATCTCGGTGGTCG
CTCCGTACCTGCGGCAACGCTGTCCGAGTTCTCTGATGAGCTGTTGACCA
TCCACGGTCAAAATGACCAACTCCGGTTGCTCTCCCCAGAACGCCAACTA
GAGGCGCTTGATCGTTTTGATCCAGAGCTGGCCCAACTGCGCAAAAACTA
CAACGCCAAGTACCTCACTTGGAAGTCCTTGGATAAAGATCTGCAGAAGC
GCCTGAGTAGTAGGCGAGAGCTGGCTCAAGAAGTCGATCGCCTGCAATTC
GCGATTAATGAGATCGAGGAAGTCTCGCCACAGCCAGGCGAAGACGCCGA
ACTGGTTGAGCAGATCCGCAGGCTCCAGGACGTGGACACCCTGCGGGAGC
AAGCTGCAACCGCATTGGCTGCGATTGATGGTGCCGGCTCTCTCAGCGAC
GCCATGGGTGGTTCCGGCGGCTTTGATGAATCCCAGGAGTCAGCCTCTGA
CCAGCTCGGCCAGGCGGAGTCCGCGCTGGCAGGCAGTGATGACTCAAAGC
TGAAAGATATTGCCGTTCAGCTTGCGGAAATCACCAGCCAGCTCAGCCAA
GTGTCCATGGAATTGGGCGGGTTCCTCTCTGATCTCCCCGCAGACCCCCA
AGCACTCGATGACATGCTCACCCGCCAACAGCAATTGAAACTGCTCACGC
GTAAATACGCTGCAGATATTGACGGCGTGATTGAGTGGCAGCGGAAAGCC
CAAATCCGCCTAGACAGCATTGACATTTCCTCCGAAGCGCTTGACAAGCT
GAAAGAAGACGCGAAAAAGGCGCAGGCCTCCATGATGCGTGCCGCTAAGA
AGCTTTCAGCTGTCCGTGCAAAGGCAGCAACCAAGTTGGGGACAACTGTC
ACCGAGGAGCTTCAGGGCCTGGCCATGCAAAAAGCCCGCTTTGAGGTTGC
TTTGACCTCCATTGAGGCGTGCGCCAGCGGTATCGACCAGGTGGAATTCC
AGCTCGCAGCAAATGCCTTTGCACAGCCTCGTCCACTTGCATCCTCTGCG
TCTGGTGGTGAACTTTCCCGCGTTATGTTGGCGCTCGAGGTGATCTTGGC
TGCTGGAACCACGGGCACCACCTTGGTGTTCGACGAGGTTGATGCAGGTG
TGGGCGGACGCGCAGCGGTGGAAATCGGTCGCCGCCTGGCCCGCCTTGCC
ACCAAAAACCAAGTCATCGTGGTCACCCATCTCCCACAGGTCGCTGCTTA
CGCCGACACGCACCTGCACGTTGCCAAGAATGTAGGAGAAGCCTCCGTGA
CCTCAGGAGTGGAGTCACTGACCTTCGACCGACGCGTGGAAGAGCTCTCC
CGCATGCTCGCTGGCCTCGACGACACCGCCACCGGCCGAGCCCACGCAAC
GGAGCTGCTCGAGCGTGCACAGCGTGAAAAGGAAGATATTAACGAGGAGC
GAGTAGAACCACTTCTCGCCGCCAGTGCATAA
>cg2509 recO, Recombinational DNA repair protein (RecF pathway)
ATGCGTAGGGACAGTTTTCGGGACCGCGCGCTAGTAGTCAAAACTTATGA
TTTTGGCGAAGCCGACCGCATTATTGTGCTGCTCACCCGAGACCACGGCA
TCGTGCGCGGAGTTGCCAAAGGAGTACGCCGATCCAAATCCCGGTTTGGG
TCAAGGCTGCAGCTTTTTGTGGAACTCGACGTGCAGCTCTACCCAGGTAG
AAAACTGTCCACCATCTCTGGCGCGGACACCGTCGGCTACTACGCATCAG
GCATCATCGAGGACTTCACTCGGTATTCCTGTGCGTCCGCCATCCTGGAA
ATCGCCACCCACATCGCAGGACTGGAAAACGATCCGCACCTGTTTGAAGA
AACCACCCGGGCGTTGAAAAACATTCAGGACTCCCCAGAACCCATCCTCA
ACCTAGACGAGTTCATGCTCCGCGCCATGAACCACGCCGGCTGGGCACCA
AGCCTTTTCGACTGCGCAGCCTGCGGCCGACCAGGACCTCACAACGCATT
CCACCCAGGCGTCGGCGGGGCAGTGTGCCTGTACTGCCGACCGCCGGGAA
GCGCCGAAGTCCCACCAGAAGCACTACACATGATGTGGTTGGTCGCCAAC
GGCCAAGCAGCCCGCATTCCCCGGGAACACCCAGAGCAGCAAACCACCAT
TCACCAACTGACAACCGCGCATCTGCAGTGGCATATTGAAAGAAAGCTGC
CCACGCTGGCGGTGCTGGATCAGGCCTAG
>cg0298 recR, DNA repair protein (RecF pathway)
GTGTTTGAAGGCCCACTCCAGGATCTCATCGACGAACTTTCTCGTCTCCC
CGGCGTCGGCCCCAAAAGTGCCCAACGCATCGCATTTCACCTGCTCAACG
TAGATCCTTCCGACATTACCCGCCTTCAGGAAGCCCTCGGAGGCGTGCGT
GATGGCGTCCAATTCTGCCGCATCTGCTGCAACATTTCCCGCGAAGAAGT
CTGTCGCATCTGCTCCGACTCCGGACGTGACGGCGGAACAATCTGTGTCG
TCGAAGAACCAAAAGACATCCAAGTTATCGAGCGCACCGGCGAATTCTCC
GGCCGCTACCACGTCCTCGGCGGCGCCCTCGACCCGCTGGCCAACATCGG
CCCCCGCGAACTCAACATTTCCACGCTCCTGCAGCGCATCGGCGGCGTCC
TGCCAGACCGTGAGCTCGCAGATTCCACGCCTGAAAATAAGCTTTTCGAC
GCCACCCCCACCGTCCGCGAAGTCATCCTCGCAACAGACCCCAACACCGA
AGGCGAAGCCACCGCCTCATACCTCGGCCGCCTCTTGAAAGACTTCCCAG
ATCTGGTAATTTCCCGCCTCGCATCCGGAATGCCACTAGGCGGCGACCTC
GAATTCGTCGACGAACTCACTCTCTCCCGAGCATTGAGTGGCCGCCTGCA
GATCTAG
>cg1929 res, RESOLVASE FAMILY RECOMBINASE
ATGTTTGGTAGTAGTTTTAAGGAACAAACAACTAACCCGAGAAGTCAACG
AGTTTCTTATTTGCGTGTCTCTAGCACCGATCAGAATCTGGCTCGACAAC
GTGAAGCTGTTAACCATTCCGGTCATATTGATCGTGAGTTCACAGATGAG
CTTTCCGGTGGCGCCAAATCACACAGACCTGGCTTGGAAGACTGCATTAA
TTATCTTCGCGAGGATGATGTTCTTGTCGTCGCATCCATTGACCGACTTG
CACGCTCGCTGGTTGATTTACGCGTCATCATTGACCGCATCACAGACAAA
GGCGCATCGGTCATTTTTCTCAAAGAGAATTTGACTTTCGCTGCAGGCCG
CGATGATCCTCGAGCAAACCTCATGCTCGGTATTTTGGGCAGTTTCGCAG
AATTTGAACGCTCAATTATTCGCGAGCGCCAAGCAGAAGGTATTGCCCTG
GCAAAAAAGGCCGGCAAGTATGCAGGTCGCCCAAAAGCCCTCGACAAGGA
ACAAATACAAGAAGCAAAAGATATGATCGCTCAAGGTGAAACAAAATCTG
CTGTCGCCAAGCATTTTGGTATTAATCGCTCGACCTTGTACGAATATCTC
AAAAATCCTGACTAG
>cg0881 rhlE, PROBABLE ATP-DEPENDENT RNA HELICASE PROTEIN
GTGTCTTCTGAAAGCCCCAGACCTACGTTCACAGAGCTCGGCGTTGCGGT
GGAAATCACCGACGCACTCGAAGCCCTCGGCATCAACCGAACTTTCGCGA
TCCAGGAGTACACACTTCCCATCGCGCTCGACGGCCACGACTTCATCGGC
CAAGCCCGCACCGGCATGGGCAAAACCTACGGATTCGGTGTCCCACTCCT
CGATAGAGTCTTCGACTCAGCCGACGTCGCAGAAACCGACGGTACCCCCC
GAGCCCTCGTCATCGTGCCCACCCGAGAACTCGCAGTCCAAGTCGGCGAC
GACCTCCAACGCGCAGCAACCAACCTGCCGCTAAAGATCTTCACCTTCTA
CGGCGGCACCCCCTACGAAGAACAGATCGACGCACTCAAAGTCGGCGTCG
ACGTTGTCGTAGGCACACCCGGACGATTACTCGACCTGCACAAACGAGGC
GCGCTATCGCTCGACAAAGTAGCGATCTTAGTCCTCGATGAAGCCGACGA
AATGCTCGATCTGGGCTTTCTGCCCGACATCGAAAAAATCCTCCGTGCCC
TCACCCACCAGCATCAAACCATGCTGTTCTCTGCCACGATGCCCGGCGCG
ATCCTCACACTCGCACGCAGCTTCCTGAACAAACCAGTGCACATCCGAGC
CGAGACATCGGACGCCTCAGCAACACACAAAACCACCAGACAAGTGGTTT
TTCAGGCACACAAAATGGACAAGGAAGCCATCACCGCGAAAATTCTGCAG
TCGAAAGATCGCGGCAAAACGATCATCTTCGCCCGCACGAAACGCACCGC
AGCGCAAGTTGCCGAAGACCTAGCCTCCAGAGGATTCTCCGTCGGATCAG
TGCACGGCGACATGGGCCAACCAGCCCGCGAGAAATCACTCAACGCATTC
CGCACAGGAAAAATTGACATCCTTGTAGCCACAGACGTAGCCGCCCGAGG
CATCGATGTTGATGACGTCACCCACGTCATCAACTACCAAACCCCCGACG
ATCCTATGACCTACGTCCATCGTATCGGACGCACGGGACGCGCAGGGCAC
AACGGAACAGCCGTCACTCTTGTCGGCTACGACGAAACCCTCAAATGGAC
TGTCATCGACAACGAACTCGAACTCGGCCAACCAAACCCACCACAATGGT
TCTCCACCTCACCAGAGCTGCTTGAAACACTCGACATCCCAGAAGGTGTC
ACCGAACGAGTCGGACCACCAACCAAAGTTCTAGGCGGAACAGCCCCACG
ACCACCACGCCGCACCCGGAAATAA
>cg2230 rnhB, PROBABLE RIBONUCLEASE HII PROTEIN
ATGCGACGCTTAAAGCATCTACGGACCTTTGAGGTCACCTTGTCACGCAA
CGGGCTAGGGCCCGTTGCAGGAGTAGACGAAGCTGGACGCGGTGCCTGCT
GCGGACCCATTTCAATTGCCGCATGCATACTCCCGGACAAACCCATCCAG
GAGCTAGCCGCACTGACAGACTCCAAAAAGCTCAGTGCCAGCACCCGCGA
AAAACTCATGCCACTGATCAAAAAACACGCACTCGCTTGGTCAGTCATCG
TGATCTCCGCCCAAGACATCGACCGATTTGGCATCCAACACGCAAACATC
TCCGGCATGCGACGAGCCGTAGCCGCCCTAGGCACCCAACCCGGCTACGT
ACTTACCGACGCCATGAAAGTCCCCGGCTTCACAGTCCCATACCTACCCA
TCATCGGCGGAGACGCCTCCGCCCGATGCATCGCCGCCGCAAGTGTATTA
GCCAAACAAACCCGCGACGACATCATGACCGACATGGCCAACGACTACCC
GCACTACGGTCTCGAAATTCACAAAGGCTACAGTACGAAGATCCACATGG
ATGCGGTGCGCCACCACGGCGCAAGTCCCGAGCACAGATATAGTTATGCA
AATGTGGCCAAGGCACACCAAGAATGGCTACACGCTGCAGATAATGACAC
GACGGAAGGTGGAGCATGA
>cg1870 ruvA, Holliday junction resolvasome DNA-binding subunit
ATGATTGCCTCACTTCGTGGCACTGTTATCAACATTGGTCTGAGCTCTGC
TGTCATTGAATGCAATGGCGTGGGCTATGAGGTTGTCACCACACCGAACA
CCTTGTCACAGTTGGTCCGCGGTGAGGAAGCACTGGTGTTGACCACCATG
GTGGTCCGCGAAGACGCGATGAAACTCTATGGGTTTATTGACAATGAATC
ACGTGAGATGTTTTCCGTGTTGCAAACAGTATCTGGATTGGGTCCACGCC
TGGCCTTGGCATGTGAATCGGTGTTGAGCCCACTGGAGATTTCTCAGGCG
ATCACCAATGCCGATGCCAAAACTTTGCAGCGGGTTCCGGGTGTGGGAAA
GCGCATGGCAGATCGTCTCATCGTGGAGCTTAAAGGCAAGGTCGCAGCTT
TTGCTGCCGGTGTCGTGGATGAGGGAGGGGAGCAAATTTCCTTGCCTAAC
GCGAACATTGCTTCTGAGGTGGTTGTGGAGCAGGTTTCTCAAGCGCTGGT
GGGGTTGGGCTTTAGCGAGAAGCAATCAGATGATGCAGTGAGCTTTGTGC
TGGCGGCGGATCCATCCTTGGACACCAGTGGCGCGCTTCGTGCCGCATTG
GCAAAACTCAGCGGAAAGTAG
>cg1869 ruvB, Holliday junction resolvasome helicase subunit
ATGTCCGATGTGGAAAGAACAGAGTTTGAAATTCCGGGAGGAATTCCACC
TCGTCGAAACGGTGGTCAAGGCCGTGCAGCTGATACCAACGTAGATGCGA
ACCTGAAGCCTGATGAATACGATGCGGAAGTAACACTTCGTCCGAAGTCT
TTGACTGAGTTTATCGGCCAGCCGAAGGTGCGCGATCAGCTTAGTTTGGT
GCTTACCGGTGCGAAAAACCGTGGTGTGGTTCCCGATCACGTGTTGTTGT
CTGGCCCTCCTGGCCTGGGTAAGACCACCATGGCGATGATTATCGCCCAG
GAGTTGGGCACCAGTTTGCGTATGACCTCAGGCCCAGCCTTGGAACGCGC
AGGCGATCTGGCTGCCATGCTGTCCAACCTCATGGAAGGGGACGTGCTGT
TTATTGATGAGATTCACCGCATCGCACGTCCTGCCGAGGAAATGCTGTAC
ATGGCGATGGAAGATTTCCGGATCGATGTCATCGTCGGTAAGGGTCCTGG
CGCTACCTCAATCCCGCTGGAGATCCCACCCTTTACCCTCGTTGGTGCAA
CCACCAGGTCGGGCATGCTCACCGGCCCACTGCGTGACCGTTTCGGTTTT
ACCGCGCAGATGGAATTCTACGATGTGCCTGATCTGACCAAAGTGGTGAA
ACGAACAGCTAAGATCCTCGATGTCGGAATCGACAACGATGCCGCCGTGG
AAATTGCCTCGCGGTCTCGTGGTACTCCTCGTATTGCTAACCGACTGCTT
