Gene list
Applied filters:
COG category: Replication, recombination and repair
Organism: Wolinella succinogenes DSM 1740, DSMZ 1740
Number of genes found: 99
Show UniProt / TrEMBL protein name | View as list | View in Fasta format (Protein) | ||||
# Wolinella succinogenes DSM 1740, DSMZ 1740 >WS0562 conserved hypothetical protein TTGCCCTATGCGATGACCTTTGAAGGGTTTCTCTCTACGATTAGACTTTT TCCTCAAAAAAAGCGCCTCCCCTCCTCTTTGCGCCCTCTTTTTCTCTCCA TTGCCGCCTCCAAGGTCGAGGTGGAACGCCTCGGATTTGAATCAAACTTC CTCTCTTTTTTGGAGAACTCCCCCTTTTTCCTCTCCTTTTTTGATGAGCT CGCCTCCGTGGGAGTCTCTTTGCCCTCGCTCGCCTCCTTTGATGTTTATG ATGAGTATGGAGATCACCTTGGGGTTTTAGAGCGTCTTTTGGAGGCCTAC AAGAGCGAGCTTGAAGGGTTTGGCTACATTGATGAAGCACTCTTTGAGGC AGAATTTTACGAGGAGTTTGTGCGGGGGTATGGAGAGATTCGATTCCTGG TGGAGGGTTTTTTGAGTCTCAAAGAGATGGAGCTCTTAAACCAAGTCGCC TCAATCACCCCTTTGGTGGTCACCTTGGAGATTGATGGCTACAACCTTGA CTACTATCGCCGTTTGGGGATGACCAAAGAGGAGCTGGAGCGAAATTATC GCTATGAGATAGAGTGGGGGAGCCAGATGATTCTCTCTAAAAAAGCCCTC CCGCCTCTTGGAAGTGTGAATGCTTATGCTTTTGGGTCGCGGCTGGATCA AGTGGCGCTCGTGCTAGAGAGAATCCATACTTGGGTGAATGAAGGAATCG AGCCTGAGAGAATCGCCATCATCCTGCCTGATGAGCGATTCGCCGACTAT CTTCGACTCTTTGATAAAGAGCGCAACTTCAACTACGCGATGGGAGAGCG TTTCAGCGATTCTTCTCTCTTTCTCTCTCTCCAAAAAGAGATCGAGCGCC TCGAATCTCTCCCGCCTCCCGCCTCTCTTTTGGAGCTCTCCCCTTTGGGA TTGGAGGCGCTTAGAGCGTTTACGCTTGAGCTTGAGAGCCAAGGAGAGAT CGAAGCCTCTAGATTGCTACAAGAGGGAATCACTCTTTTAGCCCCCTTGG AGAGAATCCTAGAGAATCGCCCTCCTTCAGAGATACTCCGCCTTCTGCTC AAAGAGTTTGCCACAAGAAGAATCGATGATGTGGGCGGGGGAAGAATCCG TGTCATGGGGATTTTGGAGACGAGAGGATTGAATTTTGATCGCGTGGTGG TGGTCGATTTTAATGAGGGGCTCATTCCAAAGCCCAGCGACAAAGACCTC TTTCTAAACTCCTCCATCCGCGCCAAGTGCCATCTTCCCACCCGCTTAGA ACGGGAAAATCTCCAAAAGCACTACTACCTCTCCCTTCTGCGCCGCGCCA AAGAGAGCGTGTTGGCTTTTGTGAGCAACGAACAAAATGAGCCCTCTAGG ATGCTTTTAGAGCTTCAAACCCCGATTTTTTCAGGCAAAGAGCTTTATGA GCGCACGCTCTTTGGGGCTCCCAGAGAACATAAGGGTTTTGTGGAGGAGA TCATCGATTCGATTCCGTGGGAGAGGGAGCGCTTCTCTCACTCTAGGCTT CAGAGCTTTCTTTTGTGCAAGCGCCAATACTACTATCGCTACATCCGAGG CTACAGCCAAAGAGAAGAGGAGAATGAAAGTGCTTGGCTAGGAAAGACGG TGCATCGGTGGCTCAAAGAGAGCTTTGATCCATCCATTTCCCAAAAAAAG AGGCGTGAACATTTTCTCTCACTCCTTCAAAAGGAGCGATTCCCCAGTGC GAAACTCGCTTTTGAGGCGAGAGCCACCGCTAAAAAGATGGAGCGATTCT TTGAACGCGAAAAGGAGCGTGCTAAAGAGGGGGCCCAACCCCTTTGGCTA GAGGAGCGCGTGGAGTTTGAGGTGGAGGGGATAGATTTTGTGGGTTTTAT CGATCGAGTGGATCGAGTGGGTGAGGAGTATTGGATATTAGACTACAAGC TCAAAAAAGCTCTCAAGGTTGACAAAGAGCGCGACTTAGAGAAGACGAGC GACTTTCAGTTTGCCCTCTACGCCCAAGCCCTCCGCCAAAGAGTTGGAGG GGCGGTGGCGATTCGCGCCTTTTATTATGATCTATTTAAAGGCACGCTTG AAGAGGAGGAGTATCTAGAGGAGAAGATCGCTCTGCTCCCCTTGCGCCTA GCTAGGCTAAAGGAGAAGAATCTCTCCTTTGAGCTTTGCGAAGATGCAAG AGTGTGTCGCTATTGCGCCTATGCCGCTATTTGCGACCGAGAAGATTAA >WS2073 conserved hypothetical protein-PUTATIVE Mg DEPENDENT DNase TTGATTGACACCCACTGTCATTTGGACGATGCAAGCTATAAAGAAGATAT CGCCGAGGTGATTGAGCGGGCCCTCTCTTTGGGGGTGGAGCGCTTTGTGA TTCCTGGAGCAGATATTGAAGACCTAAATCGCGCCCAAGCCTTGAGCGAG CGCTTCAAAGAGGTCTATTTTGCTGCAGGGGTTCACCCCTATCATGCCAA AGAGTATGATGAGAAGCGTCTTGTGGAGGCGCTAAAGCATCCCCGATGTA TCGCCGTGGGAGAGTGCGGGCTTGACTACTATCGCTTGGAGGGCGAGAGC GAAGAGAGAGAGGCAGAAAAGGCACTCCAAAAAGAGGTTTTTTTGCGCCA AATTGCTCTAGCTAAGGCCCATCAAAAGCCGCTCATCGTTCACATTAGAG AAGCCTCAAACGATAGCTTTGAGATGCTTTGGCAGCACAAGGAGGGGCTT AGGGGGGTTTTGCATTGTTACAACGCGGATGCGATTCTTCTAGGACTCGC CCCTCAAGATTTCTACTATGGAATTGGCGGGGTACTCACCTTTAAAAACG CTAGGAGACTTTTGGAGGTGCTCTCTAAGATTCCATTGGATCGACTTCTT TTGGAGACAGATGCCCCCTATCTCACCCCTCATCCCCATCGAGGAAGTCG CAATGAGCCAAGCTACATCCCTTTGGTTGCTCAAAAGATGGCGGAGGTTT TAGGGAAGAGTGTGGAGGAGATTCAAAAAGTGACCGATGAGAACGCTAAA TGCCTATTCAAGGAGCTGGCGAGTTAA >WS0876 ATP-DEPENDENT DNA HELICASE EC 3.6.1. ATGAATCGACACTTTTTAGATGACCTAAACGCCGCCCAAAGGGAGGCCGC AACCCAAATAGAGGGGTCTTTGCTCATTTTAGCAGGTGCGGGGAGCGGCA AGACAAAGACGATCACTACACGGCTTGCCTATCTGATTGAAGAGGTGGGA ATCCCTCCCTCCAACACGCTCACGCTCACCTTCACCAACAAAGCCGCTGC CGAGATGCGAGAGCGTGCACTGCGACTTGTGCAAAGGCGTGATATGCACC CTCCGCTCTTGTGCACTTTTCACAAATTCGGGCTTCTATTCTTGAAATTT CACATTCAGCGCTTGGGACGAAAACCCAATTTTGTTCTCATTGATGGTGA CGATCGCAAGAAGATTCTCAAAAATATCAACGATGATTTACCCGTGGGCT TAGTCGAGAGCGAGATTTCACGCATGAAAAACTGGCTCATCATGCCTGAT GAGGCGCTCCTTAGCGCGCAAGATAAAAACTATAAACTCATCGCCTCAAT CTATGGAAAATATGAGGAGTTTTTAAAAGAGAAAAACATGGTCGATTTTG ACGACCTCCTCCTGCTTTCATTGAAGATTCTAGAAGGGGATGAGGAGCTC GCCAAAGAGGTGAGCGAAAAGTATCAATACATCATGGTGGATGAGTATCA AGACACCAATGAGCTCCAATACAAGCTCCTCAAAAAGCTTTGCCAGACGC ACAATAACCTCTGCGTTGTGGGAGATGATGATCAAAGTATCTATGGCTGG AGGGGAGCCAATATCAATCATATTCTCGATTTTCCTGATCATTTTGCGGG CGCAAAGGTGGTGAGGCTGGAGGAGAATTATCGCTCCACGGCCCCTATCT TGGAGGCGGCCAATAGCCTCATTGAATTCAACAAGGGGCGTCTAGGAAAG ACGCTAAAAAGTGTCAAAGGGGCAGGCGAGGCAATCGAAATTTTGGAATC GTTAGATGAGGGCGAGGAGGCGCAAAAGGTTGCCAAAAGAATCCGCACGC TTCTTGATAGCGGAGTCTCGCCCAGCGATATAGCGGTGCTTTTTCGGCTC AATGCTCTTAGCCGTTCCCTCGAAGAGGGTTTCAATCGCGCCAAGATTCC TTTCAAACTGGTGGGGGCGATGCGATTTTATGAGCGAAGTGAAATCAAAG ACATCTTGAGCTACTTTCGCCTCATCGTCAATCCTCATGATGATTTCTCT TTGGCTCGAATCATCAACAAGCCCAAGCGAGGGATTGGCAAGGTGACGCA AGATAAACTCCTCCTTGAGGCGCAGAGAGCTGGATGTTCGCTCTTTGAGC TCTATAAAAAAGGGGCGATTGAGGGGCTTGTGAGCGCTAAAAACCATGAG ACACTCACAGGATTCTTCGCGATGATCGAGGAGCTTCAGGCAGTCTTAGA GGAATCGACTCTGCGATTTTTGGAGCGCTTTGAAGAGCTCTCTCTGCTCA AAGAGTATTTTGAAAACAGCAAAGAGACAATCGATAGAGTTTCAAACATT GAAGAGTTTTATGGAGTGTTTCGCGACTTCATTCTCTCCAATCCCATGGC GAATCTCGAAGACTTTTTGAACGACCTCTCGCTAAAGAGCGACCAAGATG AGGTGGGGGATAGTTTTGTCTCTTGCATGAGCGTTCATGCGAGCAAGGGA TTGGAGTTTGAGCATCTTTTTGTGGTGGGATTTGAGGAGGGTTTTTTCCC TATGATTCGCGAGGGGAGTGATCTGGAGGAGGAGCGACGGCTTGGGTATG TGGCGTTCACTAGGGCTAAGAGTCACCTAGCGGTGAGCCATGTTCATTCG CGATTCTATAAGGGCAAGCGCACGGAGCTTTTGAAGTCTCGATTCCTTAA AGAGGCGGGTTTGCTTGAGGGGAGCTTGGTGATAGAGAAGCGGAGCAACT TCAAAAAAGGAGATTTGGTCACACACAAAATCTTTGGTGCAGGTCGTGTG AGTGAGGTGAGCGGCGTAGGCAAGGAGTATAAGCTTAAGATCAATTTTGG GGGGATGGTGCGCGAAATCCTCTCCTCCTATGTCATTAAGATCTAG >WS1424 hypothetical protein ATGAGAGGAGTTGTATTGGCTCTATGCATGAGCGCGGGACTCTTGGCGGC TCCAGCACAGGGAGAGGTCAAAGAGGAGAAGAAGAGCTCGCTTAGCGTGA GCGATCTAGTCAAAGTTGATATGCCTAACAAATATGTTCGCACGGGCGCG CTGGATCTCTCGGGTGAGCAGGTGGCAAAGATCATGGAGAGGGTTCGCCC TCTAATGCATGAACACTATCAGGTGAAGATGCAAGAGGCATTTTTGCTTG AGAAGCGAATCGGACGCCTAATCGATCAAAAGCGTGAGAAAGAAGAGATC AAAAAGCTCATGGACGAGGTGGCGGTTTTGAAGCGAGAGGCGATGGATGT GAAGCTTGAAGTGATTGGCATTTTTCAAGAGGTGCTAACACCAGAGCAGT GGCAGAAGGTGCTGGAGCTTAACAAAGCGGCTAAAAAATAG >WS1599 conserved hypothetical protein ATGGAAATCAAAGCCCCCTACACTTCCCAAACCTCCCTCAAAACATCAAG CAACCCCTACACCCAAGAGGGCAAAGAATCGATCAAAGAAGAGGCCCAAA AGCTCAACGCCAACACCATGATGATGGAATATACGCTACAATTCCAGCTC AACATCACTAGCCTCTCGCAGGACAACCTCTCCTCTCAAAGTGCGATGGA GAATCCTTTCAAGCTCAATAATATTTTGAGTGGAATCGACTACGACTTCA TCGGCTATACAGGCAAGCCCATCAATGAGCTAAGCCAACAAGAGGCCAAA GAGCTCATCTCCGAGGAGGGCTACTTTGGAGTCGAAAATACCTCTGAGCG ACTCGCTCAATTTGTCATCCAAGGCTCAGGAGGCGATTTAGACCTCCTCC AAAAAGGGCGCGAAGGAATCGTGAGAGGTTATGAGCAAGCCGAAAAACTC TGGGGTGACAAGCTCCCTGATATCAGTCAGCAGACGCTCGCCAAAGCCCT AGAGAAGATCGATAAGGCCATCGCCGAAAAAGGGGGCAATGCCTTAAGCG TGGAGGCCTAA >WS2053 hypothetical protein GTGAGGATGAAATCGAGAAATATAATATTTTATACTCCAGAGCAATGGGG TGTGTTAGAAAAATTTAGTAACTTCTATAGCGCTACTCATGATTTCAACG ATTCTGGTAAAAGAGCAGTGTTGGGAACTATAAGTCACTTTCGTAAAGCT CTAACACTAAAGAATCTTGCGTTAAAACTAGTCCCGAATTTAGAAAATGA CGAGGTCGAGTTAAATGAGTATGGTTACTCCAGCGCCATCAATTCCAAAG AGTTATCGGCAGTCATAGAATCAATTATTTTGGAATTATATTCATCTCTT GATTGCTCAATCACAGTAATATGCAAAATATATTCAAAATACCAAGGAAT CCCAGATTCTACTCGAAAGTATTTTAAAAATGTCTCTTCTTTAAAAATCG ATAAGCGATTCCCTGAGCAGCTAATAATCGCTGTGCAAGAAGCAACTTGG TACGATGATTTTAGAAAAATTAGAGATGAGCTGACGCACCTAGAGACAGG AAATTGTCACAAAAATGATGAAACAGGAAAAATTGTCTATATGCACTCAG GTTTGAAGAGAAAAGGAGTGTCATTAATAATTAATGATATATTTGCAGAA ATTGATCAAATGATAGCAGATATAAACCAATTCCTAGGCAGAGTGTTTGC ATATTTGTACTCACAGCTTGATGACAAGCCGATATTGCAAACCTGCGGTA TTTTTAACGGAAGGGCGTATGCAAGATATGTATCTCCTCATGAGTCCATG GACTTTCATTCAGGTATTTGTGACGCTCGCAGATGGTTTGATCTTGAAGA AAATCCAACATGTATCTTTGCTAGTGAATGTGGGGCTTACAAAAATGCCA ACAATGTAGTTCGCAGCAAAATCTCGAAATGA >WS1615 conserved hypothetical protein ATGACCAAACACCTCTACATCGACGAATACGGCTCGTTCGTCGGCAAGAC AAGCGAGAGACTGACGGTCTCGCAGGGCGGGGAGTTAAAGGCTGAAATCC CGCTTAGTCGCCTAAAAAGCGTCAATATTTTAAAGGGTGGAATATCGTTA TCAAGCGATATTATTGAGGCTTGTTCTCTTCGTGGAATCAAGATATTTTT CCTTGATTTTCGCAATGTCGCCCACACGGCTATCACAAGCACAGCCAACC ATGCAGTAGCCAATGTGCGCAAAGCACAATTTTTGACTATCGAATCAAAC CATGGTAGAGAAATAGCAAGAACACTGATAGTTGGTAAGCTCAAAAATCA AAGAGCCACACTCCAATACTTTTATAAATATCTTAAAAACACAGACAAAC AGAGCAAGAAGCTAGAAAGTGCAATTGAAAAAATCAAAGAAACAATAGAA TCTCTAAAGAATATCGAGCTTTCAAACAACAAACACTGGTCACAAATCAT TATGGGCAAAGAGGGCGGGATGGCGGCAATATACTTTGACGCTATCGGCG CAGAGCTTTTAGAGGAGTGTGATTTTACCACTCGTATTGGCAGAGGCGCA GAGGATATAATGAACTCTGCCCTCAACTATGGCTATGCGATACTAACAAG TTTTGTTTGGCAATCCATTATCAATGCAGGACTTGAGGCTTATGCGGGAG TCCTCCACACAAACCGCCCTGGCAAGCCATCGCTTGTTCTTGATGTCATG GAAGAATACAGGGCATGGGTGGTGGATAGAAATATCATCAAACTCAGATC CTCCCTCGCGGGCAAAAAAGAACTTGACGCGGAGCTAAAAAAGAAAATTA TCACAGAAATCAATGCCACAATGAATAAAAAACATCTCTACAATGGTAAA AATCTCTCATTACAAGGAGTAATGCAAAGACAAGTTTATCGCCTAGTTGG TGCTTTCATGCAGCAAAATCGCTATAAAAGCTATATTTTTAAATGGTGA >WS1256 conserved hypothetical protein TTGATTGAGCACGGTAGCCTCCCCCACGCCTTCTTTTATGGTCCTCCGGG CACAGGCAAAACAAGTGCCGCCAAAATTATTGCCAAGCGGCTTGACCGTC CCTTTGCCCTCTTTAATGCCACCACTTTCAAAATCGAAGAGCTGCGCTCC TACCTCAAGGAGTATAAAAACGCACTTCTTAAGCCCCTCCTTTTTATTGA TGAGGTTCATCGCCTCTCCAAGAATCAGCAAGAGGTGCTCTTGCCGCTCA TGGAGAATCACGAGGCCATCATCATCGGCGCCTCGACTGAGAATCCCTAC TTCGCCATGACGGGTGCGATTCGTTCGCGCTCCATGCTCTTTGAGTTTAA GCCTTTAGGGAAAAAGGAGCTAGAAATCCTCCTAGAGAGGGTCTGCGAGA ATCACTCGATTCTTCTTGATAATAGCGCTAGGGATTATCTCTTGCGCTCT AGCGAGGGGGATGCGCGCGCGATGCTCAATCTTCTGGATTGCGCCTACAG CCTAGGCGAATCGCCCCTTAGCCTAGAGACGCTCAAAAGTTTTCGACCTG TCTCTTTGCATGAGGGAAGCAGCGAGGGTGACACCCACTACAATCTCGCT AGCGCGATGATTAAAAGTATTCGAGGGAGCGATGAAAACGCCGCGATCTA