Gene list
Applied filters:
COG category: Replication, recombination and repair
Organism: Corynebacterium glutamicum ATCC 13032, ATCC 13032
Number of genes found: 170
Show UniProt / TrEMBL protein name | View as list | View in Fasta format (Protein) | ||||
# Corynebacterium glutamicum ATCC 13032, ATCC 13032 >gid:510279 Cgl0001 ATPase involved in DNA replication initiation 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 >gid:510281 Cgl0003 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 >gid:510282 Cgl0004 Recombinational DNA repair ATPase ATGCACATCCGTTCTTTGGAATTACGTGATTACCGTTCCTGGCCTGAACT CAAAGTGGATTTGGAACCTGGAATTACAGTTTTTATCGGCCGCAACGGTT TTGGTAAAACCAACATCGTCGAGGCCATCGGCTATCTTGCGCATTTGTCA TCGCATCGGGTGTCCTCTGATGCGCCATTGGTGCGGGCGCACGCTGAAAA CGCCCGAGTTTCGGCGGTTGCTGTTAATCAAGGCCGAGAATTGGCAGCTC ACTTGCTGATCAAACCCCATGCTGCGAATCAGGCAAGTTTGAATCGCACA AAAGTCAGGACTCCCCGGGAGCTGCTTGGTGTGGTGAAAACGGTGCTGTT TGCGCCGGAAGATTTGGCATTAGTCAAAGGCGAGCCAGCAGAACGTCGCC GCTATTTAGATGACATTATTGCCACTCGCCAGCCTCGGATGGCGGGGGTC AAGGCCGACTACGACAAGGTGCTGAAACAAAGGAACGCCCTGCTCAAGAC CGCCACCATTGCGCTTCGTCGAGGTTACGGCACCGAGGAAGGCGCAGCTG CGCTGAGTACTTTGGATACCTGGGATGGCCAGTTGGCACGCCTGGGTGCT GAAGTGATGGCAGCCAGATTTGCCCTGCTCAATGAGTTGGGGCCGAAAAT CTATGAGGCTTACACCACGATCGCCCCGGAATCCCGGCCAGCTGCGGTGA ATTACAAAACCACCATCGATCAAGGCCTGTCGCAGTTTTCCGAATTCGAT GCCGGCATCATCGAAGCCACGCTGCTGACAGAATTGGCAGCGAAACGTCA ACGAGAAATCGAACGCGGCTCAAGCCTGGTCGGCCCCCACCGCGATGATG TCGATTTAATGCTCGGCGATCAGCCCGCCAAAGGCTTTGCCAGCCACGGC GAGACCTGGTCTTTCGCGCTTTCACTGCGAATTGCAGAATTTAACCTGCT GAAATCCGATGGCACCGACCCGATCCTCATCTTGGATGATGTGTTTTCCG AGCTCGACGCCGGCCGTCGCGAAAAACTCGTGGGCATAGCGCAAGAGGTG GAACAGGTGCTCATCACCGCTGCAGTCCACGACGATCTGCCGGAGAATCT CAAGAAAGTGCTCACTGCGCAGCACACCGTCACCGTCCAAGACACCGGCA CCGGGCGGATTTCACTCCTGGATGTGCAACCATGA >gid:510284 Cgl0006 DNA gyrase (topoisomerase II) B subunit GTGCGTGGTACTACGTGGGGACCTAAGCGTGTAAGATGGAAACGTCTGTA TCGGATAAGTAGCGAGGAGTGTTCGTTAAAAGTGGCAAACACTGAACACA ATTATGACGCTTCATCGATCACCATCCTTGAAGGTCTTGAGGCGGTACGT AAGCGCCCGGGCATGTACATCGGTTCAACTGGACCGCGTGGACTGCACCA CCTGATTTGGGAAGTCGTTGACAACTCAGTGGATGAGGCCATGGCTGGCC ACGCCACCAAGGTTGAAGTGACCCTTCTGGAAGATGGTGGCGTTCAAGTT GTCGATGACGGTCGAGGAATTCCCGTCGATATGCACCCATCCGGTGCACC AACCGTGCAGGTTGTTATGACCCAGCTGCACGCCGGCGGTAAGTTTGACT CCGATTCTTACGCCGTTTCCGGTGGTCTGCATGGTGTTGGTATTTCTGTG GTGAACGCCCTGTCCACCCGCGTGGAAGCCGACATCAAGTTGCACGGCAA GCACTGGTACCAAAACTTTGAAAAGTCTGTTCCAGACGAGTTGATCGAAG GCGGCAACGCTCGCGGCACCGGTACCACCATTCGTTTTTGGCCAGACGCT GAAATTTTCGAAACCACCGAGTTTGATTTCGAAACGATTTCTCGACGTCT GCAGGAAATGGCATTCCTTAACAAGGGTCTGACCATCACCTTGACGGACA ACCGCGCCACCGACGAGGAACTCGAGCTCGAAGCACTCGCTGAGCAGGGC GAAACCGCAACGGAACTATCCCTCGATGAGATCGACAACGAAACCGAACT CGTTGAAGAGACCACCGATGCTCCAAAGAAGCCAAAAAAGCGTGAGAAGA AGAAAATCTTCCACTACCCCAATGGCCTCGAGGACTACGTTCACTACCTC AACCGCAGCAAGACCAACATCCACCCTTCAATCGTGTCATTCGAGGCAAA GGGAGATGACCACGAGGTTGAGGTGGCAATGCAGTGGAACTCCTCCTACA AGGAATCCGTCCACACCTTCGCCAACACCATTAACACCCGCGAAGGCGGC ACCCACGAGGAAGGTTTCCGCTCTGCGCTGACCTCCCTGATGAACCGCTA CGCACGTGAGCACAAGCTTCTGAAAGAAAAGGAAGCAAACCTTACCGGTG ACGACTGTCGTGAAGGCCTGTCCGCGGTTATTTCCGTGCGCGTTGGTGAC CCACAGTTCGAAGGCCAGACCAAAACCAAGCTGGGCAACACGGAGATCAA ATCCTTCGTGCAGCGCATGGCCAACGAGCACATCGGCCACTGGTTGGAAG CAAACCCTGCTGAAGCCAAGGTCATCATCAACAAGGCTGTCGGTTCCGCG CAGGCACGCCTTGCTGCTCGAAAAGCCCGTGACCTGGTCCGACGGAAGTC AGCAACCGATCTGGGTGGACTGCCCGGTAAGCTTGCCGACTGCCGTTCCA AGGATCCAGAAAAGTCCGAACTTTACATCGTGGAGGGCGACTCCGCAGGT GGTTCTGCGAAGTCCGGCCGTGACTCCATGTTCCAGGCAATCCTTCCACT GCGAGGCAAGATCCTCAACGTGGAAAAGGCCCGCCTAGACAAGGTTCTGA AGAACGCCGAAGTCCAAGCGATCATCACCGCACTGGGTACCGGCATCCAC GACGAGTTCGACATCAACAAGCTGCGCTACCACAAGATCGTGCTGATGGC CGACGCCGATGTTGACGGCCAGCACATCGCAACGCTGCTGCTCACCCTGC TTTTCCGCTTCATGCCAGACCTCGTCGCCGAAGGCCACGTCTACTTGGCA CAGCCACCTTTGTACAAACTGAAGTGGCAGCGCGGAGAGCCAGGATTCGC ATACTCCGATGAGGAGCGCGATGAGCAGCTCAACGAAGGCCTTGCCGCTG GACGCAAGATCAACAAGGACGACGGCATCCAGCGCTACAAGGGTCTCGGC GAGATGAACGCCAGCGAGCTGTGGGAAACCACCATGGACCCAACTGTTCG TATTCTGCGCCGCGTGGACATCACCGATGCTCAGCGTGCTGATGAACTGT TCTCCATCTTGATGGGTGACGACGTTGTGGCTCGCCGCAGCTTCATCACC CGAAATGCCAAGGATGTTCGTTTCCTCGATATCTAA >gid:510291 Cgl0013 DNA gyrase (topoisomerase II) A subunit 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 >gid:510325 Cgl0042 Serine/threonine protein kinases 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 >gid:510403 Cgl0116 3-methyladenine DNA glycosylase ATGTACGCCTTGGTTACTTTTGCGTGGTGGGACTTTAGATCAGTTCGACC TAGAATCGGCGCCATGCCTATCGACTTCCTCCAACCCGCCGATATTGTTG CCCCACAACTTCTGGGATGCACACTCACACATGGAGGCGTTGGTATTCGT ATCACCGAAGTGGAGGCATATTTAGATTCGACCGACGAAGCTGCACACAC CTACCGTGGCAAAACCCCAAGGAATGCCGCGATGTTTGGCCCCGGTGGTC ACATGTACGTCTATATTTCTTATGGGATTCACCGAGCGGGAAATATTGTG TGCGGGCCAGAAGGAACAGGTCAAGGCGTACTTCTTCGTGCTGGTGAAGT GGTTTCAGGGGAATCAATTGCACAGAGCCGACGAGGGGAAGGAATTCCTC ATGCACGTCTTGCGCAAGGCCCAGGAAATTTTGGACAAGCGCTCGGTTTA GAAATCAGCGACAACCATGCTTCAGTTTTTGGTCCCTCATTTTTAATTTC TGACCGTGTTGAAACACCCGAAATTGTGCGAGGCCCCCGCATTGGCATCA GCAAGAACACCGAAGCACTTTTAAGATTTTGGATTCCCAATGATCCAACA GTCAGTGGTCGCCGAGGGTATCCGAAGGAGTAA >gid:510428 Cgl0141 HrpA-like helicases ATGAGTTCAAGAATTGGCAATTTTCTTATAAATCGCATTTCCACGGGCCT GCCCGTAGAAAATATTATCCCTCACCTGCAAGAAGCTTTTTCGGCCGGAC CTAAAAACCTTGTCATTCAGGCCCCTCCCGGCACAGGAAAAACGACACTT CTCCCCCCATTAGTAGCTAACATCTTATGTAATGAAGGAGCGGGAAATGC CACCCCAACCAAGGTTTTAGTAACGGCACCTCGTCGTGTGGCCGTCCGAG CAGCAGCTCGCAGACTCGCCCAACTAGATGATAGCCAGCTCGGAACAAAA GTGGGATTCAGCGTGCGTGGTGAACATATTTCAGGCTCCCACGTGCAATT TATGACCCCCGGTGTGTTAATCCGCCAGCTCTTAAACAACCCAGAATTAC CCGGCATCGGCGCTGTGATTATCGATGAAGTCCACGAACGTCAACTCGAT TCCGATCTACTGCTAGGAATGCTTGCTGAACTCAGTCAACTGCGCGACGA TTTCTCCCTCATCGCCATGTCCGCAACCTTAGATTCAGATAAATTCGCAA ACTTATTAGACGCTCAGGTCCTTAGTGTTGAAGCACCGATTTTCCCCTTA GACATTTCTTATGCTCCAGCCCGCGCGCCTCGCCTCAATGCAAAAGGTGT CGACTGGGATTTCCTCGACCACATGGCGCAGAAAACTCACGATGCGGTGA CACATTCAGAGCACTCTGCACTCATTTTCGTCCCAGGTGTGCGTGAAATT GATCGAGTAATGAGCACGCTCAAATCGCTCGGCCATAATAATGTTTTCCC ACTTCATGGCCAACTCAGCCCGACCGAACAAGACCGCGCCCTCGCACCGT CACAACAGCAGCGCATCATTGTCTCCACTCCCGTTGCGGAAAGCTCCCTA ACTGTGCCTGGAGTTCGCATCGTGGTGGATTCCGGCCTCTCACGAAGCCC CAAACGAGACTCTGCCCGCGGCATGACAGGACTGATCACCAGCAGTTGCG CGCAGGCTTCAGCAGGCCAACGCGCAGGTCGCGCTGGCCGTGAAGGACCA GGACAAATAATCAGATGCTATTCCGAAGAAGACTTCTCCCACTTCCCACG ATTTGTGACACCAGAAATCAGCTCCGCTGACCTCACCCAAGCAGCCCTCT GGCTCGCCCAATGGGGAACGTCACCTGCGGATTTACCGCTTCTTGATCAA CCCCCTCACGCAGCCTGGACGGCTGCACAACAGATCCTGCGCCTCATCGG CGCGCTTGAAGGTGACGCTATCACGAGCCTGGGACATCGCTTATCGACGC TTCCCCTCTGCCCTCAACTCAGCGCTTCTCTCCTCCGCTTCGGTGAACAA TCCGCAAAAATCTTGGCGGTGGTGTCCGAAAACCCGCAGGGGGACGTCGA AAAGCAACAACCCGACAAGCGTGAAGTGGAACGCCTTCGCCGTTTGGCAC CTGCGTCGGTTGGAAAAGCGAGTGCGGGGCAAATCGTAGGCGCTGCATTC CCGCAGCTCATCGGCCGAAAAATAGACAATGGAGAATACCTTTTAGCCAG TGGAACCCGCGCACGCCTCATGGATTCAGATCTCAAAGATGCCGAATGGA TCTCCGTTGCTGCAATTAACCGCTCACAAAATTCTGCCATCATCCGCGCC GCCGCCCGCATTTCAGAGGACGATGCCATAGACATCATCGGAGTCGTGGA AGAAACCCGCGCGATTTTTGTCAACGGAAAAGTCCAAGCCCGGAAGGTCA AAGCAGCAGGCGCGATCGAATTAAGTTCCACTCCGACAAAACCAACACCC GCCGAAGCCTCGGAAACAATCGCCACAGCCCTTGCCAAAGGCGGAATCGA CCTATTCCACTTCTCCGACAAAGCGGCATCCTTGCGTGACCGACTGAAAT TCATCCACGAACACCGTGGCGAACCCTGGCCAGATATTGAAACTGCGGAC CCGCACCTGTGGTTATCTCCAGAAATTGAGGCGCTCAGCCACGGAACACG ACTAAACAATATCGATATGTATCCCGCACTCCAGCGACTTCTCCCCTGGC CTGAAGCAACCAACTTTGAAGAATTCGCTCCTTCCCACCTATCCGTACCC AGCGGGAATCAGCACCGACTAGATTATTCATCAGGCAGGCCAGTTATACG AGTGAAATTACAAGAATGCTTCGGATTAGAAGAATCCCCGCAGCTCTGCG GAATCCCGGTGCAATTTCATCTCCTGTCACCTGCGGGAAGACCTCTTGCA GTTACCGATGACCTGCGTAGTTTCTGGTCTGGCCCGTACAGCCAAGTCCG TGCAGAAATGCGGGGCCGGTACCCCAAACACCCGTGGCCGGAGGATCCAT GGACCGCTCCTGCCACTGCGCGCACCAAGAATCGCATGTAG >gid:510431 Cgl0144 Alkylated DNA repair protein GTGCCTACGCTTTTCGACGATCCCCTCCACCAACTTCCCAGACCACCGCG CAGGGTTGCAGCTGGCGTGGTGCACCTGCCCAACTTCCTCGGCTTGGCCG AGCAAAAGGCACTGGTCGCCCAGGCTCGAGACCTTGCGCGTGAAGTTGTG GGCACACCGTTGGCGATGGTCCGACCCAAGCTGAAAAGTGGTCAGATGAG TGTCCATATGTTGCATTTAGGAAAGTACTGGGCATCCAATCCTTATCGCT ATGTGGATGTCGTTGATGGTTTTCCAGTGCCACCACTGCCGGATTCTTTC GTGGACTTGGCACACCGAGCATTGCTGTCTGCAGGATCTTTAAGCAATTC ACTTCAGTCTTGGTCGGAGGCATATCGAGCAGAAGCGGCATTGGTGAATT ACTACTCGCCAGATGCTTCAATGGGCATGCACCAAGACGCTAATGAAGAA TCGGAAGCCCCTGTGATCTCCCTATCGATCGGTGATACCGGAATCTTTCG ACTGGGCGGCACTCTAAACCGCAATAAACCGTGGACAGATATCCCACTAA TGAGTGGTGATCTCATCGTTTTCGGAGGTGCAAACAGGCAAGCATTTCAT GGCATTCCCTCTATTGAGGCCAATACTGCACCTGCAGGATGCGGGTTGAA AGAAGGGCGAATCAACATCACGATCCGCCAACTTGCACTATAA >gid:510432 Cgl0145 3-Methyladenine DNA glycosylase ATGACAACAAACAAAGCTAATCCAAATGAACTTGTAATCTGCGCTGATGA AAAGTCACGGCCCCGCTGGGCATCTAGAAGTGAGCTGTGTTGGGAGTATT TCGACAATGAGTGGGGCAGACCTCCGGTGGATCTCAATGCTCTTTTTGAG ATCTTGACGTTGGTAGTTTTCCAAGTGGGTGTCACCTGGCATGCTGTGCT GTCCAAACGGGAAGGGTTCCGTCAAGCATTCGCCCAATTCGATGTTGCAA AAGTAGCCGCCTTCAATGAGGACGACGTGGAACGCCTACTTGATGATCTA CAGATTTTTAGAAACCGAAGAAAAATCAACGCTGCCATCACCAATGCCAA AGCGTTGCTGGAGTTAAACGATGAAACAGGCACCTTTGACTCAATTATTG CCGACCACTCAACTGACGCCACAGCCATGGTGAAGCATCTCAAAGCCTTG GGCTTTACCCATATCGGACTGACCTCCTTGAGCATCCTCCAGCAGGCCAT TGGGGTCACAGAGCTGAAGGCTGCCTAA >gid:510436 Cgl0149 Predicted methylated DNA-protein cysteine methyltransferase ATGGAGGAATTAGAATTTGATGAGCTCACCTCCATGGTGCTCGACTGCGC AGACCTCATTCCGCAGGGAAAAGTAGCAACCTACGGGGACATTGCCAAAA TAGTAGGAACTGGTCCGCGTCAGGTCGGCCGGATCATGGCGACCGCTGGG CAATTCACATCTTGGTGGAGGGTGGTTCGCTCTGATGGTGGCTCCCAGGT AGCGGGCACCGCGCGGTCTAAATGGGCAGAGGAAAATATTGCGTTTTCAG AGCTCAGCGCACCAAAAGTGAGAATGCAGCAGCATCGTCTTTCTGAAGAA GAACTAGAAACTATCGCAGGGAAGCTTCAACAAATAGCTGACTAG >gid:510455 Cgl0168 Hypothetical protein ATGAGTAAGATAGTTGATCTGCGCTATGGGACCCGGCGTTCCTCGGAGTT GAGCAAACGCTCTGCTGAAGTCTTTGCCGAAGCTGAAGAACATCCCATTA CTGTGACACGTCGTGATGGTGAAGCGTTGGTATTGATGTCGCAGCGCGAA GCTGACGGGCGAGCCCGCCTGCTGGAGTTGGCTGCACAGTTAATTACTGT GGCCACTGATCATCAGGGCACGTTAGCCGAACGTATGGCGAAAGTATTCC CGTGGATGCTGGCCCTGTCAGTGGCGGATCGTGAGGCGTGTGCCCGTGAG ATTCTTGACGCTGCACGAGCATCGTTTGCAACCGAACAACCTCACCTCGC TCTTACTGAACTGACCTCATGGAAAGAAACAGCAGCAGCTGTTGCTGCTG GATTGAGTAACACTGATCTGCAGTGGTACGACGATCCGCATCTGGTGGAG CGTCCCTAA >gid:510469 Cgl0182 Transposase ATGGGCCCTTATTATGGGCCACGCACACTCCATCAAGTGTTGCGTGAGGA CTACACAACACTGTTTGACGAGTTATCTGCGTTGGGGTTGCCAGCACAGG TGTGTGGGGCCTTACTTCATCTTGCTCCACCACCATCATTACGCTTTTCT TATATGTCGTGTGTAGTGCCGTTATTTGCTGATGAAATCAAAGTCGTAGG ACAAGGCACACGATTATCGTTAGAAGAGAAAATGATGATCCAACGTTTCC ATGACACCGGGGTCAGTGCAGCAGAAATCGGTCGACGCCTGGGTCGGTGT CGGCAAACAATTTCCAGGGAACTTCGACGTGGTCAAGATGATGATGGACG TTATCGTGCACGCGACTCCTATGAAGGTGCGATCAGGAAACTAGCGCGTC CGAAAACACCGAAACTTGATGCCAATCGTAGGCTTCGGGCTGTGGTGGTC GAGGCGTTGAATAATAAATTATCTCCGGAGCAGATTTCTGGTCTTTTAGC CACCGAGCATGCTAACGATAGCTCTATGCAGATTAGTCATGAAACTATTT ACCAGGCGTTATATGTTCAAGGTAAAGGGGCGTTGCGTGATGAATTGAAG GTGGAGAAATTTCTTCGTACCGGTCGGAAGGGACGTAAACCGCAGTCGAA GTTGCCATCGAGAGGTAAGCCGTGGGTGGAGGGTGCGTTGATTAGTCAAC GCCCAGCAGAAGTTGCTGATCGTGCTGTGCCTGGGCACTGGGAGGGCGAT TTAGTAATTGGTGGTGAAAACCAAGCGACAGCGTTGGTGACGTTGGTGGA GCGCACGAGCCGGTTGACGTTGATTAAGCGGTTGGGGGTTAATCATGAGG CGTCGACTGTGACGGATGCGTTGGTGGAGATGATGGGTGATTTGCCGCAG GCGTTGCGTCGGAGTTTGACGTGGGATCAGGGTGTGGAGATGGCAGAGCA TGCGCGGTTTAGCGTGGTGACCAAGTGTCCGGTGTTTTTCTGTGATCCTC ATTCGCCGTGGCAGCGTGGGTCGAATGAGAATACGAATGGATTGGTCAGG GATTTTTTCCCGAAGGGCACTAATTTTGCTAAAGTAAGTGACGAAGAAGT TCAGCGGGCACAGGATCTGCTGAATTACCGGCCGCGGAAAATGCATGGTT TTAAAAGCGCGACGCAGGTATATGAAAAAATCGTAGTTGGTGCATCCACC GATTGA >gid:510530 Cgl0238 Putative transposase TTGATCACAGATCTCACCACCTGTGCCAGGCTGAGCCATAACAAGGCATT ACGGCTGATCAAGCTGTCGAAATCAACGGCGTATTACCGCAACAAGCCGC GTCCCCGTCCTGCACCGAAACCTGTCCTGCAGGCCGTGCCAGCACCAACA GCACCTGGTGTGGAACCCACACCAGAGCCTTGGCAGGGGAAGGAGCCAGC AGTGTCGTCGGTGCGTCAAGCGTTGGCAGAACACGAACGCCAGTTCATTG TTGATGCGATCACCGCGTACCCACAACTGAGCGTTAGTGGGGTGTTTAAC ATGTTGTTTAACAAAGGCATCTACCGCGCATCACTACGTACATGGTGGCG TGTTGCCAAGCAGCACAAGTTGTTACACAAAGACCGAGTCAGTGCCCTGT CCCCGGGGAAACGATCACCAACGCCACGGGTTAAGCCGAGGTTGGAAGCA ACACAGCCTGGTCAGGTGGTGTGTTGGGATGTGACGTTCTTGCCGTCGCT GGTACGTGGTAAGACCTATGCGTTGCATCTGGCGATTGATTTGTTTTCCC GCAAGATTGTTGGGGCGAAGGTCGCGCCGACGGAAAATACCTCCACCGCG GTGGAGTTGTTAACGCAGGTGTTAGCGGATAATCCGGGTGTGGTGACGGT GCATTCGGATAATGGGTCGGCGATGACATCGACGAGGGTGCGGCGGTTGT TAGCGGATCATGGTGTGGCGTTGTCGTTGATTCGGCCGCGGGTGAGTGAT GATAATGCGTTTGTGGAGTCGGTGTTTCATACGTTGAAGTATCGGCCGTT TTATCCGAAGGTGTTTGCATCGATGGATCAGGCCCGGGTGTGGGTGGAGG AGTTTGTGGTGTATTACAACACGGTTCATCCGCATTCTGGTGTGGCTGGG CATACTCCGCAGTCGGTGTTTGATGGTAGTTGGAGGGCGGCTCATAGGTT GCGTGTGCAGGCGTTGGATGCCCATTACCGGCAGTTCCCGCAGCGGTATG TGGAGCAGCCGGTGGTTCAGGAAGTTGCTGGTGTGGTGCGTCTTAATGGT GCGCGTGATGATGGGTCTGTACAGGAGAGGGTTGGTGGTGTAGCGTCGCT GTTAAGTGCTTGA >gid:510535 Cgl0242 DNA polymerase III, gamma/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 >gid:510537 Cgl0244 Recombinational DNA repair protein GTGTTTGAAGGCCCACTCCAGGATCTCATCGACGAACTTTCTCGTCTCCC CGGCGTCGGCCCCAAAAGTGCCCAACGCATCGCATTTCACCTGCTCAACG TAGATCCTTCCGACATTACCCGCCTTCAGGAAGCCCTCGGAGGCGTGCGT GATGGCGTCCAATTCTGCCGCATCTGCTGCAACATTTCCCGCGAAGAAGT CTGTCGCATCTGCTCCGACTCCGGACGTGACGGCGGAACAATCTGTGTCG TCGAAGAACCAAAAGACATCCAAGTTATCGAGCGCACCGGCGAATTCTCC GGCCGCTACCACGTCCTCGGCGGCGCCCTCGACCCGCTGGCCAACATCGG CCCCCGCGAACTCAACATTTCCACGCTCCTGCAGCGCATCGGCGGCGTCC TGCCAGACCGTGAGCTCGCAGATTCCACGCCTGAAAATAAGCTTTTCGAC GCCACCCCCACCGTCCGCGAAGTCATCCTCGCAACAGACCCCAACACCGA AGGCGAAGCCACCGCCTCATACCTCGGCCGCCTCTTGAAAGACTTCCCAG ATCTGGTAATTTCCCGCCTCGCATCCGGAATGCCACTAGGCGGCGACCTC GAATTCGTCGACGAACTCACTCTCTCCCGAGCATTGAGTGGCCGCCTGCA GATCTAG >gid:510540 Cgl0247 DNA polymerase III epsilon subunit and related 3'-5' exonucleases ATGAGCACCACTTCGGAATCACAAGATCACGCCGCAAGAATCGAAGCTGA GCGCCAAGAAGCTATTGAGGCGGCTCCTTTTGTTTCCGTCAGCATTCAAT CAAGTGGAATCCACCCATCGACTTCACGCATGGTCACCATTGATTTGGTA ACGCTGTCCCCTAATTTGGAGCCGGTGGAAACTTTTCATGCCGTGTTGGA TTCCAAAACTGATCCTGGCCCCTTCCACCTTCATGGCGTGACAGAGGAAG AATTTGCCAGCGCTAAGCGTTTCGGCCAGATTTTGAAAAGCTTGGACCGC CTCATCGATGGTCGTACCCTGTTGATCCACAATGCTGCGCGAAGTTGGGG CTTTATTGTTTCCGAAGCCAAGCGCGCTATGAATGATGCTGCGCGCGCCA ATCGCAACAGCAATCGTGGAAATCGCCGTGGTGGTCGCGGACGCCGCAGG CAGCGCGTGGGGCACATCCCAAAGCCGCTGGTGATCGTCGATACGCTTGC ATCGGCGCGTCGACAAGCAATCGCTTTAGACGACGTGCGCATCCGGGGTG TCGCACACACCCTCGGCCTTGACGCGCCTGCAGCGGAGGCGTCGGTGGAA CGCGCGCAGGTGTCGCACCGCCAGTTGTGCCGCGAAGAAACTTTGCTTGT GGCACGGCTTTATGGTGCGTTGAAGCAGTCAGGACCGCTGGCGGAAATCG ATCCCCAGTCCTTGCGCGCCGATAAGTTTGGTTTGCAACGCTCGATCATC CGGGTGCAGGCGCAGGAAGCTTCGCCAACGCTGGTCAACCCTGGTACGTA TGAGCCGGGAAAGACGCTGATCGCTGGGATGGAAGTTGTGGTCGCGCCGG AAATTGAGATGGATCCGGACATCATTATCCAAGCGTGCGTCGATGCAGAT TTGTCCTATTCTGAGAAGCTCACCCGGCAAACCTCAGTGGTGGTGTGCAA TCAAACCCGCGACATTGACGGCAAAGCGATGCATGCCCAGCGTAAAGGAA TTCCGCTGCTGTCCGATGTTGCCTTCTTAGCAGCTGTTAAAAGGGTAAAA GAAGGGAAGAAAGTGGACGTCGAAAAGCGCTAG >gid:510587 Cgl0293 Predicted EndoIII-related endonuclease ATGGGTTCCATTACTCCGCAGAAGCGGCCTCGCGTGGGGTCTCACATCGC GAACAAGGGTCAAGAGACTGATATCGGGCGAAAACGCCGAGCTCGACGCA TCAATCGCACACTCACCGTGGCATATCCGGATGCGCACTGCGAATTAGAT TTCACCAATCCGCTAGAACTCACGGTCGCCACCATTTTGTCCGCCCAGTG CACGGACGTTCGCGTGAACCAGGTGACGCCCGCGTTGTTCAAGCGCTATC CGACGGCCACAGATTACGCCAACGCCGATCGCACGGAATTGGAGGAGTTC ATCCGTCCGACAGGCTTTTACCGCAACAAGGCCACTTCTTTAATCGGCCT GGGTGAGGCACTAATTTCGCTTCACGACGGCCAGGTCCCCGGTACCCTTG AGCAGCTAGTTGAGCTGCCGGGGGTCGGGCGGAAAACCGCCAACGTGGTG CTGGGAAATGCTTTCGGTGTTCCGGGAATCACGGTGGATACACACTTTGG CAGGTTGGTGCGTCGCCTGAAGCTCACTGATGAAGAAGATCCCGTCAAGG TGGAAAAAGTGATGAACGAACTCATCGAAAAGCCTGAGTGGACCATGTTT TCACATAGGCTGATCTTCCACGGACGTAGGATATGTCATAGTCGACGCGC CGCCTGTGGAGCCTGCATGCTGGCAGCTGATTGCCCATCCTTTGGTTTGG AGGGGCCGTCAGATCCATTTGAGGCGCAAAAACTCATTAAAAGTGATGAT AGGGAGCACCTGCTGAAAATGGCAGGAATGTAG >gid:510589 Cgl0295 NTP pyrophosphohydrolases including oxidative damage repair enzymes GTGTGGATGCACCGACTCTTAGACCGCATCCACACCGGCCGCATGGCCAA CCCGCTGGACGGTGCGGAAACGCTCGGCGACACAGACTCCGAAAAGCGCG CTGCCGTGCTCATGCTATTTTCTGGCTCGGAAACCTCCTTTGACCTGCCC AATGACGCCTCCGTGCTGCTGACGCACCGCACCCCGACGATGCGTTCCCA TGCAGGTCAGATTGCCTTTCCCGGTGGCCGAATCGACCCCACCGATACTA ACGCCGTGGACTGCGCCTTCCGCGAGGCCTGGGAAGAAACCGGGCTGGAT CGCCGCACCGCAACCCCATTAGCCCAGCTCAACGAGGTGCACATCCGTGC CACCGGATACCCCGTCTACCCAATCCTTGGACACTGGCACACCCCATCAC CCGTCGCCGTGGCCAGCCCACACGAAACCGACGAAGTTTTCGACGCCCCA CTCTACGACCTCATCGACCCCAAAAACCGCCTCATGGTCGGCTGGCGCGA ATGGCACGGACCAGCGTTTCGAATCAACGACTACATCATCTGGGGATTCA CCGGCGGACTACTCTCCGCGATCCTCGACACCGCCGGCTGGGCCACCGAA TGGGACACCGACCGCATCTTCGACCTGGAAAATACATTGTCAACATCTCG