CGTCGAGTCCGTGACTTCGCTGAAGTTCATGCGGATGGTCACATCACGAT
GGGTGCTGCCAATGCTGCGCTGGTTGTATTCGATGTCGATGAAGTCGGAC
TCGATCGCCTGGATAGGGCAGTGCTTGATGCCTTGATCCGCGGACATGGC
GGAGGCCCTGTTGGCGTGAACACACTCGCGGTTGCAGTTGGTGAAGAACC
CGGCACTGTGGAAGAAGTATGCGAGCCCTATTTGGTGCGTGCCGGCATGA
TTGCACGAACCGGACGGGGACGCGTGGCAACCGCAGCTGCATGGAGACAC
CTGGGGCTGGAACCACCAGAAGGCACCATCGGCGATTATTAG
>cg1871 ruvC, CROSSOVER JUNCTION ENDODEOXYRIBONUCLEASE
ATGGGCATTGACCCAGGTCTTACCCGTTGTGGCTTATCTGTGGTTCAAGC
AGGTCGTGGTCGTACCGTGTATCCAGTGTCGGTGGGCGTGGTGCGCACCC
CACCAGATGCGGAGTTGGCGGAGCGGTTGCTTCGGCTCAGCAAAGCAGTG
GGTGAGTGGATGGATGAGTACACCCCAGATGTCATTGCTATTGAGCGTGT
CTTTGAGCGCGGAAATGTTTCCACCGTGATGAACACTGCGCATGCGGTGG
GTGTGTTGATCTTGGCTGCTGCTGAACGCGGATTGCCAGTTCACATGTAC
ACCCCCAGTGAGGTGAAAAAGGCTATCTCCGGTAATGGTCGCGCTGATAA
GAAACAGATGACGGTCATGATCACTCGAATTCTGGGCCTTGGTGAGCCAC
CCAAACCTGCTGACGCCGCTGATGCTTTATCGTTGGCGGTGTGTCACTGC
TGGCGGGCGCCAATGCTTATGCGGGCGCAATCGCAGTACTCCGAGCAAGA
GTTGGAAAAGCGACGGCGTGTGCAGCAAGGAAAATTGGGTAAAGCGAAAT
CAACTTACAATGCGGAACAAGCTCAATCCCATGCATCCGATCCTGCTAAA
GCGGCTCATCCCAGTCAGTTTCAACGAACTGACACCAATTAG
>cg3307 ssb, SINGLE-STRANDED DNA-BINDING PROTEIN
ATGGCAATCGGAGATACTAACATCACCGTCGTTGGCAACATTGTTGCTGA
CCCGGAACTCCGCTTCACCCCATCGGGTGCAGCAGTGGCTAACTTCCGCA
TTGCATCAACTCCCCGCTCGTTCAACCGCCAAACCAACCAGTGGGAAGAC
GGCGAAGCCCTCTTTCTCACCGTTAACGTTTGGCGTCAGGCAGCTGAAAA
CGTTGCAGAGTCCCTGTCCAAGGGTATGCGCGTTATCGTCACCGGTCGCC
TCAAGCAGCGCTCCTATGAAACCCGTGAGGGCGAAAAGCGCAGCGTTTTT
GAGGTCGAAGCGGATGAAGTCGGACCATCACTAACATTTGCCAAGGCAGA
TGTCCAGCGCACACCGCGCGGTGGAAACTCTGGCGGAAACTACGGTGGCG
GCAACCAAGGTGGTGGCCTCGGTGGAAACCAAGGCAACCAGCAAGGTGGA
TTCAGCAACCAGAACTCTGGCGGCTTCGGTGGAAACCAAGGCAACCAGCA
GCAAAGCAACCAGGGCGGATTTGGTGGAAACCAAAACCAGTCCCAGGGTA
ACAACTTCAACCAAGGTGGATTTGGCGGAGGCAGCCCACAGGCAGCACCG
GACAATGACCCTTGGAATTCTGCACCACCAGCTGGCTCCGGCGGGTTCGG
CGGCGCAGACGATGAGCCACCGTTCTAA
>cg3140 tagA1, PROBABLE DNA-3-METHYLADENINE GLYCOSYLASE I PROTEIN
ATGAGTTCATTAATCGTTGGCACGGACGGCCTCAGTCGCCCGAGTTGGGC
TGCGCAAGATCCCCTGATGCGCGATTATTACGACACCGAGTGGGGAATGC
CGATTCGCGATGAACAGGGATTATTCGAAAGAGTTAGTCTGGAAGCTTTT
CAATCCGGGCTGTCCTGGGCGACGATTTTGCGCAAGCGCGATAGTTTCCG
CGCAGCTTTCTCTCAGTTTGATCCGGAATTAGTCGCAAAATTCACCGATG
CTGACATCGAACGCCTCATGGAGGACGCCGGCATCGTGCGCAACAAACGT
AAAATTTTGGCCACCATTAACAACGCCAAAGCCACCCTTCAATTGCGTGA
GAAGGGTGGCTTGGTGGAATTTGTATGGGGTTTCAAACCGATTGATACCC
CACAGCCGGAGACCCTGGAGGAGATTCCGACGCAGTCGCCGGAGTCAGTT
GCACTGTCTAAGGCGCTGAAGAAGGAAGGTTTTTCCTTCGTTGGTCCCAC
GACGATGTTTGCCCTTATGGAAGCCATAGGAATCGTCGACACCCATTTGG
TGGGCAGCCATCGCCGCGGAAGTTCTGGGGTGTGGGCTTAG
>cg0182 tagA2, PROBABLE DNA-3-METHYLADENINE GLYCOSYLASE I PROTEIN
ATGTCCCATGCTCAAATTATGGTTCGCGCCATGACAACAAACAAAGCTAA
TCCAAATGAACTTGTAATCTGCGCTGATGAAAAGTCACGGCCCCGCTGGG
CATCTAGAAGTGAGCTGTGTTGGGAGTATTTCGACAATGAGTGGGGCAGA
CCTCCGGTGGATCTCAATGCTCTTTTTGAGATCTTGACGTTGGTAGTTTT
CCAAGTGGGTGTCACCTGGCATGCTGTGCTGTCCAAACGGGAAGGGTTCC
GTCAAGCATTCGCCCAATTCGATGTTGCAAAAGTAGCCGCCTTCAATGAG
GACGACGTGGAACGCCTACTTGATGATCTACAGATTTTTAGAAACCGAAG
AAAAATCAACGCTGCCATCACCAATGCCAAAGCGTTGCTGGAGTTAAACG
ATGAAACAGGCACCTTTGACTCAATTATTGCCGACCACTCAACTGACGCC
ACAGCCATGGTGAAGCATCTCAAAGCCTTGGGCTTTACCCATATCGGACT
GACCTCCTTGAGCATCCTCCAGCAGGCCATTGGGGTCACAGAGCTGAAGG
CTGCCTAA
>cg1185 tnp10b(ISCg10a), TRANSPOSASE-fragment
TTGCTTGATGTAGTCGAAGGCCGCAGTGCTGATGCGTTGCGGGCGTGGCT
TGCACGCCGAAGCCCAGCATTTCGACACCAAGTACGCATTGTAACTATGG
ATGGATTCCAAGGCTATGCCACAACCAGCAAACAACTTCTGCCCGCCGCA
CGCCGAGTCATGGATCCTTTCCACGTGGTACTCCTCGCCGGCGATAAACT
CACCCGATGCCGACAACGTTTGCAGCAGGAAAAATACCACCGGCGGGGTT
TGCATGATGACCCGTTGTATAAGAACCGGAAAACCTTGCTGACCACGCAA
AAATGGTTGAGTAAGAAAAAGCAAAGCGTCTTGATGAGTTGTTTAGCTTT
GATAAAGACTACGCGGCACTGCAACTGA
>cg1184 tnp10c(ISCg10a), TRANSPOSASE-fragment
ATGGCCGATAAACGCCGCGCAAAGACCATGATGCGCGAGATTGTTGACCA
GATGCGGCTACTGAAAGGACAAGCGAATCGAGAACTTGCACAACTAGGCC
GCAGCCTACACAAACGCCTCGGTGACATCCTGGCGTATTTCGATGTCGGA
ATCTCTAACGGACCCGTAGAAGCAATCAACGGACGACTCGAACACCTCCG
CGGAATCGCCCTAGGATTTCGCAACCTCAACCACTACATCCTGCACTGTC
TCATCCACTCCGGACAACTCACCCACAAAATCAACGCACTCTAA
>cg2807 tnp11a(ISCg11a), transposase-fragment
TTGATTCTTCCAGTTCAGGAGGGCATTTCCTATTTTCCCACGCCGTTACA
CCTGAATCACATCGGTGGATCCAGGTTTAAGAAGTTCCTGGTCAAGATCG
ACAAGACTGTTCCCCAGGACCTTGATGTTCATGTTATTTGTGACAACTAC
GCCACGCATAAACACCCGACCATCAATACCTGGTTGGTCAAGCATCCACG
GTTTCACATGCACTTCACCCCGACGTATTCGTCCTGGATCAACCAGGTTG
AACGGTTGTTCGCTGAGGTGACCCGGGAGTTACTCCAGCGTTCTGATCAT
CGGAGTGTCCAGGCCCTGGAGAAAGATTTACGCAACTGGGTGAAAGCATG
GAACGAGGATCCTAAGCCGTTTATCTGGACCAAAACCGCGGAGGAGATCC
TTTCCTCTATCGCCCGATACTTAAAACGAATTAACGGCGCAGGACACTAG
>cg1951 tnp14a(ISCg14a), transposase
ATGCCACGCAAGACCTACACAGAGGAGTTCAAGCGCGACGCTGTCGCGCT
CTACGAGAACTCCGCCGGCACCTCGATCCAGAAGATCGCCAATGATCTCG
GAATCAACCGAATGACCCTTAAAAACTGGATTACTAAATACGGGGCCAAC
TCAACTCCACATGGCGCTAACACGGCCACCGCGCTGTCCGAAGCTGAACG
GATCCGCCAACTTGAAAAGGAAAATGCACTCCTCCGCGAAGAGCGTGACA
TCCTGCGGAAAGCGGCCAAATATTTCGCGGAAGAGACGAACTGGTGA
>cg1950 tnp14b(ISCg14a), transposase
GTGATCCGCTTCCGATTCGTTGATGACGCTCGAAAGACCTACTCGGTTAA
GCGGATATGTGACGTGTTGAAGCTCAATCGTTCCTCATATTACAAATGGA
AAAGCACCGCCTTCACGCGTGAAAAACGCCTGCTCAGCGACGCTATTCTT
GGGGTCCAGGTCAAGACTGTATTCACCACTCACAGTGGCTGTTATGGGGC
CAAACGAATCGCGGCTGAACTCAAAGACCAGATCGGCCATGACCTTGCGA
ACCACAAGCGGGTTGCCCGGATCATGCGATCGTTGAAGCTGTTCGGATAC
ACAAAGAAACGCAAGGTCACCACCACCGTGCCGGACAAAACCAAGACAGT
GTTCCCTGACCTTGTCGGCCGGAAGTTCACCGCTGACAAGCCGAACCAGC
TCTATGTCGGGGATATCACCTATCTGCCAATTCAGGATGGGTCGAATATG
TACCTGGCCACGGTCATTGACTGTTACTCCCGCAGGTTGGTGGGCTTTTC
TATCGCAGATCACATGCGCACGAGCTTGGTCCAGGACGCGCTGCTCATGG
CTAAAGACCAGCGTGGAAACCTCAAAGGTGCGATTTTTCACTCCGACCAC
GGCAGCGTTTACACGTCTCATGCGTTTCAGGAGACGTGTAAGAAACTAGG
GATCAGGCAGTCGATGGGATCAATTGGCACCAGTGCTGACAACGCTTTGG
CGGAGTCTTTCAATGCCGCGATGAAGCGGGAAGTCCTGCAGGATTCCAAG
ACCTTTGAAAATCAATTGTGCTGTCGCCGGGACGTCTTCCGCTGGTGTAC
CCGTTACAACACGGTTCGCCGGCATTCCTGGTGTAGATATCTGGCTCCGG
TCGTGTTTGAGGAGCGCGGTCCTGCTATCCTGAGATCTGCTTCCTGA
>cg2757 tnp15a(ISCg15a), transposase
ATGATGACTGAACGTGGTGTGCCAGTCGATCACACCACCATCTACCGCTG
GGTCCAGAAATACGCCCCTGAGCTGGATAAGCAGACTCGCTGGTACCGGC
AGGTTCCTGACTGGCAGGCCAGTTCCTGGCGGGTGGATGAGACCTATATC
CGGGTCGGCGGCACGTGGTGCTATCTCTACCGGGCTATTACCGCGGGTGG
GCAGACCCTGGAGTTTTATCTCTCACCAAAACGGAATGTGGCTGCGGCCA
AGCGTTTCCTGGCCAAGACGCTGCGATCGAATACGACAGCCGGGTCCCCG
CGGGTCATCAACACCGACAAGGCACCAGCTCTGGCCAAGGCAATATCCGA
GCTGAAGGCGGAGGGAATCTGCCCTCAGACGGTGGAGCACCGGCAGGTGA
AATACCTCAACAACGTTATCGAGGGAGATCATGGCCGACTTAAAAGAATC
CTGGGGCCGAAGGGAGCGTTCAAAAACCGAATTTCCGCCTACCGGACGTT
GAAAGGGATGGAAGCGATGCATTCATTACGGAAAGGCCAGGGCACGATGT
TTGACCTCACGGGCACCCGAACCCAGACGCGGTGA
>cg2759 tnp15b(ISCg15b), transposase
GTGCCGGTCGATCACACCACCATCTACCGCTGGGTCCAGAAATACGCCCC
TGAGCTGGATAAGCAGACTCGCTGGTACCGGCAGGTTCCTGACTGGCAGG
CCAGTTCCTGGCGGGTGGATGAGACCTATATCCGGGTCGGCGGCACGTGG
TGCTATCTCTACCGGGCTATTACCGCGGGTGGGCAGACCCTGGAGTTTTA
TCTCTCACCAAAACGGAATGTGGCTGCGGCCAAGCGTTTCCTGGCCAAGA
CGCTGCGATCGAATACGACAGCCGGGTCCCCGCGGGTCATCAACACCGAC
AAGGCACCAGCTCTGGCCAAGGCAATATCCGAGCTGAAGGCGGAGGGAAT
CTGCCCTCAGACGGTGGAGCACCGGCAGGTGAAATACCTCAACAACGTTA
TCGAGGGAGATCATGGCCGACTCAAAAGAATCCTGGGGCCGAAGGGAGCG
TTCAAAAACCGAATTTCCGCCTACCGGACGTTGAAAGGGATGGAGGCGAT
GCATTCATTGCGGAAAGGGTCAGGGAACGATGTTTGA
>cg0292 tnp16a(ISCg16a), TRANSPOSASE
GTGGATGAGCAACGCGCCTTTGATCAAGGACTCAAGGAAGAAAACACCTT
GATCACAGATCTCACCACCTGTGCCAGGCTGAGCCATAACAAGGCATTAC
GGCTGATCAAGCTGTCGAAATCAACGGCGTATTACCGCAACAAGCCGCGT
CCCCGTCCTGCACCGAAACCTGTCCTGCAGGCCGTGCCAGCACCAACAGC
ACCTGGTGTGGAACCCACACCAGAGCCTTGGCAGGGGAAGGAGCCAGCAG
TGTCGTCGGTGCGTCAAGCGTTGGCAGAACACGAACGCCAGTTCATTGTT