TTATCTTGCTAGATTGATTGAAGGAGGCGAGAATCCTGAATTTATCGCTA GACGATTGGTGATTTTAGCCAGCGAAGATATTGGAAATGCTAACCCCCAA GCTCTCAATCTTGCCACCAGCACCCTGCTCTCCGTGGCCAAAATAGGCTA CCCCGAGGCGCGTATCATCCTCGCACAGTGCATCATCTATCTCTCCGCCT CCCCTAAATCCAATAGCGCCTACAAGGCGATTAATGAAGCTCTAGAGTTT GTAAGAAGCAAAGAGAGATTGGAGATTCCCCCTCATATCAAATCATTTCA CGAAGGGTATCGCTATCCGCATGACTTTGGCGGATGGGTGGAGCAGCGCT ACTTGGAGCGCCCTCTCTCTTTTGTGAAGTGGATTCCCGTGGGGTTTGAG AAGACGCTCAAAGAGTGGCTAGAGAAGATTCGCTCTATTGGCGGATAA >WS1612 PUTATIVE TRANSCRIPTION REGULATOR ATGATACCTCTTGAGCATCGTTACGCACAGATTGAAAAAGCCATAACATA TATCGATGAAAACTTCAGAGCACACCCTTCCGTGGACGAGATTGCCCAAA ATGTAGGGATGAGCAAATACCACTTCATCCGAGTGTTCAAGGAGTATGCA GGAGTGACCCCAAAGCAATTCCTCCATTGCGTGACGCTCAACTACGCCAA AGAGCATATCAAAGAATCAAGATCGATTCTTGAGAGTAGCCTAGACATTG GGCTTTCCAGCTCCAGCCGACTTCATGAGCTTTTTGTCAATCTTATCGGT GTCACGCCCAGAGAGTGGCGAGAACGAGGAAGAGGTGTTCTTGTCACCTA TGGCTTTGGGCAGACTCCTTTTGGTGAGGCTTTGATTGGATTCACCGACA AGGGGATATGTTATCTCGGCTTGATGAGCGACAACAAGCTTGAAATCCTC GGCCGATTCTATGAGCTTTGGGGAGAGGCTATTTTGGAATATGATGAAAA AGCCGCTCAAAAATATCTCGGATATATTTTTGATAGAGGCGAGGAGGGGT CACCGTGGAATCTTGGAACCAATTCTCAAGTGAATGCATGGAAAGCGCTC ATTAATCTCTCTAGACACCTTGAAGATCGAGTGGAGGGGTTGATTCCTTG TTGCGGGATTATCTCAAGAAGCGGCGCCATGAGTGGTCATCGATGGCGTA TCGAGCGGGGAGCCGCTCTCTCTCTTTTGGATGACATTAGAGAGAAGGGC TCCTTTGGATTTAGCGATAATATCGACCTGTAG >WS1252 HELICASE ATGGAGAGAGATGAACTACTAGCCCTTAGAGCCAGTGCGGGAAGCGGCAA GACTTTCGCACTCACCCTGCGCTACCTCGCCCTCCTTTTCAAAGGAGCCC ACCCCTCTGAGATTTTGACACTCACTTTTACGCGCAAAGCCGCTCTTGAG ATGAAAGAGCGTATCACCCAAGCCCTCGTGGCATTGCAGCAAGGAGAGGA GAATCCCTATCTTTTGGGTCTTGTGGAGGCAGGAATCACCGAGGAGGCCA TCCAAGAGAAGAGGGCGGAGGTCTATTGGAGATTCTTGCAAGCCGACTTA AGAATCACCACCATTGATGCGTTTCTTCACTCCATCGTCAGGAAGTTTTG CTGGTATATTGGAATCCCTCATGACTTCACCATCGCTTCGGTGGATGAAG AGGCTATTATGGAGGATTTTCTCTCTCGCCTCTCCGCCAAAGATCAAGAA TCGCTTCTAGAGCTGAGCGTGGAAGAATCCAAAGGCGTTGAAGCGATTCT TCGATTTTTGCGTGATCTTTGGCATAAAGAGGGGGAGCTTTCCCAAGAGT ATAGGCCCACGCTTAGAGAGTTTGATTCCAAAGAGCTCATGGAGGCAGCC TTCAAGATTAAAAATCGAGTCCTAGGGGAAGAGGGCGCTTCCACCAAAGC CAAAGAGGCGGTTGATTTTGAGGATGTGGAGGGGTTGCTAAGGCGCGGTA AAACTTGGCTCACCAAAGATTCTCTAGTGGAATATAACTACTTTAAAAAG CTCTCTATAGGGGATTTGGATGGGGAGCTTTTTAAGATTAAAGAGCTTCT TGTGGACTATTTCAATTCCAAAGAGTCGCAACTTTTAGGGCGACTTTTGC GACTTTTGGGAATCTTCAAGGAGAGTTTGGAGCGCTGGAGTCAAAAAGAG CGGATTCTTGGATTTGATGAGGTGACTCAAGGCGCCTATCGTCTTCTTGG AGAAGAGATTGATCGGGAGTTTCTCTATTTTCGCCTTGATGGAGCGATCA CTCATATTCTCATTGATGAGTTTCAAGACACCAGCCTTTTGCAATTCAAA ATCCTAGAGCCCCTCATTGAGGAGATCAAGTCGGGAATCTCGCGCTCGCT CTATCGGACGTTTTTTTATGTGGGTGACATGAAGCAGTCAATCTATCGAT TCCGTGGAAGCCACGCGCTCCTCTTTGAGTGGGCTTCTAGGGGGATGAAA GTCAAAGAGCTCCCCAATAATTATCGATCCTGCGCGGTTGTGGTCGATTT CATCAATCAAGTTTTTGCTCCTCACTACAAGAGCTACTCACCGCAGATTC CCCAAAAAAGCGGAGGATTTGTCGCGGTTTTGCAAGAGGAGGAGGTGCTA GAGAGCTTAAAAAAAGAGTTAGGATTCTTGCTAGAGCAGGGGACAACCCC TAGTGATATAGCGATTCTTGTTTTTAGCAACGACGATGTATTGCGTGTGG CAGAGTGCCTCAAAGACTCTTTTGAGGCACTCAAAGTGGTCACTGAGACA AGCGCTAGGCTTCTAGAGCAAAGAGAGGTGAGGGCGCTCCATCGCGCTCT TTTTTATCTCCAAGAGGGCAAAGAAGTGGATGGGGTGAGCTTTTTGAGTC TCATTGGAGAGCCGCCTCATCTAGATCGACTTGAGTTCTTGCGCTCTTTA AGTTCTCTTAAGAGTAGCCAGATTCTTCTTGCCCTTATGGAACACTTCAA ACTCTTTAGCGCCTCAGCGAGGAGATTCTTGGAGATTTCTCTAGAGTATC CCTTGGTGGATGAGCTTCTTCTTCGATGCGAGAGCTTGGATGAGCCTCTT AGTGCAGAGGAGTTAGAGGGGGTGAGAATCCTCACGATTCATAAGTCTAA AGGCTTGGAATTCCCCCATGTAATCGTGATGGATCGTCTCTCCAATCCCT CCAATCAAAGCCCCGCACTCTTTTATGATTACGAGGGAATCAACTTGCGC GCTATCCTCTACCGCCTCAAAGAGCGGGAAAATTTTGATTCTACCTATGC AAGAGCACTAGAAAAAGAGAAGGAGGCCAAAGCTCAAGACCTCCTCAATA TGCTCTATGTTGCCTTCACGCGCGCCAAAGAATCACTCCATATTCTACAG AAGAGCGAAAAAGGGGCTATGGAATCTCTAGCGCTAGAGTCGTGCACCAA AGGAGAGATTCCCTCTGGGCTCCCCCCTAAACCCTCTGCCATGCTCCCCT CAAAGGGTCGCACCTTTGTTTCTAAAGATTTCGGACGACAAAAGGATTTT CTAAAAAAAGAAGAGAGTCAAAGGGTCTATGCGCCAAGAGCTGTCTATTA TGGAGAGGCTTTTCACCTCTGCCTTGAACATCGCCTCCATTACGCGAGTT CCCCAGAGAAGCTAATGACCCTCGTTCTCAACCAATATGGCCATTTCCTC AATAAGAATGATGATAAAGAAATCATAACCAAATGCATGGATGTGACAAA TGGTAATCTTTTGAGACCGATTCTTAACCAAGGTAGGGTAAAATGTGAGA TTCCGTTTTTAGAAAACGGTAAAATGAGACGCATTGACCTGCTTATAGAG GGCGAGGAGAGGGTTTTTGTGGTGGATTACAAAAGCACCTCCATTCTTAA AGAGGGCTACTATCAGCAGGTGGAATCGTACAAGACCTTCGCCTCCAAAG CCCTGCAAAAGCCTTCTGTAGGTTTTTTGCTCATCTATGGTGAGGAGATT CGCCTCATTGAGGTGTGA >WS1616 hypothetical protein ATGAAGCTATTTTTTGAAGTTATTGTCTCTTATGACATAGAAGACAATAG AAATCGTAAAAAACTTTTTGAGGAACTAAAAGACATGGGACTATCGCCTA TTCAAAAATCTGTCTTCTGGGGACACCTCAAGCTAGCAGAGATAAAAATC CTTCCGAATCTTTTTTGCAAATATTGCTCTGATGGCGATAAAGCATTCTT TGTAAAAGCTCGGCTATCCTCCGAGATAGTTAAAAATGGTTTTGGCTACA CTAGTAAAATCTTTGAAATCAAAGAATATGACATCATATAA >WS1754 ENDONUCLEASE IV TTGAAAAAATTTGTCGGTGCCCATGTGAGTGCTAGTGGAGGCGTGCGAAA CGCTCCGCTCAACGCTCAAAAGATCGGCGCAAAGGCCTTTGCGCTCTTCA CGAAGAATCAGCGCCAATGGAGCGCCAAAGCGCTAGAAGAGGAGGAGATT GAGCAGTTTAAGGCTAACCTCAAAGCCGCAGGGATTGCGCCTTCTTGTGT GTTGCCGCACGATAGCTACCTCATCAACTTAGGCCATCCAGGAGAGGCGG AGCTCGCCAAATCTAGGGAAGCTTTTTTGGATGAGATGAGGCGATGTGAG CAGTTGGGGCTGGATCGGCTCAATTTTCACCCTGGAAGCCACCTTGGAGC TATCAGCGAGAGTGAGTGTCTAAGTCGTGTCGCCGAATCGATCAATCTTG CGCTAGAGGCCACTTCTGGGGTGATCGCAGTGATTGAGAACACCGCAGGG CAGGGGAGCAATGTCGGCTATGATTTTCGCCATCTAGGTGAGATTATCGA TCAAGTCCACGACAAGAGCCGTGTGGGAATCTGTATTGACACCTGTCATA TGTTCAGCGCGGGTTATGACATTCGCACGCGTGAGGCGTATGAGGCGAGC ATGGCGATCTTGGATAGAGAAGTGGGGTGGTGCTATCTTAAAGGAATGCA CCTCAATGATTCCAAGGTGAAGTTTCAAAGCCGTGTGGATCGGCATCATA GCCTAGGGATGGGAGAGCTTGGAATCGCTCCTTTTGAATTTATCATGAAT GATCCTCGCATGGATGGGATTCCTCTGATTTTAGAGACGATTGATGAGGC TCTTTGGGCGCAGGAGATCACCCTCCTTTACTCCTTAATCAAGGAATAA >WS1221 INTEGRASE-RECOMBINASE PROTEIN XERCD FAMILY ATGAGATACCCCATCGATTTCAAGGATCGTTTTGAGGAGACGCTTCTCTT TTGGATGGAACGCTTCGTTCGCAACAAAGTCACCACGCTCTCCAACCATC AGGTCAAAGAGAGAAAACGGCTTGATGCAGTTCTCCTCAAGCTCACTCGA GGAATCACCAACATTGAGGAGCTCAAATGGTGTGGCAAAGAGGCTCGCAA TGCAGGGCTAATTGGAATCAACACCTACGTCAATCCTCTCATCAAGCTCT ATGAACGCCTAAGCTATCTAGGGCTTGCCTCCATGAAAGAGATCGATGAG GAGATGCTAAGCGACTACCTTGTCATTGCCACGAGCGGACTTTCAGACGC CTCCAAAAAAAACCACCGTATCGCCCTCCTCTCCTTTTTTGGCTACATTG ACAAGCAAAACCAAGACGACCAAGGAAACTCGCATCTCTTTAGAATCGAG CTCAAAAACTGGGGTGGATTGCGGGGTAAAAGTGGAGAGAAACTCCCTGC CTACATGAATGAAAAGGAGCTGGAGCGATTCTTGGAGGCACTTGATTCTT ATGAGTTTTCACTCGATATTCGCGCTAGAAATCGCCTCGTGATCAAACTC ATCCTCTACACGGGAATCCGCGTCAGCGAAGCCCTTGGCTTAAGGCTCAA AGATTTTTTGCCCGATCAGGATTCCTATCTTTTAAAAATTCGAGGCAAGG GCAACAAGGAGCGCATGGTGATGGTGAAAAAAGAGCCCATTCAAAAAGAG CTGGATGAGTGGCTTGGAGTGCGCCAAAGTCTCAATGCCCAAGAGGATTG GCTCTTTTGCAACCAAAAAGGCGGAAGGCTTACGCAAGCCTATGTGAGCC GCATCGTGGAACAGATTCTCCTTTGGGCTGGAATCCGTAAGGAGAAAAAT GGCGCTCATATGCTCCGCCACTCTTTTGCCACCCTCCTCTACCAAAAAAA GCGTGATCTTGTGCTCGTCCAAGAGGCGCTCGGACATGCCGATCTCAATA CCTCTAGAATCTACACTCACTTTGATAGAGAGCGCCTAAGAGAGGCCGCC TCGCTGATGGATGACCTCACCCCAAAGAAAAAAGAGAATTAG >WS0260 conserved hypothetical protein ATGCTACATCACTACCTCCAGAGCGCGATCAATGACCTGCGCTCTCTTCT AGCCATCACCAGGCAAGATATCGAAGATATCAAAGAGGCCAAGCACCAAA TCATCTTCTCTCGAACCAAAACCAAGGACGATCTCATCGCTTCCTTTGAG AACAAAAAGAGCCTCATCGACCATGAGATATTAAAGCTCACCAAAGAGCG TCCTGAAACCTCCTTGGGCGATCTTTTAGACCAAGAGGCGACTGTTCTTC TTGGAGAGTTGCGAGAATCTTTGGAAGATCTTAAAGAGGAGAATCGGCGA TACGCCCGCATGGTGTTAGCAGTCTCTGAATTTTACAACTCCCTTTTAGA GCGACTCCTCCCCCCTCAAACTCAAGATTATAGCGGCAAAAAGCACGCCC CTTCCTCCTTTTTAACGCTTGAAGCGTAA >WS1883 conserved hypothetical protein-Nucleotide binding protein ATGATTCTCCCTCTTCCCTCCCTCCCTCCAGAGCTTCTCCTTCTCCCCTC TCCGCCCAAAGCTCTCTTTTATCATGGAGACCTTTCACTTCTAAAGCGCC CCAAGGTGGCTATCGTAGGCACGCGCCACCCCAATGCTTACACCAAAGCC ATGACGCGCGAGTTGGCACGATTTTGGAGCGAGAGAGGTGTGGTGGTCGT GAGTGGAGGGGCTTTTGGAGTTGATGTTTTGGCGCACGAGGCGGCCTTCC CCTCAACGATTCTCATCTCTCCCTCCAGCCTAGACCTCCCCTACCCTCCC TCACACAAGCCTATAATCGAAAGAATCGCTAAAGAGGGGCTACTGCTTAG CGAATACGAATCCTCTTTTATGCCCAAGCGCTACACCTTTTTAGAGCGAA ATCGCCTCATCATCGCTCTCTCCAGCCTCATCATCATCCCTCAAGCCGAT TTAAAAAGCGGCTCCATGCAGAGCGCCCACACCGCCATCAAGCTTGGCAA ACCCCTCTATGTCCTTCCCCATCGGCTCAAAGAGAGCCTAGGCACCCAAT CCCTCCTAGAAAGAGAGCTAGCCCTGCCTCTCTATAACCCTCAAACCCTC TTAGAGCGCCACTTTCCAGAGCTAGCCAAGCCCCTTAAAAAGAGCAAAGA TGATCTCCTCCTCTATGCTCAAACCCTGCCAAGCTACGAGGAGGCGGTGG CGCGCTTTGGAGAGCGAATCTTTGAATATGAGCTAGAGGGAAAGATTCTC ATCAAAGAGGGGAGGATCATGCCCCTATGA >WS0615 conserved hypothetical protein ATGTTGTGCGTGTTTGATTGTGAGACGATTCCTGATGTGGAGCTCCTTCG ACTCCAGATGGGCTTAGAAGGAAGTGATTTAGAGGTTTGCGAGAAGGCGT TTAAGATCCAAGAGGAGAAGAGCGGAAGCTCCTTTTTGCCCTATCCCTTC CATAAAATCGTGAGCATCGCTGCGGTGATTGCGGATGATTACGGGCGTTT TATCAAGGTCGGAGGCTTTGCCCAAGAGGGAAGCGAAAAAGAGATTCTGG GAGCCTTTTTGGATTATCTTAACGCCAAACAGCCCAAACTCGTGAGTTTT AATGGACGAGGATTCGATCTGCCGATGCTTCTTCTGCGAGCGATGAAATA CAATCTTAGTGCTTATGCCTATTTTGAGAGCGATAATCCTGCGCTCAACA AAAACAAATGGGAGAACTATCGTCAGCGCTACAGCGAGCGATTCCATGTG GATCTCTACGACACGCTTGGGCATTATGGGGCGGGGCGCTCCATGCGACT GGATTTAGTCTGTGCGATGAGCGGTTTGCCAGGGAAGTTTGATGTGCATG GAGATGAGGTTTATCGCCTCTATTTTGAGGGAAAGCGCGGGGAGATTGAT GAGTATTGCCAAAGCGATGTGCTCAACACCTATTGGCTCTATTTGAAGTA TGAGCTTTTAGCAGGGAATCTTACGCTAGAAGATTATTATGCGACCTTGG CGGAGTTTATGCATAAGATTCCCCAAGGGAGAAGTTACAGCGAAATTTTT CTACAATACGCCCAAAAAGAGATTGACGCCAAAGAATCGTGA >WS1444 conserved hypothetical protein ATGGCGGCATGGCGGACGGTGGTGATCGCGACTTCTTGTCACTTGCGCGT GCGTGATCGGCAGTTGGTTATCGAGTCGAGAGAGGGGGAGAGGACGCAGT TGCCGCTTGCCGATATAGGTGTGGTGATCGTCGAAAACCCTCAAGTGACA CTATCGGCAGCACTCCTTTCGGCACTGGCACAGGAGGGGACGGCGCTCAT GTCTTGTGACAGCTCCCATCTTCCTGATGGTGTGTTCGCTCCTTTTGGGA CGCACAGCCGTCATACGCGTGCCGCGCGGGTGCAGGCAGTATGGAGTGAG CCGTTCAAAAAGCGCTGCTGGCAAAAGATCGTCCGTGCCAAGGTTTCCTC TCAGGCGGAGGTGCTGCGTCGGGTTGGGGCGGAGGATGCTGCCCGTAGGC TGGAAAATCTCGTCGGCAAAGTCACTTCTGGAGATACTACTGGGGTAGAG GCACAGGCGGCGCAGGTCTATTGGCGCTCACTTTTTGTCAATTTCAAGCG ATGGGATGGTGGACTGGATGCACGAAATGGCGGCCTCAATTACGGCTATG CCGTGTTGCGCGGAGCATTGGGGCGCGCTATTGCTGGAGCTGGGTTGATC