CAACAATGAGCGTATGCGTTAG >gid:510603 Cgl0309 Topoisomerase IA 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 >gid:510606 Cgl0312 ATPase involved in DNA replication 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 >gid:510621 Cgl0326 Hypothetical protein TTGATTGTCATGAAATCCATTGATCTTGAGCAGCTGGCGGGCACGCAATC GCGCACGTATCAATCGCGAAAGATCACCGATGAGATGGTCGCCCGGCCGG TGCATGTGGCGATCGCGTTGTGGGAAGTGCCGTGGGAGTCGGCAAAATCC GGCAAGATTGAGGGTTGGGTCATTGCCGTGGATTCGCCGCGTGGGCGGTT TGTGCGCAGCGGGCAGACCAAAAATGGCGACGCCGTCAACCGGACTGTGT CGATGCTGAAATCAGCGTTGAAAGGGGTCCGCGGGAAGGCGTGGATTGTA ACTGGGCGTCGACAAGCAGCTTTACGCGCAGCCCTGGTGCGCGAAAACTA CCTGGTCACCGGAAGCTTCGCCGAGCAAAATAGGGCCGGCGTGAAGGCGT CGGCGATCTCGCGCCGCGCCGAACAATCCGCGCTCTACAAGGCGAAAAAA ATCGGCGAATTCGCCGAGCGCGCCCCACGCGTCAAAGAGCGGCAAGAGGC ACATTGGTGGCCACGGTTGTCACGCACGCAAGGCACCGCAGGCGTTTTAC GCTTAGCGACGGACGCCTCTACCGATGGGGTCTTCCGCGGCGCCATGTGC TTCGTAGCCTCAAACGGCGACTACCTCCTGGAGACCCAAGACACCACCGC AAGCTCCGACGAATTAGAACTCGAAAGCATCACCCACGCCCTGATCTACC TCAAAACCATCGGCGCGACCCAAGCCATCATCGAATCCGACAGCAAAGCC GCACTTGAAGCCATCGACTTCATCCTCAACAACCGACCGCGCCGGGGCAG GTGGCGCGGCATCACCGCATGCGCCCGCAACCGGTTCCGGGATGCCTGGG AAGCGCTTATCGACGACTGCGTTGTGGAATTATCCCGCGTACTAGGGCAC GCCGGGGATCCACTGAACCAAGCAGCCGACCAAATCGCATACATGGGCAT GCGCGCCGTAATTTTTGAACAAAAATCCGCACACCCCACATTGCTCAAAG GAATTGACAAGGCGCTTCGCAAGGCCGAGTAA >gid:510652 Cgl0357 Hypothetical protein GTGGTTGTTCTATCAAGACATGATTGCGGCGTATGGGAATCCGTAGAAAT CAGAGGAAAAGAAGCTGATGAGAAGGGGATCAACAGCCTGCGCAAAGGCC TACCAGCGAGAATGGACGAGCTTGCCCAACTGGGGCACACCTTGTGGCGT CGGCGTAAGAACGTGTTGGCGTCCTTCAATATCGGTGCATCCAACGGACC TGTCGAGGCCATCAACGGCAGACTTGAGCACCTGCGCGGGATCACCTTGG GGTTCAGGAACCTCAACCACTACATCTTGCGGTGCTTGATCCAAGCCGGA CAACTGCAGAGGAAGATCAATGTACTCTAA >gid:510917 Cgl0617 Hypothetical protein 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 >gid:510930 Cgl0630 Deoxyribodipyrimidine photolyase ATGAATGATCCACAACGCTCTCCCACCCTTCTATGGTTCCGCGATGACCT CCGACTAAGTGATAATGCTGCCTTAAAATGGGCTGCTGATCATGGCCCCG TTATTGGACTCTTCATTGATGAAACGATCAATCGCAGCATTGGGGCCGCA GCACGATGGTGGCGAGAACAAAGCCTTAATGCTTTAGCCCAAGATCTTTC TTTTTACGGAGTACCTTTACTACGACGTACCGGTAATCCGCTTGAAATAC TGCCGAAAATAGTCTCTGAGATGGAAGTCAAAGCCGTCACATGGAATCGA CGCTATCATCAACCGTTATGTGAAGTGGATGCCACTCTCAAAAAGAATCT CCGTGATAAAGGGATTGAAGTGCATAGCCACCCAGGTTTTTTACTCACTG AACCCTGGGAAGTCAGTACCGCTACCGGAACTCCCTACAAGGTATTTACC CCTTTTTCTAAAGCCGCATGGGAAGTAGCCAGAGTACATGCATATGAAAC TGTTAAAAACAATGTGCCTGTCCCCTCTCACCTAACAGGACCAGAGGATG TAGAGCTGCCCATCCTAGAAATGGAGCAACCTTTTTGGTCAACAACGTTA GTTAAGGAGTGTGCTCCCGGTGAAAAAAATGCTTCGGAAAAACTCTTTGA TTTTTTGGAACATCTACAGGACTACCCGCAAGCTCGAGACAGCTTAGCCC GATCCGCTACAAGTAAATTATCTGCTCATCTAAGGTTTGGTGAGATCAGC ATCCACCGCGTGTGGGCAGAGACTGCAGCAATAGACTCTGAAGGAACTGA GTTATTTCTTAAAGAACTTCTCTGGAGAGATTTTGCGTGGCATCGACTTT ATGCCCTGCCACACATGGACACGCAAAACGTTCGTATGCAATTTAATCGT TTCGGATGGTCCTGGGATCCGAGTGAAAAAGATAAACTTAACACTCCATC CACCCCTCTTATCCCCACCAAAGCTGACCAATTCCATGAGGATTTAGCAG CATGGCGTGCAGGAAAAACAGGAATTCCGCTGGTCGATGCAGGCATGCGA GAATTATGGGCCACCGGGTCAATGCACAATCGCGTCAGAATGGTAGTAGC TAGTTTTTTAACCAAGAATCTCCAGATCCATTGGCGTCATGGCGAAGAAT GGTTTTGGGAAACTCTCGTAGATGCTGATCCAGCTTCTAATGCTTTCAAC TGGCAATGGGCTGCGGGTAGCGGAGATGACGCTTCGCCTTATTTCCGTAT TTTTAATCCGGTCACCCAAGCGAAAAAATTTGATCCAGATGAAACTTATA TTCGTCGCTGGGTACCCGAATATGGAACACCATCATATCCGGATCCCATC GTCGATCTGAAAGAATCCCGTCAAATTGCTTTAGACGCCTACTCTGCGAT TAAGTGA >gid:510938 Cgl0638 DNA polymerase III alpha subunit ATGCAGGGGGAAGCGTCGGTTCCTTTTGCCGAGCTGCATGCCACCAGCAG TTATAACTTTCTCACTGGCGCATCGGATCCGTCTGATGTGGTTGTGCAGG CCAAAAAGTTAGGACTTGTTGCTCTATCAGTCATGGATAGGGATGGTTTT TATGGTGCAGTGAGATTTGCGGAAGCTGCCGCGGAAGCTGGAATGCATAC CGTTTATGGTGCGGAGCTGAGTCTGCAAGAAGGCGTGTTGACAGTCTTGT GTAAAAATCCGGAAGGCTACAAAAAGCTCAGTCACCTGATCAGTGACGCG AAAATGGCAACGGGAGAAAAGGGGGAAGTTCGCTATCCGCCGCTGCCAAT GGTTGCTGAACATGCTGCAGGGGATTGGGTGGTCCTTGCAGGTTTTCAGT GGTTGGACAAAATCGACTATGTGATCGATTGCTTTAAACCGGAAAATATT GTGCTGGAATTCGGTTCAACCATGACACCGGAAGACGCCGACCGCAATGA ATACCTCAGAAGAACGCAAGCCAAATTCCAGCTTCGAGGCATCCTAAGCA CCAACCCAGAATCCGCTGCCCGGGGGAGCGTGCGGCTTGCCGGCGCCAAG CAGGCACTAGCCCGCAAGATGCCGCTTGCCGACGCCGAAAGCGAGCTACA TCCCATGGGCACTACCTGGATGCGCAGCGGGGATACATTGTTAAAAGCAC ACCCTGATTACGCGGATCTCATTGCAACCACGGTGGAATTAGCTGCTGAA TGTGCTTTCACCCTAGATTTGGTGGCCCCGAATCTGCCCAAGTGGGATAC CCCTGGTGAACACACGGAAATGTCCTGGCTTGCGCACCTGGTTTCCACTC GGATTGATACCCGCTATGTGGGGCGCTCCGCAGACATCAAAGCACGAGCT GCCACACAAATTGACTATGAATTAGGCGTTATTGAAAAGCTGGGTTTTCC AGGCTATTTCCTCGTCGTTAATGATCTGGTGGAGTTTTGTCGCGATTCCA ATATTTTGTGCCAAGGCAGAGGTTCCGCGGCGAACTCGGCGGTGTGCTTT GTCCTAGGCATCACCAACGCGGAGCCGATCTCTGCTGGATTGTTGTTTGA ACGGTTTTTATCTCCTGACCGGGATGGTCCACCAGATATTGACATTGATA TTGAATCCGGCAGGCGCGAAGAAGTAATCCAATACGTGTATGAAAAATAC GGAAGGGATAACGCAGCTCAAGTAGCCAATGTCATTACCTACCGAACAAA AGGCGCGATGCGTGATGCTGCCCGTGCACTGGGTTACCCGCAAGGTGCTG CCGATGCCTGGGCTAAAGGAACCTCGGAACCACCCGATGATGTGCTGGAA TTAGCTGCGCAATTTAAAGGGCAACCACGGCATTTGGGTATTCACTCCGG TGGCATGGTCATTTGCGATCGCCCCATCGCCGATGTGGTGCCAGTGGAAT GGGCTCGGATGGATAACCGCTCGGTTGTGCAATGGGATAAAGATGACTGT GCCACGGCAGGCTTGGTCAAATTCGACCTTTTGGGATTGGGCATGTTGGA AGCCATCCATCACATGCTGGATCTGGTGGCAGAACACCGAGGTAAAAAGA TCAATTTGTGGGAACTAGATCTGGCGGAACCGGAGGTCTATGACATGTTG TGCAAGGCAGATGCCGTGGGTGTGTTCCAGGTGGAATCACGTGCGCAGTT ATCCACGCTGCCTCGACTCAAGCCCCGCACCTTCTTTGACCTGGTCGTGG AGGTAGCTCTGATTCGTCCAGGTCCCATCCAAGGCGGATCGGTGCACCCG TATTTGCGGCGCCGTGCTGGTGAAGAGGCCATCACTTATGACCACCCCGT GTTGGAAAAGTCTTTGGGTAAAACCTTAGGAATCCCACTGTTTCAGGAAC AGCTCATGCAGGTAGCTGTTGATGCTGCAGGTTTTAGTGGTGGGGAAGCG GATTCCTTGCGCAGAGCGATGGGGTCGAAACGCTCACCTGAACGCATGGC TGCGTTGCGCTCGCGGTTTTTCCAAGGGCTGAAAGATACCAATGGGATTG TGGGGGAGACCGCCGAGAAACTGTGGAACAAAATTGTGGCCTTTGCTGCC TACGGTTTTCCGGAATCGCATTCGCAGTCGTTTGCGTCCTTGGTGTATTT CTCCGCGTGGTTTAAATACCACTACCCGGCTGAATTCTGCGTGGGATTAT TGCGGGCACAACCCATGGGTTTCTATTCACCACAGTCTTTGATCAGTGAT GCCAGACGCCACGGCGTGAGTATCCTGCCGATCACGGTCAATGATTCCGG TGTGGAGGCCGATGCTCCGAATGGTGCGATTCGATTGGGGCTCAACCTGG TGAAAGGCCTTGGCCACGATGCCGCGCAAAGAATAGAGGACAACGCCCCG TTTGATTCCATTCCGGATTTATCGCGCCGGGCTGATCTTAATGTTGCTCA AGTTGAGGCATTGGCGCGAGCGGGAGCGGTGGACTGCTTGGGGGTCGGAC GTCGACAAGCATTATGGCAAGCGGGCGTCGCAGCGACCGAAAAACCTGGA ATGCTGCCTGGCCTTTCGGTGATTGAAGCTCCGGCGTTGCCGGGGATGAG CGCCTTTGAGCTGATGGCGACCAATATTTCCGCCACGGGAGTCACCGCGG ATTATCAGCCGATGGCGTTGATTCGGGAGCGGATGGAGGAGCTGGGGATC GTGCCGGCGGATCGGCTATTGGAGGTGGAAGATGGCACGCGGCTGCGGAT CGCTGGCATTGTCACGCACCGGCAGCGCCCGCAAACTGCGTCGGGGCTGA CATTTTTAGGGATGGAGGATGAGACCGGGCTGATGAATGTGATGGTGTCC GTTGGGTTGTGGCAGCGGCAGCGCGTGCTGGCCAGAAATGCCAAGGCGTT GATTATTCGAGGGATTGTGCAGAATGCGCAAGGGGTGGCGACAGTTGTCG CTGACCGGTTGGAACCGTTGGACATGGGGGAGTTTCTCAGCCGTGGCTCA CGAGATTTTCGATAA >gid:510971 Cgl0671 Exonuclease III ATGAGTTTTCACATCACATCCGTCAATGTCAACGGCATTAGGGCAGCGGT CAAACAGCGAAGCGAAACAAACCTAGGTTTCCTTCCGTGGCTTGAAGAAA CTCGCCCGGACGTTGTCCTCCTCCAAGAAGTCCGCGCAAGCGAAAAAGAC ACCGCCACCGCACTGCAACCCGCCTTAGATAACGGATGGCACTACATTGG TGCCCCAGCAGCTGCCAAGGGACGTGCCGGTGTCGGCATTTTGTCTAGGC ATGAACTTGAAGATGTGAACATCGGTTTTGGATCTTTCCTTGACTCCGGC CGCTACATTGAAGCAACCATCAAAGACACCACCCTGGATGTGCCAGTAAC CGTGGCATCTCTTTACCTCCCCTCAGGTTCAGCGGGCACCGACAAGCAGG ATGAAAAGTACCGCTTCCTCGATGAATTCGAAGGGTTCCTGGACCAGCGC GCTAAAGAACGCTCCCACATGGTCATCGGTGGCGACTGGAACATCTGCCA CCGCCGCGAAGACCTGAAAAACTGGAAAACCAACCAAAAGAAATCCGGTT TCCTTCCCGACGAACGCGCATTCATGGATTCAGTCTTTGGCACCTTCCCA GATGAGGCAACCCAGGTTGCAGGGGCCGGCGACTTCTTCGGTGCCGTGGA CTATGAAGGAACGAGGCGTCGAGAAGCAACTACGGACCCTGCGTGGTTCG ACGTTGCACGTCGCCTGCAACCTGAAGGCGACGGCCCCTACACTTGGTGG ACCTACCGCGGAAAAGCCTTCGACACCGGCGCCGGATGGCGCATCGACTA CCAAGCAGCAACCGCAGCGATGCTCGAACGCGCAGAACGCTCCTGGGTAG ACAAAGCCGCTGCATACGATTTGCGCTGGTCAGATCACTCACCACTGAAC GTGATCTACTCCTAA >gid:511018 Cgl0718 Predicted 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 >gid:511035 Cgl0735 Superfamily I DNA and RNA helicases ATGGACTTTGCCTATTTGGATACCCCAAATAGCAATGACCTGCGCCGCGT TATTGAAACTGAAGGTTTTGATAGCTGGCGCGTGTATATCGACCCCAGCC AGCGCTCCTTAGTCACCCGCAACTTCAGCGGATCGGGTCGCGTTTTTGGT GGAGCTGGCACCGGCAAAACCGTGGTGGTAGTCCACCGTGCCAACCGCCT GGTCACTTCTGATGGACACCTTGAGACCGACGATAAGACGCCTCGAGTCC TGCTCACCACCTATACCCGCGGTTTGGCCGATGCGTTGAAATCCTCCATG AACGCGCTTAATCCCACTTTCCCCGAGGCAGAAAAACCCGGTAGTCCTGG CTTGTGGATCAGCGGAATTGATGCCTTGGCAAATAAGGTGGTTGCGCTAG CAAACACCGCCGAACGTGAGGCAGCAACCACTGCTATCTTGGGGCGTGCA GCCGGCAGAATCACCCCATTCATCGGCAACGGCGAACAAGAATTTTGGAT CGACGCGATCATTTCCGCAGATCCCGGCGATCTATCAGAAGAAATCAGCA ATACTGAATTCCTCGCCCAAGAGTTTGAAACCGTAATCCTAGCCCGCGGA ATCACCCAAGAAAAGGACTATCTGCGTGCACCTCGTCCCGGCCGTGGTAC CCCACTAAACCGCGTACAACGCAAAAAAGTGTGGGCGATTATTCAGCAAT TCATGACTTCCTGTGCGCGCGAAGGAAAGATGTCCTGGCCAGCGCTTTCC TCCATCGCCGCAAACATCCTGGAGCAGCGCGCCGCCGCCGGCCAGGGCCG GCTATTTGACCATGTGCTTATCGACGAGGCCCAGGACTTCCACGCCGGAC ATTGGCTCTTACTCAGGGCTGCGGTAGCCGAAGGTCCCAATGACATCTTC TTGGCTGAGGATTCACACCAGCGCATCTACGGCCAACATCATGTGCTAAG CCGTTTTGGTATTTCCACCCGCGGTCGGGCGTCTAAGCGACTCACCCTTA ACTACCGCACCACCGCCGAAAACCTCAGTTACGCACTTGGCATGCTCACC GGTGAATGGACCGACGCCGAAGGCGAAACGGACACAATTGAGCACTATCG CTCAGCGCGTAAGGGCCCCAAGCCACACCTCTACCAATTTGAATCTGAGA CCGACGAGTTCGAAGCAATCGCTGAGCTCATCAAGGTGTGGCAGGACAGG ACCACCGATGTACGCATCGGCATTTTGGCACGCACCCGTCCTTTGATCAA CCGCGTGGTTAATGCGCTCTCTGAGCAGGGCATCGATGCCGTCAAGACGC AAAATGCCGAACTTGCAGCCCACGAAACTGTCAGTGTAATGACAATGCAC GGAGCTAAAGGCATGGAGTTTACCCATGTCATCTTGATCGGAATGGGCCG TGACCTCATTCCTTTGCAATACACCATGCAAGGTTTAGGCGAGGCCGAGC GTAACGACGCCCAACAGCGCGAACGCTCCTTGCTCTACGTTGCAGCTTCT CGTGCACGTGATGCCCTTGTTCTCACCACGCATACTGAGCCTTCGGAGTT GCTGCCGCGGGTTTAG >gid:511039 Cgl0739 Superfamily II DNA/RNA helicases, 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 >gid:511071 Cgl0771 Superfamily II DNA and RNA helicases 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 >gid:511075 Cgl0775 Superfamily I DNA and RNA helicases 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 >gid:511076 Cgl0776 Superfamily I DNA and RNA helicases GTGTCATCCATGCGTAGGATTTCTCCTCGACTGCTCTCCCAATATTTGGG ACAAGAGCATGCGCCAACTGATCAGCAATCTGCGATCATTGGATCCGAAC CCGGCCCACTGTTGGTAGTGGCTGGTGCCGGCGCAGGAAAAACGGAGACG ATGGCTGCACGAGTGGTGTGGTTGGTAGCGAACGGATTCGTCGCCCCAGA TCAAGTGCTGGGTCTGACATTTACCAGGAAGGCGGCGCAACAGCTGTCGC AGCGCATCCGAAAGCGTTTGGAGACTCTTGCTGGTGTGCCTCGCCTGAAA GACATTGATCCCACCGGCCAGTTGGAGAAAAACCTTCAGGCGATCACCCC AACGGTATCCACCTATGACTCCTATGCGGGCACGTTGATTAGAGAATACG GATTGCTGCTTCCAGTAGAACCTTCCGCAAGGTTGATCACACAAACGGAG CTTTATCACATCGCTCGCAACGTGGTGAACAACTACGACGGTGAGCTCAC CGCCACCCAAACGCCGGCCACTGTCACGGAATACCTCCTCAAGCTGGTAT CCGAAATGGACAACCACATGGTTACCGCAGAGGATATCCGTGAGGAGTCC GATCCGTTCATTAAGCTTTTCGACGAACTCCCCAAGGGCAAGGGTCAGCG CGACAACCTCAACGCCGAAATGACGAAGTGGCGGGATACACAGGTCGCTC GCCTCCAGTACTTGCCCCTCGTGAAGGCTTTGAAAGAGGAACTGCACAAT CAGGCTGTGGTGACGTTTGGTGAGCAGATGTCTAAGGCAGCTCATCTCGC ATCGACGCATCCTCAGGTGGGCTATTCGCAGAGGCGACGGTTCCGCGTTG TCATGCTTGATGAGTATCAGGACACCAGCCACTCGCAGCGTGTGTTGTTG AGCAGTCTTTTCGGTGGCACCGATCCTGGTCTCACTGTTAATGCTGTGGG CGATCCAATGCAGGCGATTTATGGTTGGCGAGGTGCGACAGCGGCGAACT TGGAGAATTTCGTTGACGATTTCCCCGTCATCCATCTCGATGGAAAAACG AGAGCACCGAAAAACGAGTTGACCACAAGTTGGCGAAACCCACCAGAAGT CCTCACCCTTGCCAACGCAGTTTCGCGGGAGGTGCTTGGGTCGCCCGATG CGCCGACTCGGACGGTGCAGCCGCTGCAGCCTCGGGAAGGCGCACCGACC GGTGAAGTGTCGCTCGGATGGTTTGGTACGGCGGCGCAGGAACGTGAGTT TGTGGCTGATGAGATGGTGAAGCATTGGAATGCGCGGGAGGAGAAGGGCA CATTTACTGCTGCGGTGTTGGTGCGTAAGAAGCGTCATTCGGCACCGATG GCGGAGGAGCTGACCAAGCGTGGCATCCCCGTGGAGATCGTCGGACTGTC TGGTTTGTTGGATATCCCTGAGATTGCCGATCTAATTTCTCTAGCAACTA TGCTCGTGCGTCCTCACGATAATCGGGCTGCGTTGCGTATTTTGGCGGGC CCGCATGTGGGTTTGGGTGTGGCGGATTTGCAGCGGTTGCAGGGTCGTGC GCGCAATATTGCGGGTCGTGTGTCTCGTGAGCGTCGAGAGAAGAACCCAG ATCCATTAGCGGAGCTTGATGCGATTATTGAGGAAGCGACTGCGATTGAA CCGGAAGCTGTGGTTGGTCTAGCTGATGCGGTTGCCGATTTGGGTGAGGG CGATCGTTTCAGCGAGGAGGGGTTGAGTCGTTTGAAGCGACTGGCCACTC AGTTGCGATATTTGCGTAAGTACAGCTTGGGTCGTTCGGTGGCGGACATT TTTGCTGATATTGAAACTGTGTTCAATATTCGCACGGAGGTGTTGTCGAG GCAGGATCCTCACGCCGATGGTGCTGCTGGAACGGTGCATTTGGATAAGT TCGCAGAAGAGGTCGCAAGTCACGGTGGCATTGGGCTGCCTGAGCTGTTG GACTATTTTGAGCTCGCGAAGGATCAGGAAGAGGGCCTTGAGCCGGGTGA GGTGACGGTTCGCAGCGATCGTGTGCAGATCCTTACTGTCCACAAGGCTA AGGGTTTGGAGTGGGATATCGTTTCGGTGTTGCATGCCGATGCGTCGACC TATGATGCGAAGGCTTCGACGTGGTTGAAAAATGTCACGATGATCCCGTC GTCGCTTCGTGGCGATGCCGGGACCGGCGCCCCAGAGATGGATACCTCTG AGGCGGACGATCGCAAAGCTCTGGAAGATTCCGGCAAGGAGTACACCAGT GAAGTGCGTGAGGGGTTACGGGAGGAAAATTCGCGACTGTTTTATGTCGG TATCACGCGCAGCGAACGGGTGTTGCTCGTGACGGGTTCGGCGCTTGATG AAAGTGGCACAAAGGCGAAAGTTCCCTACGGCCACTTGGAGATCCTTCGG GATAAAGCGCCGGAGTGCGTGGTGTCGTGGTGGGAAGGGGAAGAGGGGGA CGTCGAAAAGCAAAAACCTGCGGAAGGCGTCTTCCCGCAACTGCTCGCCG CTGACTCCTCCGGCGCGGATTTGGTGCGCGGCCCGCGCGCCGAGCCAAAC AACGAGGGCGGGCTGGAAAGCTTGTGGGAAAAAGAGGTAAGCGCGCTTAT CGACGAACACCGCCGCCTTTCCAACCCCATCGTCGAAGTCGAAACGCCCC GCGAACTCACGGCCACCGACCTCGTCTCTATGAAAAACAATCCCGAACAG TTCGCCCGACGAATGCGTCGCCCTGTCCCGTTCAAACCAAACACCTACGC AAAACGCGGCACACTGTTCCACCAATGGCTCGAAGATCGGTTTGGCAGCA CCGCGCTTCTCGACGAAACCGAGCTCCCCGGCATCGACGAGGACTACTCG GATGACGCATTCATCGAACTCCGCGACGCGTTCCTAGGATCTACTTGGGA AAACCGCACACCGGAATTCGTCGAACATCCCTTCGAAGTAACGATCGGCG AACACGTCATCCGCGGCCGCATGGACGCCGTCTTCCACACCGATGGCACC TGGATGGTGGTCGACTGGAAAACCGGACGCACCCCAACCGGCCCCGAAAT GGACGCAGCGATCATCCAGCTCGCTGTCTATAGACTCGCCTGGGCACGAC TCAAAGGCCTCGAACCTGAAGAAGTCCGCGCAGCATTCCATTACGTCGCC CACGATCACACCTTTGAGCCGAACGATCTGCCGACTCAAGAAGAACTAGC CCGGCTGCTCAGTCAGGAATGA >gid:511078 Cgl0778 NTP pyrophosphohydrolases containing a Zn-finger, probably nucleic-acid-binding ATGAGAATTCTTCCCATCGGCCCCCACGATGAAATCGCCGTCAACGGATC AATAGTCCTTCTATCCGAGCACGACGGAGACATCGTATCGGTCGGCCCCG ACCTCGGCACGGTGCGAGTTACCCTTGAAGAGATCGAAAGTTTAGGTACA CCGACGGCACCCCGCGATCTGGGTTCTCGGGAAGTCGACGCATGCGTATC GTTGCTCCGCAACCGCGAGTTAGTGCGATTCGATCCCCACGATGGCAGTG AATTAACCTATCGGGAACATAGCGTTGCTTACGGTGCGAGTGGCAAGCCA TTGTTTCCCCGATTGGATCCAGCGGTGATCGGCATTGTGGAGCTGCGAGG TGAGGATCGTTTGCTTCTGGGCATGAATGCGCAGAAACGCCAACGCTATT CATTAATCGCAGGTTATGTTTCGCATGGTGAGTCGCTGGAAGACGCATTC ACCAGAGAAGTGTTCGAGGAAGCGGCGCGCCGGGTATCTGAGATTTCCTA TGTGTCGTCTCAACCATGGCCGATCTCTGGTTCGCTGATGCTGGGTATGA AGGGCTTCACGGAAGATGAGTTGCCTCAAGGCGAAACTGATGGTGAATTA GCGGAGACAATCTGGGCTTCGCCACTAGACATTATCGATCGTAAGATTCC GATCGCCCCACCCGGATCGATTGCCTACGACATGATCAACGCCTGGGCGC GAGATAAACAAAACTAA >gid:511079 Cgl0779 Superfamily I DNA and RNA helicases 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 >gid:511108 Cgl0806 Hypothetical protein GTGCTTGCCCTTCCATCCTCTATCATCGACCCCCTCTGGTGCCAGTTCGC CGCGCTGATCCCACCCGTGACCGACACCCACCCACTTCGGTGCCACCGCC CACGCATCCCGGACCGGATCATCTTCGACAAGCTCATCCAGGTCCTCGTC CTCGGCGCCTCCTATGCCAAGATCGCCGACACGACATGCTCGGCCACCAC CTTGCGCACCCGCCGGGACGAGTGGATCACCGCTGGCATCTTCGAGCAGC TGGAACAGATCTGTTTGGAATTCTACGACCGTATCGTCGGACTCGATCTC TAA >gid:511123 Cgl0816 DNA or RNA helicases 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 >gid:511124 Cgl0817 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 >gid:511155 Cgl0847 Formamidopyrimidine-DNA glycosylase ATGCCAGAAGGTGATTCCGTATTCCAACTCTCCCGCAAACTTCAATTCAT GCGCGGAAGAGAAGTGCTGGAAACCTCCCTGCGTGTGCCATCAGTGGCAC TTCACGATTTCACCGGTCAAACCGTCAACCGCGTATGGCCCTACGGAAAA CACCTCTTCATGCAATTCGGTGAAGAGATCCTCCACACCCACCTCAAAAT GGAAGGGACGTGGGCTGTCCACCGCAAAGGCGATCGCTGGCGCAAACCTG GACACACCGCGAGGGTAGTGCTTGTGCTGTCGGAAAACATCGAGGTGGTG GGGCATTCCCTCGGCTTTGTCAGAGTGTTCCCCGCAAACCGCTACTCCGA AGAGATCGCTTACCTCGGCCCCGACGTCCTTGCCGAAGAATTCGACATCA ACACCGCACGGAACAATATTGCATCGAACCCTTCCCGAACAATTGGCGAA GCCCTCCTCGACCAATCCAACCTCGCTGGAGTAGGCAACGAATACCGCGC TGAGATCTGCTTCCTCATGGGCGTCCACCCGGCGACACAAGTAGGATACG TTGACGTCGAAAAGGCTCTGAAGATTACCCGAAGACTCATGTGGGAAAAT CGAAATTCGCCGATTCGAGTGACCACCGGGGTTCGACGCGCCGGGGAATC CACCTATGTGTTTGGGCGTAACAATAAACCGTGCAGGAGATGCCGAACCC CAATCGTGAAAGCCGAGTTGGGGGAGCGAATAATCTGGTGGTGTCCGCGC TGCCAACCGCTAAACTCGTGA >gid:511162 Cgl0854 Superfamily I DNA and RNA helicases 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 >gid:511202 Cgl0894 Superfamily II DNA helicase 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 >gid:511206 Cgl0898 Putative transposase TTGGAAGCCGAAGCACCTGTAGAGGATCTCTCAGCGTTCATCGAGCAAGA GAAGGCGTCGTTTCCCATTACATGGATGTGCAGAAAGTTGGGTGTGTCCA GAGCGTCGTATTACCGGTGGGCCAAGCCTGCGGGTCTGACTCCGACAGCC ATAAGGCATTTAGAACTCAGGGCTGAGGTTGCCCAGGAGTTTGAAAAAAG CAACCAGATGGCTGGCAGGGATCAGCTGACCACGTTGCTCAACCAGCGTG GTGTCAAAGTTTCTACTGGGACTGTGGGATCAATTATGAACGAATGA >gid:511207 Cgl0899 Putative transposase GTGTCAGACGAATGCGGGCCTGGAAGAACACCACGGTCAGTGACCCTTTC