GATGCGATCACCGCGTACCCACAACTGAGCGTTAGTGGGGTGTTTAACAT
GTTGTTTAACAAAGGCATCTACCGCGCATCACTACGTACATGGTGGCGTG
TTGCCAAGCAGCACAAGTTGTTACACAAAGACCGAGTCAGTGCCCTGTCC
CCGGGGAAACGATCACCAACGCCACGGGTTAAGCCGAGGTTGGAAGCAAC
ACAGCCTGGTCAGGTGGTGTGTTGGGATGTGACGTTCTTGCCGTCGCTGG
TACGTGGTAAGACCTATGCGTTGCATCTGGCGATTGATTTGTTTTCCCGC
AAGATTGTTGGGGCGAAGGTCGCGCCGACGGAAAATACCTCCACCGCGGT
GGAGTTGTTAACGCAGGTGTTAGCGGATAATCCGGGTGTGGTGACGGTGC
ATTCGGATAATGGGTCGGCGATGACATCGACGAGGGTGCGGCGGTTGTTA
GCGGATCATGGTGTGGCGTTGTCGTTGATTCGGCCGCGGGTGAGTGATGA
TAATGCGTTTGTGGAGTCGGTGTTTCATACGTTGAAGTATCGGCCGTTTT
ATCCGAAGGTGTTTGCATCGATGGATCAGGCCCGGGTGTGGGTGGAGGAG
TTTGTGGTGTATTACAACACGGTTCATCCGCATTCTGGTGTGGCTGGGCA
TACTCCGCAGTCGGTGTTTGATGGTAGTTGGAGGGCGGCTCATAGGTTGC
GTGTGCAGGCGTTGGATGCCCATTACCGGCAGTTCCCGCAGCGGTATGTG
GAGCAGCCGGTGGTTCAGGAAGTTGCTGGTGTGGTGCGTCTTAATGGTGC
GCGTGATGATGGGTCTGTACAGGAGAGGGTTGGTGGTGTAGCGTCGCTGT
TAAGTGCTTGA
>cg1716 tnp16b(ISCg16b), transposase
GTGGATGAGCAACGCGCCTTTGATCAAGGACTCAAGGAAGAAAACACCTT
GATCACAGATCTCACCACCTGTGCCAGGCTGAGCCATAACAAGGCATTAC
GGCTGATCAAGCTGTCGAAATCAACGGCGTATTACCGCAACAAGCCGCGT
CCCCGTCCTGCACCGAAACCTGTCCTGCAGGCCGTGCCAGCACCAACAGC
ACCTGGTGTGGAACCCACACCAGAGCCTTGGCAGGGGAAGGAGCCAGCAG
TGTCGTCGGTGCGTCAAGCGTTGGCAGAACACGAACGCCAGTTCATTGTT
GATGCGATCACCGCGTACCCACAACTGAGCGTTAGTGGGGTGTTTAACAT
GTTGTTTAACAAAGGCATCTACCGCGCATCACTACGTACATGGTGGCGTG
TTGCCAAGCAGCACAAGTTGTTACACAAAGACCGAGTCAGTGCCCTGTCC
CCGGGGAAACGATCACCAACGCCACGGGTTAAGCCGAGGTTGGAAGCAAC
ACAGCCTGGTCAGGTGGTGTGTTGGGATGTGACGTTCTTGCCGTCGCTGG
TACGTGGTAAGACCTATGCGTTGCATCTGGCGATTGATTTGTTTTCCCGC
AAGATTGTTGGGGCGAAGGTCGCGCCGACGGAAAATACCTCCACCGCGGT
GGAGTTGTTAACGCAGGTGTTAGCGGATAATCCGGGTGTGGTGACGGTGC
ATTCGGATAATGGGTCGGCGATGACATCGACGAGGGTGCGGCGGTTGTTA
GCGGATCATGGTGTGGCGTTGTCGTTGATTCGGCCGCGGGTGAGTGATGA
TAATGCGTTTGTGGAGTCGGTGTTTCATACGTTGAAGTATCGGCCGTTTT
ATCCGAAGGTGTTTGCATCGATGGATCAGGCCCGGGTGTGGGTGGAGGAG
TTTGTGGTGTATTACAACACGGTTCATCCGCATTCTGGTGTGGCTGGGCA
TACTCCGCAGTCGGTGTTTGATGGTAGTTGGAGGGCGGCTCATAGGTTGC
GTGTGCAGGCGTTGGATGCCCATTACCGGCAGTTCCCGCAGCGGTATGTG
GGGCGGCCGGTGGTTCAGGAAGTTGCTGGTGTGGTGCGTCTTAATGGTGC
GCGTGATGATGGGTCTGTACAGGAGAGGGTTGGTGGTGTAGCGTCGCTGT
TAAGTGCTTGA
>cg0428 tnp17c(ISCG17a), TRANSPOSASE-fragment
GTGGTTGTTCTATCAAGACATGATTGCGGCGTATGGGAATCCGTAGAAAT
CAGAGGAAAAGAAGCTGATGAGAAGGGGATCAACAGCCTGCGCAAAGGCC
TACCAGCGAGAATGGACGAGCTTGCCCAACTGGGGCACACCTTGTGGCGT
CGGCGTAAGAACGTGTTGGCGTCCTTCAATATCGGTGCATCCAACGGACC
TGTCGAGGCCATCAACGGCAGACTTGAGCACCTGCGCGGGATCACCTTGG
GGTTCAGGAACCTCAACCACTACATCTTGCGGTGCTTGATCCAAGCCGGA
CAACTGCAGAGGAAGATCAATGTACTCTAA
>cg0919 tnp18a(ISCg18a), transposase
GTGCTTGCCCTTCCATCCTCTATCATCGACCCCCTCTGGTGCCAGTTCGC
CGCGCTGATCCCACCCGTGACCGACACCCACCCACTTCGGTGCCACCGCC
CACGCATCCCGGACCGGATCATCTTCGACAAGCTCATCCAGGTCCTCGTC
CTCGGCGCCTCCTATGCCAAGATCGCCGACACGACATGCTCGGCCACCAC
CTTGCGCACCCGCCGGGACGAGTGGATCACCGCTGGCATCTTCGAGCAGC
TGGAACAGATCTGTTTGGAATTCTACGACCGTATCGTCGGACTCGATCTC
TAA
>cg3298 tnp19a(ISCg19a), transposase-fragment
GTGCCGGTCGATCACACCATGATCTACCGCTGGGTCCAGAAATACGCCCC
TGAGCTGGACAAGCAAACACGGTGGTACCGGCAGGTGCCTGACTGGCAGG
CCAGTTCCTGGCGGGTGGATGAGACCTATATCCGGGTCGGCGGCAGGTGG
TGCTACCTCTGA
>cg3297 tnp19b(ISCg19a), TRANSPOSASE-fragment
ATGAGACCTATATCCGGGTCGGCGGCAGGTGGTGCTACCTCTGATCTGGC
GATCACCGCCGGTGGCCAGACCCTGGACTTTTACCTCTCTCCGAAGCGGA
ACGTGGCCGCAGCGAAGCGTTTCCTGGCCAAGGCCCTCAGATCCAATGCG
TCAGCCGGGTATCCCAGAGTGATCAACACCGATAAAGCACCCTCCCTAGC
CAGGGCAATCACCGAGTTGAAGTCAGAGGGAATCTGCCCGCCAACAGTGG
AACACCGGTAG
>cg1213 tnp1a(ISCg1a), TRANSPOSASE
ATGAAGTCTACCGGCAACATCATCGCTGACACCATCTGCCGCACTGCGGA
ACTAGGACTCACCATCACCGGCGCTTCCGATGCAGGTGATTACACCCTGA
TCGAAGCAGACGCACTCGACTACACCTCCACCTGCCCAGAATGCTCCCAA
CCTGGGGTGTTTCGTCATCACACCCACCGGATGCTCATTGATTTACCCAT
CGTCGGGTTTCCCACCAAACTGTTTATCCGTCTACCTCGCTACCGCTGCA
CCAACCCCACATGTAAGCAAAAGTATTTCCAAGCAGAACTAAGCTGCGCT
GACCACGGTAAAAAGGTCACCCACCGGGTCACCCGCTGGATTTTACAACG
CCTTGCTATTGACCGGATGAGTGTTCACGCAACCGCGAAAGCACTTGGGC
TAGGGTGGGATTTAACCTGCCAACTAGCCCTCGATATGTGCCGTGAGCTG
GTCTATAACGATCCTCACCATCTTGATGGAGTGTATGTCATTGGGGTGGA
TGAGCATAAGTGGTCACATAATAGGGCTAAGCATGGTGATGGGTTTGTCA
CCGTGATTGTCGATATGACCGGGCATCGGTATGACTCACGGTGTCCTGCC
CGGTTATTAGATGTCGTCCCAGGTCGTAGTGCTGATGCTTTACGGTCCTG
GCTTGGCTCCCGCGGTGAACAGTTCCGCAATCAGATACGGATCGTGTCCA
TGGATGGATTCCAAGGCTACGCCACAGCAAGTAAAGAACTCATTCCTTCT
GCTCGTCGCGTGATGGATCCATTCCATGTTGTGCGGCTTGCTGGTGACAA
GCTCACCGCCTGCCGGCAACGCCTCCAGCGGGAGAAATACCAGCGTCGTG
GTTTAAGCCAGGATCCGTTGTATAAAAACCGGAAGACCTTGTTGACCACG
CACAAGTGGTTGAGTCCTCGTCAGCAAGAAAGCTTGGAGCAGTTGTGGGC
GTATGACAAAGACTACGGGGCGTTAAAGCTTGCGTGGCTTGCGTATCAGG
CGATTATTGATTGTTATCAGATGGGTAATAAGCGTGAAGCGAAGAAGAAA
ATGCGGACCATTATTGATCAGCTTCGGGTGTTGAAGGGGCCGAATAAGGA
ACTCGCGCAGTTGGGTCGTAGTTTGTTTAAACGACTTGGTGATGTGTTGG
CGTATTTCGATGTTGGTGTCTCCAACGGTCCGGTCGAAGCGATCAACGGA
CGGTTGGAGCATTTGCGTGGGATTGCTCTAGGTTTCCGTAATTTGAACCA
CTACATTCTGCGGTGCCTTATCCATTCAGGGCAGTTGGTCCATAAGATCA
ATGCACTCTAA
>cg2725 tnp1b(ISCg1b), Transposase
ATGAAGTCTACCGGCAACATCATCGCTGACACCATCTGCCGCACTGCGGA
ACTAGGACTCACCATCACCGGCGCTTCCGATGCAGGTGATTACACCCTGA
TCGAAGCAGACGCACTCGACTACACCTCCACCTGCCCAGAATGCTCCCAA
CCTGGGGTGTTTCGTCATCACACCCACCGGATGCTCATTGATTTACCCAT
CGTCGGGTTTCCCACCAAACTGTTTATCCGTCTACCTCGCTACCGCTGCA
CCAACCCCACATGTAAGCAAAAGTATTTCCAAGCAGAACTAAGCTGCGCT
GACCACGGTAAAAAGGTCACCCACCGGGTCACCCGCTGGATTTTACAACG
CCTTGCTATTGACCGGATGAGTGTTCACGCAACCGCGAAAGCACTTGGGC
TAGGGTGGGATTTAACCTGCCAACTAGCCCTCGATATGTGCCGTGAGCTG
GTCTATAACGATCCTCACCATCTTGATGGAGTGTATGTCATTGGGGTGGA
TGAGCATAAGTGGTCACATAATAGGGCTAAGCATGGTGATGGGTTTGTCA
CCGTGATTGTCGATATGACCGGGCATCGGTATGACTCACGGTGTCCTGCC
CGGTTATTAGATGTCGTCCCAGGTCGTAGTGCTGATGCTTTACGGTCCTG
GCTTGGCTCCCGCGGTGAACAGTTCCGCAATCAGATACGGATCGTGTCCA
TGGATGGATTCCAAGGCTACGCCACAGCAAGTAAAGAACTCATTCCTTCT
GCTCGTCGCGTGATGGATCCATTCCATGTTGTGCGGCTTGCTGGTGACAA
GCTCACCGCCTGCCGGCAACGCCTCCAGCGGGAGAAATACCAGCGTCGTG
GTTTAAGCCAGGATCCGTTGTATAAAAACCGGAAGACCTTGTTGACCACG
CACAAGTGGTTGAGTCCTCGTCAGCAAGAAAGCTTGGAGCAGTTGTGGGC
GTATGACAAAGACTACGGGGCGTTAAAGCTTGCGTGGCTTGCGTATCAGG
CGATTATTGATTGTTATCAGATGGGTAATAAGCGTGAAGCGAAGAAGAAA
ATGCGGACCATTATTGATCAGCTTCGGGTGTTGAAGGGGCCGAATAAGGA
ACTCGCGCAGTTGGGTCGTAGTTTGTTTAAACGACTTGGTGATGTGTTGG
CGTATTTCGATGTTGGTGTCTCCAACGGTCCGGTCGAAGCGATCAACGGA
CGGTTGGAGCATTTGCGTGGGATTGCTCTAGGTTTCCGTAATTTGAACCA
CTACATTCTGCGGTGCCTTATCCATTCAGGGCAGTTGGTCCATAAGATCA
ATGCACTCTAA
>cg0692 tnp1c(ISCg1c), TRANSPOSASE
ATGAAGTCTACCGGCAACATCATCGCTGACACCATCTGCCGCACTGCGGA
ACTAGGACTCACCATCACCGGCGCTTCCGATGCAGGTGATTACACCCTGA
TCGAAGCAGACGCACTCGACTACACCTCCACCTGCCCAGAATGCTCCCAA
CCTGGGGTGTTTCGTCATCACACCCACCGGATGCTCATTGATTTACCCAT
CGTCGGGTTTCCCACCAAACTGTTTATCCGTCTACCTCGCTACCGGTGCA
CCAACCCCACATGTAAGCAAAAGTATTTCCAAGCAGAACTAAGCTGCGCT
GACCACGGTAAAAAGGTCACCCACCGGGTCACCCGCTGGATTTTACAACG
CCTTGCTATTGACCGGATGAGTGTTCACGCAACCGCGAAAGCACTTGGGC
TAGGGTGGGATTTAACCTGCCAACTAGCCCTCGATATGTGCCGTGAGCTG
GTCTATAACGATCCTCACCATCTTGATGGAGTGTATGTCATTGGGGTGGA
TGAGCATAAGTGGTCACATAATAGGGCTAAGCATGGTGATGGGTTTGTCA
CCGTGATTGTCGATATGACCGGGCATCGGTATGACTCACGGTGTCCTGCC
CGGTTATTAGATGTCGTCCCAGGTCGTAGTGCTGATGCTTTACGGTCCTG
GCTTGGCTCCCGCGGTGAACAGTTCCGCAATCAGATACGGATCGTGTCCA
TGGATGGATTCCAAGGCTACGCCACAGCAAGTAAAGAACTCATTCCTTCT
GCTCGTCGCGTGATGGATCCATTCCATGTTGTGCGGCTTGCTGGTGACAA
GCTCACCGCCTGCCGGCAACGCCTCCAGCGGGAGAAATACCAGCGTCGTG
GTTTAAGCCAGGATCCGTTGTATAAAAACCGGAAGACCTTGTTGACCACG
CACAAGTGGTTGAGTCCTCGTCAGCAAGAAAGCTTGGAGCAGTTGTGGGC
GTATGACAAAGACTACGGGGCGTTAAAGCTTGCGTGGCTTGCGTATCAGG
CGATTATTGATTGTTATCAGATGGGTAATAAGCGTGAAGCGAAGAAGAAA
ATGCGGACCATTATTGATCAGCTTCGGGTGTTGAAGGGGCCGAATAAGGA