CCGGCATTTGGATTGCATCACGCTGGAGAGCTAAACAGTTTTAATCTTGC GGATGATCTGATAGAACCGTTTCGTCCTTTTGTCGACTTGCTCGTATGGG GGCTCTTTCTCGAGCGCACGGGCGATGACCCGCTGACGCGAGAAGAGCGT ATGCGGATCGCACAGATACTAGGCGAGAGCTGTATCATGACTGAGCGATA TGAGACGCTTTTGTCGGCGACACAGATTATTGCACGGTCTTTGGTGAGTG CAGGAGAACAGAAGGAGAGCAGGCGGCTGATTTTGCCATGGATGGGTGAA GATGATGTACAAGGTGAAGTTTATGAGGCTGATGGTGATGTTTGA >WS0539 HYPOTHETICAL PROTEIN , WS0539 , ATGAAGATTTCTCTTAATCTTCAACCTCTAATGAGGCGATTTGAAGTGAT TTTGAGTGCGATTGATGACTATTTTGAGCCTAAAGAGGAGAGTGAGAAGC GACTTCTTTATGTCATGCCCGCGCTCTTGCTTTTTTTGCTCTCCTATCTC TTTTTGTTCCCTGCGGCGGAATCGTGGGTGAGCGAGAAGCAATCAGAGCT GGGAAGGGTTAAGGAGTCTTTGGAAAAGAATCGACTCTTTGTGCAGGCAT TGGAGCGCTCAGGAGGAGTAGAGCCTAGGCGGGCAGAGCTAGAGAAGACA AGAGAGCGCCTAGAGACTAGCGAGCTTTTGAGCAAGAGGGCGGAGGCAAC TCTGGGCGAGGTCTATGCCATGAGTCAGGCGTGGTATTTTACGCTTGATT TTGCGACCAAGGAGGCCTCAGAGCTTGGGCTTGAGGTCATCGATTCCTCT TTTGGGAGTTTTGAAGGCCTTGGGGCGGGCGGGCTTGAGAAGTCATGGAT GAAACTTAAAGGCAGGGGGAGCAAGAGAGCGCTCCTAGAGTATCTCTATC GATTGGAACGACAGGGGAAGTTTGTCTCTTTGGAGAGAATCCACCTAGAG CCTAAAGGGGAGAGGTTAGAATTTGAAGTGACGATTGGGAATCAAAAGGG GAGCTTATGA >WS1405 METHYLTRANSFERASE TTGAAAGAAAAGAGACCTCTTCAGCCCTTCATCAAGTGGGCAGGCGGCAA GGAGCGAGAGCTCCCCCTCATCCGCCCCCATCTCCCCTTGCGCATGGAGC GCTATTTTGAGCCTTTTATTGGAGGGGGAGCGCTCTATTTGGACACCCAA GCCTCCGCCTACTACATCAATGACAAATCCAACGAGCTCATCTTGCTCTA TCGCCTCATCCAAACCCAAGAGGCGACCTTTTTGGAACACCTAGAGCGCC TCAATCAATCCAAAAAAGCGCTCCTATCTCTCGCCCAAGAGCGCCTCGCT CTTTGGATTTGCGAAGAGTCGCTCCATCTTAAGGACTCTTCGCTTTTAAA TTGGCTAGAGGCACAAAAAGCCTCCATAGGGGAGATCGAAGGGGCTCTTT TGGGTTGTATGAATGGATTTATATTTCATTTCATTCAAGAGGCAATGCTT GATAAACTTTCTCGCATGAAAACGCTCGAAAAAAAACGTGGGATTTTAAA AGCGGAGGACAGAATCAAGAATCTCTCCTCCGCGATCCAAGCAGGGCACT ACACCGCCCTAAGAGAGCTCTACAATCACCCTGAGCGCTATGACTACTCT GACTCTTTTTTGGGAGCGCTCTTCTTTTTTATCCGAAGCTACGCCTATTC GGGGATGTTTCGCTACAACTCCAAGGGAGAGTTTAACGTCCCCTATGGCG GTATTGGCTACAACAAAAAATTTCTTGACCGCAAGATCGCCTTTTTTAAG AGCGAAGAGCTCCACGCCAAGCTCCAAGCCACTCAGATAGAAAATCTCGA CTTTGAGGAGTTTTTGAGGAGACACTCCCCCACGAAAGAGGATTTTATCT TTTTGGATCCACCCTATGATTCGGAGTTTAGCACCTATGCGGGGAATCTC TTTGGCAAGGAGCACCAAGAGCGCTTGGCTTCTTATCTCCTCAATGAGTG CGAGGCGCGCTGGCTTATGGTGATCAAGGAGACCGATTTTATTTTGGGGC TTTACACGCAAAGAGGGATCACCCTCTCGCGCTTTAAGAAGCGCTACGCC GTCTCATTCAAAAACCGCAACGACCCCCACGCCACGCATCTCATCATTCA AAACTATTAG >WS1089 conserved hypothetical protein ATGAGTTTCGAAGAGATATTAAAAAGCGAAGCACTGAAGCTTGAGATTGA ACGACTGAAAGAAGAATTTGTTTCTATTGAAAAGTTTAATGAGCACCTAA AAATCTCAATCATAGAGAGTGAAACAAAAATCAGAGTTATTTTGCCCGAT GGTAGAATATTTGGGCATAATTATCAAAAAACACTGGAGGAACTAGGCAA TGCAAGAGAATATATCGAGAGCGGAACATGGCGAAGAGAGGTCATTCGAA GAGTGGGAGAAATCCTTGAAAGAGAGAGAAAAGATACTAGACGAGATGGA AGACTTGATCACCCACGCGAAGGAGAACAACGACGAGATAGAAGCACTGC AAGTACAGATGAAGAACTTCAAGCCAGGGCAAGATTTAGAAGGGATAGAT CTGCAGCTCTACGAGGCGATGCTGGATCGAGTGGAATATCTACACGAGAA CAACAGCGAGCTATTTCAGCGTATGGAGATTCTCAAAGAAGCCCACAAAA AAGCGATGTAAACCCACTTAGTATTCCCCTCAATGAGCTCCTAGCGCTTG CTGGATATGAGCCCAAGAGAGACAAAACTTCACGAAATAATGTGGTTATG CGTGGTGGCCCTGGAGATAACCTTGTTATCTCCAGGATGCCCGACGATCA TTATCTCTACTTCAATGCCAACAACGACAGCGACCGTGGAACAATCTTTG ACTTTTGCAGGAATCGTGGAATTAGCGCACGAGATTTGATAGGAGCCTAT GAAAGGGGAGGAGGTGAGATACAGCATAGCATAGAGCGAACGGGAACCTC ACGAACACCAGCGAATCTGAAAAAAATACAAGACACTTGGAATGCCCTAC CCCCTTACTCTAAAAGTGAAGACACTTATTTAGAAAAGGTGCGTAAACTC TCTCGAGAGACTATTGCCCTCTACTCTGAAATTAAAATCGATGAACGGAA GAATATCTGCTTTCCTAGTTATGCCCTTGACGAAAAGAGTGGCTATATCA TGATTGTCGGCTATAACAAACGACTGCAGAGCCCACTCACCAAAGATAAA GAAGGCAAGCCCTACGAGAAGCCAATCAAAGCTCTTCATTCTGGGGAAAA AGGCTTAGAAATTCTCAAGGCGACAGGACTCAAACAATCCAACATCAAAA CTCTGGTTATAGGCGAGAGCTCCATCGATATGCTTTCACTAGTTGAAATG AAAAAAATAGATCCATTCTCGTCCCTTCTCGTCGCGACAGGTGGCCAACT AAATGAATCTGCTCAAAAACTATTAGGAGAACTCTCGAGGAGATACCCAA ATGCTGAGCTCATTCGTGCACCCGATAATGATCGAGATGGTATAAGGATG ACAGAGAAGATTGCAGGAATTCTTCAGCGAGAATCCGTCGAACTCTTTCC ACAGCTCAAAGACCATAATGATGATCTAAAAGCCTTGAAAATTCTCAATC AAGCATCAAGTGATCTTCGTTCTGAACTCAGCAATGAACTCAGTCAAACT ATTCGTGCAGCCAGGGATCAGAATCATAATCACAACAAATTGCTTCAAAA AATTAATGAAATCACAAAACTCATACCACCAGATCGATTACAACTTCAAG CAATCAATCAACTTCAGCAAAACCAAATAGAAAAAGGAGGACGAGAGAGA TGA >WS1617 HYPOTHETICAL PROTEIN-RecB family exonuclease ATGACATCATATAAACTACCAATAAATCTTATTCGTCAGTATCTTTTTTG CCCTAGGGTTGTCTATTTTTTAGAGGTACTAAATATCCCCAAGGCATCTC CAGTATGGGTAAAAGAAGGTAGTGCGCACCATAGAAAACAAACTGAACTT TTCAAACGCCGCACACTCGCTAGATTTCATCTTGAGAACGCCAAGCTATC TACAAATGTGATGCTCTTTCATGAAAATTTTAACTTTTATGGTATATGTG ATATTTTAATTATTAGCGAAGAGAGTGTCTATCCTGTAGAAATAAAGTTA CACGGCGAGAAGATAACAAAGGCACAAAAGGCACAAATTGTAGCTTATGG TGTTCTTGCGGAGGCAATCTATAGAAAAAAGCTTGAGATGGGGTTTGTGC TATTTGAAAAAAATAGCAAAACCATACCAATAAAAATATCAGATGGAGAC AAGGCGGAGATAAATAATTTCGTAAAGAAGATAATAGAAATGATAGAGTT AGGCAATCTACCTCACTCCAGTGCCGACGGAAGTAAATGCACGCAGTGTG AGTTCTTGAACTACTGCAATGACAGGTTTTAA >WS0154 conserved hypothetical protein ATGAAAGCGAAACACTACACCCTATTTTGGCTACTCTTTAGTATCGCCGC GGGTCTTTATATCTACAGTTTCAACAGCGAGATATACACCTACACCCCGC CCTTTGGCGAAACCTCTTTGAGCCTTCCCGTAGCCATTTGGAGTCTAGTG CCGCTCTTCTTCTTCTTTGTTTTGAGTCTATGCCTCATTCTGCTTGGCAA GGCGCAGAGCCTTTGGGAGGAGTACCACTCCAAAAAAGATCGAGAGCTTC TATTGCGGCAGATTTTAGCTCAAGCCTCCGAAAAAGAGTTCAAAGGTGAG CTTAAAACTCATACTTTCAAGTCAATCTCCAAGATTCTTCGACGCTTCAA ACTCATCGCTCAACCTCACACCCCCCTCAGTGATGACGAAGAGATTGATT CGCTCATTGAAGCCTCTTCCAAGATTACCCAAGGTGAGGTGGTCGATTTG AAGCGATTCCATCTCCCCTACACCGCCTCTCTCAACCTCCAAAATCAACT CAATCGTCTCAAGATCGATCCTAAATCCGCTCTAGAGATTCTCAAAAAAA CAGAGGCACCCGATTCTTTGAAAAAGGTTGCGCTGCTTTCACTCTTTGAG TCTGGAGAGGAGAAAGAGATACGAAAATATCAAAACCTCATCCCGCTAGA TAAAGAACTCGCCAAAGCCCTTCTTGGGGCCTATGAGGCCAAGCGCTTGA AGCTTGGTTTTGATGAGATTGCCTCACTAGGCGAAAAGGCAGTTTTTGAA GCACGAGACTATCTTGGACTAGCCAAAGAGCTCAAAGGCTCTTTGGAGCC TGATAGCTGGCTCAAGCTCTTTGAGGTTTTAGCCGAGAAACACGAAGGAG CCGAGGAGGCTTATCTCTATGTGCTTTTAGAGCTTGAGATGATTGAGGTG GCCAAAGAGCGTCTAAGCGCTCACTCCAAAGAGGATTTCCCCAAGATTCG AGCCTTCTTGGAGCTCCGAAAGAGCGGATTCTCCTATCCTGCGGAGATAT TTTTCTTCTAG >WS1966 conserved hypothetical protein-N6-adenine-specific methylase TTGACCCTAAGAGTCATCGCGGGCTCTCTCAAGGGTCGCCCCATCGCGAT GGTGCCAAGCGATACCACACGAAGCACCAAATCCATCCTCAAAGAGTCAT TTTTTAACACCCTAGGGATAGAAGTGGAAGGGACGCTTTTTGTCGAGGTC TTTGCGGGCACGGGTTCCATGGGGATTGAGGCGCTCTCTAGGGGAGCAAG GCGGGCGATCTTTTTTGAGTATTCTAACGAAGCCTATAAAATCTTGCAAA AAAATCTCCAAACCCTCTCCCTCCAAGAGGCGAGTGAGAGCTTTTTGGGG AATAGCTTTGATCTCTTTCCTCAAATCATGCGATCTCAGAGCCAAAAGGA GAAGATGATCGTCTATCTTGATCCTCCTTTTGCGATTCGAGAGAATCAAG CCGAGGTTTATGAGCGCTGCTATGCTCTCATCCAAACCCTCTCTCCTCAA AACACTCTCTATATTGCGCTAGAGCATATGAGCCAGCTTGAGCCTCCAAG CCAAATTGGGGCGTTTGAGCGCCTCAAGACCAAAAAATTTGGCAAGAGCG CTCTTAGCTACTACGCTACTCTCGCCCACGATTAA >WS1731 DNA POLYMERASE III DELTA PRIME SUBUNIT HOLB ATGGAGCGCCCAAGCGGATACATCCTCCTCACCTCCAATCTAGCCGCTTC TATCGAGGAGCTAGGGGCTGGAGGATCCAATGAACATCAAAAGCTCTTTT TCAAAGAGGAGTTTTTAATCGATGACAGCAAAGAGGTGATCGCCCAAGCC TACATTGCCTCCAAGGAGCCTGTGAGAGTGATCATCGCCGCGCAAAACTA CAACCTCTACGCCCAAAATGCTCTTTTGAAGATCTTAGAAGAGCCTCCCA AGCACATCTCATTTATTTTGCTAGCGACCTCCAAATCTTCGCTCCTTCCC ACGATTCGCTCGCGCCTCCCCATCATCGATCATCGAGAGCCTCTCTCTCA AAACCCTTTCCCCCTAGCGCTCTCCTCGCTCTCACTCAAAGAGGTCTATG GATTTCTCAAAGAGCTCACCCGCGAAAACCCCTCCAAAGAGGAGACCAAA AGGCTCATCGAATCGCTTCTTTTTGCCTGCAAAGAAGAATCGCTCCCCTT GCGCGCCCAAGATTTAGAGCTTTTTGGACGAGCGATCGTGCTGGCTGAGC AATTTGAGCGTCCCGCGCATATTTTTTTACCCCTTCTACTTCTTCTTTTA CAAAGGAAAAAGAGTGTTCGTCCAAAAAATTGA >WS1019 hypothetical protein TTGGAGGAGTGCATGAATAAAGCCGAATTCGTTGAATTGGTTAAAGAGGT TGGTGGTTTTGAAACCAAAAAAGAGGCTGAAAAAGCAGTAAGCGCTTTCA CAGCAGCGGTAGAAAAAGCCCTAGAGAAAAAAGGCAACGTTGAGCTCGTT GGTTTTGGTAAATTTGAAGCGGTCCTTCAAAAAGGCAAAGAGGGCAAAGT TCCTGGAAGCGACAAAAAATACAAAACTAAAGATAAATTCGTTCCTAAAT TCAAACCTGGCAAAGGCCTTAAAGACCTCGTTGCCAAGGCTAAGAAATAA >WS2030 HYPOTHETICAL PROTEIN-PUTATIVE INTEGRASE ATGGCTATTAATCTAAATGACTATAAAAGAGTAGCTCAAAACCTCAAAGT CAATAAAAAAAATATGAGAGAGTTTTTATTTGATTTTAGAGTGAATGGAA AACGATACCGCAAAGTTGAAACACTTATAGAGCGTACTGGGTGGAATAAA AAGGACTATGAAAGAGAGGCTCAGCTTTTACTGATTGATTACCGAAAAAA AGTAGAAGCAAACACGGGCAATCTTCAAATCACTTCAAACACAAGGTTAA ACGAATTATGGGAGCTTTATTTCCAAACCCTCGATAAATCTACAAGTTGG ACATTTACTAAAGAGAGCTTTTATAATCGCTACTTAAAAGAGCCGTTAGG TAAAAAGAAACTTGATAGCATACAAGAGCACCACATAATGGCGATTATAA GACACTTACAAGCTGAGGGAATGGCTACACGCACGGTAAACACCACATTA GAGATACTGCGCCCCCTCTTTGATTTTGCTATTAAAAACAAGGCATTAAG AGACAACCCCACACGCTTTATCGTACTTAAAAAAGACAATACCAAAAAGA TTGTTATCAATGGGGCTGAGATGTTTAAACGCATATTTGAGGGCATTAAT GACTATTACAGCTCACAGCCTTTTTATAGGGCTTTATTTCTCTTTGGCTT CACGGGTAGGCGTAAAGGCGAGATATTAAAGCTCAAATGGGAAAACATAG ACCTAGATAATAACTACTATTGGATAGAAGATACCAAAAACAACGAAAAA CAAAAATATGAGTTACCCCACTTTATCAAAGAGGCACTTTTACAGATACA GGACACCCACACGGGATTAGTCTTTAAAAGCCCCGTAACGGGTAGAATGT TAGAGAATACAGATGGACAAATGAATAAGCTTAAGAAGCACCTCAACATG CCCGAATTAACGCTCCATTATATGCGAAATGTTTTAGTAAGTGCTTTAGC AGAACGAGGCACCGAGGCGATAACTCTTAGCGGTATGTTAGGGCATAGAG ACGCTACAACGATAAACAAGTATTTATCACTGAGTTATCACAATAGCAGT AAAAAGGGTAACGCAACGATGGGGCAAATCATAGACGCTGAGGTAGTGGA ATGA >WS1650 ATP-DEPENDENT HELICASE TTGCCTCTCTCCTCTCTCAATGCGGAGCAGCAAGCGGCTAGCTCCGCTCC CCTAGGTCACAATCTAATCATCGCATCCGCTGGCACCGGCAAGACCTCAA CCATTGTGGGGCGCATTGCCCATCTCATGCATCAGGGAATCACACCCCAA GAGATTCTTCTGCTCACCTTCACTAATAAAGCGGCCAATGAGATGATTTC GCGCCTCGCCGCTCTTTTTGGCGAGAGCAAGGCTAAGGCGGTTGAGGCGG GAACTTTTCATGCGGTCGCTTATCGCTACCTCAAAGAGAAGTTTGCCGTG TCACTCAAGCAGCCTAGAGAGCTCAAAACACTCTTTAAGAGTATCTACGA GCGCCGCGTCTTTGTCCAGCGCTCTTCCCAGCCTCCCTACACGGCTAACT ATCTCTATGATCTCTATTCGCTCTATCAAAACAGCACGAGCGAGCCATTT ATCGAATGGATGAAGAAGCGCCAAGCCGATCAGGCGCTCTATCTTGATAT CTATGAGGATGCGTGGGGAGAGTTTAGTGCGCTCAAAAAAGAGTATGGCT ATGTGGACTACAACGATCTATTGCTGCTCTACCGCGAGGAGATGAGCAAG GAAGAATCGCCTTTTAAAGAGGTGTTGGTGGATGAGTATCAAGACACCAA TCCTCTCCAATATTCTATCCTTCAGGCGATCAATCCTCCTTCTCTCTTTT GCGTGGGAGATTATGACCAAAGCATCTATGCCTTTAATGGAGCGGATATC