TGCCCGGACCGAGCATATTAAAAATCATATGCTCGATAGCCACGGGAAAC GAGACTTTACCGCTACCGTGCCTGGGACCAGGCTCGTTGGTGACATTACG TACTTAAAGACGGGTTCCGGGTGGCTGTATGTGGCTACCGTGATCGATTT GGCTACGCGGATGGTGGTGGGGTGGTCTATGGATTCTAATATGCGCACAC CGTTGGTGATCAATGCGCTGGCTATGGCGCGTGATCATGGGTGTCTTCAT CCTGAAGGCGCAATTTTTCACTCCGATAGAGGATCGCAATACACCTCCGA GCAGTTCCAGACATGGTGCGCCGGCAACAAGATCACCCAATCCATGGGAT TGACCGGGGTGTGTTGGGATAACGGAAGTCGCGGAGAATTTTTTCTCACA TTTGAAGACCGAAATGTATCACCACTATGA >gid:511208 Cgl0900 Hypothetical protein TTGACGAGCGCAACCTGGGGGATCTACCAGCGGATGATCGCGGCCTACCG CGAGAAGGACCGATCCCTCGGCCGCGCGGCGATGGAGGCGCTCATCGACG CCGTCAGCCAAGACGTCCCCGCCGGGCTGGACGAGTTGCGCAAGCTCGGT CGGACCCTGAAGGCTCGCGCCACCGACGTGCTGGCCTACTTCGAGCGGCC TGGCACCAGCAATGGCCCCACAGAGGCGATCAACGGACGCCTGGAGCACC TGCGCGGCTCGGCCCTGGGCTTCCGCAACCTGACCAACTACATCGCCAGA TCCCTGCTCGAGTTCCGGCGGATTCAGACCTCAACTACACCCTCATCTGT GAAGAGCCGCTTTAGACATCCCTCATCGTCACGGACCACTATGAACGATG TCCCGACTCACCTATGA >gid:511210 Cgl0902 Adenine specific DNA methylase Mod GTGCTTGCCGACGACGTGGTGGTCGTCGCGGAGTTCCGGGATCGCATCTA CCCCGGCCTGGTGGAGACAGGCAGGGTTGAGCGGGGCGGCGACAAGCCGT TCCACACGGTCGTCAACGCTGAGAACTACCACGCGCTGGAGATGCTGACC TATACGCACCGGCATTCCATCGACGCCATCTACATCGACCCGCCGTACAA CACCGGGGCGAGGGACTGGAAGTACGACAACGATTACGTCGCGAGTGATG ACGACTATCGACACTCGAAATGGCTGGCGTTCATGGAGCGACGGTTGAAG ATCTGTCGGGAGCTCATGCGTAGCGATGCTACTCTTGTGGCAACTATCGA TGAGCATGAAGTAAACCGTTTGGGCGTGTTGCTAGATCAGCTCTTCCCGG AATCTACGCGGCAACTCGTCACAATTGTCAACAACCCTAAAGGCGTTACT CAGGGATATCTTTCGAGGGTCGAAGAGTATGCGTTCTTTGTATTTGGTCC TGACGCGCGAATCGGTTCGGTCGATGACGACCTTCTGACGCATCGAGACA TGGCCGATGCTGAAGGGGAACTGCAGAGGCCTCGATGGAAGGGGCTCTTG CGGTCGGGCGACGACTCGCTTCGAGCTGACCGTAAAGATATGTTCTATCC GGTGTGGTTCGATGAGTCGACTGGGCGACTCAGCCACGCGGGCGAAGCAT TGCCACTTGACGAAACTCCTGACTTCAGTCCGCAGGATGGCCTGACGCCG ATCTGGCCTATTAGGCGGGACATGAAGGAGGGGCCTACCCGGGCAGCGCC ACGCCGTTCGATCCTTGACTACGCGCTACACCCTCATCTGTGA >gid:511212 Cgl0904 Putative transposase TTGGAAGCCGAAGCACCTGTAGAGGATCTCTCAGCGTTCATCGAGCAAGA GAAGGCGTCGTTTCCCATTACATGGATGTGCAGAAAGTTGGGTGTGTCCA GAGCGTCGTATTACCGGTGGGCCAAGCCTGCGGGTCTGACTCCGACAGCC ATAAGGCATTTAGAACTCAGGGCTGAGGTTGCCCAGGAGTTTGAAAAAAG CAACCAGATGGCTGGCAGGGATCAGCTGACCACGTTGCTCAACCAGCGTG GTGTCAAAGTTTCTACTGGGACTGTGGGATCAATTATGAACGAATGA >gid:511213 Cgl0905 Putative transposase GTGTCAGACGAATGCGGGCCTGGAAGAACACCACGGTCAGTGACCCTTTC TGCCCGGACCGAGCATATTAAAAATCATATGCTCGATAGCCACGGGAAAC GAGACTTTACCGCTACCGTGCCTGGGACCAGGCTCGTTGGTGACATTACG TACTTAAAGACGGGTTCCGGGTGGCTGTATGTGGCTACCGTGATCGATTT GGCTACGCGGATGGTGGTGGGGTGGTCTATGGATTCTAATATGCGCACAC CGTTGGTGATCAATGCGCTGGCTATGGCGCGTGATCATGGGTGTCTTCAT CCTGAAGGCGCAATTTTTCACTCCGATAGAGGATCGCAATACACCTCCGA GCAGTTCCAGACATGGTGCGCCGGCAACAAGATCACCCAATCCATGGGAT TGACCGGGGTGTGTTGGGATAACGGAAGTCGCGGAGAATTTTTTCTCACA TTTGAAGACCGAAATGTATCACCACTATGA >gid:511216 Cgl0908 Mg-dependent DNase ATGTCTAAGAAGAAGCCTCGCCCCATTCCGGTTCCTGCCCAATTTATCCC TGGTCTCATTGATGCGCATACACATTTGGCATCGTGTGGAGGAGATCTTG CAGGGTTGGTGGAAAGGGCCAAGGAGGCGGGCGTCGAAAAGCTTTGTACC GTCGGTGATGGTTTGGCTGAGGCCGAGCTTGCGCTGGAGGCCGCGCAACA GTTTGGCAATGTGTTTGCTGCGTGTGCGATTCATCCGACGAAGGCTGATC AGTTGGATGGGGCTGCGCGTGCGCGGCTGACGCAGATGGCGGCGGATCCG AATTGTGTGGCCATTGGTGAGACTGGTTTGGATTCGTATTGGATCAAGCA CGATCCAGAGGACACGGCGGCGTTGGATGTGCAAGAGGAGGCGCTGCGCT GGCATATTGATTTGGCAATTAGTGCGGATAAGCCGTTGATGATTCACAAT CGTGAGGCGGATGCTGATTTGATGCGAGTGTTGGCGGATGCTCCACCTCC AAAAGATACGATTCTGCATTGTTTTTCTTCGCCGTTGGACGTGGCGAAGG AAGCGTTGGATCGTGGATATGTGTTGAGTTTTGCGGGCAATGTGACGTTT AAGCGTAATGAGGAGTTGCGGGAGGCTGCTCGTATTGCGCCGATTTCCCA GATTTTGATTGAAACCGATGCGCCGTATATGACGCCGGAGCCGTTTCGGG GGAGTAGGAATGAGCCGTCGTTGATTGGTCATACGGCGCTATGCATTGCG GAGGTTCGGGGGATGGCTGTGGAGGATGTTGCGGCGGCTTTGAATGAGAA TTTTGATCGCGTTTATGGGGTCACAAATCTATAA >gid:511249 Cgl0941 Hypothetical protein ATGCCCACCACGGACGTCTTCAACCGCGTCCGGTTGGCATTGGAACCTCT AGCTGATCCCGCACGTGCCACCGGAATGGCAAGCTACATGCGGGATCAGT TTTCTTTTCTCGGCATCCCATCCACCCCCAGAAAAGAAGCCTGCAAACCC GTGCTGTCCGCGCTAAAAGAGTTGGACACTGACTTTGTCTCAGACTGCTT TGGCGCAGCTGAACGGGAATACCAGTATGTCGCCTGCGATCACATCAATC GCGTCGGCATCACCGATCTAGGTTTTGCCAAAGCATTAGTGCAGACCAAA TCCTGGTGGGACACCGTCGATTCCCTAGCAAAACCGATCGGCGCCAAACA CGATGATGATCTGATGAAAACGTGGGCGCTTGATGAGGACTTCTGGGTGC GCCGCATCGCGATCATCCACCAACTGGGCCGCAAGAAAAACACCGACGCT GCCCTGCTGGCCTGGATCATCGAGCAGAACCTCGGCTCCAGCGAGTTCTT CATCAACAAAGCGATCGGCTGGGCACTGCGGGATTTCGCCCGCCACGACC CCAGCTGGGTCCGGGCTTTTGTCGACGCCACGGACCTTTCCCCACTGAGC CGGCGAGAAGCCCTGAAGAATATTTAG >gid:511266 Cgl0959 Transposase ATGGGCATCTTCTCCGGTCGGCAGTTCCCTCGTGAAATCATCCTGTGGGC GGTGCGGTGGTACTGCCGCTACGGCGTGAGCTATCGCGACCTCGAAGAGA TGATGACCGAGCGGGGAGTGCCGGTCGATCACACCACGATCTACCGCTGG GTCCAGAAATATGCTCCTGAGCTGGATAAGAAGACCCGGTGGTATCGGCA AGTTCCTGACTGGCAGGCCAGGTCCTGGCGGGTGGATGAGACCTATATCC GGGTCGGGGGAAAGTGGTGCTACCTCTATCGGGCAATCACCGCCGGTAGC CAGACCCTGGACTTCTACCTCTCCCCGAAGAGAAACGTCGCGGCGGCGAA GCGTTTCCTGGCGAAGACGCTGCGGTCGAATAAATCGGCAGGCTATCCGC GGGTGATCAGCACCGACAAGGCCCCCTCACTCGCCAGGGCAATCTCTGAG CTGAAGGCGGAAGGCGTCTGTCCATCGACGGTCGAGCATCGTCGGGTGAA ATACCTCAACAACGTCATTGAAGGCGACCATGGTCGGTTAAAGCGGATCC TGGGGCCGAAAGGCGCATTCAAAAACCGAACGTCTGCCTACCGGACGTTG AAAGGGATGGAGGCGATGCACTCATTGCGGAAGGGGCAGGGCACGATGTT TGCCTATGGTCACCCGAATCCGGATGCAGTGATTGTTAGCCGGGTATTCG AGACGGCCTGA >gid:511272 Cgl0963 Transcription-repair coupling factor-superfamily II helicase TTGAAGGTCGCTGCAACCGACCCCAAGTTGAAGGGGTTGATGTCGAATGT GGGGCAGCAGCATCTGCATATCACTGGCATTGATCAGGCTCGTCCGTGGG CGATTGGTGCGTTGGCGCATCATGCTCCGGTGTTGGTGGTGACTGCTACT GGCCGTGAGGCTGAGGATCTCACGGCTGAGTTGAAGGCGATGATGGGCGA TAAGGTGGCGTGGCTTCCGTCGTGGGAGACTCTGCCACATGAGCGATTGA GTCCGGGTGTGGACATTGTGGGCAAGCGTGCTCAGGTGCTCAATCATCTA GGCGACCTCAAAGTCGTGGTGGCTGCTGCGCGTGCGTTTTGCCAGCCGGT ACTCAAAGATGCTGAAGGTCGTGCACCCCTCACTCTTAAAGAAGGCGCGG AGTTTGATTTCTCTGCCCTGACCACTGAGCTGGTTTTCCGTGCGTACAAG CATGTCGATATGGTGGCCAAGCGCGGTGAGTTTGCTACCCGCGGTGGCAT TTTGGATATTTTCCCCACCACATTGGATTATCCGGTGCGTGTGGAGTTCT GGGGCGATGAAGTCTCTGACATTAGGCAGTTCTCTGTCGCCGATCAGCGC ACCATTCCAGAAATCACCATCAAGAGCATTGAGATTTTCCCGGCACGGGA ATTGCTCATTACTGAAGAAGTGGCATCGCGTGCGGAGTCTCTTATTTCTA AGCACCCGGGCAACCCGACGCTTGTGGAGATGCTGTCGAGGATTGCGGAT TCCCAAGATGTTGATGGCATGGAGGCGTTGATTCCGGCGCTGACGGATAC GCCGATGGTTCCGATGCTGGAGCTCATGCCGGAAAACACCCATGTGTTGG TGATTGCTCCGGAGAAGGTGCGCCGACGCATTGCGGATCTGGAAGCAACC GATGCTGAGTTTTTGATGGCTGGTTGGGAAGCAGCTGCGATGGGTGCTGA TGGTCCAGTGGCTGCGGAAGGCCTGGACTTGGAAGCTTCTAGCTATCGCA GTTATGAAAGTTTGGAGGTTTCTGCGTCGAAAAGCGATGTGCGTTGGTGG ACTTTCGCGCCGCCGGGCATGTTTGAGGCCTCGGAGGAGGCGACGCTGCC GCTTGATTTTGAAGCCGGGCCGGCGCCGCGCGGTGAGCTGCCGAAGATCG ATGCGATGATGGCGCAGCTGCTTGCGCACACAACCGGCGGTGGGCGGGCT GCGTTTATCGCGCCGACCCAAGGTGCGATTAAGCGCATGGTCGATCGTTT CGCGGAAAAGGGCATTCCCACCCATGTGGCGACCCCGGGTTGGGAGCCAA CGCCTGGTCAAGTGACTCTTTATCATGCGCTGAGCCATGCTGGCCTGGTG TTTCCGAAGGTGCGTAAACACCGCGATGGCGCTGCAATGCCGTTGGTGGT TATTACAGAAACCGATCTGACTGGTAACCGTGTTGGCGATATTGCAGGGG CGAAACGTCGACCTGCAAAACGCCGCAACAAGGTGGATCCTTTGGCGCTG GAGCCAGGGGATTTGGTGGTTCATGAAACCCACGGCATTGGTCGTTTTGT GAAGATGACTGAACGAACCATTTCTGCGGGTGATGAGACCTCGCGCCGTG AATACATTGTGCTGGAGTACGCGCCATCTAAGCGCGGACAGCCCGGCGAT CAGCTGTATGTGCCGATGGATGCGCTGGATATGCTCAGCCGCTACGTCGG TGGCGAGAAGCCGACGCTGTCCAAAATGGGTGGTTCTGACTGGAAGAACG CCAAGAAGAAGGCTCGCGCTGCCGTGCGTGAAATCGCCGGTGAGCTGGTA GAACTCTACGCTAAGCGCCAATCCGCGCCGGGTCACCCGTTTGCGCCGGA TACGCCGTGGCAAAAAGAGATGGAAGATAACTTCCCCTACGTTGAGACCG AAGACCAGATGTTGGCGATCGATGCGGTCAAGGAGGACATGGAGAAAAGT GTCCCCATGGACCGCGTCATCATCGGCGATGTGGGTTATGGCAAGACGGA AGTGGCGGTGCGCGCGGCGTTCAAGGCTGTGCAAGACGGCAAGCAGGTAG CCGTTCTGGTGCCCACCACGTTGCTTGCGCAGCAGCACCAGTCCACGTTT GAAGAGCGTATGACTGGTTTCCCTGTCACCATCAAGGGATTGTCACGCTT TACTTCGCCTGCGGAATCGCGGGAGATTCTCTCCGGTTTGGCTGCAGGAT CGGTGGATATCGTCATCGGTACTCACCGTTTGCTGCAGACTGGCGTGCAG TGGAAAAACCTAGGGCTTGTCATTGTGGATGAGGAGCAGCGTTTCGGCGT GGAACATAAGGAGCACATCAAGGCTCTGCGTACTCACGTGGATGTGCTGA CCATGTCCGCGACCCCGATTCCGCGCACCCTGGAAATGTCCATGGCCGGT ATCCGTGAGATGACCACCATGCTCACCCCGCCGGAAGATCGCCACCCAAT TCTTACCTATGTGGGACCGTATGAAGACAAGCAGGTCGCGGCATCAATTC GCCGTGAGCTGCTGCGCGATGGCCAGGTCTTTTTCATCCACAACAAGGTG GCAGATATTGAGAAGAAGGCCCGCGAGATCCGCGATCTAGTTCCCGAAGC CCGAGTGGTCGTTGCCCACGGCCAGATGAGTGAAGAGCTGCTGGAACAAA CCGTTCAAGGTTTCTGGGACCGCGAATACGATGTGCTGGTGTGTACCACC ATCGTGGAAACTGGTCTGGATATTTCCAACGCCAACACGCTTATCGTGGA AAATGCCCACCACATGGGCTTGTCTCAGCTGCACCAGCTGCGTGGCCGCG TGGGTCGTTCCCGTGAGCGCGGTTACGCCTACTTCCTGTATCCAAAGGGC GCGACACTGACTGAAATGTCCTACGACCGCCTGGCAACGATTGCCCAAAA CAATGATTTGGGTGCCGGTATGGCGGTTGCCATGAAGGATTTGGAAATGC GTGGCGCCGGCAACGTGCTGGGTGCAGAACAATCAGGCCATATCGCTGGC GTGGGCTTTGACCTGTACGTTCGCCTCGTCGGCGAAGCAGTGGAAGCCTA CCGCGCGCTGGCTGATGGCAAAGTTGTTGATGGCACCGTCAAGGGACCAA AGGAAATCCGCGTGGACCTTCCCGTGGATGCCCACATTCCCGAAAAGTAC ATCAACGCCGAGCGTCTGCGTCTGGAAATCTACCGCAAGCTCGCGCAGTC CGAATCGGAAGTGGATCTGCGCCTTGCGGTGGAAGAAATGGAAGACCGCT ACGGTCCCATTCCAGAAGAAGTGGAGCGCCTGCTGGCTGTGTCCAGATTG CGCCACCTCATGCGCGAAGCCCACCTCACCGACATTGCGGTGCAGGGCAC GCGCATCAAGGTCCACCCCGTTGACCTCGCCGATTCGCAGCAAGTGCGCC TAAAGCGCCTGTTCCCAGGCGCCACCTACCGCGCAGCCGCTAAAGCAATC CAGCTGTCTTTCCCGAAGACAGGCAACAAGGTCACAGATCCTTTGCTTCG CGACGTCGACCTCCTCCAGTGGGTAGCGAACTTCATTTCCAACATGTTCA ACTTGGAGGAAATCGATGTTCGCGGACCACAACCAGGAAAGCCTAAGAAG AAATCATCAGTGATCTCCGTCAGCCTGTAA >gid:511334 Cgl1024 Exonuclease VII small subunit ATGACCAATCCAGATATCGTCGGTTCCGGCCAAGGCAACGATTCCTTCGA GCCAGTCGCCCAATTATCCTACGAGCGTGCACGCGATGAACTCGTTGAAA TTGTAAAAATTTTGGAGCTCGGCCAAATGGGCCTCGACGAATCCCTCAAA TACTGGGAGCGCGGCGAAGCCCTAGCAAAGCGCTGCGAAGAGCACCTGGC CGGCGCCTCAGCGCGCGTCGAGCAAGCATTAAACCAGGCAGAATAA >gid:511335 Cgl1025 Exonuclease 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 >gid:511347 Cgl1037 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 >gid:511352 Cgl1042 Hypothetical protein ATGGCCGATAAACGCCGCGCAAAGACCATGATGCGCGAGATTGTTGACCA GATGCGGCTACTGAAAGGACAAGCGAATCGAGAACTTGCACAACTAGGCC GCAGCCTACACAAACGCCTCGGTGACATCCTGGCGTATTTCGATGTCGGA ATCTCTAACGGACCCGTAGAAGCAATCAACGGACGACTCGAACACCTCCG CGGAATCGCCCTAGGATTTCGCAACCTCAACCACTACATCCTGCACTGTC TCATCCACTCCGGACAACTCACCCACAAAATCAACGCACTCTAA >gid:511353 Cgl1043 Hypothetical protein TTGCTTGATGTAGTCGAAGGCCGCAGTGCTGATGCGTTGCGGGCGTGGCT TGCACGCCGAAGCCCAGCATTTCGACACCAAGTACGCATTGTAACTATGG ATGGATTCCAAGGCTATGCCACAACCAGCAAACAACTTCTGCCCGCCGCA CGCCGAGTCATGGATCCTTTCCACGTGGTACTCCTCGCCGGCGATAAACT CACCCGATGCCGACAACGTTTGCAGCAGGAAAAATACCACCGGCGGGGTT TGCATGATGACCCGTTGTATAAGAACCGGAAAACCTTGCTGACCACGCAA AAATGGTTGAGTAAGAAAAAGCAAAGCGTCTTGATGAGTTGTTTAGCTTT GATAAAGACTACGCGGCACTGCAACTGA >gid:511369 Cgl1059 Hypothetical protein ATGATCACCTCACCATTTGAGCGCGAGCTGAAGCTGCTCAACGAGGGGGA ACTGGGTATTGTCCAGCAGTTGGTGGAATCAAGCAACATCGGATTCATCG TCGATCTTGAATTAGATGGCGATTATGGGTGGGCGGTCTACAAACCGGAA TTGGGGGAGCAACCCCTGTGGGATTTCCCTCCTGGCCTGTACAAACGTGA ACGTGCAGCCTTTGTGATCAGTGAGTTTTTGGGTTGGAACATCGTGCCTC CAACGGTGATCATGCACGATGCCCCGGCTGGTGTGGGCTCGGTGCAGTGG TTTATTGAAAACAATGGCGAACACTATTTTCCACTGTTTGACACCCGCGC TGACCTGCATCCGCAGTTTGTCCGCATGGCTGTGTTTGATCTGTTGTGCA ACAACACTGACCGGAAAGCGGGCCATGTGTTGTTAGACGGCGATCATATT TGGGGCATCGATCACGGGTTGTGTTTTTCCGTCGAACCGAAGCTGCGCAC GGTGATTTGGGATTTCGCAGGCTGCACCATTCCAGATGACTTGGTGACAG ATGTTGAGCAGCTTTTGGAGGACGTCCCGGAAGAACTTCATCAGCTTCTT CATCCCGCAGAAATTGATGCGCTGCAGCGCCGTGCCTCAAGAATCAGCAG GTTACCGTTCCTTCCGCAGGCGAAATCGCATCGTCAATTCCCTTGGCCAC TTGTTTGA >gid:511376 Cgl1066 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 >gid:511395 Cgl1085 Excinuclease ATPase subunit 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 >gid:511401 Cgl1091 Hypothetical protein TTGCTTTTCGACGTGGTGATGGATCAGAAGGGCTGTCTTTTGAGTCCGTC TAACATAATCCGCATCGCAGCTGTTCTAATCCCCAATGATCAGGATCAGA TTCTCTGCGTCCGCAAAGAGGGAACTGAATTGTTCATGTTTCCCGGAGGC AAGCAGGAGTTGTGGGAGACTCCTGCACAGGCAGCCGCGAACTCGAGGAA GAAGACCTCGATCTTTATGGGCGTTTTCAGGCACCGGCAGCAAACGAACC TGGCTTCTATGTGGACTGCCATGTGTTTAGCACATTTGATGTGTTCTTGA >gid:511461 Cgl1151 DNA or RNA helicases of superfamily II ATGCAGGAAGAGGCCCTCGACGCTCTACTTTCTTTGACGGAGAAGGGAGA GAAACGTGGTGTCATTATTTCTGCGACAGGAACTGGCAAGACTATCCTGG CTGCTCTAGCTACAAGAATGCTCAAGCCTGAACGAGTTTTGTTTGTCGTG CACCGCGAACAAATTCTGGATAAGGCGCGATCCGAGTTCATCAAAGTTCT TGAACGTCCCGCTGTTGATTTCGGAAAAATGTCTGGCTCGACCAAGGAGC TAGATAAGCCGTTTGTGTTTGGCACCATCCAAACGCTGACAAAGGAAGCT ACACTTTCCCAGATCTCCCCTACTGACTTTGATTTAGTCATCGTCGATGA AGTCCATCGCGCCGGTGCCGAATCCTATTTGGCATTGCTCAATCATCTGC AGCCACAGTTTTTATTGGGCCTGACTGCTACCCCAGAGCGAACTGATGGA TTCAATATTTATGAGTTGTTCGATTTCAACGTGCCATATGAGATCCGACT TCAAGCTGCTTTAGAATCCAACATGCTCGTACCGTTTCACTATTACGGTG TCACAGACTTCACGCTTGATTCTGAAACAACGGTGACTGATACCTCCAAA CTAAGTGCCTTGGTGAGCGAAGAGAGAGTCCATCACATTCTGGAGGCCCT CAAAACTTATGGTCATCCAGAAAATGTTCGTGGACTGATCTTCTGTTCCA AGACTGAAGAGGCTGAGGAGCTGTCAAAACTTCTCGACCAGTCGTTGTTT AATGGCAGCTTGCTTAAAACCAAGGCGCTCTCTGCGAAGGACTCAATTCC CTACCGCGAAGAGGTTGTAGCTGAGCTGGAGTCCGGCGACCTGGACTACA TCTTGACGGTTGACATCTTCAATGAAGGCATTGATATTCCTTCGGTGAAT CAAATCGTAATGATTCGTAGTACTCAATCAAGCATTGTGTTTACGCAGCA GCTCGGGCGTGGACTCCGAAAAGCTGCTGGCAAAGACCATCTGCGCGTTA TTGATTTCATTGGCAACTACGCGAACAACTATCTCATTCCCATCGCATTG TTTGGCGATAATTCTCGCAATAAGAACAGCATCAGACGCCGCCTGATTGA GAGCGATATTGATGGAACAATCTCAGGTGTTTCAAGTGTTAACTTTGATC CCATCGCGCAGGAGAGAATTTTTGCTGCGTTGAAGGCTGCGAAGTTGGAC TCAAAAGCACAATTCAAGCAGGATATTGTTCAGCTTCAAGATCGACTCAA TCATGTGCCAGCACTGTTAGACTTCGCTCGCTTCAATACTGTTGATCCGT TTATCCTTGCCACGCATTCTGGCAACTACTGGTCGCTGCTCAGTTCAGTG AAGTTTGTCGATCACGCTCCCAGCGAATCGGAGAAGTACTTTCTGGATTT CCTTACCGGAGAGCTTCTTAACGGCAAGCGACCTCATGAGCTGTTGCTGA TCCAGGAACTAATGAAACAGCCTGAAACTTCTACTGAAGAATTCCGTAAG CTCTTGCAGGCCCAATCGACTAGTTCAGATGAGCAAACAATCAACTCGGT TGAAAGGATTTTGAGCCAAGAATTCTATACGGGACCAAACCGCAAGAAGT TTGGCGAACATCCGATCCTCTCTGTTCAAAACCGCACCTACTCTTTTACT CCCGAGTTCCGACGTGCCCTCGACGAAAGCCTAGAAGTGACGGACCGAGA TGAGGCTGCTCAGAATTTTAAGTTTCACGTCCAAGACATCATCGACACTG GTTTGTTTATCGCCAGAAACAATGGATTTTGGCAAGGAAACCTCGTTGTT GGCGAGAGATACTCCCGACGAGATGTCTGCCGAATTCTCAATTGGGAACG AAACAACGAGAGCACGATTTATGGATACAAAGTGGACAGTTACACATCTA CTTGCCCAATCTTTGTGACCTATCACAAGGCTGATGATGTATCCGAAAGT ACTCGTTACCAGGATGAACTCGTCGATCCGAATACCCTTCATTGGTATTC CCGCGGCAACCGAAAGATCACGTCTAATGAGATCAAGCCCATCGCTGCGA ATGCTGTGGATCTTCATGTTTTTGTGAAGAAGGACGATGCCGAAGGCCTT GATTTCTTCTACCTTGGTCAAGCGCATTCAGAAAACAGCAAACAGTCATC GATGCCCGGAAACAAAGGAGTTGTGCAACCGGTGGTCACAATGGATCTAC AGTTCGACACACCCGTCGAACAAAGCCTGTTTGAGTACCTGAGCACAAAT CTCGCCGTAACGGAGTAA >gid:511463 Cgl1153 NTP pyrophosphohydrolases including oxidative damage repair enzymes GTGAAGAAACGCATCAATGTAACCGGCGCCGTCCTAGTCAAGGAAAACCG TATCCTTGCAGCACAACGTGGTCCAGAGATGTCACTTCCCGGATATTGGG AGTTTCCGGGAGGAAAGATCGAGCAGGGCGAAACTCCAGAAGCTTCACTT GCACGAGAGCTCAAAGAAGAATTGCTTTGCGACGCCACCGTAGGCGAACA CCTCACCACTACAGAGCACGAGTACGACTTTGGAATCGTCGTGCTTTCCA CCTACTTCTGCACACTAAATGATGCAGAGCCTCAATTGACCGAGCATGCT GAGATCCGCTGGGTGGCACCACACGAATTGGAATCTTTGGAGTGGGCACC TGCTGATATTCCTGCGGTGAAACTTCTCGTCGAGCAGCTTGCTTAA >gid:511466 Cgl1156 Superfamily II DNA and RNA helicases ATGAGTAATACCGAGAACGTCAACGGCGACGTAGAACAGCCGAATAACGT CATTTCGTCGGAATCTCAGGAAACCCCGCAGGGTGACTCAGCATCAGCTG ACTTCGCTCTCGAAACCCCAACCAACACTGTTGAAGATGCACCAGCATCT GAGGGTAGCGAAGAGATCACCAGGGTTGCGGATACTTCTGAGGACGCCGA CTCTGCAGATGCAGACAACGCGAGCAATGTAATCAATGAGAATGAGGACT CCTCGGAAGGTGCTAACCAGCCTTCAAACGAGTCATCCTCTACGGAAGCC AAATCCGGCTTCGATGCACTCGGACTGCCAGAGCGTGTTCTTGACGCTGT GCGCAAGGTGGGTTACGAAACTCCTTCCCCAATTCAGGCACAAACCATCC CAATCCTCATGGAGGGCCAGGATGTTGTTGGTCTAGCACAGACCGGTACC GGTAAGACTGCAGCTTTCGCGCTGCCAATCCTTGCCCGTATTGACAAGTC CGTGCGCAGCCCACAGGCACTTGTGCTTGCCCCTACCCGTGAGCTGGCAC 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 >gid:511474 Cgl1164 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 >gid:511476 Cgl1166 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 >gid:511526 Cgl1215 Predicted nuclease of the RecB family ATGCGTTTAGTCATCGCCCGTTGCTCAGTTGATTATGTTGGCCGTTTGGA AGCTCATCTTCCGTCCGCCGATCGCCTTTTGATGGTTAAGGCGGATGGTT CTGTATCCATCCATGCCGATGACCGTGCCTATAAGCCACTGAACTGGATG ACACCTCCATGTTCTTTAGTTGAAACTCCCATCACTGATGAAGATGGTGA AGCAACAGGGGAAAGCCTGTGGGTGGTGGAAAACAAAAAGGGCGAGCAGC TTCGAATTACTGTGGAAGAAATTCATTCGGAACAAAACTTCGATCTAGGC CAAGACCCAGGTTTGGTGAAAGACGGAGTGGAAGATCATCTCCAAGAGCT TCTTGCAGAGCACATCACTACGTTGGGTGATGGGTACACATTGATTCGTC GGGAGTATCCAACAGCTATTGGGCCTGTCGATATTTTGTGTCGCAACTCT GACGGCGAGACTGTCGCTGTGGAGATCAAGCGTCGTGGTGGCATCGACGG CGTTGAGCAGTTGACCAGGTATTTGGAATTGCTCAACCGTGATGAATTGC TCAAGCCTGTTCATGGAGTGTTTGCAGCCCAGGAGATTAAGCCTCAGGCA AAGACTCTCGCGGAGGATCGTGGCATCAAGTGCGTGACGTTGGATTATCA