ACTCGCGCAGTTGGGTCGTAGTTTGTTTAAACGACTTGGTGATGTGTTGG
CGTATTTCGATGTTGGTGTCTCCAACGGTCCGGTCGAAGCGATCAACGGA
CGGTTGGAGCATTTGCGTGGGATTGCTCTAGGTTTCCGTAATTTGAACCA
CTACATTCTGCGGTGCCTTATCCATTCAGGGCAGTTGGTCCATAAGATCA
ATGCACTCTAA
>cg2600 tnp1d(ISCg1d), Transposase
ATGAAGTCTACCGGCAACATCATCGCTGACACCATCTGCCGCACTGCGGA
ACTAGGACTCACCATCACCGGCGCTTCCGATGCAGGTGATTACACCCTGA
TCGAAGCAGACGCACTCAACTACACCTCCACCTGCCCAGAATGCTCCCAA
CCTGGGGTGTTTCGTCATCACACCCACCGGATGCTCATTGATTTACCCAT
CGTCGGGTTTCCCACCAAACTGTTTATCCGTCTACCTCGCTACCGCTGCA
CCAACCCCACATGTAAGCAAAAGTATTTCCAAGCAGAACTAAGCTGCGCT
GACCACGGTAAAAAGGTCACCCACCGGGTCACCCGCTGGATTTTACAACG
CCTTGCTATTGACCGGATGAGTGTTCACGCAACCGCGAAAGCACTTGGGC
TAGGGTGGGATTTAACCTGCCAACTAGCCCTCGATATGTGCCGTGAGCTG
GTCTATAACGATCCTCACCATCTTGATGGAGTGTATGTCATTGGGGTGGA
TGAGCATAAGTGGTCACATAATAGGGCTAAGCATGGTGATGGGTTTGTCA
CCGTGATTGTCGATATGACCGGGCATCGGTATGACTCACGGTGTCCTGCC
CGGTTATTAGATGTCGTCCCAGGTCGTAGTGCTGATGCTTTACGGTCCTG
GCTTGGCTCCCGCGGTGAACAGTTCCGCAATCAGATACGGATCGTGTCCA
TGGATGGATTCCAAGGCTACGCCACAGCAAGTAAAGAACTCATTCCTTCT
GCTCGTCGCGTGATGGATCCATTCCATGTTGTGCGGCTTGCTGGTGACAA
GCTCACCGCCTGCCGGCAACGCCTCCAGCGGGAGAAATACCAGCGTCGTG
GTTTAAGCCAGGATCCGTTGTATAAAAACCGGAAGACCTTGTTGACCACG
CACAAGTGGTTGAGTCCTCGTCAGCAAGAAAGCTTGGAGCAGTTGTGGGC
GTATGACAAAGACTACGGGGCGTTAAAGCTTGCGTGGCTTGCGTATCAGG
CGATTATTGATTGTTATCAGATGGGTAATAAGCGTGAAGCGAAGAAGAAA
ATGCGGACCATTATTGATCAGCTTCGGGTGTTGAAGGGGCCGAATAAGGA
ACTCGCGCAGTTGGGTCGTAGTTTGTTTAAACGACTTGGTGATGTGTTGG
CGTATTTCGATGTTGGTGTCTCCAACGGTCCGGTCGAAGCGATCAACGGA
CGGTTGGAACATTTGCGTGGGATTGCTCTAGGTTTCCGTAATTTGAACCA
CTACATTCTGCGGTGCCTTATCCATTCAGGGCAGTTGGTCCATAAGATCA
ATGCACTCTAA
>cg1515 tnp24a(ISCg24a), transposase-fragment
ATGAGGCAGTCATTGGGATCAATTGGCACCAGTGCTGACAACGCGTTAGC
GGAGTCGTTCAACGCCGCACTCAGGCGGGAAGTCCTCCAAGATTCTAAGA
CTTTTGCGAACTAG
>cg3151 tnp2b(ISCg2b), Transposase
ATGTCAGGTCTTGCTGCGTCTACAGCGGTCGGGGTCAGTGAATTCACCGG
GCGAAAGTGGGCGAAGGCCGCCGGGGTGAAACTGACCCGCGGCCCGCGAG
GTGGCAATGCTTTTGACACCGCCGAGAAACTTGAGATTGCAGCCAGCATG
CTAGAGAAAGGATGCCTACCCCGAGAAATCGGCGAGTATGTCGGCATGAC
TCGGGCCAATATATCCCTATGGCGCAAACAAGGCCCAGACAAGCTTCGCC
AACGCGCAGCCACCTTGCGCACCGGCAAGCGAGCAGCTGAATTCATCCAC
GCCCCGGTGATGGGCCCTTATTATGGGCCACGCACACTCCATCAAGTGTT
GCGTGAGGACTACACAACACTGTTTGACGAGTTATCTGCGTTGGGGTTGC
CAGCACAGGTGTGTGGGGCCTTACTTCATCTTGCTCCACCACCATCATTA
CGCTTTTCTTATATGTCGTGTGTAGTGCCGTTATTTGCTGATGAAATCAA
AGTCGTAGGACAAGGCACACGATTATCGTTAGAAGAGAAAATGATGATCC
AACGTTTCCATGACACCGGGGTCAGTGCAGCAGAAATCGGTCGACGCCTG
GGTCGGTGTCGGCAAACAATTTCCAGGGAACTTCGACGTGGTCAAGATGA
TGATGGACGTTATCGTGCACGCGACTCCTATGAAGGTGCGATCAGGAAAC
TAGCGCGTCCGAAAACACCGAAACTTGATGCCAATCGTAGGCTTCGGGCT
GTGGTGGTCGAGGCGTTGAATAATAAATTATCTCCGGAGCAGATTTCTGG
TCTTTTAGCCACCGAGCATGCTAACGATAGCTCTATGCAGATTAGTCATG
AAACTATTTACCAGGCGTTATATGTTCAAGGTAAAGGGGCGTTGCGTGAT
GAATTGAAGGTGGAGAAATTTCTTCGTACCGGTCGGAAGGGACGTAAACC
GCAGTCGAAGTTGCCATCGAGAGGTAAGCCGTGGGTGGAGGGTGCGTTGA
TTAGTCAACGCCCAGCAGAAGTTGCTGATCGTGCTGTGCCTGGGCACTGG
GAGGGCGATTTAGTAATTGGTGGTGAAAACCAAGCGACAGCGTTGGTGAC
GTTGGTGGAGCGCACGAGCCGGTTGACGTTGATTAAGCGGTTGGGGGTTA
ATCATGAGGCGTCGACTGTGACGGATGCGTTGGTGGAGATGATGGGTGAT
TTGCCGCAGGCGTTGCGTCGGAGTTTGACGTGGGATCAGGGTGTGGAGAT
GGCAGAGCATGCGCGGTTTAGCGTGGTGACCAAGTGTCCGGTGTTTTTCT
GTGATCCTCATTCGCCGTGGCAGCGTGGGTCGAATGAGAATACGAATGGA
TTGGTCAGGGATTTTTTCCCGAAGGGCACTAATTTTGCTAAAGTAAGTGA
CGAAGAAGTTCAGCGGGCACAGGATCTGCTGAATTACCGGCCGCGGAAAA
TGCATGGTTTTAAAAGCGCGACGCAGGTATATGAAAAAATCGTAGTTGGT
GCATCCACCGATTGA
>cg2854 tnp2c(ISCg2c), Transposase
ATGTCAGGTCTTGCTGCGTCTACAGCGGTCGGGGTCAGTGAATTCACCGG
GCGAAAGTGGGCGAAGGCCGCCGGGGTGAAACTGACCCGCGGCCCGCGAG
GTGGCAATGCTTTTGACACCGCCGAGAAACTTGAGATTGCAGCCAGCATG
CTAGAGAAAGGATGCCTACCCCGAGAAATCGGCGAGTATGTCGGCATGAC
TCGGGCCAATATATCCCTATGGCGCAAACAAGGCCCAGACAAGCTTCGCC
AACGCGCAGCCACCTTGCGCACCGGCAAGCGAGCAGCTGAATTCATCCAC
GCCCCGGTGATGGGCCCTTATTATGGGCCACGCACACTCCATCAAGTGTT
GCGTGAGGACTACACAACACTGTTTGACGAGTTATCTGCGTTGGGGTTGC
CAGCACAGGTGTGTGGGGCCTTACTTCATCTTGCTCCACCACCATCATTA
CGCTTTTCTTATATGTCGTGTGTAGTGCCGTTATTTGCTGATGAAATCAA
AGTCGTAGGACAAGGCACACGATTATCGTTAGAAGAGAAAATGATGATCC
AACGTTTCCATGACACCGGGGTCAGTGCAGCAGAAATCGGTCGACGCCTG
GGTCGGTGTCGGCAAACAATTTCCAGGGAACTTCGACGTGGTCAAGATGA
TGATGGACGTTATCGTGCACGCGACTCCTATGAAGGTGCGATCAGGAAAC
TAGCGCGTCCGAAAACACCGAAACTTGATGCCAATCGTAGGCTTCGGGCT
GTGGTGGTCGAGGCGTTGAATAATAAATTATCTCCGGAGCAGATTTCTGG
TCTTTTAGCCACCGAGCATGCTAACGATAGCTCTATGCAGATTAGTCATG
AAACTATTTACCAGGCGTTATATGTTCAAGGTAAAGGGGCGTTGCGTGAT
GAATTGAAGGTGGAGAAATTTCTTCGTACCGGTCGGAAGGGACGTAAACC
GCAGTCGAAGTTGCCATCGAGAGGTAAGCCGTGGGTGGAGGGTGCGTTGA
TTAGTCAACGCCCAGCAGAAGTTGCTGATCGTGCTGTGCCTGGGCACTGG
GAGGGCGATTTAGTAATTGGTGGTGAAAACCAAGCGACAGCGTTGGTGAC
GTTGGTGGAGCGCACGAGCCGGTTGACGTTGATTAAGCGGTTGGGGGTTA
ATCATGAGGCGTCGACTGTGACGGATGCGTTGGTGGAGATGATGGGTGAT
TTGCCGCAGGCGTTGCGTCGGAGTTTGACGTGGGATCAGGGTGTGGAGAT
GGCAGAGCATGCGCGGTTTAGCGTGGTGACCAAGTGTCCGGTGTTTTTCT
GTGATCCTCATTCGCCGTGGCAGCGTGGGTCGAATGAGAATACGAATGGA
TTGGTCAGGGATTTTTTCCCGAAGGGCACTAATTTTGCTAAAGTAAGTGA
CGAAGAAGTTCAGCGGGCACAGGATCTGCTGAATTACCGGCCGCGGAAAA
TGCATGGTTTTAAAAGCGCGACGCAGGTATATGAAAAAATCGTAGTTGGT
GCATCCACCGATTGA
>cg2426 tnp2d(ISCg2d), Transposase
ATGTCAGGTCTTGCTGCGTCTACAGCGGTCGGGGTCAGTGAATTCACCGG
GCGAAAGTGGGCGAAGGCCGCCGGGGTGAAACTGACCCGCGGCCCGCGAG
GTGGCAATGCTTTTGACACCGCCGAGAAACTTGAGATTGCAGCCAGCATG
CTAGAGAAAGGATGCCTACCCCGAGAAATCGGCGAGTATGTCGGCATGAC
TCGGGCCAATATATCCCTATGGCGCAAACAAGGCCCAGACAAGCTTCGCC
AACGCGCAGCCACCTTGCGCACCGGCAAGCGAGCAGCTGAATTCATCCAC
GCCCCGGTGATGGGCCCTTATTATGGGCCACGCACACTCCATCAAGTGTT
GCGTGAGGACTACACAACACTGTTTGACGAGTTATCTGCGTTGGGGTTGC
CAGCACAGGTGTGTGGGGCCTTACTTCATCTTGCTCCACCACCATCATTA
CGCTTTTCTTATATGTCGTGTGTAGTGCCGTTATTTGCTGATGAAATCAA
AGTCGTAGGACAAGGCACACGATTATCGTTAGAAGAGAAAATGATGATCC
AACGTTTCCATGACACCGGGGTCAGTGCAGCAGAAATCGGTCGACGCCTG
GGTCGGTGTCGGCAAACAATTTCCAGGGAACTTCGACGTGGTCAAGATGA
TGATGGACGTTATCGTGCACGCGACTCCTATGAAGGTGCGATCAGGAAAC
TAGCGCGTCCGAAAACACCGAAACTTGATGCCAATCGTAGGCTTCGGGCT
GTGGTGGTCGAGGCGTTGAATAATAAATTATCTCCGGAGCAGATTTCTGG
TCTTTTAGCCACCGAGCATGCTAACGATAGCTCTATGCAGATTAGTCATG
AAACTATTTACCAGGCGTTATATGTTCAAGGTAAAGGGGCGTTGCGTGAT
GAATTGAAGGTGGAGAAATTTCTTCGTACCGGTCGGAAGGGACGTAAACC
GCAGTCGAAGTTGCCATCGAGAGGTAAGCCGTGGGTGGAGGGTGCGTTGA
TTAGTCAACGCCCAGCAGAAGTTGCTGATCGTGCTGTGCCTGGGCACTGG
GAGGGCGATTTAGTAATTGGTGGTGAAAACCAAGCGACAGCGTTGGTGAC
GTTGGTGGAGCGCACGAGCCGGTTGACGTTGATTAAGCGGTTGGGGGTTA
ATCATGAGGCGTCGACTGTGACGGATGCGTTGGTGGAGATGATGGGTGAT
TTGCCGCAGGCGTTGCGTCGGAGTTTGACGTGGGATCAGGGTGTGGAGAT
GGCAGAGCATGCGCGGTTTAGCGTGGTGACCAAGTGTCCGGTGTTTTTCT
GTGATCCTCATTCGCCGTGGCAGCGTGGGTCGAATGAGAATACGAATGGA
TTGGTCAGGGATTTTTTCCCGAAGGGCACTAATTTTGCTAAAGTAAGTGA
CGAAGAAGTTCAGCGGGCACAGGATCTGCTGAATTACCGGCCGCGGAAAA
TGCATGGTTTTAAAAGCGCGACGCAGGTATATGAAAAAATCGTAGTTGGT
GCATCCACCGATTGA
>cg2354 tnp2e(ISCg2e), Transposase
ATGTCAGGTCTTGCTGCGTCTACAGCGGTCGGGGTCAGTGAATTCACCGG
GCGAAAGTGGGCGAAGGCCGCCGGGGTGAAACTGACCCGCGGCCCGCGAG
GTGGCAATGCTTTTGACACCGCCGAGAAACTTGAGATTGCAGCCAGCATG
CTAGAGAAAGGATGCCTACCCCGAGAAATCGGCGAGTATGTCGGCATGAC
TCGGGCCAATATATCCCTATGGCGCAAACAAGGCCCAGACAAGCTTCGCC
AACGCGCAGCCACCTTGCGCACCGGCAAGCGAGCAGCTGAATTCATCCAC
GCCCCGGTGATGGGCCCTTATTATGGGCCACGCACACTCCATCAAGTGTT
GCGTGAGGACTACACAACACTGTTTGACGAGTTATCTGCGTTGGGGTTGC
CAGCACAGGTGTGTGGGGCCTTACTTCATCTTGCTCCACCACCATCATTA
CGCTTTTCTTATATGTCGTGTGTAGTGCCGTTATTTGCTGATGAAATCAA
AGTCGTAGGACAAGGCACACGATTATCGTTAGAAGAGAAAATGATGATCC
AACGTTTCCATGACACCGGGGTCAGTGCAGCAGAAATCGGTCGACGCCTG
GGTCGGTGTCGGCAAACAATTTCCAGGGAACTTCGACGTGGTCAAGATGA
TGATGGACGTTATCGTGCACGCGACTCCTATGAAGGTGCGATCAGGAAAC
TAGCGCGTCCGAAAACACCGAAACTTGATGCCAATCGTAGGCTTCGGGCT