TCGATCATCGCCTCTTTTGAAAAATCCTTTGAGGATGCACGAATCTTCAC GCTCACCAAAAATTATCGCTCCACTGCCCCTATCCTCGCACTGGCTAATA GCGTCATTGAGAAGAATGAGCGAATCTATCCTAAGCGCCTTGAGGTGGTG AAGCAAAAGGTCGCCGCTCCGCCTCCTAGGCTGCTTGTCTATGATGAGCT TTTTTTGCAATACCAAGCGATTGCTAGACGCATCAGAGAATCGACCAAGC CTCACGCGCAAATTGCCGTGATCTTTCGCAATAACTCGAGTGCCGATGGG ATTGAGGCGAGTCTCAGAGAGCTTGGTATCCCTAGCAAGCGCAAAGGAGG GGTGAGCTTTTTTGATTCCAAAGAGATTGCGCTTATGCTTGATATCGCTT CGCTCCTCCATAATCCCAAGGATATGATGGCCTTCATTCATGTATTAAGT TATGGCAAGGGAATTGGGAGTGCTATTGCCAAGGATATCTATGAGGCGCT CACAGAGCTTGGCAAGGGCAATGCGATCACAGGGCTTCTCCATCCCGATC TAGAGGTCAAAGAGCCCTATAAAAGGCGAGCGAAAAACACGCAAATGGGG CTTTTTGATGATTTTTTTGAGCTAGGGAGTGTTTCGCGGTTTAAAGATTT GGGGTTTGAGGAGCGATTCCTTGGGAATGGAATCCTCAAACATCCCAAGC TCACCAAAGAGGGGGCGGAGTTTTTGTATCGATTCTATCAAGGAATCAAA GCCTTTAGAGCGCTATCCAATCCCAGTGCATTGATCGTGAAAATCTTCTC ATCCGAACTCTATCAAGGAATCGCTAGAAATCTAGCCAAGGAGCGAGCCA CTCAAAAAGACGGCTCCATCCATGAGGATCGCTACAAAGAGGCGCTTGAG CGAATCGAGCGTAAAGTGCGCCTCCTAAGAGATCTCTCGGGGCATTATGA AAGTCTTGGGCGATTCCTCAATGCAATGATTCTAGGAAGTGGCGAAATGA GCGAAGGGGAGGGGGTCAATCTCCTCTCCGTGCATGGAGCCAAGGGATTG GAGTATGAGGAGGTCTATATCATCGATCTCATGGATGGGCGATTCCCTAA TCGGAAGCTCATGGCGCAAAATGGCAATATCGAAGAGGAGCGACGGCTCT TTTATGTCGCTGTGACGCGAGCCAAGGAGCTCCTCTATCTCTCCTACGCT AAAAGTGATGCGATCAAGAATCTCACCTACGCCCCCTCTCAATTTCTTCT TGAAGCGGGGCTAGTGAAGGCGGAGTAG >WS1457 hypothetical protein GTGAAGAATCTAAAATACCTAGTCGCTCTTTTGGTGGTTATTTCGATCCT TTTGGCTTTGGCGTGGGATTATCATAAAGGGTCGATTTTTCCTGATAGGG GAGCGTATGAGGCGCTCTATCAAGACTATTTCTCCAAGGCGCAGGGGGTG GATTGTGCCTATTTTGGGCGTGATCGGCTGGAGTGGATGAGGCGCACGAT GAAGGATGTTGAGGGCTTCGAGGCTCCCAAGGAGAAAGCGGTCTATCTCA AAGATAAACTTCGCTACTACGATGATATCGCCTACAGGCACAAAAGCTCC ATCGCTTATCTCATCGAGGATGCTAAGCGTGAGCTACAAAAGTGCCAAGA GGGAGAGATGACTCCAAAGAGCCCCTTTTTTGAGAGGAATCGAGAGTATT ATCTGCGTGAGATGGGGAGGCTTTTTCCTCTATATGAGAGGCTGGCGCTG TTTAATGACGAGAAACTAGAGCGAGATAGAGCGCTTGGAATCACACGCGA TTATTGGGCGCAATTCCAGGGGGCTGTGGAGGCTTGTCAGAAGATTCGCC AAGAGAATGACCATGGTCCCTCGATACTCTATATTCTTGATGGTGGAAGC GGCAAGGATGTGCCTTTGGATGATTACGAGACAAGGGTGCTAGAGCGGCT CATAGAGGAGCGCGTGGGAGAGGGGGATTGGCAGGGGGCGAGTGAGCGAT TTATTGCCTTGATCACCTTTCAAATTGAGGAGACAAATGTCTATCTAGAT AGGACAAAAGAGACGCTAGAGCAATACGCCGACTTTCTCAAAAAGAGCCC GCTCTCCCCAAGGGATGAGCTTGCAAGGCTTCGCGAGGAGATCAAGAATC TCAGGCGTCCTGATAGTTATGAGAGAAAAATCAAGGCGCAAGAGAGGCAT ATAAAGAGGGTGGGGGAGCTAATCGAATCGTTCTAG >WS1236 hypothetical protein GTGCCAAAAGTAGCCCAAAAGCGAGGAAATCAAGACCTTTTTTCTCTTAT AGACTTTTACCCCTTTTTTGCTAAAATCTTCGCTATGTATCGATTGGAAA AAATGCTTCAACTCAAAAAACTTTATCAAGAGCGCGCAAGCGGTCGTTGT TATATCGAGCCCTTCACCCACGCCTCTCCTTTGGGAGCTGAGGGCGTGAG TCATCTCCCCGAGGGACTCCTCTCGCTTCAAGGCATCATCGAATCATGCG TGCTTTGTGAGCTATCCAAAGGCGAAGGCAAGCCTATTTTTGGGATGTGT CAGACCACCTCCAAGGTGGTTTTTGTCTCTGAGACCCCCCTGGTTGATCC TAAGCATCCTTCGATGTTTGTGGGCAGGAGCGGAGAGATGTTGCGTAATA TTGTCCGCAATGTATTGGGACTCAAGGAGGGGGAGGTTTCACTTCTTTCA CTTCTTAAGTGTCACCCCTCCTTGGCTCAAAAGGTCGATTCGGCTCTTTT TAGCTCCTGCAAACCCTACATCCTCAAGCAGATTGATCTGCTTCCTCTCT CGGCCATCATCGTGCCGCTAGGAGAGGTGGCCTATCGCTATTTGACGGAT GAGCGAGGGGATTTTTCTCAATATCGAGGCCAAAAAAGCGTCTGGGCGGG ACGCACTCTCATCCCCGCTCATAGCCTAAGCTACCTCCTCCGTAATCCTA CGGCCAAAAAAGAGGCGCTCAAGGACTTCCTTCTTATAAAGAGTTGCTTA TGA >WS0265 conserved hypothetical protein ATGATCCAGAATATTCGTTTTGGAGAGTGCATCAACTCTCCTTATGTGAA GCCTAAACGCGTCTTTTACACGGAGAGGGGAATCGAAAAGAGCTGGGATG TGGTTGAAGCTCACGATAGCGTGAGTGTCTTGCTTTTTGATCCCAAAAAA AGGGCGTTTGTTCTTGTGAAGCAGTTTCGCCCCGCGGTTTTTCTCAAAGG GACGAGCGGTTACACCTATGAGCTCTGTGCAGGGATTGTGGATAAACCAG GCAAAAGCCTAGAGGTGATTGCGCAAGAGGAGATTTTGGAGGAGTGTGGC TACTCTCTCTCCATCGATTCGCTAGAGCGAATCACCTCTTTTTACACATC AGTGGGTTTTGCAGGGAGTCGTCAGACGCTCTTTTATGCGGAGGTGGAAG ATTCTCTTCGCCAAGGAGAGGGGGGCGGGGTAGAGTCTGAAAATATTGAG GTGGTGCACCTTCCGCTTTTGGAGGCAAGAGCTTTCATGCTGGATGAGGA ACGACCCAAAACCCCGGGGCTTCTCTTTGCTTTCATGTGGTTTTTTGAGC GCCACCCTAAAAACTTCTTTTAA >WS1085 hypothetical protein ATGCTTAATCATAGGCGCCAATCCTCAAAAGAGGTGAAAGTGCAAGAAAT AAAAGCAATGATTCTGGATCGAGCTGCCAAGAAAATGTGGTATGTTCGAT ACACTGTGTTCTTTGACAATGGTAACAGATCCACGGCCGAAGAGAGTACA AAAGTGCCCAAAAGGGAAAAAAGTCTCACATGGATGCAGACAAAGTACCT TCCAGTTTGGATAGCCAGAAAAAAAGAAAAGCTCAAGATCCAAGAAAAAG CAAATCATCAGTTTGCTTACTTTGCGGACATTTTCTTGGCAGCTCGAGAG AATTTTCATGACTACCAAAACACTCAATATCGAACTTCAAGAGTTTTGGA AGACTTTGGCAAAAAAAGTATCACAAGTATCACCAAGCTAGAAATCAAGC TTTGGCTCCAAGCACTGAAGCATAAAGCAACAGGAATACCTTTGAGTAAA AACTCAAAACTCAAATACTTGGGAATTTTCAGAGGTATTTTTGAGCTTGC CATTGATGCTCAACTAATTTCTCACAATCTTTGCGATGAGATCAGAATTC AACAAGAAAGACGAAATCTGAACAAGATAGAACCCTTTAGTGTTGAAGAG ACATGCCTTTTAATCCAAAGAAGTCAGTGCAGAGAGAAGTACGGCCAATT GCTGCACGAATACCTTGGGATAGCCTTCAATATGGGAATGTCACCAGCAG AAATCCTTGGTCTCCAACTGAGCGACATTGACCTGAAAAATCGGATATTG AGGATTCAGCGCAACATTACGAAAGGGAAAATCAAAGAGACAAAAACCAC ATATCGAGATAGAATTCTTCCAATTCTCGATGGAGCTCTTCCATATATTG AAACGCTTGATTTTCAAGCAAAGAAAAAACGCTCAATTTGGCTATTTTCT GGAGATGATGGAAATTATTTGCCCGACATTGAGATTATACGAGGAGAAAA AGAAATTATCAAAGAGAATCTTCGTATTAAAAAAACAACAAAGTGGTATA GGCTTCTTTTGGATTGTGGAATTCCCTATAGAGATCTCAAAAATACGCGC CATACCTTCGCAGTGCGTGCGCTCGAGACAAAAAGTCTCACTTTTCAGGA ACTAGCGAACTTTCTAGGCCATGGAAGCCTCCAGATGATACTCAATCATT ATGCGAAGTGGATTGGAGGAAAAGCAATGTCAGCAAACAAAAACATCAGA CTTTTTGGTGACCATTTAGGTGACCCTAATCAGAAGAAGAAAGGGGGATA A >WS0596 DNA POLYMERASE III, EPSILON SUBUNIT, PUTATIVE ATGTTCTCCAAACTTAAAAAATGGATTCAACTTAGAAATTTAAAGGATGA GCGTTACCGCTTCCTCTTTGATGAGTATTTTAGTAACGAATTGGTCGCAT TTGACTGTGAGACTACAGGCCTTGACCCTAAAAAAGATGAGATCATTTCC CTAGCTGCCGTGAAAATTCGTGACAACAAAATCCTCACCAGTGAAAAACT GCAACTATTCGTAAAGCCAAAAGGCGAAATTAATATAGATAGTATTAAAA TCCATCATATCAGGGCTTGCGATGTGTCAAATGGTATCACTTCTGAGGAG GCGGCTCTCCGTTTCTTAGACTTTCTCGGAAATCGTCCCCTAGTCGGATA CTATTTGGAGTTCGATGTAGCCCTGATCAACCGCATCATTCATCCACTGC TTGGCATCACTTTGCCACAAAAGATGATCGAGGTGTCGGCGATCTATTAC GACAAAAAGATAGGATTGATTCCCGAAGGGCATGTAGACTTGCGTCTGCG CTCCATCTTAAGGGATTTGAAACTTCCTGAGCTGACCCAGCATGACGCCC TAGGAGATGCCATCACTAGCGCGCTCATCTATCTAAAGCTCACCCAAAAC CAAAAAATTTAA >WS0451 conserved hypothetical protein GTGAGTCGCGCCAAAGGGGCTAAAGCCGAAGAGATTGGAGCGCTCTTTTT GCAAGATTTGGGTTATAAGATCATTGATCGCAACTTCTACGCCCCCTTTG GCGAGATTGATATCATTGCTCAAAAAGGGGGAGTGCTCCACTTTGTCGAG GTGAAAAGTGGTGCAAACTTTGAGCCAATCTACAACATCACTCCACTTAA GCTGAGCCGTATTATTAAGAGCGCGCAATACTATCTAAAGCAGAAAAAAA TCACCCCTCCTTTTTGTGTGGATGCCCTTATTTTGCGAGGTGGAGAGGTC GAGTTTATCGAGAATATCACTCTGTGA >WS1507 ENDONUCLEASE III ATGCAAAATAGTTTCGAGCTCCTGTGCCACCTCAAGGCTCTTGGCTACAT CAAAGAGGAGGTCGATGAGTATTGGTGGCCTAATAGTGGCACTTTTGAGG TGGTTCCTGGGGTTATTTTGGTTCAAAATACCAAATGGAAGCTAGTCGAG CGCGCCCTAGGCAACCTCCGCTCCCAAGATCTTCTCTCTTTTGAAGCTCT CGCTGAAGTCGATCTTCCCCTTCTAGAAGAGCTGATCAAAGAGGTGGGTC TCTACAAGACCAAAGCCGCTCGATTAAAACGATTTTGCCAAAATGCCACA AAAGACTTCGCTGACTTTGAAGATTTCCGCGAAGGAGCGGATAAAGAGTG GCTCTTAGCCCAAAAAGGAATCGGTCTAGAGAGCTGCGATAGCATTCTCT GCTACGCCTGTTTCCACGAAGAGATGGTTGCAGATAAATACGCCTACAAG CTTCTTAGCTCCTTTGGCTACACCCTAGAGGGGTATCATGAGATCAAGGA GTGGCTAGAGCAAGGAATCAGAGAGCATTATAAAGAAGTAATGGAGCTTT ATGGATATGAAATCTCGCTCCATAAAGTTTTTGCCCGCTTCCATGGAAAG ATCGTCGAGCATGGCAAAGATCGCCACAAACAAACCCTCAAGGAGACCCT ATGA >WS1482 ATP-DEPENDENT RNA HELICASE, DEAD-BOX FAMILY DEAD ATGGATAACCACGTAAACGCACACGAAGAGCAAGAGCAAGCAGGATTTGA GCAGTTTGGCTTCAAAGAGAATCTTCTTAGAGGGATTCACGAAGCAGGCT TCAAAGTTCCTAGCCCCATCCAAGTCGAAGCCATTCCCTTGGTTCTTGGA GGCCACGACCTCATCGCTCAAGCTCAAACAGGGACAGGCAAAACGGCTGC CTTCGGACTCCCTATCATCCAAAACCTCAAAAATGATGGCTCCATTGAAG CCCTTATCATCACTCCTACGCGAGAGCTCGCTGTCCAAATCAGTGATGAA ATTTTCAAACTCGGCCGCAACTGCCGCACCAAAACCGTCTCCGTCTATGG CGGTCAAGCGATTCGACGCCAGGTTGAGCTCCTAGAGAAAGCTCCCCAAG TCATCATCGCTACCCCCGGACGACTTCTTGATCACTTAAGAAATGATCGA CTCAAAAATTTCAACCCCACCACTATCGTCTTAGACGAATCCGATGAGAT GCTTGATATGGGATTCCTCGATGATATCGAAGAGATTTTCACCTACCTGC CCGCTAGTCGCCAAACCCTTCTCTTCTCTGCGACCATGCCCGCCCCCATC AAGAACCTCGCTCAAAAGATTCTCCACAACCCCAAAATGGTGAAGGTGAC CACCAACGAAACCACCAACAGTGACATCTCCCAACGCTACTACATCATCA ATGAATATGAGCGCGAAGATGCGATTGTGCGGCTCATCGATAGCGAAGCG CCCAGCAAAACCATCATCTTCACCCGAATGAAAAAAGAGGCCGATGACCT CTCCAATCGACTTATCGCTAAGGGCTACCAAGCAGGAGCGCTTCATGGTG ATATGGAACAACGAGAGCGCCAAGCTGCGGTGAACGCCTTCAAACAAGGG GCGATTGATATTCTTGTGGCCACCGATGTAGCGGCACGAGGACTCGATAT CAGCAATGTAAGCCATGTCTTTAACTACCACATCCCCCTCAATCCCGAGA GTTATGTCCACCGAATCGGGCGAACAGGCCGCGCAGGTAAAAAAGGGATC GCTATCACGCTCGCCACTCCTTTGGAATTTAAAGAGATTCGACGAATCTC TGAAACCACCAAAGCCACGATTGAGCTCTATGAAATTCCCACCATCGCTG AGACCCTCAAGCAGACCGATTCTAAGCTCATTCAAAATCTTCTCAACCAC TCCATCACCGATGATGCCCTCCGAATCTATGAGCAGATTCGAGGAGAGAT TGACACCACGCAGCTTGCGTGCAAACTCCTCTCCATGCTCATGAAAAAGA GTTCTATCATGGGGCCCAACAAGATTGGTCTCTCCAAAGAGGATCTTATG CAGCTCAAAAACCGCCTAAGTGGCGATGATAGGCGCGATCGAAACTCTAG AGGAGGCAAAGGGGGCTCTAGAGGAGGCTCTAGAAACTCCGGCGGCTACC GAAGAGATAGCCGTGATGGGAATCGCTCCTCTGAGGGCAACTACTCTAGA CGCAAAAGACGCGACTAA >WS0781 DNA-3-METHYLADENINE GLYCOSYLASE I GTGAAGCGATGCGGATGGGTAAAACTAAGCGATCCTCTCTATGTGGAATA CCACGACAAAGAGTGGGGCAAGCCCCTCCATGGGGAGAGAGAGCTCTTTG AACTTTTGTCCTTGGAGTGCCAGCAGGCAGGACTTAGCTGGCTCACCGTG CTCCACAAAAGGGAGGCTTATAGGGGGGCTTTTGGAAATTTTGACATCTC CTTTTGTGCCGCTTTGCGCGATGAAGAGATCGAAAAAATCCTTCAGGAAA AAAATGTCATCAAAAATAGAGCCAAGCTCCTGGCTATTCGCGATAACGCA AGAGCGGCTCTTGAGGTGATTAAAGAGTTCGGCTCTTTGGACTTCTACTT TTGGAATCGAGTCGATCACCACCCCCTGCTCCACTCCATTCCCCACTATA AAGAAGCCCCCTGCCACAATGAGCTCTCCGATAATCTAGCCAAAGAGATG AAAAAGCGGGGCTTTAAATTTATCGGCTCAGTGACACTCTACTCTTTTTT GCAAGCCGCGGGAATCATCAATGATCATGAAGATGACTGCGATTTCAAAT CGTAA >WS0566 EXODEOXYRIBONUCLEASE VII LARGE SUBUNIT ATGGAAGGGGTGCTTAGCGTCAGCGAGCTAAATATCCAAGTCAAATCATT GCTGGAGGCGACTTTTCTTCAAGTCGCCGTGAGGGGTGAGGTGAGCAATC TCACCTACCACACCAGCGGCCACATCTATCTCACTCTCAAAGATTCCTCC TCTTCTATCCGTGCCGTGCTTTTTAAAGGCAATGCCTCACGCCTCAAATT TCGTCTCGAAAATGGAATGGATGTGACGCTTTATGGGGGGCTTGGGGTCT ATACGCCTAGGGGTGAATATCAGATCATCGCCCAAAATGCTGAGCCAACA