Gene list
Applied filters:
COG category: Replication, recombination and repair
Organism: Corynebacterium glutamicum ATCC 13032, DSM 20300 = ATCC 13032
Number of genes found: 168
Show UniProt / TrEMBL protein name | View as list | View in Fasta format (Protein) | ||||
# 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