GTGGTGGTCGAGGCGTTGAATAATAAATTATCTCCGGAGCAGATTTCTGG
TCTTTTAGCCACCGAGCATGCTAACGATAGCTCTATGCAGATTAGTCATG
AAACTATTTACCAGGCGTTATATGTTCAAGGTAAAGGGGCGTTGCGTGAT
GAATTGAAGGTGGAGAAATTTCTTCGTACCGGTCGGAAGGGACGTAAACC
GCAGTCGAAGTTGCCATCGAGAGGTAAGCCGTGGGTGGAGGGTGCGTTGA
TTAGTCAACGCCCAGCAGAAGTTGCTGATCGTGCTGTGCCTGGGCACTGG
GAGGGCGATTTAGTAATTGGTGGTGAAAACCAAGCGACAGCGTTGGTGAC
GTTGGTGGAGCGCACGAGCCGGTTGACGTTGATTAAGCGGTTGGGGGTTA
ATCATGAGGCGTCGACTGTGACGGATGCGTTGGTGGAGATGATGGGTGAT
TTGCCGCAGGCGTTGCGTCGGAGTTTGACGTGGGATCAGGGTGTGGAGAT
GGCAGAGCATGCGCGGTTTAGCGTGGTGACCAAGTGTCCGGTGTTTTTCT
GTGATCCTCATTCGCCGTGGCAGCGTGGGTCGAATGAGAATACGAATGGA
TTGGTCAGGGATTTTTTCCCGAAGGGCACTAATTTTGCTAAAGTAAGTGA
CGAAGAAGTTCAGCGGGCACAGGATCTGCTGAATTACCGGCCGCGGAAAA
TGCATGGTTTTAAAAGCGCGACGCAGGTATATGAAAAAATCGTAGTTGGT
GCATCCACCGATTGA
>cg0226 tnp2f(ISCg2f), TRANSPOSASE
ATGTCAGGTCTTGCTGCGTCTACAGCGGTCGGGGTCAGTGAATTCACCGG
GCGAAAGTGGGCGAAGGCCGCCGGGGTGAAACTGACCCGCGGCCCGCGAG
GTGGCAATGCTTTTGACACCGCCGAGAAACTTGAGATTGCAGCCAGCATG
CTAGAGAAAGGATGCCTACCCCGAGAAATCGGCGAGTATGTCGGCATGAC
TCGGGCCAATATATCCCTATGGCGCAAACAAGGCCCAGACAAGCTTCGCC
AACGCGCAGCCACCTTGCGCACCGGCAAGCGAGCAGCTGAATTCATCCAC
GCCCCGGTGATGGGCCCTTATTATGGGCCACGCACACTCCATCAAGTGTT
GCGTGAGGACTACACAACACTGTTTGACGAGTTATCTGCGTTGGGGTTGC
CAGCACAGGTGTGTGGGGCCTTACTTCATCTTGCTCCACCACCATCATTA
CGCTTTTCTTATATGTCGTGTGTAGTGCCGTTATTTGCTGATGAAATCAA
AGTCGTAGGACAAGGCACACGATTATCGTTAGAAGAGAAAATGATGATCC
AACGTTTCCATGACACCGGGGTCAGTGCAGCAGAAATCGGTCGACGCCTG
GGTCGGTGTCGGCAAACAATTTCCAGGGAACTTCGACGTGGTCAAGATGA
TGATGGACGTTATCGTGCACGCGACTCCTATGAAGGTGCGATCAGGAAAC
TAGCGCGTCCGAAAACACCGAAACTTGATGCCAATCGTAGGCTTCGGGCT
GTGGTGGTCGAGGCGTTGAATAATAAATTATCTCCGGAGCAGATTTCTGG
TCTTTTAGCCACCGAGCATGCTAACGATAGCTCTATGCAGATTAGTCATG
AAACTATTTACCAGGCGTTATATGTTCAAGGTAAAGGGGCGTTGCGTGAT
GAATTGAAGGTGGAGAAATTTCTTCGTACCGGTCGGAAGGGACGTAAACC
GCAGTCGAAGTTGCCATCGAGAGGTAAGCCGTGGGTGGAGGGTGCGTTGA
TTAGTCAACGCCCAGCAGAAGTTGCTGATCGTGCTGTGCCTGGGCACTGG
GAGGGCGATTTAGTAATTGGTGGTGAAAACCAAGCGACAGCGTTGGTGAC
GTTGGTGGAGCGCACGAGCCGGTTGACGTTGATTAAGCGGTTGGGGGTTA
ATCATGAGGCGTCGACTGTGACGGATGCGTTGGTGGAGATGATGGGTGAT
TTGCCGCAGGCGTTGCGTCGGAGTTTGACGTGGGATCAGGGTGTGGAGAT
GGCAGAGCATGCGCGGTTTAGCGTGGTGACCAAGTGTCCGGTGTTTTTCT
GTGATCCTCATTCGCCGTGGCAGCGTGGGTCGAATGAGAATACGAATGGA
TTGGTCAGGGATTTTTTCCCGAAGGGCACTAATTTTGCTAAAGTAAGTGA
CGAAGAAGTTCAGCGGGCACAGGATCTGCTGAATTACCGGCCGCGGAAAA
TGCATGGTTTTAAAAGCGCGACGCAGGTATATGAAAAAATCGTAGTTGGT
GCATCCACCGATTGA
>cg1094 tnp3a(ISCg3a), Transposase
ATGGGCATCTTCTCCGGTCGGCAGTTCCCTCGTGAAATCATCCTGTGGGC
GGTGCGGTGGTACTGCCGCTACGGCGTGAGCTATCGCGACCTCGAAGAGA
TGATGACCGAGCGGGGAGTGCCGGTCGATCACACCACGATCTACCGCTGG
GTCCAGAAATATGCTCCTGAGCTGGATAAGAAGACCCGGTGGTATCGGCA
AGTTCCTGACTGGCAGGCCAGGTCCTGGCGGGTGGATGAGACCTATATCC
GGGTCGGGGGAAAGTGGTGCTACCTCTATCGGGCAATCACCGCCGGTAGC
CAGACCCTGGACTTCTACCTCTCCCCGAAGAGAAACGTCGCGGCGGCGAA
GCGTTTCCTGGCGAAGACGCTGCGGTCGAATAAATCGGCAGGCTATCCGC
GGGTGATCAGCACCGACAAGGCCCCCTCACTCGCCAGGGCAATCTCTGAG
CTGAAGGCGGAAGGCGTCTGTCCATCGACGGTCGAGCATCGTCGGGTGAA
ATACCTCAACAACGTCATTGAAGGCGACCATGGTCGGTTAAAGCGGATCC
TGGGGCCGAAAGGCGCATTCAAAAACCGAACGTCTGCCTACCGGACGTTG
AAAGGGATGGAGGCGATGCACTCATTGCGGAAGGGGCAGGGCACGATGTT
TGCCTATGGTCACCCGAATCCGGATGCAGTGATTGTTAGCCGGGTATTCG
AGACGGCCTGA
>cg1757 tnp3b(ISCg3b), Transposase
ATGGGCATCTTCTCCGGTCGGCAGTTCCCTCGTGAAATCATCCTGTGGGC
GGTGCGGTGGTACTGCCGCTACGGCGTGAGCTATCGCGACCTCGAAGAGA
TGATGACCGAGCGGGGAGTGCCGGTCGATCACACCACGATCTACCGCTGG
GTCCAGAAATATGCTCCTGAGCTGGATAAGAAGACCCGGTGGTATCGGCA
AGTTCCTGACTGGCAGGCCAGGTCCTGGCGGGTGGATGAGACCTATATCC
GGGTCGGGGGAAAGTGGTGCTACCTCTATCGGGCAATCACCGCCGGTAGC
CAGACCCTGGACTTCTACCTCTCCCCGAAGAGAAACGTCGCGGCGGCGAA
GCGTTTCCTGGCGAAGACGCTGCGGTCGAATAAATCGGCAGGCTATCCGC
GGGTGATCAGCACCGACAAGGCCCCCTCACTCGCCAGGGCAATCTCTGAG
CTGAAGGCGGAAGGCGTCTGTCCATCGACGGTCGAGCATCGTCGGGTGAA
ATACCTCAACAACGTCATTGAAGGCGACCATGGTCGGTTAAAGCGGATCC
TGGGGCCGAAAGGCGCATTCAAAAACCGAACGTCTGCCTACCGGACGTTG
AAAGGGATGGAGGCGATGCACTCATTGCGGAAGGGGCAGGGCACGATGTT
TGCCTATGGTCACCCGAATCCGGATGCAGTGATTGTTAGCCGGGTATTCG
AGACGGCCTGA
>cg2461 tnp4a(ISCg4a), Transposase
GTGGTCGCCGGAGCCAATCGGCATGATTCACCGTTGTTAGCTGCAACCTT
GGACACGCTCGGCCGGTTTGGAGGTTGTCTTCCCGATCAGATCACGGTGC
ATCTCGATGCTGGGTATGACTCGAAGAAAACCCGCAGGCTACTCAGCGAA
CGTGGTTATAGCTGGGTGATCAGCACTAAAGGTAAGCCGCTGCAGGCTGG
GGCTCGGTGGGTGGTGGAGCGTACTAACTCTTGGCATAACCGGGGTTTTA
AGAAACTTAGTATCTGCACCGAACGATGTACCCGGGTCGTGGAAGCGTTT
ATCGCTTTAGCCAACGCGGTGATCATTCTGCGTCGGCTTATCAAACAGGC
CTGGACTAGTTACCGCTGGGACACCCGACCGGGCCACAGACCTTAA
>cg0824 tnp5a(ISCg5a), Transposase
GTGCACACCCCAGACCTACACCACAGGCATAGTCCTAGGCTGCTCACAAT
TGACATCATGCCTAAACCCCTACCCCCAGAAACCCGACGCAAGATCATCG
ATTTCGATCCGTTCGCACCGAACAGCCCCTCGATCGAAGAGTTCTGCAGT
CGGCTAAAAATATCGCGGCGCAGCTTCTACAACATCCGCAACCGATACCA
ACAAGACGCCAACGCAGCACTGCATCCACACTCCAGCGCCCCAATCACCG
CCCGGCGAACGTACGATGAATCCATCACCAGCACCTTGCTGTCCATCCGC
GCACGCCTGAAAGCCCAAGGATGGGAGTACGGCCCGATCTCTATTCGATT
CGAAGGCATCTCCACCGGGGAACTGACTGCACCGATTCCATCTGTTTCAA
CCATTGCTCGTTTGTTACGCGCCGCAGGAGCTGTTGAAAGTAACCCTAAG
AAGCGACCGAAGTCGTCGGTGGTGAGGTTTCAACGAGGTCAAGCCATGGA
AATGTGGCAAATAGATGGTTTCATCTACACACTGCACGATACTGATCTGA
CTCGGGTAACGATCTATCAAATCCTTGATGATGCCACTCGGTTTGATGTC
GGAACCTGTGTCTTCCCCGCGAATGAAAACTCAGTCGATGCCCGAACAGC
GCTAGAACAAGCGATTGCTCATTTCGGTGCCCCGCATGAATTACTCAGTG
ATAACGGCTCAGCGTTTAACCGGATGCGGCAAGGATACGTCGGAAGCTTG
GAAAGCTATCTCGCGACGGTGGGGTGTTTAAGCATTACCGGCAAGCCTGG
GCATCCTCAAACCCAAGGTAAAAACGAACGCAGCCACCGCACACTATTTC
GTTTCCTTCAAGCTCATCAACCACACACACTTGAGGAATGTGCGCACTAT
ATTGAACAGTTCCGCGATCATTACAACAATCGTCGCCCGCATCAGGGGTT
GCCGAATAATCTCACCCCGGCCGCGGCCTGGGAGATTGTGGGCTGTGTGG
AACAACAACCCCCGATTGATCCCGTCGTGCTTCAACAGCAAGCCGATCAC
TATGCCCGTCGTCGAATTGAGAAGCAATCAGATGTCCCGCTTGTTCGGCA
GGAGGAATCTGTTCCGGTGTCTAAGATGCAGCAGACCGAGCAACGTCGAC
GGGTACGTCGTTTTGGTAAAAAGCCGGTGGATCCTGATGTGTTTACGTTT
GCTGGGAATAATCAGAAGGTGGTGTTCCAGGGGATGCGTATTTCTGTTCC
TCGTACGATGAGGGACAGGGAGTTTTATCGGACGGTGACGGCAACTGAGC
TTGGTTTCTGGGATGCGATAACCGGGGAGCTTGAGTTGTCGATTCCGTTG
CCGGTTGTGGCGATTGCCCGGGGTAAGTCGTATATCAATTCTTACAACAT
TCGTGGGGTGTGGATGCAACACCCGACACCGTTGTGGCAACGCAAACGTG
ATGAGGCTGAGAAGCGATTCAAGTCGATAGATCCGGGGGATCTTCTGCGC
TAG
>cg2914 tnp5b(ISCg5b), Transposase
GTGCACACCCCAGACCTACACCACAGGCATAGTCCTAGGCTGCTCACAAT
TGACATCATGCCTAAACCCCTACCCCCAGAAACCCGACGCAAGATCATCG
ATTTCGATCCGTTCGCACCGAACAGCCCCTCGATCGAAGAGTTCTGCAGT
CGGCTAAAAATATCGCGGCGCAGCTTCTACAACATCCGCAACCGATACCA
ACAAGACGCCAACGCAGCACTGCATCCACACTCCAGCGCCCCAATCACCG
CCCGGCGAACGTACGATGAATCCATCACCAGCACCTTGCTGTCCATCCGC
GCACGCCTGAAAGCCCAAGGATGGGAGTACGGCCCGATCTCTATTCGATT
CGAAGGCATCTCCACCGGGGAACTGACTGCACCGATTCCATCTGTTTCAA
CCATTGCTCGTTTGTTACGCGCCGCAGGAGCTGTTGAAAGTAACCCTAAG
AAGCGACCGAAGTCGTCGGTGGTGAGGTTTCAACGAGGTCAAGCCATGGA
AATGTGGCAAATAGATGGTTTCATCTACACACTGCACGATACTGATCTGA
CTCGGGTAACGATCTATCAAATCCTTGATGATGCCACTCGGTTTGATGTC
GGAACCTGTGTCTTCCCCGCGAATGAAAACTCAGTCGATGCCCGAACAGC
GCTAGAACAAGCGATTGCTCATTTCGGTGCCCCGCATGAATTACTCAGTG
ATAACGGCTCAGCGTTTAACCGGATGCGGCAAGGATACGTCGGAAGCTTG
GAAAGCTATCTCGCGACGGTGGGGTGTTTAAGCATTACCGGCAAGCCTGG
GCATCCTCAAACCCAAGGTAAAAACGAACGCAGCCACCGCACACTATTTC
GTTTCCTTCAAGCTCATCAACCACACACACTTGAGGAATGTGCGCACTAT
ATTGAACAGTTCCGCGATCATTACAACAATCGTCGCCCGCATCAGGGGTT
GCCGAATAATCTCACCCCGGCCGCGGCCTGGGAGATTGTGGGCTGTGTGG
AACAACAACCCCCGATTGATCCCGTCGTGCTTCAACAGCAAGCCGATCAC
TATGCCCGTCGTCGAATTGAGAAGCAATCAGATGTCCCGCTTGTTCGGCA
GGAGGAATCTGTTCCGGTGTCTAAGATGCAGCAGACCGAGCAACGTCGAC
GGGTACGTCGTTTTGGTAAAAAGCCGGTGGATCCTGATGTGTTTACGTTT
GCTGGGAATAATCAGAAGGTGGTGTTCCAGGGGATGCGTATTTCTGTTCC
TCGTACGATGAGGGACAGGGAGTTTTATCGGACGGTGACGGCAACTGAGC