GGCGTGGGAAGCTTGGCTTTGGCCTTTGAACAGCTCAAAAAGGAGCTTGC CGCACTTGGCTATTTTGACCCCGCGCACAAAAAACCCCTCCCCCCCTTTC CCTCCACGATCGCCCTCCTCACCTCCGCCACAGGAGCCGCCTTGCAAGAT ATGCTCCGTGTGGCGACTAAGCGATGGCCTTTGGTCAAAATCATAGGGTT GAACACCTTGGTGCAGGGAGAGGGAGCCAAAGAATCGATTGCTAAAAATA TCGCCTACGCCGATTCTCTTGGAGTGGATGTGATTGTGGTGGGGCGCGGA GGCGGAAGCTTGGAGGATTTGTGGGCGTTTAACGAGCGAATTGTGGCCGA GGCGATCTATCACGCCAAGACCCCGATCGTCTCGGCGGTGGGGCATGAGG TGGATGTCGTCATTAGCGACTTTGTCGCTGATTTGCGCGCACCCACTCCC TCAAGTGCTATGGAGCTTATCCTCCCTGATTGCTCCGAATGGCTCATACG ACTGGATGGATTCTTGGATGAGTTTCGCCGTGCCTTCAATCGAATCCTCC AAAAGAGGGAATCGGAGCTCAAATCCCTCCAAGATTCTCTAGATCGCCTC TCTTTGGCGGCGCGTCTTAAAGAGAGAGAATCAAGAATCAAAGAGCTCTG GAGTAGCCTCAATCAGGCGATGCGCCATCAACTTCGCCGCCAAGAATCAC AGCTAGAGCCATGGCGTGGAAGGTTTGAGGGGGCTTGGGAGATGCTATGG CGTTTTAAAACGCAGGAGGTGGCGGGCTATATAGAGCGCTACAAGGAAGC TGATCCTCTCAAATGGTGTCACAAAGGCTACGCGCAGGTGGTTTCCCATA AAGAGGTGAAGACGCTAGAGGCGCTAGAGAGGGATGAGGTTTTTGAGCTT CTAGATGGGAAGTGGAGAGTGCAGGCTAAAGTGTTAGAGAAAGAGAAGAT GGGGATTAGGGATGTTTAA >WS1102 ATP-BINDING PROTEIN TTGCAGTATCTCACGAAGATAGCTAAGGTGATTGGCAATAAAAAATCAGA AAAAGATGAGGATTCTGAATATCCTGCGCAAAGTGGCGGTTTTTTGCTCG GACAATATCAAAAGATGCGCATGCATCAAGGTGATATTCTTAAAGACAGC ATTCTTGCTAAATATCTTAGTGGTGAACAGCCAAAATCTTTTGATGACCC ACAAGAAGATGAGATTATCTTCCCTTTTGGGCTCAACCTGAGTCAGGAAA AAGCACTTAAACGGGTTTTCTCCCATCAGGTGAGCATTATAGAGGGGCCT CCAGGAACAGGAAAAACTCAAACTATCCTAAATATTGTCTCGAACATACT TTTGAGAGGAAAAACAGTTGCCGTGGTCTCAAACAATAATTCGGCAGTTG ATAATATCTATGAAAAGTTTGATGCTCTTGGACTTTCTTTTTTTATGGCA AAACTTGGAAATCAAGATAATCGAAAGAAGTTTTTTGATGCCCAGCTGAA AAAGTATCCCTCATTTGATATCAAGACAGACGATCAGCATGGCTATGAAA GTTTAAAAAGTAAAGTCTCAAGTTTAAGAGAAATACTTCAGGTCCATAAT GACTTAGCACAAGCGATACACAGCATGGAGGAGCTCAGGCTTGAGAGAAC ATATTTTGCAAACGAGGTGATCAAGAGTTTAGAAATTGACCATCTTCGAA GTCTTCTTGATTTATCTCGATATAGCGTGGAAGAGATTCTTTCTCTGCTG GCGGAGATTGAGAAGATTGAGGCTGATGGGGTGAAAAATGTAACGCTATT TATTAAAATTAAATTCTTTATAAAGTTCAGAATAACCTCGTTCTCTTTAT ATAACTATAGCCTTAAGCAGATCGCAATATTTTTAAAAGAGCAATTCTAT GTCATTAAAACAAAGGAGCTAGAAGAGAAGATTTCTACTTTAGAGAAAAA GCTCAGCGGAATTGATTTTGAAAATGTATTAAATGAGTACAAAGATATCT CAATGGAGATATTTAAGTCCATGCTTTCCCAAAAGTATAAATCGGGCGAA CAGAGAAAAGAGTTCGATAAAGACAGCTTTCGATGTGATGATTTTATGGA AGAATACCCCGTTTTGTTGAGCACAACCCATTCGCTTCGAGAGTGCAAAA AAGATGATTATCTATTTGATTACTTAATCATTGATGAGGCTTCTCAGGTT GATTTGGTTGCTGGTGGTCTCGCCCTATCTTGTGCTAAAAATGCGGTTAT TGTTGGTGATCTCAAGCAATTGCCTCCTGTTATTGAGGGCCAAATGGTCG AAAAGGCCAAAGAGCTTCTCTATTTTTTTTCCATAGAGGCTAGCTATGAC TATCAAAAAAGCCTACTGGAGAGCATATCTAGAGTCTTTCCTCATGCACC AAAGACTTTGCTGAGGGAGCATTATCGATGTCACCCAAAGATAATTGATT TTTGTAACAAAAAATTTTATAACGGTGAATTGATTATTCTTACTAAAAAT TGTGAAGAGACTTCACCTATAGTTTTGATTGAAGCCCAAAGTGATCGAAA GACAGAGAGCAACAAGTGCAATATGCATCAAATCTGCAGTATTTCTAAAC ACTTATCAGATGCTGATATCAGTGACGCTGCTTGTATTTCGCCCTTTAAA GCTCATAATCAACAAAGCAGAGAAGTGTTCAAAGGGGATAATATTGAGAT TGAAGTTAACACTGTGCACAAATACCAAGGGCGCGAGAAAGATACAATAA TCCTCTCAACAGTAGTGGACCAAGAAAATAGTTTTGTTGATGATCCTAGA CTGCTGAATGTAGCAATTTCAAGGGCAAAAAAGCGACTCTATGTGGCTGT TTCCGATCGAGGACAAAATCAAAATATCAAAGACCTGGTAGAGTATATCA AATACAATCATTTTGAAGTGATTGAGAGCAAGCTTCATTCAATTTTTGAT ATTTTATTTAAAAGCTACTGCCCTCACTCAAATAAACACCGTATTTCCCT TTTGGATAAATATAAAGCTCGATGGGCACAGCAAGCGGGTCGATCTAAGT ATTCCTCTGAAAATTTAATGTATGACCTCATTCAGGAAACCCTATCGGAG CAATTTTCTTCTCTGGCTTTGGATGTCTCGCTGAATTATCCTTTGCGTTG GCTCATCAAAAACAAGGAGATCCTAGAAGAAGAGGAGCTTCGGTTTGTCA ACTCTTTTTCTCATGTAGATTTTCTCCTTTATAGCAAAGTGTCTAAAAGA GCAGCTTTGGCCATTGAGGTGGATGGGGTCTCGTATCATCGAAACAATCC CCAGCAAAAAAAGCGAGATGAGCTGAAAAATCGAATATTGGAAAAGTATC AAATACCTCTACTTCGTTTTTGTACTAATGATTTTGAAGAAAAGGAAAAA TTGATCAAGAAACTAAAAGAAATAAAAAGCCAAACAGACCAGAGATGA >WS0221 DNA POLYMERASE III EPSILON SUBUNIT DNAQ ATGGTCTATTTTTCGACCACACGCACCCCCTACAAAGAGCAGCGATTCTG CATCGTGGATGTAGAGACCAATGGTTCTCTGCCGGCCAAAGATCAGATCA TTGAGATTGGAGCCATTCTCTATCAAGGGGGCAAAATCATTGACTCCTTT GAGAGTTATGTCTTTTGCAAAGAGGTGCCCGAATATATCACCAAGATCAC AGGAATCACTAGTGAAGAGCTCAAAGATGCCCCCTCAATGAAAGAGGTGC TCACGAGATTCAGACTCTTTTTGGGGGATGCGGTCTTTGTGGCGCACAAC GCCCTTTTTGATTATGGATTCTTGGGAGCGATGATGAAGCGCTCAGGAAT GGATCGTCTCCATAATCGTAAGCTCTGCACTATCGATTTGGCGCGAAAGA CGATTCCTGCGGATCGCTATGGACTCTCTTTCTTGAATGAGTTTTTGGAG ATCCACACCGAAGTCTCCCACCGAGCCTACGCCGATGCGCTCACCGCTCT GCGCGTTTTTGAAGAATCGCTCCGCCGCGTGCCTAGTGAAATTATCACCA CCGAGGAGCTCATCTCCTTCTCCTCTCCTAAGGGCGCAAAGAATCCAAAG AAGAGTCGAATCTCACGATAA >WS0322 COMPETENCE PROETIN 1 ATGATGAAGAAGATTTTTATGGCTCTACTTTTATTGAGTGCTTGGTTGAT GGCAGCGGTGAATATCAATACAGCCACCAAAGAGGATCTAATGAAGGTCA AGGGGATTGGAGAGAAGAAGGCGGAGGCAATCATTGAGCATCGCACCAAG AATGGAGCCTTCAAGAGCCTAGAAGAGTTAAAGAGTGTCAAAGGGTTTGG GGAGAAGAGTGTGGAGGGATTAAAGAGTGAGCTTAGTGTGAAGTAG >WS0794 hypothetical protein TTGGCTTGGACGCTCATTGATTCATCGCGGCGTTATTATGATTTTTTGGA GCAGAATGGGCGCGGGCTAGAGGAGATTCCCCTGCTTAGAGTCGTGCCCT CCCCAGCAGGGGTGATTTTAGAGGTCAAATCCAAGGTGCTAAGCACTGAA AATCTGCTACTGCGCGCTTTGGAAGAGGAGTGGAGAATCGGTGAAGAGGA GCTGGTGGCGGAGAGTTTTGATGAAAAGAGAGGACTCCTCAGTCTTGAAT GCTCCCCAGGGCTAGCCGCTCACCTCCAAAGAGCGCAAGGGCTTAGGCTC TTTAGTGATCTGAAATTTTTAGTGAAAAATGTCGAGCGATTCTATCTCAA TCACGAAGAGGAGCTGATTCTTCCTCGCCCCTCGCCCCTCTTGATTCCTC CTCCTATTGAGCGTTTATCAGGCGAGCAGCAAAAAGCGGTAGAGACGATT TTTGCCCATCCTTTGAGCTATGTTTGGGGAGCTCCTGGCACAGGGAAGAC TCGTGGAGTGCTTTTTGAATCGCTTCTTTGGACGCTAGGGCAGGGGGTGA GGGCGATTCTTCTAGCCCCCACGAACAATGCCTTAGAGCAAGCGCTTTTA GCGCTTTTGCCTCAATTTGATGAGCTGGGCATGGAGCGCGCCAATGTACT CCGTCTAGGCACGCCTTCTGCACGATTTTTGGAGCTTTATCCTGAGGTGT GTGACCCTTTGAGCGTGCGCGATAAAGAGGCGACTCTTTTTGATTTTGGG TCACATAAAAAGAGTCCAAAAGAGCGCATGGAAGAGGCGTTGGTGCTAGC TATGACGGTGGATAACTTTATTAAGCGCTTCGAGACCCTTCCCTTGAGTG GAAAGAAGCACCTCTTTTTGGATGAAGCGGCCTTCACACCGCTTATCAAA GCTATCACTCTCTGCGCTGCTCAAGCGCCCCTAACCATGCTAGGGGATCA TAAGCAGCTTCCACCTGTCTGTGAGGCACCAGAGCGCGAAATGAGAGGAG AGAATCGAACTCTCAAAGCGTGGCACTACTCCGCCCTCCACCTAGAATCC TACATGAGGCAAGGAGAGGCGATTTTTGAGGTTTCCGATCCGCTTCTTTT GCCCCCCCTTGTGACCACCCAAATGGTCTGCTTGAGCCGTTCTCATCGCT ATGGAGAGAATCTTACGCGCCTTTTAGATGAGCACATCTATCAAATGGGA CTCACAGGGCTCGAGAAAAAAACGGAGCTTTATTACATCGACAGCGGAGC AGGTGAAAGGGTCGATTCCAAAGGTTATTCTAGTCCTATGGAGGCCAAAG CCATGAGGGGGTTGGTCGGGGAGCTCTTAAGGAGCGAGGCCGACTTTGGA ATCATTACTCCTTTTGTGCTTCAAAAAAAAGCGATTTTGGAGCACCACCC CGAGTTGAGGGGCAAGGAGCGAGTAATGACGATCCACGGGAGTCAGGGGC AGGAGTTTGAGACGGTGATTCTCTCTCCGGTCACGCTTCACTACCACTTG ACCAACTCCAAGAATCCCGCTGCGCTTCATGCGCTCAATGTGGCGGTGAG TCGAGCCAAGGGGCGAATCGTGCTGGTTTGTGATTATGCCTTTTGGATGA AGCAAAAAGGGCAGTTTTTAAGTGCGCTTTTGCGCGAGTGTGAGCCTTTG GGTCAAATCAAAGCTCCAAAATTATAA >WS1892 hypothetical protein ATGGAGAAATTTGAGACCAAGATAGAAAAGGCCAAAGCCATCTTGGAGCG TCTCTTGGAGCCTGATGTGAGCCTAGAGGAGAGCTTGAAGCTCTACAAAG AGGGGGCGGGAAGCCTCAAGGAGGCGCAAAAGATGCTCGAAGAGGCGAAG CTTCTTTATGAGGAGATGCAAGAGAAGAACACCCAAGAGGAGCCCTCATG A >WS0360 conserved hypothetical protein ATGACATGGATCATGGCGGGCGGTGGAGCGCTCTTTTTACTCTTGCTTTT GGCCTACCTCTATCTCAAGGAGATGGAGACCAACAAGCGGCTTCGCCACT TTGAAAAGTCGATTGAAGAGCTCAATAAGCAGCTCTATAAGCTCCAAAAA AAGATCAAAGAGGATGAGGTGGAGAGCGAGTTCTCTAGCTCCGCGCTGAG CCACTCCCTGCGCCAAGAGGTGAAAGAGGCGGTGAATAATGCCGCGGCTG GAATCTATCAGAGTGTTGAGAGGGTCGAGGCGCTCTGGATGGAGCATCGA GACAGGGTGGACGAGAAGATCGTGATGCTAGAGGAGAGGGTCAAAGAGAT GGGCTATTTCCCCACCAGCCCCAATGGAGTGGATGAGGCGCGAATCCTTA GCATGTTCAAGGATGGATGGAGTATCGATTCTATCGCCAAAGAGCTCCGC ATTGGCAAGGGAGAGGTGGAGTTCACCCTCAAGCTCGCTAATATTGAGTG A >WS1539 HYPOTHETICAL PROTEIN-Methylated DNA-protein cysteine methyltransferase ATGAATAGAGACTACTTTAAAACCCCTTTTGGGTGGGTGGAGATTAGGGC TGATGCTAGGAGAGTGGAGGGAATCCTCTTTGTTCCTGAGCCTTTGGAGG CCTCTGCAAATGAACTCACAGAGAGAGCCAAAGAGGCGCTAGAGGCATTT TTGATGGGCAAAGCGGTGCACCCTTTGCCTTTTCCCTGCGCCTTTGCAAG TGAGCTATCTAGGCGTGTTTTAGAGGAGCTTGCCAAACTCTCTTTTGGGG AGGTGGTGACCTATAGCGAACTTGGAAGGCGTGCCCTAGGCGTGCACCAA AGAGCCGTGGCGCGCGTGATGGCGAGCAACAAGATCGTTCTTCTCTACCC TTGCCACCGCGTGGTAGCCCAAAATGGACTAGGGGGCTATAGCGGAGGGG GAGTGGAGCGAAAAAAGGCGATTTTAGAGTGGGAGAAGAGCCTCTGCGCT AGGGAGGCAAAAACTGAATAA >WS1884 conserved hypothetical protein-Predicted endonuclease ATGATTATTGCTGTGGATATTGGCCTAAAGCGCCTAGGGGTCGCCCAATA TGCTGCGGGAGTGGCACTCCCCCTCGACCCTATCTTGCGTAAAAATCGCC ATCAAGCTGCACGCGACCTTGATCTCCTCCTTAAAGAAAAGGGGGCGCAA AAGCTGGTGGCGGGAATCCCCAAAGAGGGCAGTAGCAGCGAGGAGATGGA GCGAAGAATTCGCCATTTCATTGGACTGCTAGAGTTTAGAGGGGAAGTCT GCTTTGTAGATGAATCCTATAGCTCCAAAGAGGCTTTTGAGCTCCTTAGG GGGCGGAGTAGAGATCGGCGTGATGGGAAGCTTGATTCTCTTAGCGCCCT TGTGATTTTGGAGCGATATTTAGGCTCTCTCTAA >WS0341 hypothetical protein GTGTCCTTTATGTATGACCTCAACTTCTACCTTTTTGTCTGGATTGCTCT TAGTGTTATTGCGATTCCCGTGGTGCTGATCTCGGCGCTTATGATGGTGA TTGAGAGCATGGGAGATAAGAGAAAAGAGGAGGAGAGGAGGGCGTTGCAG TTTCAAAAGATCGATTTTCTCCTCTCGATTCTTGATAATCCTAAATCGGG AGTTAAGGATTATGAGGCTGCCCTTGAGGCATTCAAAAAGCATCATGCTA GCCTTGGGGCGCTTGATCCAAAAGAGAAGGAGTTTTTAAAGAGGCTTGAT TTTATCGGTAAAATCTCCTTGATGGATTTTTGGGATATTGATAGCGTGGC AAAGTTTCGGGATGAGTTGGTGGGGCGCAATAAGAGTCTCAAAAAAGAGA TCGAGCAGGCCATCGGAAAATCTCTCAAGAATCGAGAGAGCAAAGACAAA GGGAAAGGAAAAAAATAG >WS0888 PUTATIVE MEMBRANE PROTEIN TTGAGCGCAGGATTTGGCCTTTGGGTGAATCTCCTCTTTACCTTTGTGAT GTTCTATTTGGCGTGGGTGGATTATCGCACCTTTGCCACGCCCCATCATC GAGATTTCAAATCAATCATCATGAGCACAGGGGTGCTTGGCACTTTTGTA GGGATATTTGCGGGACTTTTGGAATTTGACACGCTCAAAATCGAAGAATC AGTCCCCCCTCTTCTTGAGGGACTCAAGGTCGCCTTTTACACCTCAATCA TGGGGATGGGCTTGGCGATTTTGCTCTCCGTTCTCCAGAAGCGTCGCCAT GTTAAAAGCGACACGCAGGTGGCCACCGACTACTTCATCCAGCAAGCCTC TAAGCTCGATCATCTCGAATCACTTCCCGGACTGCTCCCTCTCCTAGTTC GCCAACTAGAGCAGCTAGAGAGAATCGATGAGCGACAAAAGAGCCAGCAT GAGAGGCTTTTTGCTCTTTTGGAAGAGCGGCTTTTGGAGGTGAAGCGCTC TCTTGAGGCGACCATCGATCAGCTAGCCAAGGGGGCTTCAGAAGAGATTA TTGCGGCTTTGGAGAGGGTGATTGCGGATTTCAATCAGAATCTAAGTGAA CAGTTTGGTGAAAATTTTAAAGAGCTCAATGCCGCCACGCTCAAGATGAT CACATGGCAGGAGAATTACAAAAGTAGTATCGAAGAGATCGAAAAGAGCC TAGAACTCTCTAGGGGTGCGATGGAGAGCACAAGCCTCTCAATGGGCAAA