AGCGCTTCGTGGCATTGAGTCCAATGAGCTGACATTGTTCTAA >gid:511549 Cgl1238 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 >gid:511554 Cgl1243 Hypothetical protein ATGCGACTATTAGGGTTAGGAACCATGAACTCACCAAGCAATCCATCTCC CACCGTCCCAAGCTTCGACACCACCAAGATGCTCTCCTTCGACCTGGAAA CAACGGGCGTCAATCCCTTTGACACCCGCATCGTCACCTCCGCAATGGTT ACGATCACCAGCAAAGGCGCTGAGCCTATTGAGCTATTGGCTGACCCCGG CATCGAAATCCCCGAGGCCGCCACTGCAGTCCACGGCATCACCACCGAAC ATGCCCGCGCCAACGGCCGTCCGCACGATGAGGTGTTAGCCGAAACCATC TCCAGGCTGCGCGCCGGCTGGCAGGCAGGACTGTCGGTCATTGTCTTCAA CGCATCCTATGACCTGACCGTATTAAGAAACCATGATCCAAGCTTCACCA TCGACGGCCTAGTTTATGACCCCTTCGTTATCGACAAAGTCAAAGACCGT TACCGCAAAGGCAAGCGCACACTCACTGATATGTGTGCTCACTACGACGT TCAATTAGGCAACGCCCACGAAGCCACCTCAGATGCGCTCGCAGCCGCAC GCATCGCCTGGAAGCAGGTCCGCCTGTGGCCAGAACTCACCAAGATGACA GGCGAAGAACTCATGGAGTTCCAAGCAGTCAACTATTACGAGCAACAAAA GAGCTTCCGTAGCTATCTCATCGGGCAAGGCCGCGATGCCAGCGATGTGA ACACTTCATGGCCAGTGCAAACTGACCCCGCATCCTAA >gid:511555 Cgl1244 NAD-dependent DNA ligase (contains BRCT domain type II) 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 >gid:511600 Cgl1289 DNA polymerase III epsilon subunit and related 3'-5' exonucleases GTGTTGGGGCGTCGAAAAGCGAAAATACGGCGCGCAACCGGCGCGTTGCA GGAGTTTTATTCCGTGCCGCGGCCGGGGGCGTCGACACGCATTGAAGACC TGAAGCTTCTGGCTGTGGACGTGGAAACGACGGGCCTGAAGCCCCACCGG CATCAAATTGTGTCGATTGGGTGGGTGCCGATTAACGGCGACGTGATTGA TCTGAGCGGCGCGGGGTATGTGGTGATTCGCGGCAGCGAGGGGTTTTCGG TCGGCTCGTCTGCGGTGATTCACCAGCTCACCGACGATGAAATCGCCGCG GGTATCGACATCAAAGAGGCGCTTGGCCAACTACTGCAGGCGCTCCAGGG ACGCGCCATGCTGGCGCATTTTTCACCCATCGAGCGCGATTTTATTTCGG CCGCATGCCTCAAGCATTTCGGAACGCTTCTCGACGTCCCCCTCGTGGAT ACTTTTGCCATGGAACGCCGCCACATGGAGAGGATGTCCACCTACCCACG TGGCGAAGACCTCCGGCTTGCACGCATTCGACAACGATATGGTCTTCCCA ATTACTCCAATCACCAGGCATTAACCGACGCTTTGGCGTGCGCCGAGGTG TATTTGGTGCAGATCACGCACCTTCGGGCGAACACCCTCAAAGATATTTG GGAATAG >gid:511634 Cgl1318 NTP pyrophosphohydrolases including oxidative damage repair enzymes ATGCTGATCAACGGTCGCCTGCAACAGATCCCGGCGCGTCCCACTGAGGA ATTCACCCGCCCAACTCTTGCAGCAGGTGCAGTACTGTGGCGCGGCGACA TCACCAACCCGGACAGCATCGAGGTCGCTGTCATCCACCGCCCGCACTAT GATGACTGGTCCCTGGCCAAGGGCAAAGTCGATCCCGGCGAGTCTATTCC GACAACCGCGGCCCGTGAAATCCTTGAAGAAACTGGCTACGACATCCGTC TGGGCAAGCTGATCGGCAAGGTTACTTACCCTGTGCTCGACCGAACCAAA GTGGTCTACTACTGGACTGCCCAGGTTCTTGGTGGAGAGTTTGTCCCCAA CGATGAAGTTGATGAAATCCGTTGGCTGTCTGTTGATGAAGCATGCGAGT TGCTCAGCTACCAAGTAGATACCGAAGTTCTGGCCAAGGCAGCAAAGCGT TTCCGCACTCCTTCCACCACTCGGGTGCTGTATGTTCGCCATGCTCATGC ACATGGTCGCCAAACCTGGGGTGGCGACGACAATAAGCGCCCATTGGACA AAAAGGGGCGTCGACAAGCAGAAATGCTCGTACCCATGTTGTTGCCCTTC AAACCCACCGCAATTTACTCGGCGGTGCCCGATCGCTGCCAAGCCACCGC GCTCCCCCTTGCCGATGAGCTCGGCCTCGACGTGTCCGTCAACCGACTGT TCGGCGACGACGCCTGGGAAACCGATCCCGAGGCCTGCAAGAAGCGCTTC ACCGACGTGGTCGCGCAAGGTGGCGTGCCGATGATCGTTGGGCAGGGCGA CATCATTCCGGAAATGATCAAATGGTTCTCCGAGAACGGCACCCTCCCTA TCGATGAGAAGATCAAGGCGAAAAAGGGCAGCGTGTGGGTGTTGAGCTTT CACGACGGTGTGTTCACCGGCGCTGATTACCTGGCGAGTTCCCTGCCGGT TAAATAG >gid:511640 Cgl1324 Uracil DNA glycosylase ATGGAGAAGCTTCTAATGACCAACACCCTATGGAATTCAGTAGACGAACT CCCCATCCACGACTCCTGGAAACCAGTACTCAAACCAGTCGAAGACGCCA TCCGAAAACTCGGTGTATTCCTCGCGGAAGAAGAATTCCTTCCACCAGTA GATGACGTATTCAGAGCATTTAGCTACCCCTTTGACGCAGTAAAAGTACT GATCATGGGACAAGACCCATATCCCACCCCAGGACATGCCATGGGACTGA GCTTTTCCACCCAACCAGACGTACGACCACTGCCACGGAGCCTGAACAAT ATCTTCAAAGAGCTGGTGAGTGATGTCGGCTCTTTAGGCGATTCGGCGTC AGAGCAGGGGGCCTTGGACTTAGGTATTAACGCGCCGGGCTCTGTCGCTG GCACACAAGTTGCCTTGCCCGCGGACGGCGACCTCCGTGCATGGAGCAAC CAAGGCGTCGCATTGTTCAACCGCGTACTCACCGTCCACCCAGGCCAGGC CGGAAGCCACAAGGGTAAAGGCTGGGAAGCGGTAACCGAACAGGCGATTA AAGCCTTGGCGGAGCGGGATCAACCCTTGGTGGCAATCCTGTGGGGTAAA CAAGCCCAAGAGGTACAGAAATTCCTTGGAGATACGCCGTGTATCTGCTC AGTGCACCCATCACCGCTGTCGGCGTCGAGAGGCTTTTTTGGCTCTAAGC CTTTTAGTCGTGCGAACGAAATCTTAAGCAGCCTCGGTGCCACCGAGATC GATTGGTCGCTGTAA >gid:511642 Cgl1326 RecG-like helicases 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 >gid:511644 Cgl1328 N6-adenine-specific methylase ATGGGTCAAACCCGCATCATTTCCGGCGACGCACGCGGCCGCAAGATCGA AGTACCACCAGCAGGTACCCGCCCCACCTCTGACCGCGCACGCGAAGGTC TCTTCTCCTCACTGCAGGTCCGTTTCGGATTTGAGGGCCAGCGCGTCCTC GACATTTTTGCCGGCTCCGGCGCACTCGGATTGGAAGCTGCCTCCAGGGG TGCCGATGAGGTAGTTCTGGTCGAGTCGAATCCTAAGGCCGTAGAGGTAA TTCGACGGAATGTGGACGTCGTAAAGCATCCTCGCGTAACCGTCGCAGAG ATGAAAGCATCCACCTACCTTGCGTCCGCACCCGATAAGTTTTTCACGAT GGTGCTCGCCGACCCGCCCTATGAGCTTGCCGACGACGCCGTCACCGAGA TGCTCACCGCATTGACGCCTAAGCTTCTCGACGGCGCCGCCGTGGTCGTG GAACGCCACGTAGACTCGCCAGAAACCGCATGGCCCGCCTGGCTGGTACC CACCACCCAGAAACTTAAAAAACGAACCTACGGCATAGCACGCATGGACA TGGCCGTTTTCGACGAATCTCTGCTTCAGGAGTAA >gid:511651 Cgl1336 Integrase ATGCCCTTTTCTCACGACAAATCTGAACTCGGTGGGGAAACCCCCTACGG GCTTGTACATGTTAACCCTATGGCTGAAGTGCGACCTGTAAAAGCACAAA CCAACGAGCCCCAAGCACTGCAGGTTGCTGACATTCAACCCTTTCACGCT GTTATTGCGGCCTCAAAACAATTGACTCTCATCGACGTTGTCGATGTCTG CCTTGGAACAGTGTTGCGAGCATGGGAAGCACTGAGCCTGCGATGGGTAG ACGTGGTGCTTGACGAGGAGCATCCAAGAATCTTTATCCGAGGCACCATT GTCTACAACAAAGAAAAAGGTAACCACAGACAAGATAAAACAAAAACGAC CAGCAGTAGGCGTGTCATTCAGTTGCCAGAAATTGCCTCAGACGTCTTAC GCAAAAGACATGCACTCTACGCCGAACATCTCGAAATGGTGTTCCCTTCC GCTAGAGGCACATATATTTATGAGTCCAATTTCAACAAATTGTTGCGAAA ACACCGAAAGGGTACTGCATATGATTGGGTGACCGTGCACAGCATCAGGA AAACCCTTGCATCAATTGTCTCTGAGAACCTTGATTCCAAGGCCGCATCA GACGTACTCGGCCATGCTGACTCACGACTCACAGAACGGGTCTACATCGC TAAAACTGACAAAGACGTTCCGATTGGTGATGTCGTCAACCAAGCGCTCA AAGAGGCACGAAAAGTCTCCAAAAAGTCTCCAAATAAAGAAGCTAAAGAA GAAGAATAG >gid:511659 Cgl1343 Hypothetical protein ATGAGGCAGTCATTGGGATCAATTGGCACCAGTGCTGACAACGCGTTAGC GGAGTCGTTCAACGCCGCACTCAGGCGGGAAGTCCTCCAAGATTCTAAGA CTTTTGCGAACTAG >gid:511663 Cgl1347 Hypothetical protein ATGAAATACTTTGCACTAAACCGAGACAACCTCATCGGACCTGCAGTAGA AATCCTTGCACCTCTTGGATGGGCGTCATACGGGCTGTGGCATCGGCGCG GCACTGAGCAGATTGTGGAGCTTGCTCGCCGTGGTACTGACAGCGCGGAG ATCGATGCCCTTGTTACACAACAGTGGAACAATACCAGTGAATCCTTTCT TCACCATGTAGCCATTCCACTTCGGCGTTATGGCCGAGGTATTGATTACA GCTTTCAGCGACTTCAATTTCAACGAGGAAATCTCATCGACCAGGCAGTG AAGTGTCATGAGAATGGTAATTACGCAGCCGCTATCCTTCTGACTTTTCC CAAATCGATGGGCTTACCCGAGATATAA >gid:511670 Cgl1353 DNA polymerase I-3'-5' exonuclease and polymerase domains TTGGGTGAATGTGTCGCTAATTTTTCCACTCGCCTACACTCGGGAGGCGT GACTGAGAAGACTGACCAGACCTTAATGCTTATCGACGGCCACTCGATGG CTTTCCGCGCATTCTTTGCTTTGCCGGCTGAGAATTTCTCCACGTCGGGC GGGCAGGCCACCAATGCTGTCTATGGCTTTCTCTCGATGCTGTCCACGTT GTTGAAGGATGAGCAGCCTACTCATGTGGCGGTGGCTTTCGATGTGGGGC GTAAGACGTTCCGTACCGATATGTTCCCGGCGTATAAGGCGCAGCGTGAA GCAACGCCACCTGAGTTTAAGGGCCAGGTGGAAATCCTCAAGGAGGTGTT GTCCACTTTGGGAATTACGACTATTGAGAAAATCGATTTTGAGGCTGATG ATGTGATCGCCACGTTGTCTGTGGCGGCGAAACCTTTAGGCTTTAAGACG CTGATTGTTACGGGTGACCGTGATTCCTTCCAGTTGGTCAATGACACCAC CACGGTGTTGTATCCGATGAAGGGCGTGTCTGTGCTGCACCGTTTCACGC CGGAAGCAGTGGAGGAGAAGTATGGACTGACACCGAGGCAGTATCCGGAG TTTGCAGCGCTGCGTGGTGATCCTTCCGATAACTTGCCTAATATTCCTGG CGTGGGCGAGAAGACTGCTACCAAGTGGATTGCCCAGTATGAAACTTTGG ATAATTTGCTTGATCACGCTGATGAGATCAAGGGCAAGGTTGGCGCCAGC CTGCGTGAGCGCATTGAGCAGGTCCGGATGAACCGCAAGCTCACGGAGAT GGTGAAGGATCTGGAGCTGCCGCTTGGTCCGGACGATTTTGAGATGAAGC CTGTGCAGGTTGCGGAGGTTGCGGCGAAGTTTGACGATCTGGAGTTTGGT ACCAATTTGCGTGAGCGGGTGCTGGCGGTGGTGAAGGCCGAGGGTTCCGC TGCCCCCGTGGAGGAAGTGGAAGCGGAACAGGTTGTCGTCGATACGCAAT CTTTGGCGCAATGGCTGCCTGCTAGGGCTGGCCAGGCGCTTGCTTTAGCG CTGGCTGGAGTGGCTAAACCTGCTGCTGGCGACACGTATGCGCTAGCGAT TGCGGATACCAAGCGCCATGCGGTGTTGGTTGATGTGGCTGATATTTCAG CGGAGGATGAAAAGGCGCTGGCCACGTGGTTGGCGTCGGAAGATCCAAAG ATGCTGCACGGCGCTAAGGCCGCCTATCATATGCTCGCTGGGCGCGGTTT TGAGCTGCACGGCGTGGTGCATGACACGGCGATCGCGGCATACTTGCTGC GTCCGGGCCAACGCACCTATGAGCTTGCCGACGTCTACCAGCGGCATCTT CAACGACAGTTGTCTACAAACGACAATGGCGGCCAGCTCACGCTGCTCGA CGCAGCTGATGACCAATCGCTTGTTGATGATGTCATTGCAATCCTTGAGC TGTCTGAAGAATTGACCAAACAGCTTCAGGAGATTCAAGCTTTTGAGCTT TACCATGACCTGGAAATTCCGCTGTCGGGAATTCTGGCGCGCATGGAGGC CATCGGTATCGCTGTTGATGTTGCCACTTTGGAAGAGCAGTTGAAGACTT TCATTGGTCAGGTTGCTCAGGAAGAGGAAGCAGCTCGCGAGCTCGCTGAG GATCCAACCCTGAATCTCTCGAGCCCGAAGCAGCTGCAAGTGGTGCTTTT TGAGACGTTCGGAATGCCGAAAACCAAGAAAACCAAGACCGGCTACTCTA CGGCTGCCGCGGAAATTGAAGCCCTAGCGATCAAGAATCCGCACCCATTC CTAGATCACCTGTTGGCACACCGTCAGTACCAAAAGATGAAGACCACTCT GGAAGGTCTCATCCGTGAGGTGGCTCCTGATGGCCGTATTCACACCACCT TCAACCAGACGGTGGCGTCTACGGGACGTTTGTCATCCACTGATCCCAAC CTGCAAAACATTCCTGTGCGCACTGAGGCTGGCCGAAAGATTCGTTCGGG ATTCGTCGTAGGCGAGGGGTATGAAACCTTGCTGACTGCCGACTATTCGC AGATTGAAATGCGCGTGATGGCTCACCTTTCCCAGGACCCAGGCTTGATT GAGGCGTACCGCGAAGGCGAAGACCTGCACAATTACGTGGGTTCCAAGGT GTTTAATGTGCCCATCGATGGCGTGACCCCTGAGCTGCGTCGCCAGGTCA AGGCCATGTCTTACGGTCTGGTGTACGGCTTGTCCGCGTTTGGTTTGTCT CAGCAGCTGAGCATTCCTGCTGGCGAAGCGAAGCAGATCATGGAGTCCTA CTTCGAGCGCTTCGGCGGAGTACAGCGCTACCTCCGGGAGATCGTGGAGG AGGCTCGAAAAGCTGGCTACACGGAAACGCTGTTTGGGCGTCGTCGCTAC CTGCCGGAACTGACCTCGGATAACCGTGTCGCTCGTGAAAACGCTGAACG TGCCGCACTGAACGCCCCGATTCAGGGAACTGCCGCAGACATCATCAAGG TGGCCATGATCCGGGTGGACCGTTCACTCAAGGAAGCTGCCGTGAAATCT CGCGTGCTGCTTCAGGTGCATGATGAATTGGTCGTGGAAGTAGCGGCCGG TGAGTTGGAACAAGTCCGTGAGATTCTGGAACGCGAAATGGATAACGCCA TCAAGCTGTCCGTTCCTTTGGAAGTTTCAGCTGGTGATGGCGTTAACTGG GATGCTGCAGCGCACTAA >gid:511686 Cgl1369 Helicase subunit of the DNA excision repair complex ATGGCTTTTGCTGCTGAACATCCTGTCCTGTCCCACTCTGAGCACCGCCC GGTTGGTGAAATCGAGCGTAGCGATGACAAATTTGTTGTCGTTAGTGAAT TTGAGCCTGCGGGTGACCAGCCTGCGGCTATTAAAGAGCTCGATGAGCGC TTGGATCGCGGTGAGCGGGACGTCGTTTTGATGGGTGCTACTGGTACGGG TAAGTCCGCGACTGCGGCGTGGTTGATCGAAAAGCAGCAGCGCCCCGCTT TGGTGATGGCGCCGAATAAGACGCTGGCTGCGCAGTTGGCTAATGAATTG CGGCAGCTGTTGCCCAATAACGCGGTGGAGTATTTCGTGTCTTATTACGA TTACTACCAGCCAGAAGCGTATATCGCGCAGACTGATACCTATATTGAAA AGGACTCCTCGATTAATGAGGATGTGGAGCGTCTGCGTCACTCGGCGACG TCGTCTTTGCTGAGTAGGCGAGACGTCGTGGTTGTTAGTTCGGTGTCGTG TATTTATGGCTTGGGCACTCCACAGTCTTATCTTGACCGTTCCGTTGTGT TGAACGTGGGGGAGGAGATCGACCGCGATCGCTTTTTGCGCCTATTGGTA GATATTCAATACGAACGCAATGATGTGGGCTTTACTCGTGGTGCTTTCCG CGTGAAGGGCGATACCGTGGACATCATCCCGGCCTATGAGGAATTGGCGG TGCGCATTGAGTTTTTCGGTGATGAAATTGATGCGTTGTACTACATCCAT CCCCTGACTGGTGACACCATCCGGCAGGTGAATGAGATCCGTATTTTCCC AGCTACGCACTATGTTGCGGGACCTGAGCGGATGGAAAAGGCAGTCGCTG ATATTAAGGCGGAGTTGGAAGTGCGCCTGGCTGATTTGGAGAACCGTGGC AAGTTATTGGAAGCGCAGCGTCTTAGGATGCGTACTGAATATGACTTAGA AATGATCGAGCAGGTTGGTTTCTGTTCGGGCATTGAGAACTATTCTCGCC ACATTGATGGACGTGGGGAGGGAACCGCACCGGCCACGCTGATTGACTAT TTCCCAGAGGATTTCCTCACCATCATCGATGAGTCTCACGTGACAGTCCC GCAGATCGGCGGCATGTTTGAGGGCGATATGTCCCGTAAACGTAACCTCG TAGAATTCGGTTTCCGCCTGCCATCCGCGATGGATAACCGCCCATTGACC TGGGAGGAGTTCGATGAACGCCGTGGCCAAACGGTGTTCATGTCTGCAAC TCCAGGCAAGTTTGAGATCGCTGCTGCTGATGGTGAGTTTGTGGAGCAGG TCATTCGCCCAACAGGTCTGGTGGATCCAAAGGTCACCGTCAAGCCAACG AAGGGGCAGATTGATGATCTGATCCATGAAATTCGCCAACGCACCGATAA AGATGAGCGCGTTTTGGTCACCACATTGACCAAGAAAATGGCTGAGGATC TTACTGATTACCTGCTGGAAAACGGCATCCGCGTGCGCTACCTGCACTCA GATATTGATACCTTGCAGCGTGTGGAATTGCTGCGTCAGCTTCGCCTGGG CGAATACGATGTGTTGGTAGGTATTAACCTGCTGCGTGAGGGCCTTGACC TGCCAGAAGTCTCTCTGGTTGCGATTCTCGACGCCGACAAGGAAGGCTTC CTGCGCTCCACCACCTCACTGATTCAGACCATTGGCCGCGCCGCCCGAAA TGTGTCCGGCGAGGTCATCATGTACGCCGACAAGATCACTGATTCGATGC AGTATGCCATCGAGGAAACCGATCGACGCCGTGAAAAGCAGGTCGCTTAT AACAAGGAACACGGCATCGATCCGCAGCCGCTTCGAAAGAAAATCGCGGA CATCCTCGACCAGGTCTATGACAATTCCGCTGATGGAGCAGGACCTTCTG CCTCTGGCGATGCGGCAGTCGTGGCTAAACCTGACGTGTCTAGCATGCCC GCCAAAGAAGTGCAAAAGCTTATCGACGACCTCAGCGCTCAGATGGCTGC GGCCGCGCGGGAGCTCAAGTTCGAGCTGGCAGGGCGTCTGCGAGATGAGA TCTTCGAGCTCAAGAAGGAACTGAGAGGTATCAAGGATGCCGGCATCTAA >gid:511690 Cgl1373 Hypothetical protein TTGATAGCTCCCAAGTGTTGTATCTATTCCAGTTCAAACACTTTTTCTCA CTGCTCCACATCAGGAAACAGGAGGTCTCCCGGAGTGACCACCATTCGGC AATCTGATTCAGAATCAGATGTCCATAACGCCCTCACCACAGCAATTAGC CAAGAACAGGCTTATGTTGATGTACTTTTCGGTCGCCTCGATGATGAGGT AGCCAGGTCTAATCAGCGTCTTTCTGAGGTGATGAAAGACGTCGACCCCT CAAACCCTGATCCGGAAGCACTTGTTCGTCGTGAAACTGAGTATCACGGC CTGAATGAGAAGTTGGACCGGCTTAATTTGGCTCAACTCGGGTTGGTCTT CGGTCGAATCGATGTGGAGTCTGAAGCTGAGGACGCTGAGAACCCGGTCC CGGGCCACCCTGATTTGGATCGTCGTTATATCGGTCGCATGGGTCTTGAT GTGCGTGAAGATAATTACCGCACGTTGCTGTTGGATTGGCGCTCCCCCAT GGCGCGCCCGTTTTATCTGGCCACCACCGTTTCACCGGAGGGCGTGCATA TCCGCCGGCACATTCGCACCCGTGGGCGCGTTGTCACGGGTGTTGATGAT GAGGTATTGACCGGTGAGATGGCCGATGTTATCGAGCAGGGTGGTGTCGG CTCTGAATCTGTGCTGCACCAGGCGTTGGAACAGGCCCGCAGCGGCCACA TGCGCAACATCGTTGAAACAATTCAGCGCGAGCAGGATGAGATCATCCGC GATACCACCCGCGGTGTCATGGTTGTTCAAGGTGGCCCTGGAACAGGTAA AACTGCGGTCGCGTTGCACCGTGTGGCTTATCTGCTTTATACCTGGCGCG ATCAGCTGGCTAAGTCTGGCGTGTTGATCATTGGCCCGAACAAGACATTT TTGGAGTATATTTCTCACGTTTTGCCTGAACTCGGCGAGACTGGCGTGGT GTTGTCCACCGTCGGTGAGCTGTTCCCCGGTATCGTCCCAACGGGTTCCG AGGACACTTTGACCAGGGAAATTAAGGGCAGCGAGGAAATGGCCAGCATT TTGGCCGAGGCAGTCAAGGCGTATCAAGTGCTGCCAGAGAAGACCATCGT GGTCTCTGTTGATGGCATCGAGATTTCCATTGATGAGAAAACGGTGGCAA AATCCCGCACCCGAGCTCGTCGTGCCAGGCAGTCGCACAATTCCGCACGC CCAATTTTCCGCGAGCATTTAGTCGAACAACTCGCGCACCAAATGGCTCA AACGATCGGCGCGGATCCGCTGGGCGGCAAAAACCTGCTGTCAGCCGCCG ACATCGATCAGCTGCACGATGATTTGCTTGACGACGCGGCCCTCCAGTCC GTCATCGACGATTTCTGGCCGGAGCTCCGGCCTCAGGACGTCCTGCATGA TCTGTTGATTTCCGAAGAGCGCATTAATGTTGCTGCCGCGGGGTATGACG AGGAAACTAAGTCTGCTTTGCTGCGTGGTGAACTCGATCCGTGGGCACCA TCGGACGCTGCATTGCTTGATGAGTTAGCCCTGCTCATCGGTCTTCCCGA TCCAGAGGAGGCACGGGAGAAGGCTGAGGCCAAATGGCGCGAGCAGATCG ATGACGCTCAGGAAGTCCTGGACGTTCTTAGTTCATCACAGTCATCGGAT ATTGATGATGTCACGGAAGCTGAAGTTCTCTCCGCTTTCGACGTCATCGA TGCGGAAACTTTGGCACAACGCCAAACTGTCACGGATAATCGCACCACTG CGGAACGTGCACAGGCGGATCATAAGTGGGCGTATGGTCACGTGATTGTA GATGAAGCTCAGGAGCTCAGTCCGATGGAATGGCGCATGGTGTTTCGCCG TAGCCCTTCGCGATGGATGACCCTTGTGGGCGATATTGCTCAAACTGGTT CGCCTGCCGGCGTTGACGATTGGGCAGAATCACTGTGGCCCTTCGTCGAA AAGCGTTTCAGGCACCACGAGCTCACCGTTAACTACCGCACCCCGGCCGA GATCATGTCGGTGGCCAATGAGCTTTTGACGCAGATCAATCCTGATATTG CGCCGGCAATGGCGATCCGCGAATCTGGTCGAGAGGTAGTGAACTTGCCG CTTGATGCCGATTTGTCGGCAGTGATGGATAGTTTGCGTGAGGAGGATTC ACAGCGCACCATCGCGGTGATTTCTTCGCGCCGCCACCACGAAAGCGATT TCTACCTGGTCGATGACATCAAGGGCTTAGAGTTTGACCACGTCATCGTG GTGGATCCTGCGGGAATCGTTGAAGAATCCCCCCAGGGATTGCAAGACCT CTACGTTGCGGTCACTCGTGCAACGCAGAGCCTCACCATTTTAGGTGAGT AG >gid:511693 Cgl1376 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 >gid:511734 Cgl1414 ATPases involved in DNA repair 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 >gid:511738 Cgl1418 NTP pyrophosphohydrolases including oxidative damage repair enzymes ATGCACATTCCCGGTACCCATGAGTTCACGGTGACAGATACTGAACTGTT GTTAGAGTCCCCAATTTTGGGCGTTCGTCGAGATTCATTGATCATGCCGG GTGGTTCCACTGCCCGCCGTGAAGTGGTTGAACACTTTGGGGCGGTCGCA GTGGTTGCCTTTGATGGTGAAAACATTGCGATGGTCAAGCAGTACCGTCG CAGCGTGGGGGATTCCTTGTGGGAGCTGCCTGCAGGTTTGTTGGATATTG CTGATGAGGATGAACTCACGGGCGCGCAGCGCGAGCTCATGGAGGAGGCT GGTTTGGAGGCCAGTGAGTGGTCCGTGCTCACTGATTTGATTACCTCGCC TGGTTTCTGCGATGAAGCGGTGCGTGTCTTTCTAGCCCGAGGCCTCACAA AGGTTGAGCGCCCGAAGGTTATGGGCGATGAAGAAGCGGACATGATTAAC CAGTGGGTTCCGCTACATGAGGCAGTGGGAATGGTGTTTAGTGGCCAGTT GGTTAACTCCATTGCCATTGCGGGTGTCATGGCTGCTGATGCTGTGATTG CGGGTCGTGCGTCTGCGCGTGCCGTCACCGCGCCGTTTACCTATCGCCCT ACGGCGTTGGCGCAGCGTCGAAAAGCGCACGGCATTGTTCCTGACATGAA AAAACTATGA >gid:511739 Cgl1419 Integrase ATGAAGGCTCGCGTTTTAGCGAAAACATGGCTGACACATTTGGCCGTGGA GCGTGGCTTGTCGGCAAATACGCTGAGTAATTATCGGCGCGATGTGGAAC GCTATTGCGACTGGCTCGAGGCAGCTGGGCTGGATGATATTCGTGATATC ACCACCGCGCATGTGGAAAGTTATGTCAAAGACCTGCGCCGCGGGATTGA TGGACAACAAGCGTTGTCTGCGTCCTCGGCAGGTCGCGCGCTCATCGTCG CGCGCGGGTTGCACAAGTTTGCATTGATGGAGGGCGAGGTGGCTGCGGAC GTTGCGGCTGATGTGTCGCCACCGGCCATGGGCCGGCATTTACCTGACAC GCTCAGCATCAACGAGGTAGCCCTGCTTATCGACGCGATCCCACATTCAG ATATCGCCACTCCCGTTGATCTCCGTGACCGAGCGCTGGTGGAATTACTT TATGGAACTGGCGCGCGTATCTCTGAGGCGATTGGGCTGGCAGTTGATGA TGTGTCGGAAATGCCTGAAGTTCTTCGCATCACGGGCAAAGGTTCCAAAC AACGGATCGTGCCTTTTGGTTCGATGGCACAACAAGCGGTCCGGGAATAT TTGGTCAGAGCCAGACCCGCGTTGAGTAAGGGGAAAAGCCATGCGCTTTT TCTCAACCAACGCGGCGGTCCGCTATCTCGGCAATCTGCGTGGGCAGTGC TGAAGAAAACGGTTGAGCGCGCAGGTTTAGATAAAGATATTTCTCCCCAC ACCCTGCGGCACAGCTTTGCCACCCATCTCCTCGAAGGTGGCGCCGATGT CCGTGTGGTGCAGGAACTCCTGGGTCATTCTTCTGTGACGACCACTCAGA TTTACACGCACATCACAGCCGATAGCTTGCGGGAAGTGTGGCGCGGGGCT CATCCTCGTGCGTGA >gid:511771 Cgl1450 Superfamily II DNA and RNA helicases 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 >gid:511793 Cgl1472 Hypothetical protein ATGTCGCAGGCCGCTGGTAAGTTTAAGCCCATGACTTCAACGCTCGCCGA ATCAACACTTACATCCCTTAAAGAACTTGAGGATCCAAAGATCCTTTCCG TCAATGAACGCCACGGCGATGATCACGCAGTGAACCTCACCAAGCTTCGC GCCGTTGCCAAAGAGCTGAAAAAGAACCAGCCGCTGGCTCGTGAGCTTTG GGCAACCGACGATACAGCCGCACGTTTGGTGGCGTTGCTTATTTGCCGAC CCAAGGAATTTGATCAGTCTGAACTCGACTCGATGATCCATGAGGCTCGC ACGCCGAAGGTTCTTGATTGGTTGATCAATTATGTGGTCAAGAAGAATCC