TTGGTTTCTGGGATGCGATAACCGGGGAGCTTGAGTTGTCGATTCCGTTG
CCGGTTGTGGCGATTGCCCGGGGTAAGTCGTATATCAATTCTTACAACAT
TCGTGGGGTGTGGATGCAACACCCGACACCGTTGTGGCAACGCAAACGTG
ATGAGGCTGAGAAGCGATTCAAGTCGATAGATCCGGGGGATCTTCTGCGC
TAG
>cg3266 tnp5c(ISCg5c), Transposase
ATGAATCCATCACCAGTATCTTGTTGGCCATCCGCGCACCGCCTGAAAGC
CCAAGGATGGGAATACGGTCCGATCTCTATCCGATTCGAAGGCATCGCCA
CCGGGGAACTGACTGCACCGATTCCATCCGTCTCAACTATCGCTTGCTTG
TTACGCGCTGCAGGAGCAGTCGAAAGTAACCCTAAGAAGCGACCAAAGTC
GTCGGTGGTGAGGTTTCAACGAGGTCAAGCTATGGAAATGTGGCAAATAG
ATGGTTTCATTTACACGCTGCACGATAGTGATCTGACTCGGGTCACGATC
TATCAAATCCTTGATGATGCCACTCGGTTTGATGTCGGAACCTGTGTCTT
TCCCGCGAATGAAAACTCAGTCGATGCCCGAACAGTGCTAGAACAAGCGA
TTGCTCATTTTGGTGCCCCGCATGAATTACTCAGTGATAACGGCTCAGCG
TTTAACCGGATGCGGCAAGGATACGTCGGAAGTTTGGAAAGCTATCTCGC
GACGGTGGGGTGTTTAAGCATTACCGGCAAGCCTGGGCATCCTCAAACCC
AAGGTAAAAACGAACGCGGCCACCGCACACTATTTCGTTTCCTTCAAGCT
CATCAACCACACACACTTGAGGAATGTGCGCACTATATTGAACAGTTCCG
TGATCATTGCAACAATCGTCGTCCACATCAGGGGTTGCCGAATAATCTCA
CTCCGGCTGCGGCCTGGGAGATTGTGGGGTGTGTGGAGCAACAACCCCCG
ATTGATCCCGTCGTGCTTCAACAGCAAGCTGATCACTATGCCCGTCGTCG
AATTGAGAAGCAATCAGATGTCTCGCTTGTTCGGCAGGAGGAATCTGTTC
CGGTGTCTAAGATGCAGCAGACCGAGCAACGTCGACGGGTACGTCGTTTT
GGTAAAAAGCCGGTGGATCCTGATGTGTTTACGTTTGCTGGGAATAATCA
GAAGGTGGTGTTCCAGGGGATGCGTATTTCTGTTCCTCGTACGATGAGGG
ACAGGGAGTTTTATCGGACGGTGACGGCAACTGAGCTTGGTTTCTGGGAT
GCGATAACCGGGGAGCTTGAGTTGTTGATTTCGTTGCCGGTTGTGGCGAT
TGCCCGGGGTAAGTCGTATATCAGTTCTTACAACATTCGTGGGGTGTGGA
TGCAGCACCCGACGCTGTTGTGGCAACGCAAACGTGATGAGGCTGAGAAG
CGATTTAAGTCGATAGATCCGGGGGATCTACTGCGCTAG
>cg1022 tnp6a(ISCg6a), TRANSPOSASE
ATGTGCAGAAAGTTGGGTGTGTCCAGAGCGTCGTATTACCGGTGGGCCAA
GCCTGCGGGTCTGACTCCGACAGCCATAAGGCATTTAGAACTCAGGGCTG
AGGTTGCCCAGGAGTTTGAAAAAAGCAACCAGATGGCTGGCAGGGATCAG
CTGACCACGTTGCTCAACCAGCGTGGTGTCAAAGTTTCTACTGGGACTGT
GGGATCAATTATGAACGAATGA
>cg1023 tnp6b(ISCg6a), TRANSPOSASE
GTGTCAGACGAATGCGGGCCTGGAAGAACACCACGGTCAGTGACCCTTTC
TGCCCGGACCGAGCATATTAAAAATCATATGCTCGATAGCCACGGGAAAC
GAGACTTTACCGCTACCGTGCCTGGGACCAGGCTCGTTGGTGACATTACG
TACTTAAAGACGGGTTCCGGGTGGCTGTATGTGGCTACCGTGATCGATTT
GGCTACGCGGATGGTGGTGGGGTGGTCTATGGATTCTAATATGCGCACAC
CGTTGGTGATCAATGCGCTGGCTATGGCGCGTGATCATGGGTGTCTTCAT
CCTGAAGGCGCAATTTTTCACTCCGATAGAGGATCGCAATACACCTCCGA
GCAGTTCCAGACATGGTGCGCCGGCAACAAGATCACCCAATCCATGGGAT
TGACCGGGGTGTGTTGGGATAACGGAAGTCGCGGAGAATTTTTTCTCACA
TTTGAAGACCGAAATGTATCACCACTATGA
>cg1030 tnp6c(ISCg6c), transposase
ATGTGCAGAAAGTTGGGTGTGTCCAGAGCGTCGTATTACCGGTGGGCCAA
GCCTGCGGGTCTGACTCCGACAGCCATAAGGCATTTAGAACTCAGGGCTG
AGGTTGCCCAGGAGTTTGAAAAAAGCAACCAGATGGCTGGCAGGGATCAG
CTGACCACGTTGCTCAACCAGCGTGGTGTCAAAGTTTCTACTGGGACTGT
GGGATCAATTATGAACGAATGA
>cg1031 tnp6d(ISCg6c), TRANSPOSASE
GTGTCAGACGAATGCGGGCCTGGAAGAACACCACGGTCAGTGACCCTTTC
TGCCCGGACCGAGCATATTAAAAATCATATGCTCGATAGCCACGGGAAAC
GAGACTTTACCGCTACCGTGCCTGGGACCAGGCTCGTTGGTGACATTACG
TACTTAAAGACGGGTTCCGGGTGGCTGTATGTGGCTACCGTGATCGATTT
GGCTACGCGGATGGTGGTGGGGTGGTCTATGGATTCTAATATGCGCACAC
CGTTGGTGATCAATGCGCTGGCTATGGCGCGTGATCATGGGTGTCTTCAT
CCTGAAGGCGCAATTTTTCACTCCGATAGAGGATCGCAATACACCTCCGA
GCAGTTCCAGACATGGTGCGCCGGCAACAAGATCACCCAATCCATGGGAT
TGACCGGGGTGTGTTGGGATAACGGAAGTCGCGGAGAATTTTTTCTCACA
TTTGAAGACCGAAATGTATCACCACTATGA
>cg1024 tnp7a(ISCg7a), TRANSPOSASE
ATGATCGCGGCCTACCGCGAGAAGGACCGATCCCTCGGCCGCGCGGCGAT
GGAGGCGCTCATCGACGCCGTCAGCCAAGACGTCCCCGCCGGGCTGGACG
AGTTGCGCAAGCTCGGTCGGACCCTGAAGGCTCGCGCCACCGACGTGCTG
GCCTACTTCGAGCGGCCTGGCACCAGCAATGGCCCCACAGAGGCGATCAA
CGGACGCCTGGAGCACCTGCGCGGCTCGGCCCTGGGCTTCCGCAACCTGA
CCAACTACATCGCCAGATCCCTGCTCGAGTTCCGGCGGATTCAGACCTCA
ACTACACCCTCATCTGTGAAGAGCCGCTTTAGACATCCCTCATCGTCACG
GACCACTATGAACGATGTCCCGACTCACCTATGA
>cg3059 tnp8a(ISCg8a), transposase
ATGCCAACCAAGACCTATTCCGAGGAGTTCAAACGCGACGCCGTTGCTTT
GTACGAGAACTCCGACGGGGCCTCACTCCAACAGATCGCCAACGATCTCG
GCATCAACCGAGTAACCCTGAAAAACTGGATCATCAAATACGGATCCAAC
CACAACGTACAAGGGACAACCCCATCTGCGGCAGTCTCTGAAGCTGAACA
AATCCGGCAGCTGAAGAAGGAAAACGCGCTACAACGCGCAAGAACGCGAC
ATCCTGCGGAAAGCTGCTAA
>cg3058 tnp8b(ISCg8a), transposase
GTGAGCTGCTTCCGGTTTGTTGACGACGTGCGAAAAACCTATCCGGTTAA
GCGGTTATGCGAAGTGTTGAAAATCAACCGCTCCTCGTACTACAAATGGA
AAAAGACTGCCCCGACCAGGAGCAACCGCCTGCTCAGCGACGCAGTCTTA
GGAGCGAAGATCAAGTCCATCTTCACGAAAGAACGCGGCTGCTACGGCTC
AAAACGCATCACGGCTGAGCTCAACGATGATCCTGGCAGCACTCCGGTTA
ACCATAAACGAGTCGCCCGGATCATGGCATCATTAAAGCTGTTTGGTTTC
ACGAAGAAACGCAGGGTCATCACGACCGTGTCTGATAAAAAGAAGCCTGT
CTTCCCTGACCTGGTCAAACGTCATTTTAACGCACTAGCAGCAAATGAAG
TTTACGTCGGGGATATTACTTACCTACCGATCGCAGATGGCACGAACATG
TATCTGGCTACGGTCATTGATTGCTATTCCCGTAGGCTGGTGGGTTTTGC
GATTGCGGATCATATGCGCACGTCATTGGTGCAGGAGGCATTGCTGATGG
CGAAGAGTCAGCGAGGCAGCCTGAAGGGTGCGGTGTTTCATTCGGATCAC
GGCAGTGTGTACACCTCGCAGGCGTTTCAGGACACTTGTAAAAAGTTGGG
TGTTCGTCAGTCGATGGGTGCTGTTGGTACCAGTGCGGATAATTCGCTGG
CGGAGTCGTTTAATGCCGCCCTCAAGCGAGAGGTGCTGCAGGATTCCAAG
ACGTTTGCCAATCAGTTGGTGTGCCGCCGGGAGGTATTTCGCTGGTGTAC
CAGGTACAGCACAAATCGCAGGCATTCTTGGTGTGGCTATGTGGTGCCTG
CGGTGTTCGAGAGTAGAAATTTAGCTATTCTGAAATCTGTTTCCTGA
>cg1178 tnp9a(ISCg9a), Transposase
ATGGCCTATGACTTCGTCATTGGAATGGACGTCGGCAAATACTTCCACCA
CGCCTGCGTCCTCGATCCCCAGGGCAGACAAGTCCTATCCAAACGCATCA
ACCAACACGAAGGCTCGCTACGCAAGCTCTTCGACAAATTCCTGGCCAAT
GACGCCGAGGTCCTTGTCGTCGTCGATCAGCCCAACAACATCGGCAGGCT
AACCGTCGCAGTCGCCCAAGCAATGGGAGCCGACGTTCGCTACCTCCCCG
GGCTTGCCATGCGACAACTTTCACGTATCCACGTCGGCAACTCCAAGACC
GATGTACGGGACGCTTATGTCATCGCCCATGCCGGCCTCAACCTTCCGGA
TGCCCTGCGTAGCGTCGACCGCGTTGAGGAAGTCTTCCTCCAGCTGAAAG
TCCTCAACGGTATCGACGAAGACCTCGCCCGCGCCTACACACGCCTGATC
AACCAGATGCAATCCGCGCTCGTGGGCACCTACCCCGCATTCGAACATGT
CCTGCGTGGGCAGATGATTCACCGCAAGTGGATTCTCCACCTTCTGGCGA
AATACGGTGGCCCCACCAAGATTCGACGCGTCGGCAAAGCACGGCTGGCA
GCTTTCGCACGTGGTCACAGGGCACGTAATCCTGAGCCAGTTATCGATGC
CATGCTTGCTGCGATCCACGGCCAGACGGTATCCATCGCCGGCGCAGAAT
ACGCGGAACTTGGCGTAGCAATGTCCGCCAAAGATGCACTAGCCAAGCTG
GAGCACCGCAAAGAGATTGAAGGCCAGGTACTCGAGCTGATCCAGGACAT
TCCTCAGACCGAGATTCTCTTGTCCATGCCCGGCATCGGCCCACGTAGCG
CCGCGCAAATCCTTATGACCGTCGGCGATATGTCCGACTTTCCCGATGCA
GCGCACCTGGCGTCCTATGCAGGCCTGTCGCCGCAGACAAATCAGTCGGG
AACGTCGATCATGTCGAATTCGCCCAACCGGGCCGGCAACAAGAAATTGA
AGAACGCCCTATGGCAGTCGTCTTTTGCATCGATCAGATTCCACGAGCGT
TCCCGGCAATTCTATGAACGAAAACGCAACGAAGGCAAAAGACACAACGC
CGCAGTCGTCGCGCTCGCACGCCGACGCCTCAACGTCCTCTTCGCCATGA
TGCGCAGCGGAGAGCTCTACAGAGACATCCCCACAGCCCAGGAGGCCGCA
GCGGCCTAG
>cg0373 topA, DNA TOPOISOMERASE
GTGGCAGATACCGCAGGCACCACAGGATCGAAAAAGAAGTACTTGGTGAT
CGTCGAGTCGGCGACCAAGGCTAAAAAGATTCAGCCTTACCTTGGCAACG
ACTACATCGTCGAGGCCTCCGTTGGTCATATTCGTGATCTGCCACGTGGC
GCTGCTGACATCCCTGCAAAGTACAAGAAGGAGCCTTGGGCTCGTCTTGG
TGTGGACACCGATCGCGGTTTCGCGCCGCTTTATGTGGTGAGCCCCGATA
AAAAGAAGAAGGTCGCTGACCTCAAGGCGAAGCTCAAGCTCGTTGATGAG
TTGCTGCTGGCAACAGACCCCGACCGTGAGGGCGAGGCGATTGCGTGGCA
TTTGCTTGAGGTGTTGAAGCCGACTGTTCCTGTGCGTCGCATGGTGTTCA
ATGAGATCACGAAGCCTGCCATTTTGGCTGCGGCGGAAAACACTCGTGAG
CTGGATGAGAACCTGGTGGATGCGCAGGAAACTCGTCGTATTCTGGACCG
TTTGTACGGCTATGAAGTCTCTCCTGTGCTGTGGAAAAAGGTCATGCCGA
GGTTGTCGGCGGGCCGTGTGCAGTCGGTGGCAACCCGTGTGATTGTTGAG
CGGGAGCGCGAGCGCATGGCGTTCGTGTCGGCGGATTATTGGGATCTGTC
GGCGGAGTTTAATGCGCGTGAAAACGGCAAGGCGGATTCGGATAACCCGT
CGTCGTTTACTGCGCGTTTGTCCACGATTGATGGAAACCGTGTTGCTCAA
GGCCGTGATTTTAATGATCGGGGAGAGCTGACCTCGGAGGCTGTCGTCGT
CGATAAGCAGCGTGCTGAGGCGTTAGCCGAGGCTTTGGAAGGCCAGGAAA
TGGCCGTCGTTGGGGTCGAGGAAAAGCCGTACACCCGTCGCCCTTATGCG
CCGTTTATGACCTCTACGCTGCAGCAAGAGTCTGGCCGCAAGCTGCATTA
CACTTCTGAGCGCACGATGCGTATTGCGCAGCGCTTGTATGAAAACGGCC
ATATCACTTATATGCGTACTGACTCGACCTCGTTGTCGGAGCAGGGCATG
AAGGCTGCGCGCGATCAGGCGTTGGAGCTGTACGGTGCGGAATATGTTTC
GCCGAGCCCACGTACCTATGACCGCAAGGTGAAGAACTCCCAGGAGGCCC