ATCCTAGAGAGCAATCAAGAGGTGCGCGCTTTTTACGAGGAGCTTGGAGC GCTTCTTAAGCTCTATCGGGGAGAAAATGAGGAGTTGAGCGCTCATTTGG AGAGCTTTGCAGGACTTAGAGGGAGGGCATTAGAGGCAGTCGAAGAGATT CATCGGCTCTTTGGCGATTCAAGCGCGCAGCTTAAAATCCTAGGTGAGGA AGTCACCTCCTCCACCAAAGAGGCACAAGAGAGTCTCACGCAAAGCAGTC GATGGTTGCAGGAGCGAATCCAAAGCGATATCTCCTTGGCGCAACAGCAC TTCACTGAGCATCTAGGGGGGCTCTCTACAGAGTTTAAGGCACTAGTGGT GAGCCTTAGGGAGCAGCTTGGCGAAGGGGCGAACGAGGTGCTCTCTTTGC TCCAAAAGAGCTCCCAAGAGAGCAGCGCTTTCCTTTTGGAGCAGGAGAAG ATGGCCAAGGAGAGCACTTTGGTGCTCTTTGCTAAGCTTAAAGAGCGATT CGAGCGCCTCAGTGAAGCCTTCTTGACGCAAAACAAGGGGGCGTTAGAGG GGATGGCGCTCGATTTTAGAGGTTTTTGGGAAGAGTATGCCACGAGATGG AGGGAGAGTAGTGAGCTCACTCAAGGGACTCTTCTAGAGACGAATCAACA GGTGAGGGCGAGTTTTGCGGAGCTTAGCGAGGGGGTTTTGGCTCAAAACA GCGCCATGGGCGAACAGATCAAAGCAGGTTTTGAAGGGATGACCCAAGGA GCGCTGAGTGGATTGATGATTTTGGCCAAGGCGCTAGAGGGCGGGATTGA TGGGGTGAAAAAGAGTGTTAGTGAGATGAATCAAACGCTAGCCAAAGAGA CACTCCAGACGCTCCAAAACCATAGCCAATCTCAGTTGGGGCTCTTGGGT GAGAGCACCACGGCGATCCAGACGCGCCTTTTAGAGCTTGAAGAGGGGGC ACAAAAGTCGCTCAAGAATCTAGCGCTAGAGTATGTGAAGCTGCTTCAAA AAATCACCAAAGAGAGCGTGAGTGCGCCCAAAGAGGCGAGTTTGGCGATT ATCAAGGAGTTTGAAGTGTTGCAAAAAGAGGTGATCTCCACTATCACTTC AACCAATCAGACACTACTGGCCAACAAGCGTGAAATTGAGGGAATCTTGA AGATTCTTCAAGAGAATGTGACGAGTTCTTTGGAGAGCACCACCGCCCTC AATGAAAATCTTGTCTCCTCGCTTCGCGATCTAGATCGATCGCTCTCCTC TCTCACGGGAGATTTCAAGCGCGATTATGAGTGGTTTTTGCGGCGTATTA AAGAGCTTATTGGCAGTCGATCAGGCTTTTAA >WS2120 conserved hypothetical protein ATGGATACATGGTTAGAGATCGAAGAGTTTTGTCGTGTGACCAATCTCTC TCGCGAGCGCGTGGAAGAGATGGCCAAAGAGGGAACGCTTAGGAGCAAAA CCCAAGAGGGAAAGACGCTCATTGAGGCTTCCAGTGGCGCTAACGCCGTC ATTTCTAAGGTTGAAACCAGTGTAATCTCTGCCGCCTCGGCTCCCTTAGA CACCACCTTTGTGGAGAAGACTATCGGGACGATTCTAAGCCTGCACGAAA AGGTGCTAGAGGCCAAGGATGAGTCGATAGGCTCTCTCAAAGGGGAGAAT CAATTCCTCAAAGAGGCGCTCTTTTCGATGCAAGATGTCTACGATGAGGA CAAAAAAACGATCCAAGCGCTCCGTGAACAGCTCAAAATCGCCCAAGAGG AGATTGAGTTCATGAGGCGCAAATACAAGCTCATGTGGGGAAAAGTGGCC GATCTCAGTCCAAAGGGGGCGGGTGAAGGCAAGGAGTGA >WS1544 DEOXYRIBODIPYRIMIDINE PHOTOLYASE DNA PHOTOLYASEPHOTOREACTIVATING ENZYME GTGAAGAGCCTCATTTGGTTTCGTCGTGACTTGCGCTTAGAAGACAATCG CACTTTTGAGCAAGCCTCTGGCGAGGTGCTGCCTCTTTTTATCTTTGATT CCCACCTGCTCTCTCCCCTGCCCAAGGAGGATCGGCGCGTGGGTTATATC TATGGGGAGGTGATGAGGTTAAAGTCAGAGCTTAGGGCGCGCGGACTAGA TTTGGCGATCTTTTATGGAGAGCCTTTAAAGATTCTCTCTAGGCTCAAAG AGCAGGGATTCTCTAGGCTTTTTGCCTCGCAAGATTATGACTCATACGCG CTTTCTAGGGATGAAGCAGCAAGAGAGCTTTTGGATTGTCGCTTTGTTCT TGATAACTACCTCTTTGACCCCAATGAGGTGCTTAAAAAGGAGGGTTCAC CCTACACTATCTTTAGTGCCTACTACAATCAAAGCCTCAAGATTCTCTCT GAAGGGCACTATGCTAAAGGGTTGGATCTTCCCAAAAAGCTCGCTCCCTA TCCTATCCCCGCCCCTCCCTCTTTAGAATCGATGGGCTTCTCTCCTCTGC CTCTTTTGGAATCTCTGAAAATTCTTCCCCAAAAGAGGCTGGAGGAGTTT TCATCCAAGATCACGCGTTATGCCTTGGATCGAGACTCTCTTGAAGCCGA GGCCACTTCGGGGCTATCGCTCTTTTTGCGCTTTGGCACGCTAGGGGTGA GAGAGGTTATAAGAAGACTCAAGGTGTGGCAAGAAGAGGGAATCAAGGTC GCTCCTTTTTATCGTCAGATTCTTTGGAGGGAGTTTTATGCGATGCTCCT CTATCACTTCCCTCATAGTGAGCGAGAGGATTTTAAGCCCATGCAGATGA GGTGGAGCGAATCTCAAGAGCGCTTGGAGCGATGGCAAAAAGGAGAGTGC GGAGTGCCGCTTGTGGATGCGGGCATGAGGGAGCTCAATCACACGGGGTT CATGCATAATCGGGCGCGGATGGTCTGTGCCTCGTTCCTCACTAAGAATC TTCACCTCCATTGGAGTTGGGGCGAGCGCTACTTTGCCTCCAAGCTTTTG GATTATGATGTGGCTCAAAATGCCGGTAATTGGCAGTGGTGTGCGGGGAG CGGGGCGGATGCTCAGCCTTTTTTCCGCATCTTTAATCCCTACACCCAAA GCCTCAAATTTGACCCCAAGGGAGAGTATGTGAAGCGCTGGATTCCTGAA TTAAGGGGAATCTCTACTCAAAACTGGAGCAGTGAGGAGCGGTGGGAGGG GCTAAAAGAGCGCTATCTTGCTCCTATAGTGAGCGCCAAAAGAAGTGCGC AAGAGGCGAAGGCGATGCAAAACACTCTCCGTGTATCTTCATAA >WS0136 hypothetical protein ATGATGAAGAAGATTTTTATGGCTCTACTTTTATTGAGTGCTTGGTTGAT GGCAGCGGTGAATATCAATACAGCCACCAAAGAGGATCTAATGAAGGTCA AGGGGATTGGAGAGAAGAAGGCGGAGGCAATCATTGAGCATCGCACCAAG AATGGAGCCTTCAAGAGCCTAGAAGAGTTAAAGAGTGTCAAAGGGTTTGG GGAGAAGAGTGTGGAGGGATTAAAGAGTGAGCTTAGTGTGAAGTAG >WS0354 DNAB, REPLICATIVE DNA HELICASE EC 3.6.1. ATGCAAGAATACGGAATCCAAATCGAACGATCGGTGCTAAGCTCCATCCT CTTTGACCCGAGTCGATTCGAAGAGATTAGCACTAAAATCGATTCTAAAG ACTTCTCTTATCTCCCCCATCGTCATATTTTTGAGGCACTCAAAGAGCTT CATCGACTCGACCTTCCGCTAGATGAAGAGTTCATTGTCAAAAAAGAGAC GCCTGAGCGTCCGATTGACCGAGAAGAGCTCCTCTATATTTTAGGCACCA ATCCTATCTCTAGTATTGAGGCCTATGTCAACGAGATCAAAGATCGCTCC ATCAAGCGTGAGCTCCACCGCCTTGCTAACACGATTCGCGAATATAGCCA AAAGGAAGAGCTAGAATCAGAGCAGATTCTTGACCACCTAGAGAGCGAGC TCTATAAAATCTCTCAAGACAACGAGAATCGTGACTTCAAAGAGGCCAAA GAGGTGACGCTCGCCACGCTAGAGCACATCAAAAAGATGAAAGAGCGGGG CAATACGATTCTCATCGGGGTGGATACAGGCTTTAAAGAGCTCAATAAAA TGACCACGGGTTTTGGCCATGGAGATCTAGTCATTGTCGCAGCACGCCCA GCGATGGGCAAAACCACCTTTGTTCTCAATATGGCGCAAAAAGCGCTGGA CACAGGCAAAGGAGTGGCGATCTTTTCTTTGGAGATGCCCGCTGAACAGC TGATGCTACGGATGCTTTCAGCCAAAACCTCCATTTCACTTCAAAATCTT CGGGTGGGGAATCTCCAAGACGAGGAGTGGGAGCGGCTCTCAAGGGCGAG TGATGAGATGGCTAAAAAACCTCTTTTTGTCGATGATAACAGCAGTCTCA CGATTAACCAGCTTCGCTCCAAGCTTCGCAAGCTCAAATCGCGTCACCCT GAAGTGGGAATGGCGATTATTGACTACCTTCAGCTCATGAGCGGGACAGG AAGCCGTGATCGACACTTGGAGGTGAGCGAGATTAGCCGAGGGCTCAAGA TGCTTGCTAGGGAGCTTGAGATTCCTATTATTGCCCTCTCGCAGCTCAAT CGGAGCCTGGAGAGTCGAAGCGACCGAAGGCCAATGCTCTCCGACTTAAG AGAATCGGGCGCTATTGAACAGGACGCCGACATTATCCTTTTTGTCTATC GTGAGGCGGTTTACAAAATGAAAGATGAGAAAGAGAAAGAGGAGCAGGCC AAGAAAGAGGGCAAAGAGTATCGAAGCAACTTCGTGAATAAAAACGAAGA GGAGGCGGAGATCATCATTGGCAAGCAACGAAACGGCCCTATTGGAACCG TGAAGCTCATATTCCACAAGCACTGCACGCGATTTGTTGATTTTGATAAA GAGGTGGAGATTGTCTTTGAAGAGGGAAAATTTGACACCAATGAGGCAAA GATCGAGATGGCCAGCATCTGA >WS0001 DNAN, DNA POLYMERASE III, BETA CHAIN ATGAACATCGTCATTCCTAAGAGTAGCCTAGAGAATATCCTCACGAATCT CCAGCCTTTCCTCGAAAAAAAAGACGCCAGCCAAATCACCTCTCACGTCT ATTTTAAAGCCCAGGGCAGTGAGCTCACCTTTCAGGCTACAGACTATGAG ATTGGACTTTTAGCCAAAACAGAGAGCGTCCAAATTCAAAAAGAGGGAAT CGCCACCGTCAATGGAAAAAAGATTTTAGACATTGTCCGAAGACTCAAAG AGGGCGAGATCACTCTTCAAAGCCAAGAGGAGTATCTTCACATCAAGCAA GAGAAAAGCAGCTTCAAACTCCCGATGTTTAATGCTGAAGAGTTTCCCTC ATTCCCAAGCTACGAAGAGCTTCCAAAAATTGAGATCAACTCCATGCATC TGGTTCAGTCCATGAAGAAGATTCTTCCCGCTATTGATAACAACAACCCT AAATTTGAGCTCAATGGCGCCCTTTTAGACATCAAAGAATACTCTTTCAA CTTTGTTGCCACGGACACTCGAAGACTCGCCGTAATTAAGTATGAGAATC CCTCCATCAACAAGCTTGCCCTTATTGTTCCTAAAAAGGCAATTGTGGAG ATTCAAAAGCTCTTTTTTGAAGAGGTTGAGCTTCATTACAGTGAGACACA CTTGATTCTAAAATCCAAAAACTATCTCTTTTTCACCAAACTCATCAGCG GAAAATATCCCGACTATGAGCGAATCATCCCCAAAGAGACCACCCACAAT ATGACCCTTCCTAAAGAGAAGATCATTGAAGCGATTAAACTCATCAACTC CCTTAGCAATGACATCAAGGTGACTTTTACAAAAGAGGAGATTCTCTTTG AATCTTTAAGTGAGGAGAATAGCGAGGCCAAAACTCAAGTTGAAGTGGAG ACAGGAATCACAAAAGAGCTCACCCTTGGAATCAACTCCAAATATCTTCT AGATTATCTAGGACAAATCGATACAAGCGAGTTCAAGATAGGAATCAACG AATCCAACACTCCCTTTATTCTCAAAAGTGAGAATTTCTCCACGGTCATC ATGCCCATCGTAATGTAA >WS2096 DNAX, DNA POLYMERASE III SUBUNITS GAMMA AND TAU ATGTCGCAAGCTCTCGCCCTAAAGTACCGACCCACGCGCTTTGAAGACCT CATCGGTCAAGACCCCATCTCTCAAACCCTCTCCCTCGCCCTAGATAGCG GCCGTCTCTCGCACGCCTATCTCTTCTCAGGGCTTCGAGGAAGCGGAAAA ACCTCTAGTGCTCGAATCTTCTCTAAGGCGCTCAACTGCGCCCAAGGTCC CTCCAGCACCCCTTGTGATGTGTGCGAAAACTGCCTTGCCGCCAAAGAGG GCAGACACATGGATATCATCGAGATGGACGCGGCGAGCAGTCGAAAGATC GATGATATCCGCGACCTCATCGAGCAGACCAAATATCACCCCGCGATGGG ACGATTTAAAATCTTCATCATCGATGAGGTTCATATGCTCACCAAAGAGG CTTTCAACGCCCTTCTCAAGACCCTTGAAGAGCCTCCGCCCTATGTGAAA TTTATTCTGGCCACCACCGACCCCCTCAAGCTTCCTGCGACTATTTTAAG CCGCACTCAACATTTTCGATTCAAAAAGATTGCCCATCGCGATGTCATCG CTCACATTCAAAAGATTCTCCATCTTGAAAATGTCCCTTTTGAACCCGAA GCGCTGGAGATGATTGCTCGCAGCGGAGGAGGCTCATTACGTGATACGCT CACGCTTCTTGATCAATCCATCATCTTCTGCAAGGGGAATCTCACCCCCG CGCTCGTGGCGCAGATGTTGGGGCTGGTCGATCCAGAGCTTTTGGAGCGC CTCTTTGATGCGATCTTCTCCCATGATGAGCCAACCCTCTCAGAACTTCT CAAAGAGCTTGAGCTGCACGAAACCGAGATGGTGCTTGAGGAGATCGCCA TTTTTCTCAAAGAGAAACTCTCCCAAAATCACCCTCAATATCCCCTGGGG ATGCTGGATCGATTCTTCCGAATCATCGCCGATTCCCAGACTCTTCTCTC GCTGGGCAGCCATAATGCCTTTGTACTCACGCTCACGATTTTGAAGATGA AAGAGGCGCTCAAAATCAAAGAGATTGATGGAATGATTGAGGAGCTAGAG CAGGAGCTCTTCTCCAAAAATCCCGCCAAACCCCTTGCCCCCTCCCCCCT CGCGCCTCCCTTGCCCGTGGTGAGCAATCCCCCCTCTGGAAGCATAGCAA CCCCTAACAAAGAGGCGCTCTTTGAGCATCTCAAAGCCAAAATCTATGAT CGCAACTATGACCTTGGAGAGTGTTTCGAGAAAAACATCCGATTTGTGGA TTTTAGCGAGGGGATTCTCTCTTGGAGCAGTCGCGCCGAGGGTGAGTGCA AAGAGCGCCTCAAAGACGCCTACAGCGTTATCAAGCATTTTGTCAAAGAG GTCTATGGAATCGAGGCCTCCATCAAGCAGGTCACCCTCCCCCCTCCCGA GGCCCACGATGAAGAGCCCGCCCCTCCCCCTCTCCCATCACTTGAAGATT CTCCCCCAGAAGAGTCCTTGGAACCCGAAGGGAGTGGCTGCGTCGCCTCA ATGCTAGAGGAATCTAGCGCTCCTTGCGAAGATTCTAAAGAGAAACTCAC TGAAGCCATCTTGGAGAGCCCCTTGGTAAGTGCAGCCAAAGAGCTTTTAG AGGTCAAAAAAATCATCGTTCGTTCCAAAGTCTAA >WS0499 HU, PUTATIVE DNA-BINDING PROTEIN II (HB) ATGAAAAAAGCTGAATTTATCGACGCTGTAGCCCTCAAAGCAGGTCTATC CAAGAAAGATTCTGAGTTGGCACTCGATTCGATTCTAGAAGTTTTGACTG AAGCACTCGCTCAAGGCAAAAGCGTCAATTTTATTGGATTTGGTGGATTT AGCACCATTGAACGAGCGGCTCGAAAAGCTAAAGTTCCCGGAACGGATAA AGTTGTTGATGTTCCTGCGGTAAGAGCGGTGAAATTCAAAGTGGGCAAGC AACTCAAAGAGGCTGTGGCGAAGTAA >WS1790 LIGA, DNA LIGASE POLYDEOXYRIBONUCLEOTIDE SYNTHASE [NAD+] ATGAACCCCGACCAATATTCCCAAGCCATAGAGCGTCTCAATGCGTGGGC ACACGCCTACTATGTGCTGGATGCACCCCTTGCCACTGATGAGGAGTATG ACCAACTCTATCACGAAGCGCTCGCTTTTGAGCGCCAAAACCCAGAGCGC ATCCACCCCGCCTCCCCCACTCAAAGAATCGGAGGAGCCCCTTTGGAGGG ATTTCAAAAGGCCTCTCACTTGGAGCGAATGTGGAGCTTGGAGGATGTTT TTGATTTTGGTGAGCTCAAATCTTGGGCGGAGCGCCTCTACAAGCAATTC CCGCATGCCACTTTTGTCTGCGACCCCAAGTTTGATGGGGCGAGCCTCAA CCTTCTTTATGAAGAGGGGAGGCTGGTACGTGCCGCCACAAGGGGTGATG GGCTTATTGGCGAAGATGTAACTCAAAACGCCCGCACGATTCCCTCCATC CCTCTCTCTATTCCCCTTTTAGAGCGCATTGAAATTCGCGGAGAGGTGGT GATTCCTAAAGAGGATTTTGAGAAGCTCCAAGAAGAGCGTCTCAGGGAAA ACGAATCCCCTTTTGCCAATCCAAGAAATGCCGCAGCAGGCAGTCTGCGC CAGCTCGATCCCGCCATCACAGCCAAGCGCAAACTTCGATTCATCCCTTG GGGGGTGGGGGCGCATCCTTTTAAGACGGGGAGTTTTTTTGAGATCATGA AGAGCCTAGAATCGTATGGATTCATCCGCTCACCTGAGCGCACTCGCTGC CATAATATTCACGAGATTGAGAGAGTCTATGCACTCCTAGTGAGCGAACG CAGCACCCACCCTGTGATGCTAGATGGGATGGTGGTGAGGGTCGATGAGA TCGCCTACCAAAGAGAGCTTGGCTACACCATCAAAGCCCCACGCTTTGCC