TCATTGGAACGATCTCCGTGTGCTCTGGCTTGAAGATCCCGCCGAGAATG TTGCGGCCGCCGGCTGGGCTCTCAACACTCATGCCGTTATCACAAAGCCG GACGCATTGGACGATTCCGAAATCCTTGACACCATTGAAGCTCAGATGAA AACTGCCGAGCCTCGCGTACAGTGGTCAATGAATGAATGTTTGGCGCAAA TCGGCATCCATCGTCCAGAGCTTCGTGATCGTGCCATTGCCATTGGTGAG CGCCTGGAAGTTCTCAAAGATTATCCGACCCCTCCAAATTGCACCTCGCC TTTTGCTCCGATTTGGATCGAAGAGATGGTTCGCAGGAAAAAATAA >gid:511810 Cgl1489 Superfamily II DNA and RNA helicases 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 >gid:511821 Cgl1500 RecB family exonuclease ATGACCAGCCCAGTTGAAAACGTTAAGAAAAAGCCACGCCCATTGGCGCT GTCACCGTCGCGCGCCGGGGATTACCAGCAGTGTCCCCTGTTGTATCGCT TCCGCGCGATTGATCGCCTGCCAGAGCCTAAGACCGTCGCCCAGGTCAAA GGCACGTTGGTGCACGCTGTGTTGGAATATATGCACAAGTTGCCGCGTGA AGAACGCGAATATCCAGCCATGGTGAAGCAACTCAAGCCCACCTGGGCGC AGATGTGTGAAGAAGACGCAGAGCTCAAAGAGCTTGTTCCAGAAGATGAG CTTTATGATTTCCTCGTGGATTCCCGCACCCTGCTGCGTGGCTACTTTGA AATGGAAAATCCTCAAGGTTTCGACGCCACCGAATGCGAAATGTACGTGG ACACTGTGCTGCCCAACGGCGTTCCTGTTCGTGGTTTTATCGACCGTGTG GATACCGCCCCCACCGGCCAAGTCCGAGTTATCGACTACAAGACTGGCAA GAAACCAAAGCCGCAGTGGAGCCAGCAAGCGCAGTTCCAGATGCTGTTCT ATGCACTGGTCTACTGGCGCATGTTCAATGAAATCCCAGCTCAGCTTCGT TTAATGTACCTCAAAGTCAACGATTCAATGTTCCTCAACCCATCACGGGA GCAGCTGGAATTCTTCGAACGCGATCTGGGTGATCTGTGGGCAAAGATTG AAATGGACGGCAAAGCAGGCCATTTTCGAACGAAGACCTCCAAGCTGTGT GGCTGGTGCCCACACCAATCACTGTGTCCGGAGTATGGTGGGGTTCCACC CGAGTACCCCGGTTGGCCTGGCAGTACAGCAGACTAG >gid:511842 Cgl1521 Putative transposase TTGATCACAGATCTCACCACCTGTGCCAGGCTGAGCCATAACAAGGCATT ACGGCTGATCAAGCTGTCGAAATCAACGGCGTATTACCGCAACAAGCCGC GTCCCCGTCCTGCACCGAAACCTGTCCTGCAGGCCGTGCCAGCACCAACA GCACCTGGTGTGGAACCCACACCAGAGCCTTGGCAGGGGAAGGAGCCAGC AGTGTCGTCGGTGCGTCAAGCGTTGGCAGAACACGAACGCCAGTTCATTG TTGATGCGATCACCGCGTACCCACAACTGAGCGTTAGTGGGGTGTTTAAC ATGTTGTTTAACAAAGGCATCTACCGCGCATCACTACGTACATGGTGGCG TGTTGCCAAGCAGCACAAGTTGTTACACAAAGACCGAGTCAGTGCCCTGT CCCCGGGGAAACGATCACCAACGCCACGGGTTAAGCCGAGGTTGGAAGCA ACACAGCCTGGTCAGGTGGTGTGTTGGGATGTGACGTTCTTGCCGTCGCT GGTACGTGGTAAGACCTATGCGTTGCATCTGGCGATTGATTTGTTTTCCC GCAAGATTGTTGGGGCGAAGGTCGCGCCGACGGAAAATACCTCCACCGCG GTGGAGTTGTTAACGCAGGTGTTAGCGGATAATCCGGGTGTGGTGACGGT GCATTCGGATAATGGGTCGGCGATGACATCGACGAGGGTGCGGCGGTTGT TAGCGGATCATGGTGTGGCGTTGTCGTTGATTCGGCCGCGGGTGAGTGAT GATAATGCGTTTGTGGAGTCGGTGTTTCATACGTTGAAGTATCGGCCGTT TTATCCGAAGGTGTTTGCATCGATGGATCAGGCCCGGGTGTGGGTGGAGG AGTTTGTGGTGTATTACAACACGGTTCATCCGCATTCTGGTGTGGCTGGG CATACTCCGCAGTCGGTGTTTGATGGTAGTTGGAGGGCGGCTCATAGGTT GCGTGTGCAGGCGTTGGATGCCCATTACCGGCAGTTCCCGCAGCGGTATG TGGGGCGGCCGGTGGTTCAGGAAGTTGCTGGTGTGGTGCGTCTTAATGGT GCGCGTGATGATGGGTCTGTACAGGAGAGGGTTGGTGGTGTAGCGTCGCT GTTAAGTGCTTGA >gid:511859 Cgl1536 Hypothetical protein ATGGAAATTCGAGCAAACGTTTATTCACCGCTTCAAAATACTGCCGTCTG GCTAGGTGCGTGGCTCTATGAATTAGTGCCCACCGAAGATGTCATCGATG CGTTCGTCGATCTCGGCGGCCCGCACACCTTCGGCGACGGCGGGCTGCTC GATATGCTGCGAACTTTAAAAGAATTAACAAGCACGCTTATCGACGCCCC CTTCCACGGTCCGATTTTAACTCTCGCACTCAGCGGCCCAGGCCAAGTGC CGGCGTTGCCGGCAGGTTCACGCGCTGCGGTCTTGGCCTCCGCCTCGAAG GAGGGGGCGTTGGTGCTGGGCGGCGTCGATAAGCAGCATTCTTGGGCGCT TATTCCTACGCGCGGTAAGGATGCCACTGAGTGGAATTTGGTGGAGGTGG AGGGCTTTTTGCCGGCGATTGCGACTGTCTCGCCCGGTGAGGCGGATCAG CTGCTCCGTCAGGCGACAGATCAGGCGGCAAATATCATTGAGTTAAGTGG CTACGCTTCACTTGCGCCGAAATCTTTGAAGAATCCGCGACTAACCGTGG GCATGCTGTCAGATTTTTACGACACCCCGGGGCTTCCCTATGCAGTCCCA GAGAGGTCGGCGAAGCTTTTTGCGCGCGCAGATCGCGTGGCTGCCATCGC AGAGACCGTGCAGGAAACCATCGGCGATCACAGCCTGGATCCACAGTTGA TTTTCCTGTGGAGCCATATTCGGACCGCGCGCATGGCTGGGGTGAGTTAT GCCCTCGCAGAGTTTGCGAGGGACTATCACTCCTAG >gid:511876 Cgl1553 Integrase GTGATGCACACTTCATCTCCGATGAACGAGTTGCAGGCCGCCGGAGAAAG GACGCCACCCGAAACTGCAACATCTGTGCGAACTATCCCTATTGCCGATG ACCTCATCACGGTGCTTGACCACAGAGTTGCGGCGTCCATTCAGGGCGGG ATCTTTGAAACCGCTCGCGGTGCTCCATACCGAATTGCTTCTGCCGACGG TGAATTAAGGAAGACAGTGACGCGCCTTCGTGAGTGCGTGACGTTCCACA GTTTCCGCCACCTGTATGCGTCGAGGTTGATCTCAGCGGGTGTCTCGGTG AAGCAGGTTCAGAGAGATTTGGGGCATACGACGGTATCGACAACCTTGGA CACTTATGTCCCCTTCTTCCCTGGCCTCAACAATCAGCCAGCAGCTGAAA TAGCCCGCATGATGAAATTCATGCGGGCAACTTGCGGGCGGCTAAGTGCA GGAGTTTAA >gid:511880 Cgl1557 Transposase ATGGGCATCTTCTCCGGTCGGCAGTTCCCTCGTGAAATCATCCTGTGGGC GGTGCGGTGGTACTGCCGCTACGGCGTGAGCTATCGCGACCTCGAAGAGA TGATGACCGAGCGGGGAGTGCCGGTCGATCACACCACGATCTACCGCTGG GTCCAGAAATATGCTCCTGAGCTGGATAAGAAGACCCGGTGGTATCGGCA AGTTCCTGACTGGCAGGCCAGGTCCTGGCGGGTGGATGAGACCTATATCC GGGTCGGGGGAAAGTGGTGCTACCTCTATCGGGCAATCACCGCCGGTAGC CAGACCCTGGACTTCTACCTCTCCCCGAAGAGAAACGTCGCGGCGGCGAA GCGTTTCCTGGCGAAGACGCTGCGGTCGAATAAATCGGCAGGCTATCCGC GGGTGATCAGCACCGACAAGGCCCCCTCACTCGCCAGGGCAATCTCTGAG CTGAAGGCGGAAGGCGTCTGTCCATCGACGGTCGAGCATCGTCGGGTGAA ATACCTCAACAACGTCATTGAAGGCGACCATGGTCGGTTAAAGCGGATCC TGGGGCCGAAAGGCGCATTCAAAAACCGAACGTCTGCCTACCGGACGTTG AAAGGGATGGAGGCGATGCACTCATTGCGGAAGGGGCAGGGCACGATGTT TGCCTATGGTCACCCGAATCCGGATGCAGTGATTGTTAGCCGGGTATTCG AGACGGCCTGA >gid:511894 Cgl1571 DNA or RNA helicases of superfamily II TTGATCGCGCTGCCCCTCAACGGCGACTGTCGAGCCCGCAACACCGCCGT CTTCGCCGATTCGGAAACGTGGGTTCCCTTCGAAGATCCTTTCGCAGCGC TCGCGGCCATCACGCCACTAGCCACCGAAAAAATCGAGCAGATCCTTGCC ACCACGCAGGAAAAATTTGGCCCCGAACCCGAACACATCAAACGCCCCAC CCGCGCCGAACTCAAACAGGTTAAAGCCAACGGCGAAACCATCAAACTCA CCATCACCAACGAGCTGAGCGTCCCCACCGAAAGGTTACCCGCGGCCGTC ATCGCGGAGATTAAACACCGGGCGGTAATCCCAAACCCTGAGTTTTATCG TCGACAAGCGCAAAGATTTTCGACCTTCGGCGTGCCGCGCATCGTCATCC GCTTCGCCCAGGCCGAGCAGCGCTTGCTGCTCCCACGCGGGCTTGTCGAC GACACCCTCCGGATCCTCACCCTCGCCGGGTACAAAGTCAGCGTCATCTG GCCTCGGCAAACTCGGAAAACCATCGACGCGTCTTTCGAGGGCGAATTGC GATCCATGCAACAAGAGGGAATCGACTCGCTCAAAGGCCAACGCACCGGC GTATTGGTAGCACCGCCGGGCGCTGGAAAAACAGTGATGGCCTGTGCACT CATCGCGAACAGAAAAATCCCCACCGCAGTGATAGTCAACCGTGCAGAAT TGATTTCCCAATGGCGGGATCGTCTCGCGCAATACCTGAGCATCGACGCA GACTCCATCGGACAGATCGGCGCGGGCCGACGCAAAACCACCGGAATTAT CGATCTCATCACCGTCCAATCCTTGAGCCGTAAAGATTCCGATCCGAAAA TTTTGGAACAATACGGCCAAATCATCGTCGACGAGTGCCACAACATCGCA GCCCCAGGCGCCGAAGCCGCATTGAACCAGGTCAAGGCCCCCTACTGGCT GGGTCTAACCGCCACGCCGTTTCGTTCAGACCACATGGATGAAATCATCA CCATGCAGTGCGGTCCTGTGCGCCACCGCATGGAAGTGGCAACAGACAAT GAACAGCGCTTGATTCACATCCACGAAACCTCTTTCGACTCTGAGGAAAC CACCGAAATCCAGGATCTCTACAATGAGCTCGCGGTCGATTCTGCCCGAA ATGCGCAAATCACTGCCGAAGTGCACAAAGCGCTTGAAGCTGGCGACCGA TGTCTAGTTTTGGTCAACCGAATTGCAGCCCTTGAAGCACTGACCAGCAG TATTACCGAATCTGGCGATCACACTGTCTTAGTGATGCATGGCCGCCAAA CCCAAGAGGAGCGAGTTCACCTTCGTGCGCAACTTGCCTCATTGAGTGAA AAGCAGGATCCGTTTGTACTGGTCGCGATGAATAAAGTCGCCGGCGAAGG CCTTGACATCCCCAGCCTCAACACGCTGTTTTTGGCAGCGCCGGTGTCCT TCAAGGGGCTGGTGATTCAGCAAATCGGCCGAGTTACTCGCGCAACCGGT GATCAAAACGCTCCTCCGGTGACTGCCACGGTCCATGATTTTGTTGATTC CAAGATTCCGACACTCAAACGCATGCACGGTCGCCGATTGCGGGCTATGC AAAAGGAAGGATTCGCTGTTTCGGAGCCTTGA >gid:511915 Cgl1592 Nuclease subunit of the excinuclease 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 >gid:511925 Cgl1602 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 >gid:511954 Cgl1631 Predicted endonuclease involved in recombination (possible Holliday junction resolvase in Mycoplasmas and B. subtilis) ATGAAGGTTTCCGCCGATACACCCGGTCACGATGATCCAGGCCCAGGCCG GCGCCTTGGCTTAGATGTCGGCACCGTGCGCATCGGAGTGGCAGCCTCTG ACCGCGATGCCAAGCTTGCCATGCCTGTGGAAACCGTTCCGCGGGAAACT GGATTCAAAGGGCCAGACCTGGCCGATATTGATCGGTTGGTCGCCATCGT TGAGGAATACAACGCCGTGGAAGTCATTGTTGGTCTACCCACAGATCTGC AGGGAAATGGCTCCGCCAGTGTGAAGCATGCAAAGGAAATTGCTTTCCGC GTCCGTCGGCGCCTCACCAATGCTGGAAAGAACATTCCGGTACGGCTTGG CGACGAACGCCTCACCACCGTCGTGGCCACCCAAGCCTTGCGGGCCTCAG GAGTCAGCGAAAAAGCGGGACGTAAAGTTATTGATCAAGCTGCCGCAGTA GAAATCCTTCAAACCTGGTTGGATGCTCGCACCCGAGCCCTTGAACCACA ATCCACAGACACCCAAGATTTCGACGAGAAGGGAAATTTCCCAGGATGA >gid:511956 Cgl1633 Uncharacterized ATPase related to the helicase subunit of the Holliday junction resolvase ATGGCCCAGGATTCACTTTTTGAAACGCCCGAAACACCGGGATCCGCAGG CAACACAAGCAGCGTGAGCAATTCCAAAGCCGCCTCGAAGTATTTTCACC CAGGCGGACACGCACCCCTTGCTGCCCGCATGAGGCCAAGGACGCTTGAT GAAGTGGTTGGCCAACAGCATTTGCTGGGGGAGGGCAGGCCACTTCGCCG GCTCATTGAAGGTTCAGGGGATGCCTCCGTCATTTTGTATGGGCCTCCCG GCACTGGAAAAACAACCATTGCCTCATTGATTTCTGCAGCTGCAGGCGAT CGCTTTGTGGCGATGTCGGCGCTGTCCTCAGGTGTGAAAGAAGTCCGCGC CGTTATTGAACGTGCGAGGATGGATCTGCAATTAGGGCAGCGCACCGTGC TGTTTATTGATGAGGTTCATAGGTTTTCCAAAACTCAGCAGGACGCGTTG CTCTCTGCAGTGGAAAACCGCACCGTGTTGCTCGTTGCAGCGACCACTGA GAACCCCTCCTTTTCAGTGGTGTCTCCACTGCTGTCCAGGTCCTTGCTGC TCCAGTTGGAATCTTTAAGCGATGAGGATATTAAAACAGTCCTTAATAAA GCGCTTGAAGATGAGCGTGGACTTGCCGGTCGAATCACCGCCACCGATGA AGCAGTTGACCAGTTGGTTCTTCTTGCCGGTGGCGATGCCCGCCGAGGCC TGACCTACATTGAAGCCGCTGCAGAAGCCGTAGAAGATGGCGGCGTTTTA GATATTGACACCGTCATGGCCAACGTGAACCGCGCAGTGGTCCGCTATGA CCGCGATGGCGATCAGCACTATGACGTGGTCAGTGCCTGGATCAAATCAA TTAGAGGCTCCGATGTAGACGCAGCCTTGCACTACTTGGCGCGCATGATT GATGCCGGTGAAGACCCACGGTTTATTGCCCGCCGGTTGGTGGTTCACTC AAGTGAAGACATCGGTATGGCTGATCCTTCGGCCATGCAAGTGGCCATTG CTGCAGCTCAAGCTGTCCAATTAATCGGTATGCCAGAGGCGCGGATCAAT TTGGCGCAAGCGACCATTCATTTGGCTCTTGCTCCCAAATCCAATGCTGT CATCATGGCCATGGATGCTGCTTTGACTGATGTTCAGCAAGGCCACATCG GTACCGTTCCTGCGCATCTTCGCGATGGTCACTATGAAGGCGCCAAAAAG CTCGGAAATGCAGTGGGATATTCCTATCCTCACGATGATCCCAGGGGAGT GGTCCGGCAAGAATATTTACCGGAGAACCTGCGCGATCGGGTCTATTACG AGCCCACCACACACGGTGGAGAGAAGCGGATTGCCGAGTACATTGGCAGG CTTCGTCGTATAATCCGTGGAACCAAGTAG >gid:511960 Cgl1637 Superfamily II DNA/RNA helicases, 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 >gid:511983 Cgl1660 Holliday junction resolvasome helicase subunit GTGGAAAGAACAGAGTTTGAAATTCCGGGAGGAATTCCACCTCGTCGAAA CGGTGGTCAAGGCCGTGCAGCTGATACCAACGTAGATGCGAACCTGAAGC CTGATGAATACGATGCGGAAGTAACACTTCGTCCGAAGTCTTTGACTGAG TTTATCGGCCAGCCGAAGGTGCGCGATCAGCTTAGTTTGGTGCTTACCGG TGCGAAAAACCGTGGTGTGGTTCCCGATCACGTGTTGTTGTCTGGCCCTC CTGGCCTGGGTAAGACCACCATGGCGATGATTATCGCCCAGGAGTTGGGC ACCAGTTTGCGTATGACCTCAGGCCCAGCCTTGGAACGCGCAGGCGATCT GGCTGCCATGCTGTCCAACCTCATGGAAGGGGACGTGCTGTTTATTGATG AGATTCACCGCATCGCACGTCCTGCCGAGGAAATGCTGTACATGGCGATG GAAGATTTCCGGATCGATGTCATCGTCGGTAAGGGTCCTGGCGCTACCTC AATCCCGCTGGAGATCCCACCCTTTACCCTCGTTGGTGCAACCACCAGGT CGGGCATGCTCACCGGCCCACTGCGTGACCGTTTCGGTTTTACCGCGCAG ATGGAATTCTACGATGTGCCTGATCTGACCAAAGTGGTGAAACGAACAGC TAAGATCCTCGATGTCGGAATCGACAACGATGCCGCCGTGGAAATTGCCT CGCGGTCTCGTGGTACTCCTCGTATTGCTAACCGACTGCTTCGTCGAGTC CGTGACTTCGCTGAAGTTCATGCGGATGGTCACATCACGATGGGTGCTGC CAATGCTGCGCTGATTGTATTCGATGTCGATGAAGTCGGACTCGATCGCC TGGATAGGGCAGTGCTTGATGCCTTGATCCGCGGACATGGCGGAGGCCCT GTTGGCGTGAACACACTCGCGGTTGCAGTTGGTGAAGAACCCGGCACTGT GGAAGAAGTATGCGAGCCCTATTTGGTGCGTGCCGGCATGATTGCACGAA CCGGACGGGGACGCGTGGCAACCGCAGCTGCATGGAGACACCTGGGGCTG GAACCACCAGAAGGCACCATCGGCGATTATTAG >gid:511984 Cgl1661 Holliday junction resolvasome DNA-binding subunit ATGATTGCCTCACTTCGTGGCACTGTTATCAACATTGGTCTGAGCTCTGC TGTCATTGAATGCAATGGCGTGGGCTATGAGGTTGTCACCACACCGAACA CCTTGTCACAGTTGGTCCGCGGTGAGGAAGCACTGGTGTTGACCACCATG GTGGTCCGCGAAGACGCGATGAAACTCTATGGGTTTATTGACAATGAATC ACGTGAGATGTTTTCCGTGTTGCAAACAGTATCTGGATTGGGTCCACGCC TGGCCTTGGCATGTGAATCGGTGTTGAGCCCACTGGAGATTTCTCAGGCG ATCACCAATGCCGATGCCAAAACTTTGCAGCGGGTTCCGGGTGTGGGAAA GCGCATGGCAGATCGTCTCATCGTGGAGCTTAAAGGCAAGGTCGCAGCTT TTGCTGCCGGTGTCGTGGATGAGGGAGGGGAGCAAATTTCCTTGCCTAAC GCGAACATTGCTTCTGAGGTGGTTGTGGAGCAGGTTTCTCAAGCGCTGGT GGGGTTGGGCTTTAGCGAGAAGCAATCAGATGATGCAGTGAGCTTTGTGC TGGCGGCGGATCCATCCTTGGACACCAGTGGCGCGCTTCGTGCCGCATTG GCAAAACTCAGCGGAAAGTAG >gid:511985 Cgl1662 Holliday junction resolvasome endonuclease subunit ATGAACCACGAAGGGCTTCGGGTAATGGGCATTGACCCAGGTCTTACCCG TTGTGGCTTATCTGTGGTTCAAGCAGGTCGTGGTCGTACCGTGTATCCAG TGTCGGTGGGCGTGGTGCGCACCCCACCAGATGCGGAGTTGGCGGAGCGG TTGCTTCGGCTCAGCAAAGCAGTGGGTGAGTGGATGGATGAGTACACCCC AGATGTCATTGCTATTGAGCGTGTCTTTGAGCGCGGAAATGTTTCCACCG TGATGAACACTGCGCATGCGGTGGGTGTGTTGATCTTGGCTGCTGCTGAA CGCGGATTGCCAGTTCACATGTACACCCCCAGTGAGGTGAAAAAGGCTAT CTCCGGTAATGGTCGCGCTGATAAGAAACAGATGACGGTCATGATCACTC GAATTCTGGGCCTTGGTGAGCCACCCAAACCTGCTGACGCCGCTGATGCT TTATCGTTGGCGGTGTGTCACTGCTGGCGGGCGCCAATGCTTATGCGGGC GCAATCGCAGTACTCCGAGCAAGAGTTGGAAAAGCGACGGCGTGTGCAGC AAGGAAAATTGGGTAAAGCGAAATCAACTTACAATGCGGAACAAGCTCAA TCCCATGCATCCGATCCTGCTAAAGCGGCTCATCCCAGTCAGTTTCAACG AACTGACACCAATTAG >gid:512043 Cgl1713 Site-specific recombinases, DNA invertase Pin homologs ATGTTTGGTAGTAGTTTTAAGGAACAAACAACTAACCCGAGAAGTCAACG AGTTTCTTATTTGCGTGTCTCTAGCACCGATCAGAATCTGGCTCGACAAC GTGAAGCTGTTAACCATTCCGGTCATATTGATCGTGAGTTCACAGATGAG CTTTCCGGTGGCGCCAAATCACACAGACCTGGCTTGGAAGACTGCATTAA TTATCTTCGCGAGGATGATGTTCTTGTCGTCGCATCCATTGACCGACTTG CACGCTCGCTGGTTGATTTACGCGTCATCATTGACCGCATCACAGACAAA GGCGCATCGGTCATTTTTCTCAAAGAGAATTTGACTTTCGCTGCAGGCCG CGATGATCCTCGAGCAAACCTCATGCTCGGTATTTTGGGCAGTTTCGCAG AATTTGAACGCTCAATTATTCGCGAGCGCCAAGCAGAAGGTATTGCCCTG GCAAAAAAGGCCGGCAAGTATGCAGGTCGCCCAAAAGCCCTCGACAAGGA ACAAATACAAGAAGCAAAAGATATGATCGCTCAAGGTGAAACAAAATCTG CTGTCGCCAAGCATTTTGGTATTAATCGCTCGACCTTGTACGAATATCTC AAAAATCCTGACTAG >gid:512062 Cgl1733 Putative transposase GTGATCCGCTTCCGATTCGTTGATGACGCTCGAAAGACCTACTCGGTTAA GCGGATATGTGACGTGTTGAAGCTCAATCGTTCCTCATATTACAAATGGA AAAGCACCGCCTTCACGCGTGAAAAACGCCTGCTCAGCGACGCTATTCTT GGGGTCCAGGTCAAGACTGTATTCACCACTCACAGTGGCTGTTATGGGGC CAAACGAATCGCGGCTGAACTCAAAGACCAGATCGGCCATGACCTTGCGA ACCACAAGCGGGTTGCCCGGATCATGCGATCGTTGAAGCTGTTCGGATAC ACAAAGAAACGCAAGGTCACCACCACCGTGCCGGACAAAACCAAGACAGT GTTCCCTGACCTTGTCGGCCGGAAGTTCACCGCTGACAAGCCGAACCAGC TCTATGTCGGGGATATCACCTATCTGCCAATTCAGGATGGGTCGAATATG TACCTGGCCACGGTCATTGACTGTTACTCCCGCAGGTTGGTGGGCTTTTC TATCGCAGATCACATGCGCACGAGCTTGGTCCAGGACGCGCTGCTCATGG CTAAAGACCAGCGTGGAAACCTCAAAGGTGCGATTTTTCACTCCGACCAC GGCAGCGTTTACACGTCTCATGCGTTTCAGGAGACGTGTAAGAAACTAGG GATCAGGCAGTCGATGGGATCAATTGGCACCAGTGCTGACAACGCTTTGG CGGAGTCTTTCAATGCCGCGATGAAGCGGGAAGTCCTGCAGGATTCCAAG ACCTTTGAAAATCAATTGTGCTGTCGCCGGGACGTCTTCCGCTGGTGTAC CCGTTACAACACGGTTCGCCGGCATTCCTGGTGTAGATATCTGGCTCCGG TCGTGTTTGAGGAGCGCGGTCCTGCTATCCTGAGATCTGCTTCCTGA >gid:512064 Cgl1734 Transposase ATGCCACGCAAGACCTACACAGAGGAGTTCAAGCGCGACGCTGTCGCGCT CTACGAGAACTCCGCCGGCACCTCGATCCAGAAGATCGCCAATGATCTCG GAATCAACCGAATGACCCTTAAAAACTGGATTACTAAATACGGGGCCAAC TCAACTCCACATGGCGCTAACACGGCCACCGCGCTGTCCGAAGCTGAACG GATCCGCCAACTTGAAAAGGAAAATGCACTCCTCCGCGAAGAGCGTGACA TCCTGCGGAAAGCGGCCAAATATTTCGCGGAAGAGACGAACTGGTGA >gid:512067 Cgl1737 Single-stranded DNA-specific exonuclease TTGAAAGTAGATTTTTCTATGACCGTTACCTCACCAGCAGCGCTCGCACT CAGCGACATGTCCTATGTGGACATCATTAAGAAGAAGCGCGGATGGACAA CCGAGTTTTTCCACAGCACCATCAACACCGGTGAAACCACCACACCGCTA CCAGACAGCGACCGTGCCACAGCACTAATCCATGACCACATCACCAAGGC TCAAGAGATAACCATCATCACCGACTTTGATATGGACGGTATTTCAGCCG GTGTCATTGCCTATGCAGGTCTTGCCGAACTGGGCGCACAGGTCAATATG GTGGTGCCCGACTATCGTGGCGAACGAAATGTCACAGCCAGCGATATTGA TCGTGCGCTAGAGCTCTACCCTGCAACCTCACTCATCATCACCTGCGATG TCGGCATCGGCTCCCATGAAGGTATTGCCCGTGCTCACGAACGCAGTATC GCCGTCCTGGTCACAGATCACCACATGGAGGTCGAACCCTGCCAGGCCGA TGTGGTTCTTAACCCCAACAGAATTGACTCTGACTACCCCAACAAAGATA TTTGCGGTGCGCAGGTCATTTTCGCCACATTGAGTGACTATGCACGTCGT TATCGGGCGGACAAGATTATCGACATTAATTTGTTGGCTGTTTTCTCAGG CATTGGTGCACTCGCCGATGTCATGCCTCTCACCCGTGACACTCGACCAA CAGTGAAGCAGGCTATTGCGTTGCTTCGGCTTGCTATCCCACAAGTAAGT AAAAACCGTTTCGGCGGTTGGGATACCTATGCTGCACGCTCTGTTAATCC TGATACGTCCACACTCATGCATATTGTCAATGCCAGCCAGCATGATCACC GCTTCATTGCAGCCTTCCAAGGCATCTCAATTCTTCTTGGTGAACTGATT GCGCAAAAGAAGCTAGTAAACATCGACAATATTTCTGAGTCATTCATTGG CTTCACTCTTGGTCCGATGTTTAACGCTACTCGTCGTGTTGGTGGCGACA TGCACGATTCATTTCTCGTGTTTGCGCCCCATGCCGCACTAGCATCACAG CCGTCGATGAATCCAAATCGACATGCTGCGATCTCTCGCATCATTGATAA CAACGAACGTCGCAAAGAGCTCTCCAAGTCCTCTTATGCTGCCGTACACA GCTCAGATCAGCCCTACGCGCCCTTTGTGTGGCTCTCTGAGGCACCAAGC GGCATTCTTGGTCTCATTGCCTCACAGCTCACTCGTGAGTCTGACGTGCC TGCCATTGTCATTAATCCAGATACCTTGTCCGGTTCAGCTCGCTCACCTG AGTGGGCACCGATCATCACCCAAGTAAACACCCTCAGCGCACAAGGTCAC GGCGGTATTCATGCTGCAGGCCATGAGTACGCCTGTGGTATGCGTTTTGA TAACCATGATGACATTGTGACCTTTGTTGCAACACTCGACGCACTCGATA AAAACACGCCACGGGAAGCACAGCCGGCAGATCTGCATTTGGTTGACATT GACCACGCGCGTCCTGTGCTTGATAACCCCTCACTCACCCAAGAGCTCAG TACGGTCGATGCTGCAGTGGATGCTGCACAGTTGCTTGTTCTCATTGATC AGCTTGATCAACTGCAGCCATTTGGACATGGTTTTACCTATCCGCGCATC GACGTGACGTTCAGGCCGGCAGAAACAGAATTCAAGGTTATGGGTCAGCA CCATCAACATCTCAAGGTGATCACTCACTCAGGGTTGACCTTATTGTGGT GGAATAAGGCTCAGCAGCTCGATGAGATCGCACAGTCTGAATTAGTCACC ATGTCTGTGGAGCTCGATGTCAATATGTTCCGTGGGTTTATTTCCCCGCA AGGCATTGTCTCTGCGTGCACAGTTATCTAG >gid:512073 Cgl1743 Superfamily II DNA/RNA helicases, SNF2 family 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 >gid:512095 Cgl1765 Superfamily I DNA and RNA helicases GTGGCTGCTTCTGGCTACCAGATTCAGCCACACTTCTCCACGCAGCAGCG TGAAGCAATCACCACTGATAATCCTCTCGCGATTATTCAGGCCGGTGCTG