ACGAGGCGATTCGCCCAGCTGGTGAAACTTTTGCGACCCCGGGCCAGCTG
CATGGCCAGTTGGATGCGGAAGAATTTAAGCTCTATGAGCTGATTTGGCA
GCGCACTGTGGCCTCCCAGATGGCCGATGCCAAGGGCACGTCCATGAAGG
TCACCATCGGTGGCACCGCGAAGACCGGCGAGAAGACTGAGTTCAACGCG
ACCGGCCGCACGCTGACTTTCCCTGGCTTCCTGCGCGCTTACGTGGAAAC
CACCCGCACCGCCGATGGCCGCGACGTAGCTGACAACGCCGAAAAGCGTC
TGCCACTGCTGTCTGAGGGCGATCTGCTCAAGGTTTTGAGCATCGAAGCC
GATGGTCACAGCACCAATCCACCTGCGCGCTACACAGAGGCGTCGCTGGT
GAAGAAGATGGAAGATCTGGGCATCGGCCGTCCTTCCACTTATGCATCGA
TCATTAAGACGATTCAGGATCGAGGCTACGTTTATTCGCGTGGCAATGCG
CTGGTGCCGTCCTGGGTCGCGTTCGCCGTGGTCGGATTGCTTGAAGCCAA
CTTCACCTCGCTGGTGGATTACGATTTCACCTCCTCCATGGAAGATGAGC
TGGACAACATCGCCGCAGGTCGCGAGGGCCGCACGGAGTGGCTCAACGGT
TTCTACTTCGGCGATGCCGAAGCGGATCAGTCCATGGCTGAATCAGTTGC
CCGCCAGGGCGGTTTGAAGGCGCTTGTCGACGCGAACCTGGAGCACATCG
ACGCGCGTTCAGTAAACTCACTCAAGCTTTTCGACGACGCCGAAGGCCGT
GCCGTGAACGTTCGAGTCGGACGCTACGGTCCGTACATCGAGCGCATCGT
GGGCACCACCGCGGAAGGCGAGCCAGAATTTCAGCGCGCCAACCTACCTG
AGGAAACCACGCCTGATGAGCTGACCCTCGAGGTCGCTGAGAAGCTCTTC
GCTACCCCACAAGGTGGACGTGAACTGGGCATTAACCCAGCAAACGGTCG
CATGGTGGTGGCTAAGGAAGGCCGCTTTGGTCCATACGTGATCGAGCAGG
TCACGGACTCAGAGCGCGCTGGCGCCGAAGCCCAAGCAGAAGAAGTCGTT
GCAGCGGAACGAAAAGCTGAAGACGAACAACGTGCCACCGATGGAATGCG
ACCCAAGAACTGGGAAACCAAGACTGCCGCAAACCAGAAGGAAAAGCGCA
TCAACCAGCTGGTTGAGGAAAACCTCAAGCCAGCGACCGCATCCCTGTTC
AGCGGCATGGAACCTGCAACCGTGACCCTGGAAGAAGCCCTCAAGCTGCT
GTCCCTGCCACGCGAAGTAGGTGTCGATCCTTCCGACAACGAAGTGATCA
CCGCTCAAAACGGACGATACGGCCCTTATCTGAAGAAGGGTAGCGACTCC
CGTTCCCTCAACAGCGAAGAGCAGATCTTCACCGTCACTTTGGATGAGGC
TCGCCGCATCTACGCCGAACCAAAGCGTCGTGGACGCGCCGCTGCTCAGC
CACCACTGAAGCAACTTGGCGACAATGACGTTTCCGGCAAACCAATGACC
GTCAAGGACGGACGTTTCGGCCCATACGTCACCGACGGCACCACCAACGC
GTCACTGCGCAAGGGCGATGTTCCAGAGTCCCTGACCGATGCGCGTGCCA
ACGAGTTACTTTCCGAGCGTCGTGCCAAGGAAGCAGCAGATGGCGGAGCT
CCTGCGAAGAAGACGTCCACTAAAAAGACTGCAGCCAAGAAGACCACGGC
TAAAAAGACAACAGCTAAGAAAACCGTGAGGAAGGCTCCGCCGAAAACCA
CCAAAAACGTGGTGAAGGCCGGCGCTAAGAAGAAGTCCTAA
>cg1496 ung, PROBABLE URACIL-DNA GLYCOSYLASE PROTEIN
ATGACCAACACCCTATGGAATTCAGTAGACGAACTCCCCATCCACGACTC
CTGGAAACCAGTACTCAAACCAGTCGAAGACGCCATCCGAAAACTCGGTG
TATTCCTCGCGGAAGAAGAATTCCTTCCACCAGTAGATGACGTATTCAGA
GCATTTAGCTACCCCTTTGACGCAGTAAAAGTACTGATCATGGGACAAGA
CCCATATCCCACCCCAGGACATGCCATGGGACTGAGCTTTTCCACCCAAC
CAGACGTACGACCACTGCCACGGAGCCTGAACAATATCTTCAAAGAGCTG
GTGAGTGATGTCGGCTCTTTAGGCGATTCGGCGTCAGAGCAGGGGGCCTT
GGACTTAGGTATTAACGCGCCGGGCTCTGTCGCTGGCACACAAGTTGCCT
TGCCCGCGGACGGCGACCTCCGTGCATGGAGCAACCAAGGCGTCGCATTG
TTCAACCGCGTACTCACCGTCCACCCAGGCCAGGCCGGAAGCCACAAGGG
TAAAGGCTGGGAAGCGGTAACCGAACAGGCGATTAAAGCCTTGGCGGAGC
GGGATCAACCCTTGGTGGCAATCCTGTGGGGTAAACAAGCCCAAGAGGTA
CAGAAATTCCTTGGAGATACGCCGTGTATCTGCTCAGTGCACCCATCACC
GCTGTCGGCGTCGAGAGGCTTTTTTGGCTCTAAGCCTTTTAGTCGTGCGA
ACGAAATCTTAAGCAGCCTCGGTGCCACCGAGATCGATTGGTCGCTGTAA
>cg1560 uvrA, Excinuclease ATPase subunit
TTGGCTGATCGCCTCGTAGTGCGCGGAGCGCGTGAACATAACCTAAAAGG
CGTGGATATTGATTTGCCACGCGACTCGATGGTGGTGTTCACCGGCCTGT
CAGGTTCCGGTAAATCATCACTGGCCTTTGACACCATCTTTGCGGAAGGC
CAGCGCCGTTACGTGGAGTCGTTGTCCAGTTACGCCCGCATGTTCTTGGG
GCAGATGGACAAGCCGGACGTGGATTTGATTGATGGATTATCCCCAGCGG
TCTCCATTGACCAAAAATCCACCAACCGCAACCCTCGGTCCACAGTCGGT
ACCATCACGGAAGTCTATGACTACCTGCGTCTTCTGTACGCCCGCGCTGG
TACCGCACACTGCCCAGTGTGTGATGCCCGCGTGGAGCGTCAAACCCCCC
AGCAGATGGTGGACCAAATCCTTGGCATGGAGGAGGGACTGAAGTTCCAA
ATCCTTGCGCCTGTGGTGCGTACCCGTAAAGGTGAGTTCGTTGATCTTTT
CGCAGATCTTGCATCCCAAGGTTATTCCCGCGTGCGGGTTGATGGGGAAG
TGCACCAGCTCTCGGATCCTCCAAAGCTAGAAAAGCAGATCAAGCACGAT
ATTGATGTTGTGGTTGACCGTCTGCAGGTAAAAGCCAGCCAAAAGCAGCG
CCTGACAGACTCTATGGAAACCGCACTTCGCCTGGCCGATGGCGTGGCTG
TGCTGGAGTTCGTTGGCCTGGAGGAAGATGATCCGAATAGGCTTCGTCGA
TTCTCTGAAAAGATGAGCTGCCCTAACGGTCACGCGTTGACGGTTGATGA
GCTGGAGCCTCGTGCTTTTTCCTTCAACTCTCCTTATGGCGCGTGTCCTG
CCTGTGATGGCTTGGGTGTGCGCACCGAAGTTGATATTGATCTGATCATC
CCAGATCCAGATGCACCTGCAACTAAAGCGGTTCAGCCCTGGAACTCCAG
CCCAAACCACTCTTACTTTGAAAAGCTCATTGAAGGCCTGGCGAAAGCCC
TCGGATTTGATCCGGAAACTCCGTACAGTGAGCTCACCGCAGCTCAAAAG
AAGGCTCTGGTCTATGGATCGAAGGAAGAAGTAAGCGTTCGATACAAGAA
CCGCTACGGACGCGTGCGTTCTTGGACTGCGCCTTTTGAAGGTGTCATGG
GCTACTTTGATCGCAAGTTGGAGCAGACTGATTCCGAAACCCAAAAAGAC
CGACTGTTGGGCTACACCCGTGAAGTGCCCTGCCCAACCTGTAAAGGCGC
ACGCCTCAAGCCGGAAATCTTGGCCGTTCGCCTAGACTCCGGAAGCCATG
GAGCGTTGTCCATTGCTGGACTAACCGCGCTGTCGGTGCATGAAGCATTC
GAGTTTTTGGATAACCTCACACTGGGCAAGCGCGAGGAAATGATCGCGGG
AGCTGTGCTGAAGGAAATTCACGCCCGCCTGAAATTCCTGCTTGACGTGG
GCCTTTCCTACCTCACCCTTGATCGCGCCGCAGGCACCCTGTCTGGTGGT
GAAGCGCAGCGTATCCGCCTGGCTACTCAAATTGGTTCCGGTCTGGCTGG
TGTGCTCTACGTCTTGGATGAGCCATCCATTGGTCTGCACCAACGTGACA
ACCAGCGCTTGATCACTACCCTTGAGCATCTCCGAGATATCGGAAACACG
CTCATTGTTGTGGAACACGATGAAGACACCATCAGGCGCGCAGATTGGCT
CGTGGATATTGGTCCTCGAGCTGGTGAATTTGGTGGCGAAGTGGTCTACC
AAGGTGAGCCGAAGGGCATTTTGGACTGCGAAGAATCCCTCACAGGTGCT
TACTTGTCTGGTCGTCGAACCCTGGGTGTTCCTGATACTCGCCGTGAGAT
CGACAAAGAGCGACAGCTCAAGGTGGTTGGTGCTAGGGAAAATAACCTGC
AGGGCATCGATGTGAAAATCCCACTGGGTGTGCTGTGCTGCATCACTGGT
GTGTCGGGATCTGGTAAATCCACGCTGGTCAATCAGATTTTGGCCAAGGT
TCTGGCCAACAAACTCAACCGCGCACGCCAAGTGCCTGGTCGCGCAAAGC
GGGTGGAAGGCCTCGAGCACTTGGATAAGTTGGTCCAAGTGGATCAGTCG
CCAATTGGTCGTACTCCACGTTCAAACCCAGCGACGTACACGGGTGTGTT
TGATAAAGTCCGTAACCTTTTTGCCGAGACCACTGAAGCGAAGGTCCGCG
GTTACAAGCCTGGCCGCTTCTCCTTCAATATTAAGGGTGGACGCTGCGAA
GCATGTCAGGGCGATGGCACGCTGAAGATCGAAATGAACTTCCTGCCCGA
CGTGTATGTTCCGTGTGAAGTCTGTGATGGTCAGCGCTACAACCGCGAGA
CCCTCGAGGTGAAGTACAAGGGCAAAAACATCGCTGAAGTATTGGGCATG
CCGATCTCTGAGGCTGCGGACTTCTTTGAGCCCATCACCTCAATTCACCG
ATACCTAGCAACGCTGGTTGATGTCGGCCTTGGCTATGTCCGTTTGGGCC
AGGCAGCAACAACCTTGTCTGGTGGTGAAGCCCAGCGTGTGAAACTTGCC
GCTGAGCTGCAGAAGCGTTCCAACGGTCGCACCGTTTACATCCTCGATGA
GCCAACTACTGGTTTGCACTTTGAAGATATTCGCAAACTCATGATGGTGA
TCGAAGGCCTGGTGGACAAGGGTAACTCCGTGATCATCATCGAGCACAAC
CTCGACGTGATCAAGGCTGCCGACTGGATCGTGGACATGGGTCCAGAGGG
CGGAAGCGGCGGTGGAACCGTGGTCGCTGAAGGAACCCCAGAGCAAGTTG
CTGAAGTTGCGGGTTCCTACACCGGCCAATTCCTTAAAGAGTTGTTGTAG
>cg1550 uvrB, EXCINUCLEASE ABC SUBUNIT B
TTGCTTGCACGCTGTTTTGCTGCGGGCCGCAACGTGTCCACCCTGTGGCG
TATCCTAGAATGCATGGCTTTTGCTGCTGAACATCCTGTCCTGTCCCACT
CTGAGCACCGCCCGGTTGGTGAAATCGAGCGTAGCGATGACAAATTTGTT
GTCGTTAGTGAATTTGAGCCTGCGGGTGACCAGCCTGCGGCTATTAAAGA
GCTCGATGAGCGCTTGGATCGCGGTGAGCGGGACGTCGTTTTGATGGGTG
CTACTGGTACGGGTAAGTCCGCGACTGCGGCGTGGTTGATCGAAAAGCAG
CAGCGCCCCGCTTTGGTGATGGCGCCGAATAAGACGCTGGCTGCGCAGTT
GGCTAATGAATTGCGGCAGCTGTTGCCCAATAACGCGGTGGAGTATTTCG
TGTCTTATTACGATTACTACCAGCCAGAAGCGTATATCGCGCAGACTGAT
ACCTATATTGAAAAGGACTCCTCGATTAATGAGGATGTGGAGCGTCTGCG
TCACTCGGCGACGTCGTCTTTGCTGAGTAGGCGAGACGTCGTGGTTGTTA
GTTCGGTGTCGTGTATTTATGGCTTGGGCACTCCACAGTCTTATCTTGAC
CGTTCCGTTGTGTTGAACGTGGGGGAGGAGATCGACCGCGATCGCTTTTT
GCGCCTATTGGTAGATATTCAATACGAACGCAATGATGTGGGCTTTACTC
GTGGTGCTTTCCGCGTGAAGGGCGATACCGTGGACATCATCCCGGCCTAT
GAGGAATTGGCGGTGCGCATTGAGTTTTTCGGTGATGAAATTGATGCGTT
GTACTACATCCATCCCCTGACTGGTGACACCATCCGGCAGGTGAATGAGA
TCCGTATTTTCCCAGCTACGCACTATGTTGCGGGACCTGAGCGGATGGAA
AAGGCAGTCGCTGATATTAAGGCGGAGTTGGAAGTGCGCCTGGCTGATTT
GGAGAACCGTGGCAAGTTATTGGAAGCGCAGCGTCTTAGGATGCGTACTG
AATATGACTTAGAAATGATCGAGCAGGTTGGTTTCTGTTCGGGCATTGAG
AACTATTCTCGCCACATTGATGGACGTGGGGAGGGAACCGCACCGGCCAC
GCTGATTGACTATTTCCCAGAGGATTTCCTCACCATCATCGATGAGTCTC
ACGTGACAGTCCCGCAGATCGGCGGCATGTTTGAGGGCGATATGTCCCGT
AAACGTAACCTCGTAGAATTCGGTTTCCGCCTGCCATCCGCGATGGATAA
CCGCCCATTGACCTGGGAGGAGTTCGATGAACGCCGTGGCCAAACGGTGT
TCATGTCTGCAACTCCAGGCAAGTTTGAGATCGCTGCTGCTGATGGTGAG
TTTGTGGAGCAGGTCATTCGCCCAACAGGTCTGGTGGATCCAAAGGTCAC
CGTCAAGCCAACGAAGGGGCAGATTGATGATCTGATCCATGAAATTCGCC
AACGCACCGATAAAGATGAGCGCGTTTTGGTCACCACATTGACCAAGAAA
ATGGCTGAGGATCTTACTGATTACCTGCTGGAAAACGGCATCCGCGTGCG