TGCGCCTACAAATTCCCCGCCATAGAGAAAAAGGCTAGGCTTCTTAGCAT CACGCTCCAAGTGGGGCGAAGTGGCGTGGTGACGCCCGTGGCCAATCTAG AGCCCGTGGAGATCGAAGGGGCGATGATCTCTCGCGCCACTCTCCATAAT TTTGATGAGATCAAGCGCCTTGATGTTCGCGAGGGGGACTGGGTGAGCCT TATTCGCAGCGGAGATGTGATCCCTAAGATCATCCAGCCCTTCGCCCATT TGCGAAGTGGCGAGGAGAAGCCTCTCTCTCGCCCCACCCACTGCCCCGAA TGCGGGAGTGAGCTGCTGGTTGAAGAGGTGCTCATCAAGTGCCAAAACCT CAGCTGTCCCGCTAGAATCAAAAACTCTCTCATCCATTTTGCCAGCAAAA AGGCACTCAATATAGATGGCTTAGGAGAGAAGATCATTGAACAACTTTTT GAAGCAGGGCTAATCAAAGAGTTTGAAGATCTCTTCTCCCTCACTAAAGA ATCGCTCCTATCCCTAGAGGGGTTTAAAGAGAAAAAGGCGCAAAACCTGC TTGATGCTATCCAAGGGGTTAGGGGTTGCGACCTATGGCGATTCATCAAC GCCCTAGGAATCGAGCATATTGGCGAGGGTGCGGCTAAGAAACTCTCTCA TGCTTTTGGGCTAGCCTTCCACCTCCAAAACCACGAGGCCATTATCGGCC TAGAGGGTTTTGGAGAGGAGATGGCGCAATCACTCCTGGAGTTTTGCCGT GTCAATCATGAGCGAATAGAGCATCTCCTAGGGCTCATAGAGCCGCTTGC CCCCATACAACTCACGCCTCAAGATTCCCCTATAGCGGGCAAAAGCTTTG TCATCACAGGCACTCTCTCCGCCCCCAGAGAGCACTTTGTGGAGCTTCTC ACCTCGCTAGGAGCCAAGGTGGTCTCTAGTGTCTCCAAAAAGAGTGACTT TCTCCTCTATGGAGAGAGTGCGGGGAGCAAGCTAGAGAAGGCCAGAGAGC TAGGCGTGAGATGCGTGAACGAGGAAGAGCTCGGGGAGATTCTTGAATCT TAA >WS1239 MFD, TRANSCRIPTION-REPAIR COUPLING FACTOR TTGATCCAAAGTAGTCTATATCACGCCTTAAAGAATCCCTTTCCCTATCA GATTCTCATTACCCAAGATGACAAAGAGAGCTATCTCGCCTCTGAAGTGG CACGCTTTAGGGGTTTTGAGACGATTCTTTTCCCCGATTTTAGAGCCCAA AAGGGCGATGATCTAAGGAGCTACAAAGAGGAGCTACTCGCCCTTCTTGG GGCGCTTAGAAAATGGTATAGAGCGCCCAAAGAGCGCCTATTGCTTATTG CTCCTTTGCGCTCTCTCCTCCATCCTCTCCCCAAAGAAGAGTTACTTCAA AGCTTCCATTTAGGTTTTGGTGACAATCTGGATATTGGGGAGCTCAAAGA GCGATTCTATCGATTTGGTTATGAATTTGTGGAGATCATTGAGCTTCCTG GAGAGGTCTCATTTCGTGGAGACATCATTGATGTTTTTCCTCCTCAAGAA TCCTCCCCTGTGCGCCTTAGCCTCTTTGATACACAGATTGAGAGCCTTCG ATATTTTGATTTAGAGACGCAGATGTGCGAGAGGGAGGAGCTAGATCGAA TCGAGATCACTCCTGCGCTCTTTGCGCTGGACGAAGCGACCCAAAAGGAG CTTGAGGAGCTGGTGAGTGCCTCAAGCTATGGGGCTTTTTCTAAGGATCT GATGAGCCTTGGACTATGGTACTTAAAGGACAAGGGCGAAGTATTGCCAA GGCGTGTGCCCTCGATTCTCACCGCAGGAGCCAAAGAGGAGCTCTTGGAG CTTCTGGAGCTACAAGAGAGCGATGAACTCCGCTTTTTGGAGGGCTTAAA CCTTCTAGCCACTCCTTTAGAGCATAGCGATATCATCATCTCTCCTGCCA ATTTTCTCTCTTTTCTTTCGCTTCATGCCAATAAAGAGATCACGATTATT GCTAGAAACGAGGCGCTTTTTAGGGCGTTTGACCTCAAGGAGATTCCTTG CAAAAAGCAGATTGGCGACTTTTGTGTTAATTTGCTCACCCCCAAAGAGG TGATTCTCTCCCTCAACCAAAACACCAAAAAAAGCGCCAAAAAAAGACGA CCCACCTTTGCCATCGATGAGCTTCGCGTGGGGGATTATGTCGTCCATAA AGATTATGGAATCGGAATCTTTAAAGGAATCATCCAAGAGCGAGTTTTGG GGGCTTTGAGAGATTTCATTCTCTTGGCCTATCAGGGAGAAGACCGACTC CTGCTCCCCGTGGAAAATCTCGACTATATTGATCGTTATGTAGCTGATAG TGGCTCGATTCCTTCGGTGGACCGCCTTGGAAAAGGAAGCTTTGCCAAAC TCAAAGAGAAGATTCGAACAAAACTTTTAGAGATTGCAAGCGAGATTGTC GCTCTAGCGGCCAAACGAGAGCTCATTGAGGGGAGGGCGATTCGCACGGA TTTCCCTGAGATTGAGATTTTTCAGCACTCTAGCGGATTTGTCTATACCA GCGACCAAGAGAAGAGCATCCGCGAGATATTCTCTGACCTAGAGGGCGGG AAGGTGATGGATCGACTCCTTAGCGGAGATGTAGGTTTTGGCAAAACTGA AGTGGCGATGAATGCGATTCTTGCAACCGTGATGAGCGGCTATCAGGCGG CCTTGGTTGCTCCTACAACTCTTTTGGCGCACCAACACTTCCAAAGCCTT AAAAAACGCTTTGAGGGGCGTGGCATCAAGATGGCTCGCCTGGATCGATT CCTAAGTAGCAAAGAGCGCACCAGCCTACTGAACGCCCTCAAAGAGGGGG AAGTGGATGTGGTCGTTGGAACTCACGCCATCCTCTCGGCTGTTTTTAAA CGCCTAGCGCTCATCATCGTGGATGAGGAGCATAAATTTGGCGTGAAGCA AAAAGAGCGTATTAAAGCGATTGCTCAAGATGTTCATATGCTCTCCATGA GCGCTACACCCATTCCTCGAACGCTCAATATGGCGCTCTCTAGCATTAAA GGGATGAGCACACTCCTCACCCCTCCAAGCGAGAAGCTCCCTGTGCGCAC TTTTGTCAAAGAGTATCAAGAGGCACTTTTAAAAGAGATCGTCCATCGAG AGATTCGGCGAGGGGGGCAGATTTTTTACATTCATAACAATATCGCCACC ATTGAGCGTCGCCAAAAAGAGCTCTTGGAGCTGATGCCAAACCTCAAAAT CGCCATCCTTCACTCTCAAATCCCCGAAAAAGAGACGGAAGAGATCATGC TAGCCTTTGAAGAGGGGCGATATCACCTGCTCCTCTCCACCTCCATTATC GAATCGGGCATCCATCTCCCTAATGCCAACACGATCATTATTGATTCAAG CGATCGATTTGGAATCGCCGACCTCCACCAGCTGCGGGGTCGTGTAGGAC GAGGAAGCAAAGAGGGATTCTGCTATTTCCTCGTAGAAGAGAAAGAATCG CTCACGCCCGAAGCCAAAAAGCGTCTTTTGGCGCTAGAGAGTAACTCCTT CTTGGGGAGTGGTTCGGTGCTCGCCTATCATGATTTGGAGATTCGGGGCG GGGGAAATCTCCTGGGTGAGGCGCAAAGTGGCCACATCAAGGGAATTGGC TATGCCCTCTATCTCAAAATGCTCGAAGAGGCGATTCACTCACTCAGTTC CAAGGCGCTTCCTAAGCGGGAGGATGTGGATCTCAAGCTCTCCATCAACG CCTTTCTCTCCCCTGAGCTCATCGAGAGCGATCGTTTGCGCTTAGAGCTC TATCGCCGCCTCTCCCGCTGTGAGAGCACCCAAGAGGTGAACGAGATAGA GGTGGAAATCCACGATCGATTCGGCTCACCCGACCTCTACACCAAGCAGT TTTTAGAGCTCATCCTCATTAAGGTGCTCGCCTCCCTGCAAGGAATCAAG ACCATCACCAACTACAATCAAAACATCACCTTCTTCTATCGTGATGAGAC CAAAAAGAGCTTCAGCGCCAAAAGTCGGGATGACGATGATCTCTTGGCGG CTATTTTGGAGCAACTACAAGGAAAAAGTGCGTGA >WS1486 MUTS, PUTATIVE MISMATCH REPAIR PROTEIN GTGAATGATCCGCACTATTTTGAGCTTGCCAAAAAGCTCGATCTAGAATC TTTCCTAGAGCTTTTTGCCTCGTTCCTCTCTCGCCCCAAGCCCCCTCACA TGGAGGGTGATATCCATCGTCACCGCCAATTCATAGAAGCCCTAGACAAA ATCCAATTCAATCCCCCTCCTCCCATCGCCCCTTTAGAACGCGATATCAT CCATCTTAAAAAATTTGGATTCCTGCGGCGTGATGAGATTTTTGAGTGGG TGAAGCTCTGGCGTTATATGCTCTACCTCAAAAACCTCCGCATCGAGGGA ATCCTCTTTGATTGGTTCGCCCAGATTCGCTTTCCTGAGACGATCTTAGA GATTGAGCATCGTTTTGACAAAGAGGGGAATCTCAAAGAGGGAATCTACC CTGAGCTTGATTCGGTGAATGTCTCTCTCAAACGCACCAAGCAAGAGATC AAAGAGGCACTTTTGCGCCTTTTATCCAATGCCTCCCTGCTCCCCTACCT CATTGACCGCCAGATTCACCTCATCAATGGCGAAGAATCGCTTCTCGTGC GAGGCGGATTCAATCATGCCATCAAGGCGCAGGTGATCGGACGAAGCGCA GCGGGATTTTTCTATGTGCTCCCTGAGAGCGTCTCTAGGCTTAAAGAGAG GGAGGGAGCGCTTTTAAGCCAAATCACCGAGATGGAGTTTCTCATCTGCA AGGAGCTCTCCGCGATGATGGGCAAACAGCTCCCCTTTCTTGGCTACCTC GATAAAGAGTTTGACCGATTCGACCACTATCAGGCGCGTGTTGCGTTTGC TAGAGCCAAGAATCTTGAGTTCATGACTCCAAGCCGAGACACCAAAATCA TCTTGGAGGGCTTCTGCCATCCCGCCCTCAACAACCCCAAGCCCATCTCG GTGAGATTTGAGAAGAGCATTCTCATGGTGACAGGGGTCAATGCAGGAGG AAAGACGATGCTCCTCAAATCGATCCTCTCTAGCGCCTTTTTGGCTCGCT ACCTCATCCCCATGCCTATCCTAGCATCAAAGTCAAGCATCGGCTCTTTC AAGGGAATCGCTGCGGTTTTGGATGATCCTCAAAGTGCCAAGAACGATAT CTCCACCTTTGCAGGTCGAATGCTCTCCTTTGAGCGCTTTTTCAAAGAGC GAGGCTTTCTAGTGGGCGTGGATGAGATCGAGCTTGGAACCGATAGTGAC GAGGCGGCTAGCCTTTTTAAGGTGATCTTAGAGCAACTCATCAAACGAGA CTTCAAAATCATCATCACCACCCACCACAAACGCCTCGCGGCTCTCATGG CGGCCAATGAAGAGGTGGAGCTCATGGCCGCTCTTTATGATGAAAAGCGC CAAATGCCCACTTTCTCTTTTTTGCAAGGCACCATTGGCAAAAGCTACGC CTTTGAAACCGCCGAACGCTACGGGATTCCACCCTTTGTCATCAAGGAAG CCAAAGAGGTCTATGGACAGGACAAAGAGAAGCTAGGCGAGCTGATCGAA AAGAGCGCCCAGCTAGAGATTGAGCTTGGGCAAAAGAATCGAGCGCTAGA GCTAGAGCTAGAGCGCGTGCGTCAAAAGCGCGAAGAGCTGAATGACACCC TAGAGAAACAAAAAGAGGCGCATCGTCACCACCTCCAAAGACTCGACCAG CGCTACCAAGAAGCGATCGACGCCGCCAAAGAGGCCGCCAAGGAGAGTCA AGCCGAATCGATTCACAAGGGGATGAATAACGCCAACAAACTGCTTCAAG CCATCAAAGAGGAGGAGCGCTCCAGAAGCATCTCCAATCCCTCGCTCAAA CATGAGTTCAAGGCGGGCGAGAGGGTCCGATACCGCCAAAGCCAAGGAAC GATTCTCTCTCTTGGCGAACGGGAGGTGATGATCGAATTGGATGAAGGGT TTAAACTGCGCGTCAAAAAAGGGGAGCTCCGCCCCCTAGGTCAGCTTCCT AGACCCAAACCAAAGGCACCCAAGATCTCTGTCGAGGGAGCTAGGAGCGC CCAAGTCTCGCTGGATCTGCATGGACTAAGAGGCGATGAAGCGGTGGAGA AGCTCGATTCTTTCCTCTCTGATGCTCTGCTCGCGGGATTCGATGAGATT CTCGTCTATCATGGAATTGGCACGGGCAAGCTCGCCTACGCCATCAAAGA GTTTCTCAAAACCCACCCCAAAGTGCGCTCTTTTGAAGATGCCCCTGCGC AAATGGGCGGTTTTGGTGCTAAAATCATTAAGCTTTAA >WS0745 MUTY, A/G-SPECIFIC ADENINE GLYCOSYLASE EC 3.2.2. ATGCACCAAGACGCTCAAACATCTCTTCTTTTGTGGTACCAAGCTAATGG GAGGCATCACCTCCCTTGGCGCCATCCCCTGCACCCCTATGAAATCTTAA TTAGCGAGATGATGCTCCAGCAGACGCAAGTCAATACGGTTTTAGAGCGA TTCTACTATCCTTTTTTGGAGCGATTCCCGACGCTTGAGAGTATCGCTAG GGCAGAAGAATCGGAGATTCTTTTGGCTTGGCGAGGGCTTGGCTACTACT CTAGAGCAAGAAATCTTCACGCCTTAGCCAAAACCTGCCAGCAGGGACTT CCAAGAAGCGTGAGTGAGCTTGAGGGATTGCCTGGCATTGGCGCTTATAC GGCTAGAGCGATCGCCTGTTTTGGTTTTAGAGAGAGTGTGGCCATCCTCG ATGGCAACATCAAGCGAATCCTCAGTCGATTCTTTGCTCTTTTGGGGGTG GGCGAGAGAGAGCTATGGAGGAGGGCGGAAGAGTTTTTAAATCCACTCGC CGCCTTTGATCACAATCAAGCGCTCCTTGATGTGGGCGCGCTCCTGTGTA AGCCCAAGAATCCGCTTTGCCAAGAGTGCCCTCTCTCTCCCTGGTGCAAG GGCAAAGAGGATCCCCTGCGATACACCCCTTCTAAGACGAGGCGCTATGA GGAGCTGGAGCTCTTTTATGGAATCTGTATCCAAGAGGGGAGGGTGGCGA TGGTGCAGAGTCAAGAGAGGCTTTACAAGGGACTTTGGGGATTTGTGCCG CTTCTAGGGGCGCCTTTAGACTCTTCTAGTCTTGGAATGATTAAGCATGG CTACACCAAATACAAAATCACTGCCCACCTCTATGAGATACGCTCCCTCC CCGGGGATAGTAAGCCCTCTTGGATTCCCCTAGGAGAGCTTGAGCATCTC CCCCTCTCTATTCTCGCACACAAACTTTGGAGCTGCTTTTTGGAACGCTC TAGCCTAAAGTAA >WS1060 NTH, ENDONUCLEASE III ATGGCTAAGCGACCCTCCAAAGAGGCGATTGAGACTATCCGCCATCGTTT TCTTGGTCACTACAAAGAGGCCAAAACAGAGCTTCTCTATCGCAATGCTT ATGAGCTCTTGGTCTCTGTCATGCTCTCCGCCCAATGCACCGACAAGCGA GTCAATCTCATCACCCCCGCACTCTTTGAGCGCTTCCCCACCCCCGAATC GCTCGCTCTAGCCGAGATTGATGAGGTGAAAAAAATCATCCAAAGCTGCT CTTTTTTCAACAACAAAGCCAAAAACCTAATCCTCATGGCTCAAAAGATT CTCCAAGAGCATGGAGGCGAGATTCCCCTAGAGCAGTCGCTTCTTATGGC GCTCCCTGGAGTGGGTCAAAAGACCGCCAATGTAGTGCTGATTGAGTATT TAGAGAAGAATCTTATGGCGGTGGACACCCATGTTTTTAGGGTTTCTCAT CGTCTAGGGCTGGCCAAATCCAAAACCCCTGCCCAAACCGAAGAGGAGCT CTCTAAAGCTTTTAAAAAAGATCTCTCCACTCTTCATCAGGCGATGGTGC TTTTTGGTCGCTATCTCTGCAAAGCACAAAAACCGCTCTGCGAGGAGTGT TTCCTCACGGAGTTCTGCCAAACCCGACAAAATTTCAAACCCAAGTGA >WS0430 POLA, DNA POLYMERASE I ATGAAAACCCTCACGATTATTGACACTTTTGGATTCCTCTTTCGCAGTTA CTTTGCGCTTCCTCCGCTAAAGAGTCCTAGCGGATTCCCTACAGGGCTAC TCATGGGCTTTGCCAATCTCATCGCCCAAATCGCTAAAGAGTATCGGAGC GACTACATCGTCTTTGCGCTTGATAGCAAGGAGGAGGGGATTAGAAAGGA GATTGATGCCAACTACAAAGCTCAGCGTCCTGATGTGCCTGAAGAGCTTT TAAAACAGCTTCCTGTGGCATTGGAGTGGATTGAGAAGATGGGCTTTAAG AACATCACGATTCCAGGCTATGAGGCGGATGATGTGATTGCCTCGGTCAA CTATTTTGCCAACAGTCATGATGTTTTTGTGAAGATCATCAGCCATGACA AAGACCTCTATCAGCTTATTGATGGCAACACTTTCCTCTTTGATCCGCTC AAAAAGCAAGAGATCAGGGAGGAGCAGTGCATCGCTAAGTATGGCGTTTC GCCCGCTCAGTTTGTGGATTATCAGAGTTTGGTGGGCGATAGTGCGGACA ATGTTCCGGGAGTGAAGGGAGTGGGAGCCAAGAGCGCGCAAAAATTGATT GAGAGCTTTGGAAGCTTGGAGGGGATTTATGAGCGCTTGGAGGAGGTTAC ACCAGAGCGCCTTAGGGGGCTTTTGGAGATGGGTCGTGAGGATGCCTATC GCAGTCGGGAGCTGGTGAGATTAAGGGAGCATCTTTTAGAGGATTTTGAT CTAGAATCGTGCCGCTTTCCCTCGCTCCACCCCCTGCTCTCCATCAGCGG AGAGCTCATGGATTTGGGCATGAAGCGCGTGTTAGAGAAGATTCAAAAAG AGGGAGAGTGGATCGCTCCCTCGACCCCCTCCGCGCCTAAGTCTTCGCCC CTCAAAGGGAATTTTGTGCGCCGTACGGAGCTTGTCGATTCGACTAAGCG TCTAGAGGAGCTTCTCTCTTCGCTCACCCCCTCTAGTGTCGTGGCGTTTG ACACAGAGACCGATTCGCTAGAGACAAGGAGTGCGAAGCTCGTTGGTTTC