GTACCGGTAAATCCACCGTGATTCTGGAACGCATTGAGTACTTGTGCGCT GCAGGCACCAACCCTGAAGAGATTGCTGTGCTGTCTTTTACTAATGCTGC CGCCGATAACATCACAGCAAAAAATGACAAGGTGACCTCTATGACCATCT CCAAGATGGTTCATGAGATTTACGCACACAATTTCCCTGATCATGAGATC TCCACCATCGACACCATTATCAATACGCTTGATATTGAATACGGCGATCA AATGGTGACCTCCGATTACATGATTCAGCTCCGTGACCTGCTCTATAAGG TCATGACGCAGGGTGGCAACGCCAACCTGACAGCGTTGAGCATCTTCATG GAATCCCATATCGAGGCGTTCATCTCGGTGTTGGATCAGATCAAGCAGAC TTCTCTTGAGCTGGAAATCATCATCTGCTACCTGCTCTTGGATAAGCTGA TCGAGCCTCATGCATCGCCGAAGTACCTCATTATTGATGAGGTGCAGGAC AACTCGGTCTTCGAGTTCGTCTTTGCACTTCGTTTTGCGGCAAAGCACAA TACGAGTCTGTACTTGGTGGGTGACTCGTCACAGACCTTGTATGAGTTCC GTTCTGCTAACCCTAAGGCTCTGAACTCCCTGGAAGCATCTGGTGTTTTC GGTACCTACCGTTTGACCACCAATTACCGTTCCAACCAGGAAATTCTTGA CTTCGCTAATATCCACCTCTCGGATATTGAAGCTAACCAGTTCGCAGGTA TTCAGCTCTACGCCAACTCTTTTGATGCACCTACTGCGGACAGCTTCAAA GAAAAGGTTGAACTGGACATGCACCATGTGTCTAAGCAGTCTGAGTTTAC CGACAGCATTCCTTATTTCATGGAGTCCAATAAAGCTCGCTTTGATGCTG CGATCTTGAACAATGAGCAAACCATTGTGCTTGCTCATTCTGGTCGTGAA ATTCGTGCAGCGCAGCAAGCGCTAGCCGAGATGTACCCCAGCATCACGGT GCGTAACTTGCAGTCCGATAAGGGTTTCAACAACACGGTATTTTCGACCT TTATTAAGGATTTCTGGTTTGAGGTCACCGCTGTAGACCCAGCTCATGCC GCATTTACCTTTACCAGCCAAGTCACCGCTCATCTAGATAAGTTGGTACG CGGAAAGCGTGAGCAGATGGAGGATCGCGTTATCCGGTCTATGGCTGCAT GGTGGCGTGAAAATGAGCGTGACATCCAGGGTTGGGTGCAGCAAACTCAG TCCGGTGCGATCACCAACGAAGAGTTCTTCTACCGTCTTCGTCAGTGCAT TCTTGACTATGAAATCAGGAATAACCGAGCACGTCAGTCCATGCTCAATG CGCGCAACAACGCTAACAAGGAGGCTGTCGCACAGGAGAAACCACTGCTC ATGGTCTCCACCATTCACAGTGCAAAGGGTCTGGAATTCGATAATGTCAT CGTGCTTCAAAAACCAAGCTCCGATGCAGAGATGACCGAAGAAGGTAAGC GCGCAACCTATGTGGCGCTGACCCGTGCAAAAAAGCGTGAACTCATTATT GCTGGTTCTACTCGCGCATACCCACGCATCGTCACCGATTATGAGCAAAT CGTTGATCTTCTTGAAAAGCGCGATGAGGAGCGCAAAATTAAGGAGGAAG AGGCTGCAGCACTCGCCACCCTTGAAGCTGAACAGGAGACGCGCGCCCTT GCTGCTGCTGAGGCGCAGGCTCAGGCGTTGTTGCTTGAGCACAACCCGTG GTTGCGTGATCTCAGCGATGAAGAAGTCACTGCTCTAACTGAGCAAGAGA TCATCAACAATGTTGAGGCAGCCCTACAGATTGAAGAAGAGGAGGAAGAG GCTCGTGCACTCGCTGCAGCAGAGCCAGCAATTCAGCAGTACTTGTCTCA GTTTGCTTTCGATGAGTTCCCGGACGACGACAATGTAGCCAACACTGTCG TACATGTAGCACCACAGCCTATTCTCCACCAGGCAGTGCCTGCAGATGTG ACTGTACAATCAAGCACCGCCCCCGTAACACCTGTTGTTGCGGATCTTGA GGTAACCACTGTTGCAGCTGATCCAGTCGAACCGACTATCGTTGCTGCAC AGCCTGAGGTGGACGACAACCTTGTCTACAGCACGTCCACCCCTAATAGT CACAGTGACGTTATTGCAGTGAACTCTGATACCTCAGAAAACGCTGCTGT TAATCCAGTTCTGTCCGATATTGAGGCACTCCGAGCAATTTTCAACAACC AGGACTAA >gid:512100 Cgl1770 Hypothetical protein ATGACCACACCTCACTCCCACCGCGCACCACGTCTGGCATCCACGGTCAT TATTGCCCGCGAGTCTGCTGACTCAGGTACCTTAGAATTCTTTATCCAGC AGCGACAATCCACTATGGCTTATGCAGCAAACGCTGTTGTTTTCCCAGGC GGCGGTGTTGAGGACAGCGATTATCCCTTTATGCTCCCCCACCGCGATCA GCACATGTCGCCTGAACACATCAAGCATCATGCCAGCCGACTCCACATGG ACTCAGAAACTATGGCAGCTCATATTTCCGCTGCACGCCGGGAAGTATGG GAAGAAACAGGCGTTGATCTCGGTAATTACAACCATGAACTCATCCCGAT CGACCGCTGGATCACACCTGATATTCCTGCTTTTAGGCGCCGTTACGACA CCGCCACCTTTGTACTTATTCTAAGCAAAGACAGCACTAACGCAGCTCTG CAGCACCAGCATCAAACCACCGAGGCCACCCATTCTTATTGGGCAACTGC AGAAGAACTGCTCACTCAATGGTCAACAGGTCATCTCAACCTGTTGTTAC CAACGTGGTGGCATATCAACCAGCTCAATCACCTCCACACGCTAAACCAG CTGTATAGCTTTGCCCAGCGTACCCATAATCCGCAGCACACTCCACCCAC AGTGTTTGCTAACTGGACTGCACCGGCTGATGAGGCCGCCATGCAGCACT ATGGGTTCCCTGATCCCGATGCGTACTTTGACCATGCCACTATCGCAGGA AAACACCACACACTCATCACAAGAAAGTAG >gid:512106 Cgl1776 Site-specific DNA methylase or type II 5-cytosine methyltransferase ATGAGTACAAAACCCACTATTGTGTCCACATTTTCTGGTTGCGGTGGCCT CGATCTTGGCCTCCAAGAGGTCGGATTCGACCCCATTTGGGCCAACGACT TCTCAGAAGAAGCAGTCCAAACCTATAAGCACAACATCGGTGACCACATT GTTCACGGCGACATCACTGAAATTGATCCGTTTACTGATGACACCATCCC TGACGGCGATCTCGTCACCGGCGGCTTCCCGTGCCAGGACTTCTCCATGA TCTGGAAGCGTCCTGGACTCGACGGCAAGCGTGGCACCCTGTACCAAAAC TTCCGTGACTTTGTTGCAGCAAAGAAGCCTAAAGCCTTTATCGCAGAAAA CGTGAAGGGCCTACTCACTGCTAACCAGCACAAGGCTATTAAGACCATCA TTGAAGACCTCGAAGCTGTTGAGCCTGGCTACATCGTCAAGCCTCGCCTG TACAACTTCGCTGAATACGGTGTCCCACAATTCCGCGAACGTGTGCTCAT TGTTGGCATTCGCCGTGACACCGGCTTTGATTTCAAGCACCCAGCTCCTA CCCATGGCCCTCGCGGTGACATGCCGTATAAGACTGCCGGCGAAGCGCTC AAAGGCGTGAAGGATGTCCCCACAAACAACAACCACATGAAGATCATGCC TCGCACCGTTGAAGTGCTTAAGCGCATCCCTGAGGGCGAAAACTTCACCG CGATCCCCAAAGATGACCCCTACTACGTCAAGGGCATGATTAGTCACGTT TACCGTCGCTTGCACCGTGATGAGCCATCCAAAACCCTTATCGCCGGTGG CGGCGGGGGTACATGGGGATACCATTATGAAGAAAATCGAGCATTGACCA ACCGCGAGCGGGCTAGAATTCAATCGTTCCCCGATGACTTTGAGTTTTTG GGATCAAACACCGAAGTCCGCCGCCAAATCGGTAATGCTGTTCCTCCTGT AGGTATGCACGCTGTGGGTGAGCGACTGATGAACCTGTACACCGGGAATT ACACTCCCGTCGATCTAGAGGAACAGCACGCGTACCTGCAGACGCTCTCC ATTAAGGAACGTCTCGCGCTGGCTGATCAGGAAGCTGATTAA >gid:512108 Cgl1778 Stress-sensitive restriction system protein 2 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 >gid:512134 Cgl1804 Hypothetical protein 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 >gid:512173 Cgl1843 Topoisomerase IA 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 >gid:512174 Cgl1844 Hypothetical protein ATGATAAATATGATGTCGTTGGGTAATCCAGCAGCAATGCTCGCTGCGTA CAACACCAGCACGCAGGTGGCACCGCAGCCACAGCTGGGACCACGTGCTG GAGAAGTTCAACTCAGTAGCGAACAGCAAGCCATGATTGATTATGTACTT GCTGGCAAAGATGTCATTGTTGATGCCACCGTAGGCTCGGGCAAAACTAC CGCTATTCAACGACTGTGTTCGATCATGGGTGCAGACCATGACGTGCTGT ATTTGACGTATTCGAAGTTGTTGAAGGTCGATGCACAGCAGCGCGTTCGT GGCGCCAAGGTGCAGAACTATCACGGCATTGTCTATCCGCATCTACTCAA GGCCGGCATCAAGTGTGGTATTAGCGAGTCGATTCGGGAGTTTAACAAGA ACTTCAAACACATTTCTCGCACGTTCCCCAGTTACGACCTGCTGGTTATT GATGAGTACCAGGACATCAATGAGGACTATGCAGAACTGCTGCGCAACAT TAAGTCTGTGAATCCGCTTATGCAGATTGTCATGGTGGGTGATTTGGAAC AAAAAGTCCGGTCTGACACCACGTTAGATCCACAAGAATTTGCAGCACAA TTGTGTGAAGATCCAGTCTTCGCGCCGTTTACACAGTCGTTTCGAATTGG CGAGGCTATGGCAGCGGGTTTGGCTGATGCCTGGAATAAACCGATTGTGG GTGCCAATACCGCACAGCAGATTGAATATAGGTCTTTCGCTGAGGCAGTG GTGTTGATCCAAAGCACCGAGCCGAGCAAACTGTTGTGTTTGGGTAGCCG CAATGGGCAGATGTCAGATGCGCTTAATGTCGTGGAGAGGAAGTCGCCGG CAAAGTTCAATAAGAAAACTGTGTTCGCCTCTATTCGCGATGGTGATTCC CAGATTGCACACCCTAATGACGCTGCGGTGTTTACCACCTTTGATTCCAG TAAAGGTCTAGAGCGCGATACCTGCGTGGTCTTTGACTATGACGAAGAAT TCTGGGACATGCGTCTTGGTTACCCCAATGTTGATCCAGTGGTCATGCGC AATGTGTTTTTGGTGGCAGCATCACGCGGTAAAAACAAGGTTGTTTTTGT ACGTAGCGATTCTCTTCAAGCAGCGTATGAGGCTGGTGCGGACTGGGCTG CAGGGCTCGCTGTGGGTGTGGTGGACAACAATACTGAGGTTGCACCTGAG GTAGATGCCCATACGCCGGCAGAAGAAAGTAAGGGTGATGTGGGTGAGGT TCAGTCACAGATTGAGCGCATGATGGGTTTTATCCCTGTTTCAGTGTTTA AAGAACTACCTGAGTTGGCGCCGAGCGAATATGCGCGACCGATCTCTGTG ACTGAAGCCTTTGATTTTAAGTACGCAGAGAATGTCGAAGCATGTTTTGA CCTGCTTGATGTCAAGCGTCTCGACAACGGCAAGGGTGCAGCCATTGAGG TCAATCGCAGTGACGGGCTTATTGATCTCTCACCCACAGTGGGAAACTTT CAGGAAGCAGTGTTCTTCAAGGACTACAACGTTCATACAGCACTATCGGC GTACCCGAGTCAGTTCGCGAAAAATCTTAAACGTTTGGTGAAGAAAAACA ATAGCGTATGGCGTAACTGCCTTATTGTCACAGCAGCGTCCACAGAGCAG ATGCGGTATGTCGATCAGGTGCGCAGCTCTATCCCGGTTGCTGCGGAGAA GGCATTGGTCTCACGGCTGAGTACGAGGCTGAATGCTGATTCACGTAATC AGATTCCACTGATCCTTGACGGCGAGGCAGTACAGAGCAAAGTAGTGCGC ACGCCAATGTCTTTTGCAGGTGTCGCAGATGCGGTGCACAAGGGTGTGCT TTATGAATTGAAATTCGTCTCTGAGTTGACACATCCGATGTTTTTGCAGC TCGCAATGTATTTGGTCATGTCTGGGATGAAGGACGGTATTTTGTGGAAC ACCCGGACAGATGAGGCGTGGCAGGTGCGTGTTCCTGACCCGAAGCGTTT TCTTAATGCTGTGGTGTTGTGTGTCTCCAAGCAGGATTACCGGGTCGGTA ACTTTGATCTGCCGAGCACTGGTGGAGGTGCGCGCTAA >gid:512183 Cgl1853 Micrococcal nuclease (thermonuclease) homologs TTGATTAACTTATCCACTACCCAGACCTCTACAAGAAAGTTCCCCAGAAT GTCACTATCTATTAGTTTTCATAAAATTGCACTCTCTGCCACCACCTTGC TTGGCGCTGTCGCAATCTCTGCCTGTGCGCTAGTAACTCAAGCACCTCCT ATTAACGCAGCCCCGGTTACTGGCAGCAGCTCATTAAGCTCCACCCTCGA CCTGGGCACCACCACCCCTACCAGCATCGACACAGTAAAACTCACTCAGC AAGCACAAAATCAAGCGGCACCACGCGTTGCAGCGAGCCTGGTGCGCGTG GTTGACGGCGACACCATTGTCGTGAACTATCAGGGTGCTCAGAAAACTGT TCGTATGATCGGTATTGATTCCCCCGAAACCAAACACCCCACCAAGCCTG TGGGCTTCTACGGACCAGAATCTTCACAGAATCTCACCACCATGCTGCGC GGTGCCACCATCACACTAGAATTTGATTCCACCCAAGCCCGCGAAGATCA ATACGGACGCCTGCTTGCTTATGTCTGGTACACCAAGGGCGATAGCGGTC TTAAGCTTGCCAATTTGGAACAAATTGCCTCAGGCTCTGCTGCTGAATAC AGCTTCGACACCCGCTACAACCACCGCAATATTTTCCTACGTGCACAAAC CCTTGCCAAGGCAAGCAGTCTAGGTATGTGGGGTTAA >gid:512193 Cgl1863 Single-stranded DNA-binding protein ATGTCTGCTAATCCTTCCAATAACTTCAACGTCATCGGCCGTCTTGCTGC TGATCCAAAGATCTTCACCAACCCAGATGGCTCCCGCAACATCCAGATCG CCGTATACTCCACCAACAACTTTGCTAACCGCAATGGTGTCTATGAGGAC TCCATCGTTCCGCTCACCCAGTTCTACTCCGCATCCAAGGAAGGTAACGG AATCTACTCCTACCTCAAGGAAGGTGACCAGGTTGCGGTCAACGGCTACA TCCACCAGGATCAGTTCACTGACAAGTCCACTGGCGCTAAACGCTACGAG TTGAACCTATCTATCGACTCCATCCAGCCGCTTGAAACCAAGTCTGCTGC TGACGCTCGCCGTGCTCGCAAGCAGGTCGTTGAGGCAAACAAGGCGCAGG CTGCTGCACAGCAGGCACCTGCACCAGTTCAGCAGTTCGCTGCTCAGGAC GCACCTCAGTACGCAGGTAACCCTTTCGCTGGTCTCTCTCAGACCCAGGC ACCAGTTGCAGCCCAGGTTGCACCACAGCCACAGTACGTAAACGATCCTT ACGCACAGCCACAGGCAGGTTTTGTTCCACCTGCACCAGTTGCTCCACAG GTTGATATTGACCCACGCTTCATCTAA >gid:512211 Cgl1881 Integrase ATGTCACGATCGAGGAATTGGGGAGAGATCGAGAAGTTGCGCTCGGGGAG GTACAGGGCACGCTTCATGCACGAGGGTAGGCGATACTCTGCCCCGTATA CCTTCGGTACCAAGGGTGAGGCGCAGGAGTTCTTGGCCTCTGAACGCACG GCCATCATCAATGGCACATGGATGGATTTTGAGATGCGGGAGAGGTTCGA GCAGGCACAGCGCGAAGCCGAAGAACGCATGATGGAGACCTTCTTCAGTT ATGCATCGAGGTGGATAGAAACCCGGACAAATGCCCAAGGAAAGAAACTC AGCCAAGGGGTGAAAGATGATTACTTTCGTTATATAAAATCAGATCGACT AAGTTATTGGGCTGATTATGCGCTCTGTGAAATCACTGTCGCTGATGTCC GTGAGTGGTATAGCGATACTATTCAGGACGGTAAATTGACCTCAATGGCG CGGAGTTACAGCATGATGAAGTCTGTCATGGAGACTGCAGTGGAGGATGG CATTATCCCGATGAATCCGTGCAAAGTCCGTGGCGGGGGTAATACGAAAA CAGGCAAAAAGGTTGATGTCCCAACCGATGCCGAGCTTGAGGCGATCATT GGTGCACTGCCGAGTAAGTACTTTTGTTTGGCTATTGTTGCTGCCGCTGG TGCACTTCGATTCGGTGAAATCGTTGCGCTGCGTACCACTGATGTGGATG TTTATTTTGATCGCAGCGGATTTGTAGATTGTGTTCGAATAAGGATTTCT CGGAGCATTAGGCACACGAGATACCATGGCCGAGTTGAAGGTCCGCCTAA AACTGAAGCTGGTGTTCGTAGCCTCTATATCTATGGCAAAGATGCAGCAG AAATTGCCAAGCATGTGGACACGATTGATGTGGGTTTGCGACTATGGAGC TCGATGAGAGATCCTGATGAACCCATGCCGTATCACACCTTTAAGCACAA CTGGGATAGGGCGCGGGAAAGTGTCCACAGTAAAGCGACCGTTCACTCGA TGAGGCATTATTCGGGTACGAAGTATGCACAGGTTGGGGCGACACTCAAG GAGGTGATGGCGCGGCTGGGGCACTCAACACCTAGTGCAGCACTGCGTTA TCAGCACTCAGGCGAGCGTGATGAAGAGCTAGCAAAGCGCATGGCGCGCT AA >gid:512212 Cgl1882 Putative transposase TTGCTATTCTTAGCACGGTTGGTGGGTTTTGCCTTTGCGGATCATATGCG CACGTCATTGGTGCAGGAGGCGTTGATGATGGCGAAGAGTCAGCGAGGCA GTCTACAGGGTGCTGTTTTTCATTCGGATCACGGCAGTGTGTACACCTCG CAGGCGTTTCAGGACACTTGTAAAAAGTTGGGTGTTCGTCAGTCGATGGG TGCTGTTGGTACCAGTGCGGATAATTCGCTAGCGGAGTCGTTTAATGCCG CGCTCAAGCGGGAAGTGCTGCAGGATTCCAAGACGTTTGCTAATCAGTTG GTGTGCCGTCGGGAGGTATTTCGGTGGTGTGACCTAGTACAACACGGTGC GCAGACATTCTTGGTGTGGCTATGTGGCGCCTGCGGTGTTTGA >gid:512213 Cgl1883 Putative transposase TTGAAAATTAACCGTTCCTCGTATTACAAATGGAAAAAGACTGCTCTGAC GAGGAAGAAACTCCTGCTCAGCGACGCAGTCCTGGGAGCGAAGATCAAGT CCATCTTCACTAAAGAACGCGGCTGTTATGGTGCGAAACGTATTACGGCC GAGCTTAATGACGGGCCAGGTACAACAACTCCGGTTAACCACAAGCGAGT CGCTCGAGTGATGTCTTCGATGAAGCTTGTTGGTTTTACGAAGAAACGCA AGGTCATCACCACAATCCCAGCAGCTGTCAAGCCGGTGTTCCCGGACTTG GTGAAGCGTCAATTCAACGCTTTGGCTGCCAATGAAGTTTACGTCGGGGA TATTACTTATCTGCCGATTGCTGATGGGTCGAATATGTATTTGACGACGG TCATTGATTGCTATTCTTAG >gid:512214 Cgl1884 Hypothetical protein ATGTCGGAAGCTGAACAAATCAGACAGCTAAAGAAGGAAAACGCACTACT GCGTGAAGAACGCGACATTTTGCGCAAGGCTGCTAAATATTTTCCCGGCA AGAGGCAAGACTTATGA >gid:512215 Cgl1885 Hypothetical protein ATGCCAACCAAGACCTACTCCGAGGAGTTCAAACGCGACGCCGTTGCTTT GTACGAGAACTCCGATGGGGCCTCACTCCAACAGATCGCCAACGATCTCG GCATCAACCGAGTAACCCTGAAAAACTTCGATCAATAA >gid:512216 Cgl1886 Hypothetical membrane protein GTGCCTGCCCTTCCATCATCTATCATCGACCCCCTCTGGCGCCAGTTCTC CGCCTTAATCCCACCGGTTATCATCACCCACCCACTAGGGTGCCACCGTG CACGCATTGCTGACCGGATCATCGTCGACAAACTCATCGCAGTGCTTGTC CTCGGTGTCTCCTATATCAAGATTTCCGATTCCACCTGCTCAGCCACCAC GATACGCACCCGCCGAGACGAGTGGATCACTGCCGGGATTTTCAAGAATT TAGAACAGATCTGTCTGGAGTCCTACGACCGTTTCATCGGGTTAGACCTA GAAAACTTAAATGTTGATGGCTGCATTGTTAAAGCTCCCTGCGGCGGAGA GGTAGCCGGCAGATTCCCGGTTGACCGGGAAAAAGGCACCAAACGCTCGT TAATGGTCGATGGACATGGAATCCCGATCGGGTGCGTGGTCGCCGGAGCC AATCGGCATGATTTACCGTTGTTAGCTGCAACCTTGGACACGCTCGGCCG GTTTGGGGGCTCTCTTCCCGATCAGATCACGGTGCATCTCGATGCTGGGT ATGACTCGAAGAAAACCCGCAGGCTACTCAGCGAATTTGGTTATAGCTGG GTGATCAGCATTAAAGGTGAGCCGCTGCAGGCTGGGACTCGGTGGGTGGT GGAGCGTACTAACTCTTGGCATAACCGGGGTTTTAAGAAACTTAGTATCT GCACCGAACGTTGTACCCGGGTTGTGGAAGCGTTTATCGCTTTAGCCAAC GCGGTGATTATTCTGCGTCGGCTTATCAAACAGGCCTGGACTAGTTACCG CTGGGACACCCGACCGGGCCACAGACCTTAA >gid:512221 Cgl1891 Hypothetical protein TTGCGCTCGGAGAGGTACAGGGCACGCTTCATGCACGAGGGTAGGCGATA CTCTGCCCCGTACACTTTCGGTACCAAGGGTGAGGCTAATGAGTTCTTGG CCTCTGAACGCACAGCCATCATCAATGGCACATGGATGGATTTTGAGATG CGGGAGAGGTTTGAGCGGGCACAGCTTGAGGCTGAAGAACGCATGATGGA GACCTTCTTTAGTTATGCATCGAGGTGGATAGAAACCCGGACAAATGCCC AAGGAAAGAAACTTAGCCAAGGGGTGAAAGATGATTACTTTCGTTATATA AAATCAGATCGACTAAGTTATTGGGCTGATTATGCGCTCTGCGCAATCAC CGTCGCTGATGTCCGTGAGTGGTATAGCGACACCATTCAGGATGGGAAAT TGACCTCAATGGCACGGAGTTACAGCATGATGAAGTCTGTCATGGAGACT GCGGTAGAGGATGGCATCATTCCGACGAATCCGTGCAAAGTACGTGGCGG GGGTAATACCAAAACAGGAAAAAGGTTGATCCCCCAACCGATGCCGAGCT TGAAGCGAACATTGGTGCACTGCCGAGTAAGTACTTTTGTTTGGCTATTG TTGCTGCTGCCGGCGCACTTCGATTCGGTGAAATCGTTGCGCTACGAACC ACCGATGTCGATGTTTATTTTGATCGCAGCGGATTTGTAG >gid:512244 Cgl1914 DNA or RNA helicases 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 >gid:512254 Cgl1924 Superfamily II DNA and RNA helicases 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 >gid:512257 Cgl1927 HrpA-like helicases ATGACTACTTCTGAAACTGCCCCATCAAAGGCTTCCCTGTATGAACTTTT AGAGGGCGTATCCCTCTCCGACGAGCGCACGTTTAGGCGCCGACTGTCCA AAGCCCGCGCGCCCAAGGCGCTTGGTGCGATTAAGGCTGATATCGATAAG GCACGCTTGCTTATCGACGAAAAGAGCCAGTTAATTCCGTCTATCACCTA CCCAGAAAACCTTCCGGTGAGTTCCCGGCGCGATGATATCGCCGAGGCTA TCCGTGATAATCAGGTGGTTATTATCGCCGGTGAGACTGGTTCGGGTAAG ACGACTCAGATTCCTAAGATTTGTTTGGACCTAGGCCGTGGCCGGCGTGG GCTCATTGGCCACACACAGCCACGTCGATTAGCAGCTAGGACCGTCGCCG AGCGCATCGCCGATGAATTGGGGCAAGACATCGGCGAATCGGTGGGTTAT GCGATTCGTTTTGATGATCGAGTTTCCTCGCATACATCCGTGAAGTTGAT GACGGATGGTATTTTGCTTGCTGAAATGCAGCGGGATCGTTTCCTCAATG CGTATGACACCATCATCATCGATGAGGCGCATGAACGTTCCCTCAACATT GACTTCATTCTGGGTTATTTGCGCCAGTTGTTGCCTAAGCGCCCTGATCT TAAAGTCATTATTACCTCCGCAACGATTGACCCTGAGCGTTTCGCGGAGC ACTTTGCTGATGCTTCTGGAAAACCAGCACCAATTATCGAGGTCTCCGGC CGCACCTTCCCGGTAGAGATCCGTTATCGCCCACTTGAGGTATTAGACGG 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 >gid:512285 Cgl1955 RecA/RadA recombinase ATGGCTCCCAAGAAGACAGCAACAAAGGCAACTGCCGCCAAGGGGAATGA TCGTCAGAAGGCACTTGATGCCGCACTAGCCCTGATTGAGAAGGATTTCG GTAAAGGCGCTGTCATGCGTCTGGGTGATGAGAATCGTCCGCCAATCCAG ACCATCTCATCTGGTAACACCGCGATTGATATTGCCTTGGGTATCGGTGG ATTCCCACGTGGTCGAATCGTTGAGGTGTATGGCCCAGAATCATCAGGTA AAACCACCGTTGCACTGCACGCAATTGCGCAGGCACAAAAGGCCGGCGGC ATCGCTGCATTCATTGACGCCGAGCACGCGTTGGATCCAGATTATGCTCG CAAGCTTGGTGTAGATACTGATGCGCTTCTGGTTTCGCAGCCAGACACTG GTGAGCAAGCACTAGAAATCGCCGACATGCTGGTTCGTTCCGGCGCAATC GACATCATCGTGATTGACTCGGTGGCTGCGCTGACACCAAAGGCTGAAAT TGAAGGCGAAATGGGCGATAGCCACGTTGGTCTTCAGGCCCGCCTCATGA GCCAGGCGCTTCGTAAGATGACAGGTGCGCTGTACAACTCGGGTACCACC GCGATCTTCATTAACCAGCTGCGTGAAAAGATCGGTGTGATGTTCGGTTC CCCAGAAACCACCACCGGTGGTAAGGCCCTGAAGTTCTACGCATCTGTTC GTTGTGACATTCGACGAATCCAGACTCTGAAGGACGGACAGGATGCCATT GGTAACCGCACCCGCTTGAAGGTCGTTAAGAACAAGGTCTCCCCACCGTT CAAGATCGCTGAATTCGACATCATGTACGGCGAAGGCATCTCCCGTGAAT CCTCCGTCATTGACTTGGCAGTGGACAACGGCATTGTGAAGAAGTCAGGT TCCTGGTTCACCTACGAGGGCGAACAGCTTGGTCAAGGTAAGGAAAAGGT GCGTCTTTCCCTCAAGGAGAACCCTGAACTCACCGATGAGCTGGAAGATA AGATCTTCAAGAAGCTGGGAGTAGGCAAGTACGCTGCAGCCTCAGATGAA CTCACCGACGATCCAGTAGAGCTCGTGCCTAACGTTGACTTCGATGATGA AGCCGACACCGAAGCAGACGCTGAAGACTAA >gid:512358 Cgl2028 Integrase GTGGCGCGTTCCGGGCGGAACGCGCCACCTTCTGGTATTTCCGGCGCCGA CGCGCCGTCCAAGCTGCATACGCTTATCGACGATTTCTGTGAGCATCTAG ACCTTGTGGTGGGTCGTTCAGCCGCAACAATTCGCGGATATCGATCAGAC CTTTATGCCATGGCTGACACAATCGAAGATATCGACAATTTCTCCCTGCC GACTCTGCGCCAATGGCTTGGTATAGCGGTAGATGAGGGAAAGTCCAGGG CAACACTCGCCAGAAGAACTGCATCTGTCAAGGCGTTTTCTTCATGGGCT CAGAAAAACGGCCACCTCAAAGCTGATGAAGCAGCCCGACTCATTTCACC GAAGATCACGAGGGATCTACCTAAGATTCTCGGGGAACAGCAGGCAGGAG ACTTTGTGGAAAACGCAGCTTCCACAAATGAAGAAGAGTTCCTGCGTGAT TCCGCGATTCTGGAGCTTCTTTATGCCACGGGAATGCGTGTTGCTGAACT CTGTGGAATCGATCTTTCAGACATTGACTACGACCGCAAAATGGTACGAG TGCTGGGTAAAGGAAATAAAGAGCGCGTTGTCCCATTCGGGGAATCGGCA CACAAGGCGTTAAGAAATTGGCTAGATGTGCGCGATGAGATGACGGAAGA TCCCAAAGCGCTCTTTGTTGGGGTGCGGGGTCAGCGAATTAATGCGCGCC AAGTTCGAAGGATTGTTGATCGAGCGGCAAAAGTCACTGGCGTTGACCAT TTGTCACCACACTCGCTGCGGCATACTGCGGCAACTCACTTGCTGGACGG TGGGGCGGACCTTCGCCAGGTTCAAGAACTATTAGGGCACTCGTCAATGC AAACGACGCAGATCTATACCCACGTCAGTAATAAGAGACTGCTTGAAGCG TTTAATAAAGCGCATCCACGTGCCTAG >gid:512359 Cgl2029 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 >gid:512361 Cgl2031 Predicted endonuclease distantly related to archaeal Holliday junction resolvase ATGAAAACACAAAAACAATATCTGGGCGCGTTCGGGGAAGATGTTGCGCT ACAACAATATTTAGATGATCAAGCAACGCTGCTAGATCGAAATGTTCGCT ATTCATGTGGCGAACTTGACCTCATTGTTCGCTCGGCAAGCGGAGTTGTT GTTTTTGTAGAAGTGAAGACTCGGCGGGGGTCGGCTTTTGATTCAGCAGC GGCTGTGAACAATCAGAAAATGTTGCGGATGAGGCGTGCAGCTGCACTGT GGCTGGAGGGTAAACCTTATACTCCGATTCGTTTTGATGTGGTGGCAATC GTTTTGGATCCGCACACGGGGCGCCCAGAGATCACTGTTTATGAGGATGT GGAACATGGCGCTCGGTAG >gid:512363 Cgl2033 Ribonuclease HII TTGTCACGCAACGGGCTAGGGCCCGTTGCAGGAGTAGACGAAGCTGGACG CGGTGCCTGCTGCGGACCCATTTCAATTGCCGCATGCATACTCCCGGACA AACCCATCCAGGAGCTAGCCGCACTGACAGACTCCAAAAAGCTCAGTGCC AGCACCCGCGAAAAACTCATGCCACTGATCAAAAAACACGCACTCGCTTG GTCAGTCATCGTGATCTCCGCCCAAGACATCGACCGATTTGGCATCCAAC ACGCAAACATCTCCGGCATGCGACGAGCCGTAGCCGCCCTAGGCACCCAA CCCGGCTACGTACTTACCGACGCCATGAAAGTCCCCGGCTTCACAGTCCC ATACCTACCCATCATCGGCGGAGACGCCTCCGCCCGATGCATCGCCGCCG CAAGTGTATTAGCCAAACAAACCCGCGACGACATCATGACCGACATGGCC AACGACTACCCGCACTACGGTCTCGAAATTCACAAAGGCTACAGTACGAA GATCCACATGGATGCGGTGCGCCACCACGGCGCAAGTCCCGAGCACAGAT ATAGTTATGCAAATGTGGCCAAGGCACACCAAGAATGGCTACACGCTGCA GATAATGACACGACGGAAGGTGGAGCATGA >gid:512403 Cgl2073 Formamidopyrimidine-DNA glycosylase GTGCCTGAACTGCCTGAAGTTGAGGTGGTGCGCCGCGGTTTAGAAGATCA TATGGTCGGCCACACCATCGTGTCCGCCACAGTGCTTCACCCGCGCGCAG CCCGCAATCAACTCGGCGGTGGCCCCGAAATCGAGGCCAACATCGCAGGG CTTAGGGTCAGCGCTGCCAAGCGACGCGGCAAATTCCTCTGGCTTGAGCT TATCGACGCACCCTCCGGCGAAACCCGTCCCGATTTAGGGCTACTGGTTC ACCTTGGGATGAGTGGACAAATGCTCATCAAAGAACCAGATGCACCAATT AGTCCACACCTTCGAGCCAAAGTCGAGCTAGATAATGGCGATGAAGTGTG GTTTGTCGATCAACGCACCTTCGGTTATTGGTGGCTCGGCGACCTAGTTG ATGGAGTACCCGAACGCGTCTCTCACATTGCCACAGATGTATTGGATGAG TCTGCTGATTTCTCTGCGATTGCGCGGAATTTGAAATCTCGGAAATCGGA GATCAAACGCCTCCTGCTTAACCAAGAGATCGTCTCCGGCATCGGAAATA TCTATGCCGATGAAATGCTCTGGCAAGCAAAAATTCACCCATTGCAACGT GCCGATCGACTGTCCCTAGCTCGCTTGGAAGAACTTCTTCAAGCTGGCAA AGACGTGATGACCAAAGCACTTGCTCAAGGTGGCACCTCTTTCGACGCGC TCTATGTCAACGTCAATGGCAACTCCGGCTACTTTGCGCTGTCATTGAAT GCTTATGCGCAAACCGGGGAGCCGTGCGGACGCTGCGGAACATTAATCAT CCGGGAGAGTTTCATGAACCGCGGCTCCCACTACTGCCCAAACTGCCAGA AGCGGCGCTAG >gid:512446 Cgl2116 DNA polymerase III epsilon subunit and related 3'-5' exonucleases GTGTTGAAGGGTGAAAAGCCACAGCACCTGGGTGGCGGAGCCCCAGTAGT GCCTTCAGCTCCATCTACTGTTGCTGGTCTGAATTTCGTGGGCTTTGACG TAGAGACGGCCAATGATGATTGGGGTTCCATCTGCCAGATTGGTTTGGTC AAGTACGTCGATGGTGTGGAGGAATCTTCGGAGTCATGGTTGTGTACTCC TCCTGAGAGCCTGAATTTCTTCAATGAGATCAACATTGGTATTCACGGCA TCACCCCAGAGATGGTTGCTGATCAGCCTCGTTTTGCAGACCTTGTGCCC AAGATGGTGGAGTTCGTTGGGGATTTGCCGTTGGTTGCTCACAATGCGCA GTTTGATTTCACCGCATTGTCGCGCGCGTGTGCTGCCTCAGGGATCGATG TCCCAGAGATGATTTATGGCTGCTCGTTGACGTTGGCACGCAATGAGAAG CTGCAGGTGGAAAACCATAAGCTTCCAACGGTGGCTAGTCATTTAGGGTT TGAGCTGAAAAACCACCACGATGCTGCTGAAGATGCTCGCGCGTGTGCTG CGATTACCATTGCGTTGGCAAAGCGCCACAGCTTTGAGGGCAGCTTTGTG GATTTCGTTCACAGCCGTGGTTTCACCATGGGAACCGTGGATAACGCCCG GGTGTATCCGGTGCTGAAGGATCGTTCTGGAGCTAACGTTGCGTTGCAGC GTCGAAACTTTGGTTTGGATGCAGGCAAGACCGAAGTCCCCGTGCAGCCA GCTGTTGATCCAGCGTGGGAAACCCCGAAGGCGGAGCCAAAAAAGCAATC TGGCCGCCGTGCACCGTGGGACAAGGTGGCTACCCCTGAGGTCATTCCAG ATCCCAATCCCGATGCTGATCCGTCGAGCATTCTCTATGGCCAGAATGTG ACCTTGACTGGTGATTTCGAGCCATATGAAAAGGGTGCGCTGTGGCAGCG GATCGCTGATCAAGGTGCGCTGATCGGTAAGAACGTGACTAAGAAGACCA CCATTTTGGTTGCTGGCCCGTGGGCAACGATTACCAGTAAGCAAAAACGT GCTGAGGAGTTGAAAGAAAAAGGACAGGACATCCAGATCTGGGATGAAAA GCAGCTGTTTACGGCTCTGGGGTTAGATGAACAGCCCCCGTTTTAA >gid:512460 Cgl2130 DNA polymerase III alpha subunit ATGGCTAGACTGTCCCACATGGCCAAGCAATCCTCATTTGTACATCTTCA CAACCACACCGAGTTTTCCATGCTTGATGGAATGGCCAAGATCGATATGT TGGCCGATGAGGTTAAAGCCCAGGGAATGCCTGCGGTCGGAATCACCGAC CACGGCAATATGTATGGCTCCAACCCCTTTTATCGCAAGATGACAGAGAT GGGCATTAAGCCCATCATTGGCATTGAAACGTATATGGCACCTGAGTCTC GTTTTAAGAAAGAGCGTGTGCGTTGGGGCGAACCACACCAAAAATCAGAT GATGTTTCTGGTTCCGGTGCGTATTTGCACCAGACGATGCTTGCAGAAAA CACCACAGGTTTAAGAAACCTCTTTTATCTATCTTCGATGGCATCGTACG AAGGCCAGCTAGGCAAGTGGCCCCGCATGGACGCCGATATCATCGCTGAG CACGCCGAAGGCATCATCGCCACCACGGGTTGCCCTTCCGGCGATGTGCA AACACGCCTGCGCTTGGGCCAGTTCGACGAAGCCCTTGAAGCAGCCGCCA TGTGGCAGGACATCTATGGTCGCGACAACTACTTCCTCGAGTTGATGGAC CACGGGCTCGACATTGAAACCCGTGTGCGCAGTGAGCTGCTCGAAATCGG ACGCAAGCTCAATTTGCCACCCCTGGTCACCAACGACTGCCACTATGTGC TGGAATCTCAGGCGCAAGCCCACGAGGCAATGCTCTGCGTGCAAACAGGC AAGACGCTTCATGATGAAGACCGATTCAAATTCGGCGGAACCGGCTATTA CGTTAAATCTGCAGAACAAATGCGTGCACTCTGGGACGACATGGTTCCAG ATGGCTGCGACAACACCCTGTGGATCGCTGAACGTGTGCAGTCCTATGAC GAAATCTGGGAAGAACACTCACACGACCGCATGCCTATCGCTGATGTTCC AGAAGGCTACACCCCAACCACTTGGTTGCACCATGAAGTGATGGCTGGCT TGGAGGATCGTTTCTCTGGACAGCAAGTTCCTGAGGATTATATTGAGCGC GCGGAGTATGAGATCTCCGTTATTGATATGAAGGGCTACCCTTCCTACTT CCTCATCGTTGCTGAAATTATCAAGCACGCTCGTTCCATTGGCATCCGTG TAGGACCTGGCCGTGGTTCGGCTGCAGGTGCATTGGTTGCCTACGCGTTG ACCATCACCAACATTGACCCCATGGAACACGGATTGCTGTTCGAGAGATT CCTCAACCCAGAACGACCATCCGCACCCGATATCGATATTGACTTCGATG ATCGCCGCCGCGGTGAAATGATCCGTTACGCAGCTGACCGTTGGGGCGAG GACAAGATTGCTCAGGTGATCACCTTCGGTACGGTGAAAACAAAGCAGGC ACTGAAAGACTCCGCCCGTGTGCAAATGGGGCAGCCAGGCTATCAAATCG CTGACCGCGTGATCAAGGAGCTTCCACCTGCCATTATGGCGAAGGATATT CCGTTGTCCGGTATCACCGATCCGGATCACCCTCGTTTTAATGAAGCAGG TGCGGTGCGCCAGCTGATCGAAACCGACCCTGATGTGAAGCGCATTTACG ACACCGCTCGTGGTTTGGAAGGCGTGGTGCGCCAATCTGGCGTGCACGCG TGTGCCGTGATTATGTCTTCTGTACCGCTGCTGGACTGCATTCCGATGTG GAAGCGGCCAGCCGACGGCGCACTGATTACAGGCTGGGATTACCCAGCAT GTGAGGCCATTGGCCTGTTGAAGATGGACTTCCTGGGACTTCGAAACCTT ACCGTTATTGGCGATGCGATTGAAAACATTAAGGCCAACCGCGATGGGGA AGTGCTTGATCTAGAAAACCTAGCGATCGAGGATGAAGAAACCTACAAGC TGCTAGGCCGTGGAGAAACCCTTGGTGTGTTCCAGCTTGATGGTGGTGGC ATGCAGGAGCTGCTGAAGCGTATGCAGCCAACCGGCTTCAATGACATCGT CGCAGCGCTTGCGCTGTATCGCCCAGGCCCCATGGGTGTGAACGCGCACT GGGATTACGCCGACCGTAAAAACGGACGCAAGCCCATTACTCCAATTCAC CCAGAGTTGGAGGAAGCTCTGGAAGAAATCCTTGGTGAAACCTATGGTCT GATTGTGTACCAGGAGCAGATCATGAGGATCTCCCAGAAGGTCGCAAACT ACACCGCTGGTCAAGCAGATGGTTTCCGTAAAGCCATGGGTAAGAAGAAG CCCGAGGTCCTGGAAAAGGAGTTCGCAAACTTCGAAGGTGGAATGAAGGC GAACGGCTATTCAGATGCCGCGATTAAGACTTTGTGGGATACCATTCTGC CGTTCGCCGGCTACGCGTTCAACAAGTCTCACGCCGCAGGTTATGGACTT GTATCCTTCTGGACTGCCTATTTGAAGGCGCACTACGCGCCGGAATACAT GGCAGCACTGCTGACTTCTGTGGGTGATAACAAGGACAAATCGGCGATCT ACCTTTCTGATTGCCGACACCTTGGAATTCGAGTGCTTTCGCCGGATATT AACGAGTCCTCGTTGAACTTCCTTCCTGTTGGCACCGATATTCGCTATGG CCTGGGAGCCATTAGAAACGTGGGTGCTGAAGTTGTGGATTCCATTTTGG ATACCCGCAAGGAAAAGGGCCTATTTAAGGACTTCTCAGACTACTTGGAC AAGATCGATACCCTGCCGTGTAACAAGCGCATCACCGAGTCTTTGATCAA GGGTGGCGCTTTTGACTCCCTTGGACACGCACGAAAAGGCCTCATGCTGG TCTTCGAAGATGCCGTTGATTCCGTCATCGCTACCAAAAAAGCTGCTGAC AAGGGACAATTTGATCTCTTTGCAGCTTTCGACTCGGATAACAACGACGA TGTGGCAAGTTTCTTCCAGATCACCGTTCCTGATGACGAATGGGACCGTA AGCATGAGCTCGCACTCGAGCGAGAAATGCTGGGTCTGTATGTTTCTGGA CACCCACTCGATGGCTATGAAGATGCCATTGCTGCCCAGGTTGATACAGC ACTGACCACCATTGTTGCCGGTGAACTCAAGCACGGCGCAGAAGTGACCG TGGGTGGCATTATCTCTGGTGTGGATCGACGGTTCTCCAAGAAGGACGGT TCCCCTTGGGCGATTGTCACCATTGAAGATCACAACGGCGCGTCCGTTGA ATTGTTGGTCTTCAACAAGGTGTATTCCATCGTTGGATCCATGATTGTGG AAGACAACATCATCTTGGCCAAGGCACACATCTCCATTCGAGATGATCGT ATGAGCCTTTTCTGTGATGATCTCCGCGTTCCAGAGCTTGGGCCAGGAAA CGGGCAAGGACTTCCGCTTCGTTTGTCCATGCGTACTGATCAGTGCACCA TGTCCAACATTGCCAAGCTCAAGCAGGTGCTGGTGGACAACAAGGGTGAA TCTGATGTGTACCTCAATTTGATCGATGGGGATAACTCCACGGTCATGAT TTTGGGTGATCACTTAAGAGTCAACCGATCCGCAAGTTTGATGGGCGACC TCAAGGCAACGATGGGGCCAGGCATCCTCGGTTAA >gid:512474 Cgl2144 Nucleotidyltransferase/DNA polymerase involved in DNA repair 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 >gid:512542 Cgl2212 Transposase ATGGGCCCTTATTATGGGCCACGCACACTCCATCAAGTGTTGCGTGAGGA CTACACAACACTGTTTGACGAGTTATCTGCGTTGGGGTTGCCAGCACAGG TGTGTGGGGCCTTACTTCATCTTGCTCCACCACCATCATTACGCTTTTCT TATATGTCGTGTGTAGTGCCGTTATTTGCTGATGAAATCAAAGTCGTAGG ACAAGGCACACGATTATCGTTAGAAGAGAAAATGATGATCCAACGTTTCC ATGACACCGGGGTCAGTGCAGCAGAAATCGGTCGACGCCTGGGTCGGTGT CGGCAAACAATTTCCAGGGAACTTCGACGTGGTCAAGATGATGATGGACG TTATCGTGCACGCGACTCCTATGAAGGTGCGATCAGGAAACTAGCGCGTC CGAAAACACCGAAACTTGATGCCAATCGTAGGCTTCGGGCTGTGGTGGTC GAGGCGTTGAATAATAAATTATCTCCGGAGCAGATTTCTGGTCTTTTAGC CACCGAGCATGCTAACGATAGCTCTATGCAGATTAGTCATGAAACTATTT ACCAGGCGTTATATGTTCAAGGTAAAGGGGCGTTGCGTGATGAATTGAAG GTGGAGAAATTTCTTCGTACCGGTCGGAAGGGACGTAAACCGCAGTCGAA GTTGCCATCGAGAGGTAAGCCGTGGGTGGAGGGTGCGTTGATTAGTCAAC GCCCAGCAGAAGTTGCTGATCGTGCTGTGCCTGGGCACTGGGAGGGCGAT TTAGTAATTGGTGGTGAAAACCAAGCGACAGCGTTGGTGACGTTGGTGGA GCGCACGAGCCGGTTGACGTTGATTAAGCGGTTGGGGGTTAATCATGAGG CGTCGACTGTGACGGATGCGTTGGTGGAGATGATGGGTGATTTGCCGCAG GCGTTGCGTCGGAGTTTGACGTGGGATCAGGGTGTGGAGATGGCAGAGCA TGCGCGGTTTAGCGTGGTGACCAAGTGTCCGGTGTTTTTCTGTGATCCTC ATTCGCCGTGGCAGCGTGGGTCGAATGAGAATACGAATGGATTGGTCAGG GATTTTTTCCCGAAGGGCACTAATTTTGCTAAAGTAAGTGACGAAGAAGT TCAGCGGGCACAGGATCTGCTGAATTACCGGCCGCGGAAAATGCATGGTT TTAAAAGCGCGACGCAGGTATATGAAAAAATCGTAGTTGGTGCATCCACC GATTGA >gid:512545 Cgl2215 Hypothetical protein TTGAACCACAAACTTTTTGGTTCGAAACAGTTTCGAAAGGAGAAGGAAAT GGGATTACGAATTCGCCCAAATGAAATGAAGGTCTGGGAGACATTCACCC TGGAACGCCAGTTGGAAGTAATTATCAACGCTGATCACCTTCTCCTGTTC CGTGGCGAACCACACGGAACCGTCTCACTGTCCGATGTAGTTGCATCTGA ACTGATCGGCATCTAG >gid:512547 Cgl2217 NTP pyrophosphohydrolases including oxidative damage repair enzymes ATGGTGGTGTCGCAGGGCTGGCGTAACCTGGGAGTCAAAGATTACCAATT GGAGAGGTTTTGCTGCATGGCGGTTCCAGAGTTCATTGTTAGTTTGCGGG AGAAGGTCGGTCAGGATCCGTTGTGGTTGCCGGCTGTAACTGCGGTTGTT ATTCGTGATGTTCCTCCGGGGTCTCCTTTCCATGTGGTTCCGGATGTGTT GTTGGTCAAGCGCGCTGATACTGGTGAGTGGACTCCACCGACCGGTATTT GTGATCCGGATGAGCAGCCTCATGTGACTGCGGTGCGTGAAGTCAAGGAG GAAACCGGCCTTGATGTCAGCGTTGAGGCGTTGCTTGGCGTGGGCGCGGT GGGGCCTGTGACCTATCAAAATGGTGATGTGGCGAGCTACATGGATACGA CCATGCGTTGCGTTGTTTCTGGTGATTCCGATGAGCCTCACGTCGGCGAT GACGAGAACGTGGATGTTGCATGGTTCCCGATTTCTAAGATGCCTGTCAC TAATCAGCGTTTCCGCATGGTCATCGCTGATGCGGTGGCACAGTTGAAGC ATCCGCAAGGTTATAAGCCCCGCATGGGATATGAGAAAAGGAATGCACGA TGA >gid:512573 Cgl2242 Hypothetical protein GTGGTCGCCGGAGCCAATCGGCATGATTCACCGTTGTTAGCTGCAACCTT GGACACGCTCGGCCGGTTTGGAGGTTGTCTTCCCGATCAGATCACGGTGC ATCTCGATGCTGGGTATGACTCGAAGAAAACCCGCAGGCTACTCAGCGAA CGTGGTTATAGCTGGGTGATCAGCACTAAAGGTAAGCCGCTGCAGGCTGG GGCTCGGTGGGTGGTGGAGCGTACTAACTCTTGGCATAACCGGGGTTTTA AGAAACTTAGTATCTGCACCGAACGATGTACCCGGGTCGTGGAAGCGTTT ATCGCTTTAGCCAACGCGGTGATCATTCTGCGTCGGCTTATCAAACAGGC CTGGACTAGTTACCGCTGGGACACCCGACCGGGCCACAGACCTTAA >gid:512603 Cgl2268 DNA primase (bacterial type) 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 >gid:512619 Cgl2284 Recombinational DNA repair protein ATGCGTAGGGACAGTTTTCGGGACCGCGCGCTAGTAGTCAAAACTTATGA TTTTGGCGAAGCCGACCGCATTATTGTGCTGCTCACCCGAGACCACGGCA TCGTGCGCGGAGTTGCCAAAGGAGTACGCCGATCCAAATCCCGGTTTGGG TCAAGGCTGCAGCTTTTTGTGGAACTCGACGTGCAGCTCTACCCAGGTAG AAAACTGTCCACCATCTCTGGCGCGGACACCGTCGGCTACTACGCATCAG GCATCATCGAGGACTTCACTCGGTATTCCTGTGCGTCCGCCATCCTGGAA ATCGCCACCCACATCGCAGGACTGGAAAACGATCCGCACCTGTTTGAAGA AACCACCCGGGCGTTGAAAAACATTCAGGACTCCCCAGAACCCATCCTCA ACCTAGACGAGTTCATGCTCCGCGCCATGAACCACGCCGGCTGGGCACCA AGCCTTTTCGACTGCGCAGCCTGCGGCCGACCAGGACCTCACAACGCATT CCACCCAGGCGTCGGCGGGGCAGTGTGCCTGTACTGCCGACCGCCGGGAA GCGCCGAAGTCCCACCAGAAGCACTACACATGATGTGGTTGGTCGCCAAC GGCCAAGCAGCCCGCATTCCCCGGGAACACCCAGAGCAGCAAACCACCAT TCACCAACTGACAACCGCGCATCTGCAGTGGCATATTGAAAGAAAGCTGC CCACGCTGGCGGTGCTGGATCAGGCCTAG >gid:512681 Cgl2346 DNA polymerase III delta subunit GTGGCTTCAGCACCTATTTCAGTTCAACCAGCGGTCCATCTTGTTCTCGG CGAGGATGAGTTCCTTGCCGAACGCGCGCGTATCAACATCGTGCATGACA TCCGTTCATCGATGGCTAGCCCCGATTCGCTTCAGGTCACCACCTTGAAG GCCAGCGAAATTACTCAGGGTGAATTGTTGGATGCGTTAAGCCCATCCTT GTTTGCTGAAGACCGTGTGGTGGTGCTTACCAACATGGATCAAGCAGGCC AAGATGCTGTAGATCTAGCCTTATCCGCAGCAGTTGATCCCAGCCCTGGT ACCTACTTGATCGTCATGCACTCTGGCGGTGGACGCTCTAAGTCGATGGT GAAGAAGCTGGAAAAAGTCGCGGTGGTGCACGATGCCGCAAAGCTGAAAG ACCGGGATCGTCCAGGTTGGGTAAAACAAGAGTTCAAAAACCACAAAGTC CAGGTCACCCCAGATGTCATTCATGCTCTTTTAGAGGGCGTGGGTTCAGA TCTTAGAGAGCTGGCGTCCGCCGTATCCCAATTGGTTGAGGACACCCAAG GCAACGTGACGGTGGAAAAAGTCCGTGCCTATTACGTGGGTGTTGCTGAG GTATCGGGTTTCGACATCGCCGATTCTGCATGCGCCGGTCAAATGTCAAA GGCCGTGGCCAGCACCAGACGTGCCCTTCAATTGGGTACCAGCCCGGTTG CATTGGCAGCTGCGTTGAGTATGAAAGTTGGCCAGATCGCCAGGCTGTAT TCCACCAGGGGACGCATCAACGGTTTTGAGCTGGCCAAAGAATTGGGCAT GCCGCCGTTCGTGGTGGAGAAGACTGCGAAAGTGGCCCGAAACTGGTCGG GAGATGCGGTCAGCGAGGCCGTGATTTTGATGGCCGATCTGGATGCCGCT GTAAAAGGACAAAGTGGCGATCCTGAATTTGCCATCGAATCTGCCGTGAG AAGAGTTGCAGAGCTGGCGAGGCGGTAA >gid:512683 Cgl2348 DNA uptake protein and related DNA-binding proteins GTGAACTATCCCACGCCTCGGTTTCAGATTTCCATCAAGCATGCGTTGAT CGTGTGCATCGTTCTCGTTGTGGCTTTTGTCGGTTGGTTTTTCACCCGTG AGAAACCCGTGAATCCACCCACCATGGCGGCGTTGGCGGAAACCTATCAA ACACCGGCGCCGAGTTCGCAGGTGGTGGTGTCTGTGGTGGGGCACGTGGC TAAACCCGGCCTGGTCACGCTCGCTGAGGGCTCGCGGGTGGCTGATGCCC TGGCCATTGCAGGTGCCTTGCCAGACGCCGATCTGACGGCGCTCAACTTG GCGCAATTGCTTGTCGACGGCACCCAGATCCATGTTTTAGCTATCGGCGA GGTACAACCTATTTCGGTTGATGCTGCTGCGACTTCTGCTTCTGGGTTGA TTTCCTTGAATACCGCCACTGTTGCTGATTTGGTGACGCTGCCTGGGGTG GGGGAGAAGACAGCGCAGGCGATCATTGACTTTCGGGAGAGCAACGGTGG GTTTAGCACCGTGGAGGATTTACTGCAGGTCAAGGGGATTGGGCCCTCAA AGTTTGAGCAGATCTCTGGATTGGTGTCCCCATGA >gid:512702 Cgl2367 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 >gid:512792 Cgl2455 Single-stranded DNA-binding protein ATGATCAACACACCAGTAACCATCGCCGGCCGCATCGTCAGTGACTCCGT ATATATTGGCCGTAAAGACAACCTCGACGGCGTCCTAAGAATCCGCGTGG CCAGCTCCCGCTCCTACAAGCAGGGCGAAAAATGGCACAACGTGGACAAA GTCTTCATCAACGTTGAAGCCTGGGGAAAACTCGGCGTCAACTCCCACAT TTCCCTCAAACCAGGCGTCTCTGTGATCGTCCAAGGCTTCCTGTACACCA ATGAATGGGAAGTGGAATCCGCTGATCCCAATGTTAAAAAGCTAGAAAAG CGCCAAGAAATCAGGATGCGAGCAACCTCCATCGGCATTGACATGAACCA CTACATCGTTGGCTTCAAGGAAAGTAAGCCCAACGCATCCAACAGCCCCG AGGGCGTGGAGATGCCAGATGCAAACTTGGAAGACTATCCAGATGTAGAT CAGAAGCGGGGAGCGAAGCAGGTGGCGGCTTCGGATGCTTCGGAGGAGGG GACAGAGGCTTCGGAAGCTGACGAGGCTCCTGAGACTCCTGAGGAAAAAC GCGAATTAGCTATGGCTGGTGTGGGAGCAGGTTCAGGCTCTGATTCAGGC GAGGAAGCGCCTTTTTAA >gid:512804 Cgl2464 Hypothetical protein GTGCAGCACGTGCAGGTGAGAATCCTCAGCAGCGAGCTTGTCTGCAGCCT CTCCGGTGCCATCCGGGGCGTGAACCTAGATATTGCAGCACCGAAGCCCA AGAAGTCAGGCCGCCGCACACTCACAAAACCCGAATGGGATGCCGTCATT AAGCATCTGTTAACGCGGGATACCGAGCCACTGTTAACCCCCACCAAGCA CAAGAACATCCGACAAAGCACCAAGAACATCCATGCCCGCATTGTGCGGC TCACTCTCCTCCAAGCCGTTTCAGGGCTGAGAATTGCCGAAGCCAATCAA TTGCAGTGGAAGCACATCATCGACGGTGACGATGGCATGCTCATTAATGC CAGCGCCGATATTGTCAAGGGGCGAAAAGGCAAGGAAAGAGGGCGGTATA TCCCTATCCTGAGGGCCGACGTAGCGGAATACCTGCGTACACACCGCGAG GACGACGAGCATTTCATCGTAGGCTCACCGACGACGACCGCGAGGCCCTG GGACGCGACGAACGCAGATGACAAGGTGCCCGAGCTATACCGGCAAATTG CAGAAGCTACAGGCGTGAAGACTCTTCAAGACCTCCGAAGCCACTCCTGG CGTGCGACGCTGCACGGTGTGTACGCGGACGTGATGGACCCAGCTACACG CGCCGCCATTTTCGGCCACACCGAGCAGGTAGCTGAGGAGTACTACAACG ACCGCCAAAATATTGAATCACTCATGAGACAAGTCAAGCGCGCCTACGCG TAA >gid:512820 Cgl2479 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 >gid:512846 Cgl2504 Hypothetical protein ATGATGACTGAACGTGGTGTGCCAGTCGATCACACCACCATCTACCGCTG GGTCCAGAAATACGCCCCTGAGCTGGATAAGCAGACTCGCTGGTACCGGC AGGTTCCTGACTGGCAGGCCAGTTCCTGGCGGGTGGATGAGACCTATATC CGGGTCGGCGGCACGTGGTGCTATCTCTACCGGGCTATTACCGCGGGTGG GCAGACCCTGGAGTTTTATCTCTCACCAAAACGGAATGTGGCTGCGGCCA AGCGTTTCCTGGCCAAGACGCTGCGATCGAATACGACAGCCGGGTCCCCG CGGGTCATCAACACCGACAAGGCACCAGCTCTGGCCAAGGCAATATCCGA GCTGAAGGCGGAGGGAATCTGCCCTCAGACGGTGGAGCACCGGCAGGTGA AATACCTCAACAACGTTATCGAGGGAGATCATGGCCGACTTAAAAGAATC CTGGGGCCGAAGGGAGCGTTCAAAAACCGAATTTCCGCCTACCGGACGTT GAAAGGGATGGAAGCGATGCATTCATTACGGAAAGGCCAGGGCACGATGT TTGACCTCACGGGCACCCGAACCCAGACGCGGTGA >gid:512848 Cgl2506 Hypothetical protein GTGCCGGTCGATCACACCACCATCTACCGCTGGGTCCAGAAATACGCCCC TGAGCTGGATAAGCAGACTCGCTGGTACCGGCAGGTTCCTGACTGGCAGG CCAGTTCCTGGCGGGTGGATGAGACCTATATCCGGGTCGGCGGCACGTGG TGCTATCTCTACCGGGCTATTACCGCGGGTGGGCAGACCCTGGAGTTTTA TCTCTCACCAAAACGGAATGTGGCTGCGGCCAAGCGTTTCCTGGCCAAGA CGCTGCGATCGAATACGACAGCCGGGTCCCCGCGGGTCATCAACACCGAC AAGGCACCAGCTCTGGCCAAGGCAATATCCGAGCTGAAGGCGGAGGGAAT CTGCCCTCAGACGGTGGAGCACCGGCAGGTGAAATACCTCAACAACGTTA TCGAGGGAGATCATGGCCGACTCAAAAGAATCCTGGGGCCGAAGGGAGCG TTCAAAAACCGAATTTCCGCCTACCGGACGTTGAAAGGGATGGAGGCGAT GCATTCATTGCGGAAAGGGTCAGGGAACGATGTTTGA >gid:512861 Cgl2519 Rad3-related DNA helicases GTGTCTACTGCGACGATCGCGTTGCAGCGCCAGTTGGTCAATAGGGATCT CCCCCGCTTGGTGGATGCGTTGGAACCCTTGATGGAACGTCGCCCGACTT TTGCGATTATGAAGGGCCGTTCCAATTATTTGTGCATGAATAAGGTTGCC CGCCAGGAAGAGCTGAATCAGGAAGATGCCCTGATTGAGCAGGAGGATAT CTCGTGGTTAGGTAAGCACATTGTGCGCCTTAATGAGTGGGCCAATGAGA CTGAGACTGGCGATCGTGATGATTTGGATCCGGGTGTTCCTGATCTTGCG TGGAAGCAGGTAAGTGTTACTGCCCGTGAGTGCATTGGCGCGTCAAGGTG