CTACCTGCACTCAGATATTGATACCTTGCAGCGTGTGGAATTGCTGCGTC
AGCTTCGCCTGGGCGAATACGATGTGTTGGTAGGTATTAACCTGCTGCGT
GAGGGCCTTGACCTGCCAGAAGTCTCTCTGGTTGCGATTCTCGACGCCGA
CAAGGAAGGCTTCCTGCGCTCCACCACCTCACTGATTCAGACCATTGGCC
GCGCCGCCCGAAATGTGTCCGGCGAGGTCATCATGTACGCCGACAAGATC
ACTGATTCGATGCAGTATGCCATCGAGGAAACCGATCGACGCCGTGAAAA
GCAGGTCGCTTATAACAAGGAACACGGCATCGATCCGCAGCCGCTTCGAA
AGAAAATCGCGGACATCCTCGACCAGGTCTATGACAATTCCGCTGATGGA
GCAGGACCTTCTGCCTCTGGCGATGCGGCAGTCGTGGCTAAACCTGACGT
GTCTAGCATGCCCGCCAAAGAAGTGCAAAAGCTTATCGACGACCTCAGCG
CTCAGATGGCTGCGGCCGCGCGGGAGCTCAAGTTCGAGCTGGCAGGGCGT
CTGCGAGATGAGATCTTCGAGCTCAAGAAGGAACTGAGAGGTATCAAGGA
TGCCGGCATCTAA
>cg1795 uvrC, Nuclease subunit of the excinuclease ABC complex
GTGGCTGATCCAACAACTTATCGCCCGGCTCCAGGAACAATTCCAACGGA
GCCGGGTGTTTATAAATTCAGGGACGAAAACCGCCGCGTGATCTACGTGG
GCAAGGCCAAAAACTTGCGTTCGCGGTTGTCGAACTATTTCCAGGATGTC
ACCCAACTGCATCCGCGCACCCGCCAAATGGTGTTCGCAGCGTCGTCTGT
GGAGTGGACCGTGGTGTCCAGCGAAGTCGAGGCGCTGCAGCTGGAATACA
CCTGGATTAAACGTTTTGATCCGCGGTTTAACGTAAAATACCGCGACGAT
AAAACCTATCCCATGCTGGCAGTATCCACAGGGGAGAGGTTCCCGCGCGC
GTTCTTCTTCCGAGGTCCGCGCCGCAAAGGTGTGCGCTATTTCGGACCGT
ATTCCCACGCGTGGGCAGTGCGGGAAACCCTTGATCTTCTCACCCGCGTT
TTCCCCATGCGCACCTGTTCAAAGGGTGTGTTTAACCGCCACGAAAGCCT
CGGCCGGCCGTGTTTGTTGGGCTATATCGATAAATGTGCGGCCCCGTGCG
TGGGCCGCGTGAGCGAAGAGGAACACCGCGAAATCGTTGACGGTTTCACC
TCTTTCATGGCTGGTCACACCGACAAAGTCACTCGCAAACTCAACGCCGA
CATGATGGCTGCGGCCGAGGAACTCGATTTCGAGCGCGCGGCCCGCCTGC
GCGATGATCTGGAAGCCATTGACAAGGTCATGGAAAAACAGGCCGTCGTC
CTTGGCGATGGCACCGACGCCGACATCATCGCATTCGCCACCGATCAGCT
AGAAGCCGCCGTGCAAGTCTTCAACATCCGAGGTGGCCGAATCCGCGGCC
AGCGCGGCTGGGTTGTGGAAAAGCCCGGCGACTACGCCGGATTGCTTGTC
GACGCTACGACCCAACCTGAGGGTGATGCCCCGGAAACAGATCCCGCACT
GCCATTTTTGATGCAAGATTTCCTCGTTCAGTTTTATGGCGACGCCGTCG
AGCGTGCTGAAACTGAGGCTAAGGAAGATGCTGCGGTGATCGAGCGACGT
GGCGTCGATAAGCATTCTTTTGAAGAGGCAGCCCCAGTGACGCGCGCTTC
GGTCGTGCCCCGTGAAATCCTCGTGCAAGTTGCGCCCAATGAAGCTGAGC
AAACCCTGAAAGTACTGGAGGAATTGCGCGGTGCTGGCGTTGATGCCCGC
GTGCCACAGCGCGGTGACAAGCGTGCGCTCATGGAAACTGTGGAGCGCAA
CGCCAAAGAGCTGCTGAAACAACACAAGCTTAAGCGTGTCGGTGATCTCA
CCGCGCGTTCAGCTGCACTGCAGGAATTGCAGGAAGCGCTGGACATGGAG
CAGGCTCCGCTGCGCATCGAATGTACCGATATTTCCCATATTCAGGGCAC
CGATGTGGTGGCATCCCTGGTGGTTTTTGAAGATGGTTTGCCTCGAAAAT
CGGACTACCGACGCTATCGAGTCAAAGAAGCCGCAGGCGATGGACATTCC
AACGACGTGGCATCCATTGCGGAAATCACCAGGCGCCGCTTCCTGCGCCA
CAACCAAGACAAACTTGCTGTTCCCGAAGCCGAAGAGTTTGACGGCTCGA
CCTTCAGCGATGAAAAAGTCGAGGAAATGAGCACCGACGCCAGGCGTTTT
GCATACCCTCCTCAGATTTTTATCGTCGATGGTGGTGCCCCGCAGGTAGC
TGCAGCCCAAGAAGTCTTTGATGAATTAGGCATCGTTGACGTGGTGCTCA
TTGGCCTAGCCAAGCGCTTGGAAGAAATCTGGCTGCCCGGCGACCCCGAT
CCCGTCATCTTGCCGAGAAACTCCCAAGCACTGTTTTTGCTCCAGCAAAT
CCGTGACGAAGCCCACCGCTTTGCCATCACCTACCACCGCCAGCAACGAT
CCAAGCGCATGCGTGTTTCCGAGCTAGATAGCATCAAGGGCCTTGGCCAG
AGCCGTCGCACTGAACTAGTCAAGCACTTTGGATCCGTGGCAAAACTGAA
AGAGGCAAGCGTTGAGGACATTTCCCAAGTGAAAGGCTTCGGCCCGAAAC
TTGCGGAGGCTGTCTATGAAGGTCTTCACGCGTCAAAATAA
>cg2224 xerC, SITE-SPECIFIC RECOMBINASE
ATGGGTGAGTCAAAAAAGAAGGTGGCGCGTTCCGGGCGGAACGCGCCACC
TTCTGGTATTTCCGGCGCCGACGCGCCGTCCAAGCTGCATACGCTTATCG
ACGATTTCTGTGAGCATCTAGACCTTGTGGTGGGTCGTTCAGCCGCAACA
ATTCGCGGATATCGATCAGACCTTTATGCCATGGCTGACACAATCGAAGA
TATCGACAATTTCTCCCTGCCGACTCTGCGCCAATGGCTTGGTATAGCGG
TAGATGAGGGAAAGTCCAGGGCAACACTCGCCAGAAGAACTGCATCTGTC
AAGGCGTTTTCTTCATGGGCTCAGAAAAACGGCCACCTCAAAGCTGATGA
AGCAGCCCGACTCATTTCACCGAAGATCACGAGGGATCTACCTAAGATTC
TCGGGGAACAGCAGGCAGGAGACTTTGTGGAAAACGCAGCTTCCACAAAT
GAAGAAGAGTTCCTGCGTGATTCCGCGATTCTGGAGCTTCTTTATGCCAC
GGGAATGCGTGTTGCTGAACTCTGTGGAATCGATCTTTCAGACATTGACT
ACGACCGCAAAATGGTACGAGTGCTGGGTAAAGGAAATAAAGAGCGCGTT
GTCCCATTCGGGGAATCGGCACACAAGGCGTTAAGAAATTGGCTAGATGT
GCGCGATGAGATGACGGAAGATCCCAAAGCGCTCTTTGTTGGGGTGCGGG
GTCAGCGAATTAATGCGCGCCAAGTTCGAAGGATTGTTGATCGAGCGGCA
AAAGTCACTGGCGTTGACCATTTGTCACCACACTCGCTGCGGCATACTGC
GGCAACTCACTTGCTGGACGGTGGGGCGGACCTTCGCCAGGTTCAAGAAC
TATTAGGGCACTCGTCAATGCAAACGACGCAGATCTATACCCACGTCAGT
AATAAGAGACTGCTTGAAGCGTTTAATAAAGCGCATCCACGTGCCTAG
>cg1608 xerD, INTEGRASE/RECOMBINASE XERD
ATGAAGGCTCGCGTTTTAGCGAAAACATGGCTGACACATTTGGCCGTGGA
GCGTGGCTTGTCGGCAAATACGCTGAGTAATTATCGGCGCGATGTGGAAC
GCTATTGCGACTGGCTCGAGGCAGCTGGGCTGGATGATATTCGTGATATC
ACCACCGCGCATGTGGAAAGTTATGTCAAAGACCTGCGCCGCGGGATTGA
TGGACAACAAGCGTTGTCTGCGTCCTCGGCAGGTCGCGCGCTCATCGTCG
CGCGCGGGTTGCACAAGTTTGCATTGATGGAGGGCGAGGTGGCTGCGGAC
GTTGCGGCTGATGTGTCGCCACCGGCCATGGGCCGGCATTTACCTGACAC
GCTCAGCATCAACGAGGTAGCCCTGCTTATCGACGCGATCCCACATTCAG
ATATCGCCACTCCCGTTGATCTCCGTGACCGAGCGCTGGTGGAATTACTT
TATGGAACTGGCGCGCGTATCTCTGAGGCGATTGGGCTGGCAGTTGATGA
TGTGTCGGAAATGCCTGAAGTTCTTCGCATCACGGGCAAAGGTTCCAAAC
AACGGATCGTGCCTTTTGGTTCGATGGCACAACAAGCGGTCCGGGAATAT
TTGGTCAGAGCCAGACCCGCGTTGAGTAAGGGGAAAAGCCATGCGCTTTT
TCTCAACCAACGCGGCGGTCCGCTATCTCGGCAATCTGCGTGGGCAGTGC
TGAAGAAAACGGTTGAGCGCGCAGGTTTAGATAAAGATATTTCTCCCCAC
ACCCTGCGGCACAGCTTTGCCACCCATCTCCTCGAAGGTGGCGCCGATGT
CCGTGTGGTGCAGGAACTCCTGGGTCATTCTTCTGTGACGACCACTCAGA
TTTACACGCACATCACAGCCGATAGCTTGCGGGAAGTGTGGCGCGGGGCT
CATCCTCGTGCGTGA
>cg1163 xseA, EXODEOXYRIBONUCLEASE VII LARGE SUBUNIT
GTGTCGTCTGAGAAAGCTTCATCAAAATCAACCCCTGAGGCACCGTGGCC
AGTCCGGGAAGTAAATACTCAAGTCAAGCAGTGGATTGAACGGCTTGGCC
ATTTGTGGGTGGAGGGCCAGCTCGCTCAGATTAATGTGAAGCCCAATTGG
AAGCTGTCGTATTTGACGCTTCGTGATGTGGAGCAAGAAATGTCTGTGCA
GCTGACCTGCCCGACGGACATTATCCGCAATCGCCCCACACCGCTCAAGG
ATGGCGACCGCGTGATTGTGTACGGCAAGCCCGCGTTTTATGCAGGCCGC
GGCACTTTTTCGCTGTGGGTGACTGATATCCGTCCCGTGGGTATTGGTGA
GTTGCTGGCGCGCATTGAGGAGCTGCGTAAAAGGCTTGCCGCGGAGGGTC
TTTTTGATCCAGCTCGGAAGAAGCGACTGCCATTTCTGCCCAACCGCGTT
GGTTTGATCACGGGACGTGGTTCAGCGGCTGAGCGCGATGTGCTGAGCGT
GGCTAAGGATCGCTGGCCGGAAGTGCAGTTTGAGGTGATCAACACGGCAG
TTCAGGGCGCTTCAGCTGTTCCTGAAATCATCGAAGCGTTGCGGGTTTTA
GATCAGGACCCTCGCGTGGATGTCATCATCATTGCCCGCGGCGGCGGTTC
TGTGGAGGATCTGCTCCCCTTCTCTGAGGAGGCCTTGCAGCGCGCAGTCG
CGGCAGCGCAGACGCCCGTGGTGTCCGCGATTGGCCACGAACCAGATACG
CCGGTGTTGGACAATGTCGCCGACCTTCGCGCGGCGACCCCGACCGATGC
AGCAAAGCGCGTGGTGCCTGATGTGGCAGAAGAACGCATGTTGATCAATC
AGCTTCGCAGTCGTAGTGCCGCGGCGTTGCGCGGTTGGGTGCAGCGCGAG
CAGCAGGCGTTGGCAGCGATTCGCACCAGGCCGGTGCTGGCTGATCCGAT
GACCCCGATTAACCGCCGACGTGATGAGATTGCCCAGGCTGTGGGCTTGA
TTAGGCGCGATGTCACCCATCTCGTCCGCACCGAGCAAGCACTGGTGGCG
TCGTTGCGCGCACAGGTTTCCGCGCTCGGCCCGTCCGCAACCTTGGCGCG
CGGTTATTCCGTGGTGCAGGTTATTCCTCGCGACGGCAGCGCCCCGGAAG
TGGTCACCACCATCGAGCAATCACCGCCCGGCAGCCAGCTGCGCATCCGC
GTTGCCGACGGCTCCATCACTGCGGCATCCATGGGCACCCAGCAAGCAAA
CTAA
>cg1162 xseB, PUTATIVE EXODEOXYRIBONUCLEASE PROTEIN
ATGACCAATCCAGATATCGTCGGTTCCGGCCAAGGCAACGATTCCTTCGA
GCCAGTCGCCCAATTATCCTACGAGCGTGCACGCGATGAACTCGTTGAAA
TTGTAAAAATTTTGGAGCTCGGCCAAATGGGCCTCGACGAATCCCTCAAA
TACTGGGAGCGCGGCGAAGCCCTAGCAAAGCGCTGCGAAGAGCACCTGGC
CGGCGCCTCAGCGCGCGTCGAGCAAGCATTAAACCAGGCAGAATAA
>cg3036 xthA, EXODEOXYRIBONUCLEASE III
ATGCGCATCGTTAATTGGAACGTCAACTCTGCTCGCACTCGTGTGGACCG
GATGGTCGATTTTTTGCTTCGCCATGATGTTGATGTATTAGCGGTGCAGG
AAACCAAGTGTAAAGATGAGCAATTTCCCACCGAGCGTTTCACCGAAATC
GGCTATGAGGTAGCCCATTTCGGCCTTAACCAGTGGAATGGTGTCGCCAT
TATTTCCCGCGTTGGCATTGAAAATGTGGAAACCCACTTCCCTGCCCAAC
CGGGATTCAACAAAGACATCACCAAGGAACAATCCATCGAAGCCCGCGCC
ATCGGCGCCCGCTGCGGTGGTGTCCAGGTGTGGAGCCTCTATGTTCCCAA
CGGCCGCGAAATCGCAGATCCTCACTACGACTACAAACTGCGCTGGCTAT
TCTCCCTGCGCAACTACGTGATCGACACCTTGGAATACCGCCCCGAGGAA
AAACTGGTGTTGCTCGGCGACTTCAACATCGCGCCCACAGACATCGACGT
CTGGGACATCGCAGCCTTCGAAGGAAAAACCCACGTCACCGAACCAGAAC
GTGCAGCTTTCGACGGCCTCATCGAAGCCGGACTCAAAGAAACCACCCCC
GGACCTGGTACCTACACCTACTGGGATTACAAAGGCGCACGCTTCCTCAA
AGGCGAAGGCATGCGCATCGATTTCCAGCTCGCATCCCCGGCCCTTGCTG
CAACCGCGGGTGAAACCTTTGTGGACGTTGAAGAACGCAGCGGAACCGGC
GCCTCTGACCACGCACCAGTCATCGTTGATTACAAGGTGTAA