CCCGCATGGCGAGGATTGTTTCGCTGAGATTGCCCGCGGGAAGGCAAAGG AGGCTGATGTGGTGGTCACCAACCATGCGTTACTTGCTATTGATGCGTTG TCGGATGTTTCTGTGCTTCCTGAACATGATGTGGTGGTCATCGATGAGGC CCATGAGCTAGATGGTCGCATCACTGCTGTGGCGTCGGCTGAGATCACGG TGAATTCGCTCAATTTAGCTGCTCGCCGTGCGTCCAAGTTGGATTCCGAT AAGCGGGAAGAACGCGTCCAGGAAATCGCTGGCGATTTGGAAACCTTGTT GCAAACCATGCAGCCGGGCCGGTGGAATGACATGGATGAGGGTTCCAAAG GCACACTGGTGGCATTGAAGGACGCGTTGTGGGCATTGCGTGCTCAGATC GCGGGAGCACCTGAGGGTGAGGCTGCGAATGATCCGGAGCGTTTCGCCGA GCGACAGAATTTAAGCAATCACTTGATGGAAATCCATGATGCCAACGTGC GCATTTTGGAGGTCTTCGCGGAGGAGGATCCCTCCAAGCAGTACGACGTG GTGTGGCATAACCACGATGATCGTCGCGGGGATTCCCTCAATGTGGCGCC GCTGTCGGTTGCAGGGCTGTTGCATGAGAAACTGTTCGCGGAAAACACCG TGGTTTTGGCCAGTGCGACGCTGACCATTGGTGGCAATTTCAACGCAATG GCTGCCAGCTGGGGTTTGCCGAAAGGGTCGTGGGATTCCATGGATGCCGG CACGCCGTTTGATCCAGCGAAGTCGGGTATTTTGTACACCGCTCGACACC TTCCGGACCCTGGCCGCGATGGGTTGCCGGAGGAAACGCTTGATGAAATC TACGAGTTGATCACTGCGGCGGGTGGCCGAACTTTGGGGCTCTTTTCGTC GAAACGCGCTGCGGAACAAGCCACCAAGGCGATGCGTCTGCGCCTGCCTT TTGATGTGCTCTGCCAGGGAGATGACAATACTGCCGCGCTGGTGAAGAAG TTTTCCGACAGCGAAAACACGTGCCTTTTTGGCACTCTCACGCTGTGGCA GGGCGTCGACGTCCCCGGCCGTTCGCTGTCGTTGGTGTTGATTGACCGCA TCCCGTTCCCCCGCCCCGACGACCCGCTGCTGCAGGCCCGCAAGGAGGCC GCCGATGCCGAAGGCCGCAACGGTTTCATGGAGGTCGCAGCCACCCACGC GGCGTTGTTGATGGCGCAGGGCGCGGGCCGGTTGTTGCGGCACGTCGGCG ACCGCGGCGTGGTAGCAGTGCTAGACCACCGCTTATCGACGAAACGTTAC GGCGGTTTCCTGCGCTTCTCCATGCCCAGATTTTGGGAAACCACCAACCC AGAGACCGTACGCGCGGCACTCAAACGATTGGTGACTAAGTAA >gid:512891 Cgl2548 Predicted transposase TTGATTCTTCCAGTTCAGGAGGGCATTTCCTATTTTCCCACGCCGTTACA CCTGAATCACATCGGTGGATCCAGGTTTAAGAAGTTCCTGGTCAAGATCG ACAAGACTGTTCCCCAGGACCTTGATGTTCATGTTATTTGTGACAACTAC GCCACGCATAAACACCCGACCATCAATACCTGGTTGGTCAAGCATCCACG GTTTCACATGCACTTCACCCCGACGTATTCGTCCTGGATCAACCAGGTTG AACGGTTGTTCGCTGAGGTGACCCGGGAGTTACTCCAGCGTTCTGATCAT CGGAGTGTCCAGGCCCTGGAGAAAGATTTACGCAACTGGGTGAAAGCATG GAACGAGGATCCTAAGCCGTTTATCTGGACCAAAACCGCGGAGGAGATCC TTTCCTCTATCGCCCGATACTTAAAACGAATTAACGGCGCAGGACACTAG >gid:512947 Cgl2593 Hypothetical protein GTGTTTTCAGAATGCCTATCACCTTGGGGAGGGTGCCTTGAGGCGCTTAG AAGCGAATCTGAGAGGGCACTTTTTGCAGAACCGGGGTTTGAAATCCGGC ATTTCTTGAAGCGACCAGACAGGCGCGACAAGATTGGCGAAAAAGTCAAA GTTTTGGCACGTGTGTCCGGTTTCCAGTGGTTCAAACCAGACAGGCGTGC CAAAAGCTCGCAAGATGTCAGATTTTTGTCACGCCTGTCTGGTCTCTCCC AATTGGGTGCCCCGAACCTCCCCAACTAG >gid:512986 Cgl2631 Predicted 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 >gid:513026 Cgl2671 A/G-specific DNA glycosylase ATGTCATTTACAGCTTTTCAAACAGCCCTGCTCGTGTGGTTTAGAGCAAA TGCCCGCGATCTTGCGTGGCGTGATCCCAATACTTCAGCATGGGGAATTC TCCTTTCAGAGGTGATGAGCCAACAAACTCCCGTCGCGCGAGTCGAGCCG ATTTGGCGTGAGTGGATGGAAAAATGGCCCACTCCGGAAGATTTCGCGAA TGCGAGCACCGATGAGATTTTGCGGTCGTGGGGCAAGTTGGGCTATCCAC GTAGGGCGCTGAGGTTGAAGGAATGTGCGGAGGTGATCGTCGAAAAGCAT GCCGGCGAGGTGCCGGATACGGTGGAGGCGCTGCTCGCGTTGCCGGGGAT CGGTGATTACACGGCGCGCGCGGTCGCGGCGTTTCATTTTGGGCAGCGCG TGCCGGTGGTCGATACGAACGTGCGTCGCGTGTACCAGCGCGCGGTAGCC GGACGTTACCTTGCGGGGCCTGCGAAAAAGCAAGAGCTTATCGACGTCTC CCTTCTCCTTCCCAACACTCACGCCCCAGAATTCTCTGCCGCAATAATGG AGTTGGGTGCTCTTATCTGCACGGCCACTTCCCCAAAGTGTGACACCTGC CCACTGCTTGACCAGTGTCAATGGCAAAAACTTGGCTGTCCCTCCCCGAG TGAAGAGGAGCTGGCTTCAGCGAAAAAGCGTGTGCAGAAATTTGTGGGAA CCGACCGACAAGTCCGTGGCCTAATCATGGACGTACTGCGCAATGCCACC GCACCTGTGCCACTATCCGCGATTGATGTCGTGTGGCCTGACGATGCCCA ACGCTCCCGGGCGCTGTTTTCGCTCATTGAGGACGGACTCGCGGAACAAA ATGAGGCGGGTTATTTCCACCTGCCACGGTAA >gid:513045 Cgl2690 Hypothetical membrane protein GTGAGGCTCCGCCTCCCCAATCTGGCGAAGCGATCAGCTAGATTGGAATT CATGAATCAAGACCTGTCACACGAGGATTCCGGCGACGGCAATTCTGTCG ACCGTGGACAGATTCTGCTAGCAGTACTCATTGGACTTGCCCTGATTGCC AGCGTCATCATGCTGCTGGCCAACAGTGACGGCGCCATGAAAATAGCACT TCTTGCAGCGCTGTGGGCGGCAATCATCGGATTCTTCCTTGTTTATCGGT CCCGCAAACAAGTCGAAGCTGCTGCGCGGGAGAAGGAAACCCTCGAATAC GCACACCAATCTGAACTCAACCGACTAGAAGCTGAACTCGTCCAAGAAAA AATGGAGATTTCTGAATCCCGTCGTGCACGCGATCAGGAAACCCTTGAGG AAATCAAACTTCAACTGGAGGAAATGCGCACCCAGCTGTCTGAGCTTTCT GGCCGTGAATGGGGCTATGAGCCAACCATGCTGCGTGCCGAAGCCCGACG AATCCTTGAGTTGGAATCCCAGCAGCTTTCCCAGCAGTTCCAGGCACCGC AGCCAGAAGTCCCGGAGCCTGTTGCAGTTCCAGAGCCAATGCCGGAACCT GCACCGGTGCCGGAACCAGTACCAGAACCTGAGCCAGTTGAAGTTGCTGT CGAAGCTGAGGAAGAACCAGCACCAGGTCGCAGAAGGCGTAGGCACGCAG CTCCCGAAGAAACTGGCGGACGCCGACGCAAAGATGAACGCCAAGGCGGT TTGAGCGTGGCTGATCTTCTGGCAGCAGCAAGGAAAAAGGAAAACAACTA A >gid:513060 Cgl2705 Hypothetical protein ATGATTCATCACATCGATTGCATGCCTACAGATGTCTCCGCCGAAGCGCT CGGCGTGAGCTGGAATGGGGAATCGCCGGAGGTGCTCGTCGATAAGCTTA TCGACGCATCCCCACACCCCAGCACCTGCCATTTAGCGGTGATTGGCGGC TCGCATGTGGTTACCGTTGAAACGCCCGATGGGCGTTTCCGGGAAGAAAT TTCCTGCCATGCACAAGAAGCGGAAGATTCCCGCTGGCCGCTGCCCGACA GCATCACGCGGGAAAACTACCTGCTGCAAACCAACGTCGCCGTGCTGTCT GAGGAAGATTTTGCCCGCGCAGCCGAAGAAATCTCCAACGGCGACGACGA CTGGTTGATCGCCAGTTTCCCCGGCGCCGGCGAACACCACCTCACCGCGC TGACCGCAGAATTTCTGGAAGACGTATGGGAATGGTTTAGCCACCACCTC TACCCAGAAGAGCTCACCATCGTGAGCACGAGGAGCATTTACAAACCATG A >gid:513096 Cgl2741 Exonuclease III ATGCGCATCGTTAATTGGAACGTCAACTCTGCTCGCACTCGTGTGGACCG GATGGTCGATTTTTTGCTTCGCCATGATGTTGATGTATTAGCGGTGCAGG AAACCAAGTGTAAAGATGAGCAATTTCCCACCGAGCGTTTCACCGAAATC GGCTATGAGGTAGCCCATTTCGGCCTTAACCAGTGGAATGGTGTCGCCAT TATTTCCCGCGTTGGCATTGAAAATGTGGAAACCCACTTCCCTGCCCAAC CGGGATTCAACAAAGACATCACCAAGGAACAATCCATCGAAGCCCGCGCC ATCGGCGCCCGCTGCGGTGGTGTCCAGGTGTGGAGCCTCTATGTTCCCAA CGGCCGCGAAATCGCAGATCCTCACTACGACTACAAACTGCGCTGGCTAT TCTCCCTGCGCAACTACGTGATCGACACCTTGGAATACCGCCCCGAGGAA AAACTGGTGTTGCTCGGCGACTTCAACATCGCGCCCACAGACATCGACGT CTGGGACATCGCAGCCTTCGAAGGAAAAACCCACGTCACCGAACCAGAAC GTGCAGCTTTCGACGGCCTCATCGAAGCCGGACTCAAAGAAACCACCCCC GGACCTGGTACCTACACCTACTGGGATTACAAAGGCGCACGCTTCCTCAA AGGCGAAGGCATGCGCATCGATTTCCAGCTCGCATCCCCGGCCCTTGCTG CAACCGCGGGTGAAACCTTTGTGGACGTTGAAGAACGCAGCGGAACCGGC GCCTCTGACCACGCACCAGTCATCGTTGATTACAAGGTGTAA >gid:513103 Cgl2748 NTP pyrophosphohydrolases including oxidative damage repair enzymes GTGGACACCATGAAAGGCGACGGCGATGGATGGGCAGCAGCACCCAATGG CGGGGCAGTATGGGGCAAAAACGGAGCAGCAGGATTGTTGTTGGTAGCAG ATAAACAAATGCTCATGCAGCACCGAGCCGCATGGACCAACAACGGCGAC ACCTGGGCACTCCCTGGAGGCGCACGAGACTCACATGAAACCGCAGCGGA ATCAGCCCTGCGTGAAGCATTTGAAGAAACTGGAATCCTGCCCGACGACG TGGAAGTTTTAGATTCAATAGTCACCGCAGGCCCTTTTCCCGCCGATCCA GAACGCCCAGAACTTGCCGGCAACTGGACCTACACCACGGTCATCGCACG AACTAAAACCGGCGAAACCCTAGATACCACCGCTAATGAAGAATCCCTCG AACTACGGTGGGTAGATATCGCAGCGGTTGACTCTTTGGCTTTGATGCCA GCATTCGCCAAAGCGTGGCCCTCTTTAAGAAAGCTACTGAACACAACAGA GTAG >gid:513116 Cgl2761 Putative transposase GTGAGCTGCTTCCGGTTTGTTGACGACGTGCGAAAAACCTATCCGGTTAA GCGGTTATGCGAAGTGTTGAAAATCAACCGCTCCTCGTACTACAAATGGA AAAAGACTGCCCCGACCAGGAGCAACCGCCTGCTCAGCGACGCAGTCTTA GGAGCGAAGATCAAGTCCATCTTCACGAAAGAACGCGGCTGCTACGGCTC AAAACGCATCACGGCTGAGCTCAACGATGATCCTGGCAGCACTCCGGTTA ACCATAAACGAGTCGCCCGGATCATGGCATCATTAAAGCTGTTTGGTTTC ACGAAGAAACGCAGGGTCATCACGACCGTGTCTGATAAAAAGAAGCCTGT CTTCCCTGACCTGGTCAAACGTCATTTTAACGCACTAGCAGCAAATGAAG TTTACGTCGGGGATATTACTTACCTACCGATCGCAGATGGCACGAACATG TATCTGGCTACGGTCATTGATTGCTATTCCCGTAGGCTGGTGGGTTTTGC GATTGCGGATCATATGCGCACGTCATTGGTGCAGGAGGCATTGCTGATGG CGAAGAGTCAGCGAGGCAGCCTGAAGGGTGCGGTGTTTCATTCGGATCAC GGCAGTGTGTACACCTCGCAGGCGTTTCAGGACACTTGTAAAAAGTTGGG TGTTCGTCAGTCGATGGGTGCTGTTGGTACCAGTGCGGATAATTCGCTGG CGGAGTCGTTTAATGCCGCCCTCAAGCGAGAGGTGCTGCAGGATTCCAAG ACGTTTGCCAATCAGTTGGTGTGCCGCCGGGAGGTATTTCGCTGGTGTAC CAGGTACAGCACAAATCGCAGGCATTCTTGGTGTGGCTATGTGGTGCCTG CGGTGTTCGAGAGTAGAAATTTAGCTATTCTGAAATCTGTTTCCTGA >gid:513117 Cgl2762 Hypothetical protein ATGCCAACCAAGACCTATTCCGAGGAGTTCAAACGCGACGCCGTTGCTTT GTACGAGAACTCCGACGGGGCCTCACTCCAACAGATCGCCAACGATCTCG GCATCAACCGAGTAACCCTGAAAAACTGGATCATCAAATACGGATCCAAC CACAACGTACAAGGGACAACCCCATCTGCGGCAGTCTCTGAAGCTGAACA AATCCGGCAGCTGAAGAAGGAAAACGCGCTACAACGCGCAAGAACGCGAC ATCCTGCGGAAAGCTGCTAA >gid:513181 Cgl2826 ABC-type transporter, ATPase component GTGGGTGTGGCTGCTGCTTGGACAGAGAAGGTTCCTGCTTTTCGGGTGTT GAGAGAAAAGCGCATGCTGGACTTTCGTGCGCCGATCACCGTCATAACCG GGGAAAACGGTGTGGGTAAGTCGACATTGCTGGAGGCTATCGCGATCAAT GCGGGCTTCGACACAGCAGGTGGTGAACACACCGGAAAGTTCAAACCTTC CGACAACCCTTTGCAAACTGTGGCAAAAGCACACAAGGGAAAAGAGCCGA TGCGGGGGTATTTCCTGCGGGCGGAAACTCATTTCAACGTCGCGTCTGGA TATCGCGATGAGGCTCCCGGCTGGGTGAACCTTCATCACATGTCGCACGG GGAGTCGGTGATGCATATTGTGCAGAATGCTTTTGTGGGCAAGGGGCTGT ATCTGATGGATGAGCCTGAAGCGGGGCTATCGTTCATTCGACAGATGGCG ATTCTGGCGGAGCTTAATTTTCTGGCGGAAAGTGGTGCGCAAATTATCAT CGTGACGCATTCGCCGGTGTTGATGGCTATTCCGGGTGCAGAAATTTGGG AGTTTAGTGCATCGGGGGAACTGCATCGAGGGTTTGATTTTGAGGTGACA ACGGCGTTTCGAGCGCTACGTGACTTCTTTGAGGATCCGGAAGAAATTGC TGAGTACATGATGGACGTCATGATGGACAACAAGGGGGAGTCCTAG >gid:513192 Cgl2837 3-Methyladenine DNA glycosylase ATGAGTTCATTAATCGTTGGCACGGACGGCCTCAGTCGCCCGAGTTGGGC TGCGCAAGATCCCCTGATGCGCGATTATTACGACACCGAGTGGGGAATGC CGATTCGCGATGAACAGGGATTATTCGAAAGAGTTAGTCTGGAAGCTTTT CAATCCGGGCTGTCCTGGGCGACGATTTTGCGCAAGCGCGATAGTTTCCG CGCAGCTTTCTCTCAGTTTGATCCGGAATTAGTCGCAAAATTCACCGATG CTGACATCGAACGCCTCATGGAGGACGCCGGCATCGTGCGCAACAAACGT AAAATTTTGGCCACCATTAACAACGCCAAAGCCACCCTTCAATTGCGTGA GAAGGGTGGCTTGGTGGAATTTGTATGGGGTTTCAAACCGATTGATACCC CACAGCCGGAGACCCTGGAGGAGATTCCGACGCAGTCGCCGGAGTCAGTT GCACTGTCTAAGGCGCTGAAGAAGGAAGGTTTTTCCTTCGTTGGTCCCAC GACGATGTTTGCCCTTATGGAAGCCATAGGAATCGTCGACACCCATTTGG TGGGCAGCCATCGCCGCGGAAGTTCTGGGGTGTGGGCTTAG >gid:513200 Cgl2845 Transposase ATGGGCCCTTATTATGGGCCACGCACACTCCATCAAGTGTTGCGTGAGGA CTACACAACACTGTTTGACGAGTTATCTGCGTTGGGGTTGCCAGCACAGG TGTGTGGGGCCTTACTTCATCTTGCTCCACCACCATCATTACGCTTTTCT TATATGTCGTGTGTAGTGCCGTTATTTGCTGATGAAATCAAAGTCGTAGG ACAAGGCACACGATTATCGTTAGAAGAGAAAATGATGATCCAACGTTTCC ATGACACCGGGGTCAGTGCAGCAGAAATCGGTCGACGCCTGGGTCGGTGT CGGCAAACAATTTCCAGGGAACTTCGACGTGGTCAAGATGATGATGGACG TTATCGTGCACGCGACTCCTATGAAGGTGCGATCAGGAAACTAGCGCGTC CGAAAACACCGAAACTTGATGCCAATCGTAGGCTTCGGGCTGTGGTGGTC GAGGCGTTGAATAATAAATTATCTCCGGAGCAGATTTCTGGTCTTTTAGC CACCGAGCATGCTAACGATAGCTCTATGCAGATTAGTCATGAAACTATTT ACCAGGCGTTATATGTTCAAGGTAAAGGGGCGTTGCGTGATGAATTGAAG GTGGAGAAATTTCTTCGTACCGGTCGGAAGGGACGTAAACCGCAGTCGAA GTTGCCATCGAGAGGTAAGCCGTGGGTGGAGGGTGCGTTGATTAGTCAAC GCCCAGCAGAAGTTGCTGATCGTGCTGTGCCTGGGCACTGGGAGGGCGAT TTAGTAATTGGTGGTGAAAACCAAGCGACAGCGTTGGTGACGTTGGTGGA GCGCACGAGCCGGTTGACGTTGATTAAGCGGTTGGGGGTTAATCATGAGG CGTCGACTGTGACGGATGCGTTGGTGGAGATGATGGGTGATTTGCCGCAG GCGTTGCGTCGGAGTTTGACGTGGGATCAGGGTGTGGAGATGGCAGAGCA TGCGCGGTTTAGCGTGGTGACCAAGTGTCCGGTGTTTTTCTGTGATCCTC ATTCGCCGTGGCAGCGTGGGTCGAATGAGAATACGAATGGATTGGTCAGG GATTTTTTCCCGAAGGGCACTAATTTTGCTAAAGTAAGTGACGAAGAAGT TCAGCGGGCACAGGATCTGCTGAATTACCGGCCGCGGAAAATGCATGGTT TTAAAAGCGCGACGCAGGTATATGAAAAAATCGTAGTTGGTGCATCCACC GATTGA >gid:513310 Cgl2951 Predicted transposase TTGAGATCATACCTAAACCCCTGCCCCCAGAAACCCGATGCAAGATCATC GATTTCGATCTGTTCGCACCGAACAGTCCCTCGATCGAAGAGTTCTGCAG TCGGCTTAAAATATCGCGGCGCAGCTTCTACAACATCCGCAACCGATACC AACAAGATGCCAGTGCAGCGCTGCATCCACGCTCCAGCGCCCAGATCACC TCCCGGCGAACATACGATGAATCCATCACCAGTATCTTGTTGGCCATCCG CGCACCGCCTGAAAGCCCAAGGATGGGAATACGGTCCGATCTCTATCCGA TTCGAAGGCATCGCCACCGGGGAACTGACTGCACCGATTCCATCCGTCTC AACTATCGCTTGCTTGTTACGCGCTGCAGGAGCAGTCGAAAGTAACCCTA AGAAGCGACCAAAGTCGTCGGTGGTGAGGTTTCAACGAGGTCAAGCTATG GAAATGTGGCAAATAGATGGTTTCATTTACACGCTGCACGATAGTGATCT GACTCGGGTAACGATCTATCAAATCCTTGATGATGCCACTCGGTTTGATG TCGGAACCTGTGTCTTTCCCGCGAATGAAAACTCAGTCGATGCCCGAACA GTGCTAGAACAAGCGATTGCTCATTTTGGTGCCCCGCATGAATTACTCAG TGATAACGGCTCAGCGTTTAACCGGATGCGGCAAGGATACGTCGGAAGTT TGGAAAGCTATCTCGCGACGGTGGGGTGTTTAAGCATTACCGGCAAGCCT GGGCATCCTCAAACCCAAGGTAAAAACGAACGCGGCCACCGCACACTATT TCGTTTCCTTCAAGCTCATCAACCACACACACTTGAGGAATGTGCGCACT ATATTGAACAGTTCCGTGATCATTGCAACAATCGTCGTCCACATCAGGGG TTGCCGAATAATCTCACTCCGGCTGCGGCCTGGGAGATTGTGGGGTGTGT GGAGCAACAACCCCCGATTGATCCCGTCGTGCTTCAACAGCAAGCTGATC ACTATGCCCGTCGTCGAATTGAGAAGCAATCAGATGTCTCGCTTGTTCGG CAGGAGGAATCTGTTCCGGTGTCTAAGATGCAGCAGACCGAGCAACGTCG ACGGGTACGTCGTTTTGGTAAAAAGCCGGTGGATCCTGATGTGTTTACGT TTGCTGGGAATAATCAGAAGGTGGTGTTCCAGGGGATGCGTATTTCTGTT CCTCGTACGATGAGGGACAGGGAGTTTTATCGGACGGTGACGGCAACTGA GCTTGGTTTCTGGGATGCGATAACCGGGGAGCTTGAGTTGTTGATTTCGT TGCCGGTTGTGGCGATTGCCCGGGGTAAGTCGTATATCAGTTCTTACAAC ATTCGTGGGGTGTGGATGCAACACCCGACGCTGTTGTGGCAACGCAAACG TGATGAGGCTGAGAAGCGATTTAAGTCGATAGATCCGGGGGATCTACTGC GCTAG >gid:513317 Cgl2958 Site-specific recombinases, DNA invertase Pin homologs GTGCACTTCATCAAGGAAAACCTGATCTTCTCGGCGGAATCCAATGCTTT GCGGGCCCAGCTCATGCTGAGCATTCTCGGCTCCTTCGCTGAGTTCGAAC GCTCCATCATCCGGGAGCGCCAAGCCGAGGGGATCGCCTGGCGAAAAAGG CCGGCAAGTACAAGGGCCGCAAACGCGCCCTCACCCCGGACGACGTCGAG AAAGCCCGGAAACGGGTAG >gid:513339 Cgl2980 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 >gid:513341 Cgl2982 Single-stranded DNA-binding protein ATGGCAATCGGAGATACTAACATCACCGTCGTTGGCAACATTGTTGCTGA CCCGGAACTCCGCTTCACCCCATCGGGTGCAGCAGTGGCTAACTTCCGCA TTGCATCAACTCCCCGCTCGTTCAACCGCCAAACCAACCAGTGGGAAGAC GGCGAAGCCCTCTTTCTCACCGTTAACGTTTGGCGTCAGGCAGCTGAAAA CGTTGCAGAGTCCCTGTCCAAGGGTATGCGCGTTATCGTCACCGGTCGCC TCAAGCAGCGCTCCTATGAAACCCGTGAGGGCGAAAAGCGCAGCGTTTTT GAGGTCGAAGCGGATGAAGTCGGACCATCACTAACATTTGCCAAGGCAGA TGTCCAGCGCACACCGCGCGGTGGAAACTCTGGCGGAAACTACGGTGGCG GCAACCAAGGTGGTGGCCTCGGTGGAAACCAAGGCAACCAGCAAGGTGGA TTCAGCAACCAGAACTCTGGCGGCTTCGGTGGAAACCAAGGCAACCAGCA GCAAAGCAACCAGGGCGGATTTGGTGGAAACCAAAACCAGTCCCAGGGTA ACAACTTCAACCAAGGTGGATTTGGCGGAGGCAGCCCACAGGCAGCACCG GACAATGACCCTTGGAATTCTGCACCACCAGCTGGCTCCGGCGGGTTCGG CGGCGCAGACGATGAGCCACCGTTCTAA >gid:513359 Cgl3000 Formamidopyrimidine-DNA glycosylase GTGATTATGCCTGAAGGACACGTGATTCATCGACTAGCTGGGGAACTCAC CAAGAATTTTGGCGATACCATTTTGGACGCCACTTCACCTCAAGGACGCT TTACTTCTGAAGCGGCGATCATCAACGGTCACCGCATCGCGGTTGCGGAG GCTTACGGCAAGCACCTGTTCGTCGAGTTCGATGCGGATCACCCTGAGCA CATTTTGTATATCCATTTGGGGCTGATTGGCACGTTGCAGTTTGAACCTG CGGAAGAAACCCGCGGGCAGATTCGCCTGCACCTTTCCGACGGGGAGATC GCAGCTAATTTGCGCGGACCCCAATGGTGCAGGTTGATCACCGATGCAGA GCGCACCCAGGCCATTGGAAAATTGGGCGCTGATCCGATTCGCGATGATG CCGATCCGGAACCAATTCGGATTAAGGTGCAGCGCTCAGGGCGAAGCATT GGTTCGTTGTTGATGGATCAGAAGCTTTTCGCAGGTGTGGGAAATATCTA CCGTGCGGAGACACTTTTCCGCCTGGGGATTTCACCGTTCACCATTGGAA AAGACATCACCACGGCACAGTTCCGATCCATTTGGGCGGATCTTGTTGGG TTGATGAAAGACGGTGTTGTGACTGGTCGGATTGATACTGTGCGCCCGGA ACACACACCGGAGGCGATGGGTAGGCCACCGCGGAAAGATGATCACGGCG GTGAGGTTTACACCTATCGGCGAACCGGTCAAGAGTGCTTTCTGTGCGCA ACTCCCATCAAGGAGCAGGTCATGGAGGGTCGCAACTTATTTTGGTGTCC CGGCTGCCAACGCTAG >gid:513362 Cgl3003 Methylated DNA-protein cysteine methyltransferase ATGCACCATCTACGCTATGAATCACCAATCGGAGAGCTTCTTCTTGTTGC AAGTGACCAAGGGCTAACCTATGTGGCATTCTCCGATGAAAACTACGCAG CTTGTACTGTCGGGTCGACCCCGGGAACCAATGCGGTGCTGGAACAGGCA GTTGCTGAGCTTGAAGAATACTTCGCAGGGAAACGTAAAGAGTTCAGCAC TCCCCTGGATTGGCCAAGCCAAAATCTGCTGAGCTTCCGCGGTAAAGTGC AGGAATTTTTGCTGTCCATTCCTTATGGGGAGAGTAAAACTTACAAACAG ATCGCCGCTGAGCTTAATAATGTGGGCGCGGTTCGTGCAGTGGGAAGCGC CTGCGCCACCAACCCCTTGCCAATCTTTGCTCCTTGTCACCGAGTACTGC GCACTGATGGGGCGTTAGGTGGCTACAGAGGAGGCTTGGAAGCAAAACAG TGGCTGTTGGAGCTGGAACGTCCTTAG >gid:513431 Cgl3071 Methylated DNA-protein cysteine methyltransferase TTGCTTGAGGCAGAAGTTCTACCCCTTGATCTTTCCCCGTTGTGGAATAA AGTTCACACCATCGTATCTTCAATCCCTGCAGGTCATTGGGCGAGTTACG GAGATGTTGCAGTGGCAGCCGGAACAAATGCTCAGTCCATTGGTAACCAT CTTGCTGAACACCCAGTACTAAACGCTCATCGAGTTCTAAGAACAGATGG GTCAATCTCAGATGGTTTCAGATGGTTAAACGCTGAGGAAACCCGCTCAC CAAAAGAAGTATTGGAAAGTGAAGGTGTGGAATTTACTTCTTCCAATAGG GCAAACCCTCAACAGCGATTGACTCCAGAGGAATTGCTCGCCTTCTTTGC AGCTGAGAATTAA >gid:513445 Cgl3086 NTP pyrophosphohydrolases including oxidative damage repair enzymes ATGAGTGACTTGAAACCCGAGGGGACTACTAGCGGAGCGCCTAAACGCAG GCGCCGCCGCCGTTCTCGCCGTCCTTCAGGTCAGAACCAAAACCCAAACC AAAACAGGCAGGGACAACAGGGGCAGCAAACCCAAAATCAGCCCCAAGCC CAGCCACAAAGCCAACAGGCCCAACCCCAAAAGCAGAACCAGCAGGGCCA AAATCAGGGCCAAGCTTCTGAGAAAACCTCTCAGAGGCCAAAGCGCCGTC GGTCCCGCAGGAACCCGAAGAGCAACAACACCCAACAACACAGCCAAAAC AGTCAAAACAACCAGAACAGCCAAAACTCCCAGCAAAACACCCAAACCCA AACCTCTCAGTCGAATAAGCAGAAGTCTCAGGACAACCGCAGGGGTAAGG GTCGTAGGTCTCCAACCAGGAGGCGTTCCAACACGAGGGTGAATCAGGCG TGGCAGCAGTCCCGTTTGGTTACTTCTGATGAGACTTCCGCAGGTGGTCT CGTGGTGTCAGGTTTGGCTGAGGCGGTCAACGCTAACAATGAGGTTGATC TGTCGAAGATTTATGTTGCGTTGATTGGTCGCCTTGATCGTCGTGGTCGT TTGTTGTGGTCGATGCCGAAGGGCCATGTTGAGCCTGGTGAGGATAAGGC TGCGACTGCTGAGCGTGAGGTGTGGGAGGAGACCGGCATCCACGGTGAGG TGTTCACTGAGTTGGGTGTGATTGATTATTGGTTCGTTTCGGAAGGGAAG CGGATCCATAAGACGGTGCATCATCATTTGTTGCGTTATGTTGATGGCGA TTTGAATGATGAGGATCCAGAAGTCACTGAGGTGGCGTGGATTCCGGCGA ATCAGTTGATTGAGCATTTGGCTTTTGCGGATGAGCGGAAGTTGGCTAGG CAGGCGCATGATTTGTTGCCTGAGTTTGCTTTGAAGGAAAAGGCGGAGGG AAGGTCCACCCCAAGGTGA