TCTTTTTCTCTAGAGGGAGAGGTGGGCTACTATGTCCCTGTGGCGCACTC CTATTTGGGTGCGGGGGATCAGGTGAGCCTAGAGGAGGCTAGAGGAGCGA TTGAGAAGATTTTTAGTGCTCAGGTGGTGGGGCATAACCTCAAGTTTGAC CTTGAGATTCTTCATGGGGCTTTAGGATTCTATCCCAAGGGGCGAATCGG AGATAGTATGATTTTGGCGTGGCTCCTTGATTCGGGTGCGCCTGTAGGGC TTGATTTTCAGATGAAGCGCTGGTTTGGTCACGAGATGATTCCCTTTGAA AAGATGGTCAAAAAGGGCGAGACTTTTGCACAGGTGGCGCTTGAAGAGGC AGCGGAGTATGCGGGAGAAGATGCTTTGGCGACCTATCGACTCTATTTTC GTCTAGAGGAGGAGCTCAAAAAGAGAGGATGCGAGTCGCTCCTGGGGCTG GCAGAGAGCTTGGAATTCCCCTTTATCCATACGCTCATCGAGATGGAAGA GCGAGGTATTCGGGTCGATACTGAGTTTTTTGCGCGCCTCAACGCTGAGG TGGAGGTGCGTATTAGAGAGCTAAGCGGTGAGGTTTTTGCCCATGCAGGA GGGGAGTTTAATCTCAACTCCACGCAGCAGCTAGGGGGCGTGCTCTTTGA GAAGCTCCACCTTCCCTCAGGGAAAAAGACCAAAACAGGCTATAGCACCG ATGAAAAGGTGTTGAGCGAGCTTTTGGGGGTGCATCCTATCATTGAGCCC ATCTTGGAATATCGGGAGCTTTTCAAACTCAAAAGCACCTATATTGAGCC GCTCACACGATTCGCCCTCCAAGATAAGAATCGAAGAATCTACACCTCAT TCCTCCATACGGGCACCTCAACAGGGCGACTCAGCTCTAAAAATCCCAAC CTCCAAAATATCCCTGTCAAAACCGAAGCAGGGCGCAAAATTCGTCAGGG ATTTATTGCGAGTGAGGGGAATCTTCTCATTAGTCTGGACTATTCGCAGA TTGAGCTAAGGCTTCTGGCGCACTTTTCGCAAGATCCCGCATTGGTGGCG GCCTTTAAGGCGGGAGCGGACATCCACTATGAGACGGCGAAAAAAATCTT TGGAGAAAGGGAGGCAAAAGCCCATCGAGGGATCGCCAAAACGATCAACT TTGGACTCATCTATGGCATGGGCTCGCGCAAACTCTCTGAAACGCTCCGC ATTTCACCCAAAGAGGCCAAAGGCTACATCGATAGCTACTTCGCCTCGTT TCCCACGGTCAAATCGTTTCTCAAAGCCCAAGAGGAGTTTGCCCTAGAGC ATGGCTACACCGAGACGCTTTTAGGGAGGAGACGCTATTTTGAGTTTCAA CAGGCTCCAGAGTATCAAAAAGCGGCCTATTTGAGGGAGGCAGTCAACTG CATCTTCCAAGGGAGCGCAGCCGATCTCATTAAGCTGGCGATGAATGAGA TCAGGCGACGATTCGCCCAAGAGGAATCGCTTTGGCTTTTGCTTCAAGTG CACGATGAGCTGATTTTTGAAGCTCCCAAAGAGCACGCGGAGGCACTAGC TAGAGAGCTTGCCTTGGTGATGGAGGGAATCCACCCTCTAAGAGTGCCCC TTCAATGCGGAATCTCGCTAGGAGAGCATTGGGGCGCGCTGAAATAG >WS1964 PRIA, PRIMOSOMAL PROTEIN N'-SUPEFAMILY II HELICASE-REPLICATION FACTOR Y TTGAATCACTACCTCCTCGCCATCCTAGGCTCCAGCGCTCCCACTCTCAC CTACGCCTCCCCCAAAGCCATCGAATCAGGCGAAGTGGTGGAGGTGGAGC TCAAAAGCCGCCTCAAAAAAGCGGTCGTCTTGGAAAAGATCGATCCCCCA AGTTTTGATTGCAAAGAGATTCTCCGCCCTCTAGAGGCGCGATTCTCTCC CTTGCAACAAAAGATTGCCCGATTCATCTCCACCTACTACTGCGCCTCTT TAGGCGAGAGCTTTGGACTTTTCATCCCTTTTGAATCGACCCCACCCCCA CCCAAAGAAGCACCCCCTCCTCCCCTTCTGCCCCTCTCTTCTCTCCAGCA AGAGGCGTTAGAGTTTTTGCAAGCCAAGCCAAGCGCGCTCCTTTTTGGCG ACACAGGAAGCGGCAAAACAGAAATCTACGCTCACCTTATCGCCACCCAT CTCTCCAAAGGAAAGAGTGTTCTTTTTTTGATGCCAGAGATCAGTCTCAC CCCCCAAATGGAGAGGCGGCTCTGCGGCTATTTCGGGGATTGGGTCGCAC TGTGGCACTCTAAAATCTCAGCCAAAAAAAAGCAAGAAACCCTAGAAGGG ATCGCTAGCGGCCAGATTCGTCTCATCGCTGGCGCGCGCTCTTCACTCTT TTTGCCCCTCCCAAACCTTGGGCTCATCATCGTGGATGAAGAGCATGATG ATGCCTACAAATCCCAAAATCGTCCCCGCTACAACGCGCGTGACCTAGCT CTCCTAGCGGGAGATCGCGGAGGAATCCAGGTGATTCTTGGAAGCGCCAC CCCTCTAGCTAGCACCTATTATCGATTCTCCCAAAAAGAGGCGATGTTCC GCCTCAAAGGGCGCCACTTCCAAACCCAAAAGAGCCTCCTTTTCACTCCA GGGCTTGACACCCTCACGCCTCCCCTCCTTCAAGAAATCTCCAAAACCCT CAAGCGAGGCAAGCAGGCGATCATCTTCCTCCCCACTCGCGCCAACTTTA AGCACCTATTATGCACCCAGTGCGGAGAGAGCCTACAATGCCCCCATTGT AGCGTGAGCCTCAGTCTGCACAAAAAAGAGCGAGCGCTCATCTGCCACCA CTGCCGCTACAGCTGCCCCATCCCCTCACTCTGCCCCAAGTGTGGTGCTG AGCTAAAGAGTGAGCGCCTTGGCACCGCACAGATTGCCGAGGAGCTCTCC CTCCTCTTTCCTGAGGCTAACATCGAGCGCTTTGATCGTGACCTCATCAC CACACAAAGTCGCCTCAAAAAGACCCTAGAGCGCTTCAACCAAGGAAAAA TCGATCTTCTCGTGGGCACTCAAATGCTCTCCAAAGGGCACGACTACCAC AATGTCGAACTAGCCGCGATTTTGGGAATCGACTACCTTCTTAAGAGCGA TGATTATCGGGCTCACGAGAGAGCGATCTCAACCCTCTTGCAGCTATGCG GGCGAAGCGGGCGAAAGGAATCGGGTGGCGTACTCATCCAAAGTTTCCAC ACCGCCTTTTTAAAAGATCGCCTGGGCGATTATGAGGAGTTTCTCAAAGA GGAGTTGAGACTGCGCCAAGGCCTCTATCCTCCCTTTAGCAAATTGGCGA TGATCTGGTTCTCTCACACCGACCCCTCCAAAGCCCAAAGAGCCTGCCAA GAGACCCTAGAGCGCCTCCAAAAAACCCCCGTAGAGATCATCGGTCATGG TCCCGCCCCCATCGAGAAGATCGCCAAGAAGTGGCGCTACTGCATCTTTG TGCGCTCTAAAAGCTCCAAAACCCTCCTCTCTTCGCTCGCCAAAGCCAAG GGCGAGCTTGATGAGATCGACATCGATCCTCTCTCGTTCGTGTAA >WS1493 RECA, RECA PROTEIN ATGGCACTAGATGAGAACAAACGCAAAGCGATCGATCTAGCGATCAAACA GATTGACAAGGCCTTTGGCAAAGGCGCCCTCGTGCGACTTGGCGAAAAAC CCGTGGAAAAGATCGATTCGATTAGCACGGGCTCATTAGGGCTCGACATT GCCCTAGGAATCGGAGGAATCCCCCAAGGAAGAATCATCGAAATCTATGG ACCTGAGAGCTCTGGAAAGACCACGCTCGCACTTCAAGTGATCGCTGAGT GTCAAAAAAAGGGCGGAATCTGCGCTTTTATCGATGCCGAGCACGCCCTA GATGTCTCCTACGCCAAACGCCTTGGGGTGGATGCAGAGAATCTTCTTGT CTCCCAGCCTGATTATGGTGAACAGGCGTTAGAGATTCTAGAGACCCTCA CACGAAGCGGAGCGGTCGATCTCATCGTGGTCGATTCGGTGGCTGCCCTC ACCCCCAAAAGTGAAATTGATGGCGATATGGGCGATCAACACGTAGGGCT CCAAGCACGCCTCATGAGCCAAGCCCTGCGAAAAGTCACGGGCGTGCTCC ACAAGATGAACACCACCGTGATTTTCATCAACCAAATCCGTATGAAAATC GGAATGATGGGCTATGGAAGCCCTGAGACGACCACAGGCGGAAATGCGCT CAAATTCTATGCTAGCGTGAGAATCGATGTAAGAAGAATCGCCTCCCTCA AACAGGGCGAACAGCACATTGGGAATCGCGTCAAAGCCAAAGTGGTCAAA AACAAAGTCGCGCCCCCCTTTAGAGAAGCAGAATTTGACATTATGTTTGG TGAGGGAATCAGCCAAGAAGGCGAGCTCATCGACTATGGCGTGAAACTGG ACATTGTCGATAAGAGCGGCTCATGGCTCAGTTATGGTGACAAAAAATTA GGTCAAGGCAAAGAGAATGCCAAAGCCTTTTTGAAAGAAAACAAAGAAAT TGCAAATGAAATTCAGGCTAAAATTATCGGCGCCATCGGCTCAAGTGATG AAATCACTACTTTTGGGGACGATGAAGACGAATCAGAAAACCTAGAATCA TAA >WS0353 RECG, ATP-DEPENDENT DNA HELICASE EC 3.6.1. ATGGAGCCAAGCGACCTCCTCAAACTATCCAAGCTTCACTGCAAAGACGC GCTCGATTTCGCACTCCTAGCTCCCAAGGGCTATGAGGATAGGCGCCCCT CAAGCGAGCTTGTGAGTGGAGCGGAGGGGGTGGTGGAGATAGAGACGCTG GAGTTTTCCCTGCAAAAAGGTCGGGCTAGGGGGCTGGCTTGGCTGGAGCG ATTTAAAGAGCGGGCGGAGCTAATCATTTTTCACCCTTCAAAATATCATC ACGCTCTCTTTGCCCCCAAAGAGCGATTCTTCGTGAAGGCGAAGGTGGAG CGGCGCTTTGGAAAACTCATCCTTATTCAACCCCAAAAGCTCGCTAAAAT CGGAGAGATTCTTCCTAAATTTTCCACCAAGGTGTTCAAAAATCAGACTC TTATAGAACTCGCCTCTAGGGTGTTGAGCAAGGAGAGTCTCATCGCTTTA GGGATTCCCGCTTTGTATGCTTCACGGCTTTGTGAGCTTTTTTTCCCTGA TGACTCTTTTTTGAGGCGTTACCAGCAAGAGAGAGGAATTCCAAAAGAGC ATCAAGAGGCGCTCAAGTTTGCGGAAATCTTCCGCCATCTTCGAGCACTC GTGGGGAAAAAGCGCTCCTTTGAGGCACTTTGTCGTTGCCAAAACGCTCC TTGGCCTTTTGTGGATTCCCTCCCTTTTCCTCTCACATCGGGTCAAAAAG AGGCGATTGGAGCGATTTGGCGCGACCTCTCTTCCTCCAAGGCGGCACGG CGAATCATCATGGGAGATGTGGGGTGCGGGAAGACTCTAGTGATCTTAGC GGCTGCCTACATGGCCTATCCAAAACAGGCGGTTTTGATGGCGCCCACGA CGATTCTAGCGGAGCAGCTCTATGCGGAGGCGAAGCGTTTTTTGCCCGCT CATTTTAAGATTGCGCTGGTGATGCAGGAGAGATCAAGCGATTCTTTGGA GGCGAATCTGCTCATTGGGACGCACGCCCTTTTGTATCGAAAGCTCGATC AAGCGGCTTTAGTGATGATTGATGAGCAGCATCGATTCGGCACGGCGCAG AGAAGTACGCTAGAGCGCTCTCTTTCCGATGAGAGAGGGCATCGACCTCA TGTTTTGCAGTTTTCAGCAACCCCTATCCCTAGGACGCTGGCCATGATTG AATCCAATCTCATTGATTTCACCTTTATTCGCGACATCCCCTTCCCCAAG GATATCACCACCCGCGTGATTGCAAAAGGCGATTTTCCTGCGCTTTTGAG CCATCTTGCTCAAGAGATCGCACAGGGGAAGCAGGCGGCGATTATCTATC CTTTGGTGGAGGAGAGTGAGAATCTTGACTATCTTTCGCTCAAAGAGGGC GAAGCCTTTTGGCGAAAACGCTTTGAGGGGGTCTATGTGACTCATGGGAA GGATAGGGAAAAAGAGGCCGTTTTGGAGGAGTTTAGAGAGAAGGGGAAGA TTCTCCTAGCCACCACAGTGGTGGAGGTGGGAATCTCGCTCCCCAAGCTC TCCACGATCGTGATTGTGGGAGCGGAGAGATTAGGGCTTGCCACGCTTCA TCAGCTCCGCGGGAGGGTGAGTCGCAACGGACTCAAAGGTTACTGTTTTT TATACACCCATCATAAAGCCTCCAAGCGACTCGATGATTTTGCCTCCACG CTAGATGGCTTTGAAATCGCCGAGCTTGACCTCAAATATCGCCAAGGAGG TGATCTCGTGGGGGGTGGACGGCAGAGCGGAGAGTCGTTTACCTATTTTG ATCCAAGCTGTGATCAGGAGCTATTGCAAGAGGCGCAAGCGATTTTAAAT GCACAGGTCAAAAGATAG >WS0225 RECJ, PUTATIVE SINGLE-STRANDED-DNA-SPECIFIC EXONUCLEASE EC 3.1. TTGACCGGGATAGCTAAACCTCCCCTCCTTGGCAAGCGGGAGATTGAATC GATCCTCTCCCAGAGGTTTGCCAAGGATCGCTTCTGCCGTCTCAAAGACC TCCCCTCTCCTGAGAAGCTTCATGGAATCCCTCAAGCCTGCGATCTGATC ATCGAGGCGATGCAGCAAAAGAGACGAATTGTGGTGATTGGCGATTATGA TGTCGATGGAATCGTCTCCACGGCTATTATGGTTGATTTTTTCCATCGCC TCTCCTACCCCATCACCTCTGTTATTCCCAATCGATTTTGTGATGGTTAT GGACTCTCTCCCGCGCTCATAGAGCGATTAGAGACGGATCTTATCATCAC GGTGGATAATGGAATCATGGCCCATGAAGCGGCAAAAATCTGCCAAGAGA GGGGAATCTCTCTCATCATCACCGACCACCACACTCCCCCTTTAGAGCTT CCATGCGCGAAGGTGATTATTAACCCCAAGCTCTCTTGTTGCTCTTTTCC ACAAAAGGAGATTTGCGGGGCAAGCGTGGCTTGGTATCTCTGCGCCGCGC TTAAGGGGAGGCTTGAGGCCAAGATTGATATGGGAGAGTTCCTTGATCTT TTGGCGCTGGCGATCATTGCCGATGTGATGCCTTTAGTGGAGGTCAATCG TCTTTTGGTGCGCCAAGGCCTCAAGGAGATGGCGCGATCGAATCGAGCCG CTTTTGTGGTGCTCAAAGAGAAGTTGCGCAAAAGCCATTTTAGTGGAGAG GATGTAGCCTTTTTGATTGCTCCTCTTCTCAATAGCGCAGGCAGGATGGA GGATGCGAGCCTCTCTTTAGAGTTTTTACTGAGCGATTCGATTCTAGAGG CTGGGGAGAAGTTTGATCGCCTCTGCGCGCTCAACTGCCTGCGCAAAGAG ACCGAATCAAGACTCTTTGAAGAGGCACTGGGGCAGATTGACCTTTGTGG TGAGGCGCTTTTGGCCTATGGCGAGGATTGGCATGAAGGAGTCCTTGGAA TCGTCGCCTCCAGACTCACAGATCGCTACAAGAAACCCGCCTTTATCTTG ACGCAAAAAGAGGGAAGCCTCAAAGGAAGTGCTCGAAGTGTAGGAGAGCT TGATTTGGTGCGTCTTTTGCAGAAGAGCCATCATCTTCTTTTGCGCTATG GGGGGCACAAGGGTGCGGCGGGAATCCAGCTTCGACGAGAGAACTTCGAG AGCTTTAAGCAGGCGATTGAAGAGGAGCTTTCAAGACTCAAAGAGCGAAT TGAGTGGAGATGTGAAGGGGAAGAGTGCTTGGGAGAGATTGCTCTTGAGA GCGTGGATGCGGAGCTCTTGGATATTTTGGAGCGATTTGAGCCCTATGGA GAGGGGAATCCTAAACCTCGATTCTTTTGCAAGGAGGCGAGGGTGTGTCG CTACAAAATCGTAGGGGCAGAGAAGAATCACACCTCCTTGGTGCTCAAGA ATCCCTCTGGCAATGAGCGCAAGGCGATTGCTTTTCGTCAAGTCTATGAG TTCGCGCCCCTTGCTTCGATCTCTTGCCTTTTTTCTCTCTCTAGGGATAT TTTCAGCGCCGAATCGATTCCTCAGCTCATCATTGAACGCCTCGAAATCC TTTAG >WS0699 RECR, RECOMBINATION PROTEIN ATGAAAAAGGGAATGGAATCATTTTTTACACTAGTGGAATCGCTAGAAAA GCTCCCCTCTGTAGGGCGTAAATCGGCGCTTCGTCTGGGCTATTTTTTGG CTATTGAGGAGAAGTTCTCCGCGCTTAAGCTCGCGCACGCCATTGAAGAG GCGGTGGTGAAGATCAAGCGTTGTGAGCGTTGTGGAGCGCTGAGTGAGCA TGAGCTTTGCGAGATTTGTAGCGATGAGACGCGGCTTAATGGACAACTCT GTATTGTCACTCACCCCAAAGACATCTTCATCCTTGAAGAATCAAAGCAC TTCGAGGGGCGCTATTTCGTGATCGATTCTCTGGAGGATTGCGATTTCAC TCTGCTTCGATCACTCATCGTCTCTCTTAAAATCACCGAGGTCATCTTTG CCTTCTCCCCCTCACTCTCTAATGATTCGATCATTTTTTATGTTGAGGAT AAACTTCAGGATTTGGGGGTCTCTTTCTCTAAGATCGCCCAAGGAGTTCC TACAGGGGTGAGCTTGGAGAATATTGATCAACTCTCGCTAACTAGAGCAT TTGACTCAAGAATCAAGCTCTAG >WS1900 RNHA, RIBONUCLEASE HI ATGAAACGAATCTCTCTTTTCTGTGATGGTTCCTCATTGGGGAATCCAGG ACCAGGCGGCTATTGCGGAATCCTTCGCTATGGAGAGAAGGAGAGAATCA TCAAAGGAGGGGAGAGGGAGACCACCAACAATCGCATGGAATTAAAAGCA GTCATTGAATCGCTTAAGGTACTCAAGGAGCCTTGTGTGGTGGAGTTGGT GAGCGATTCTTCTTATGTGGTAAGGGGGATTAATGAGTGGCTCTTGGGCT GGGTGAAAAAGGAGTTTGCCAAGGTGAAAAATCCTGACCTTTGGCGCGAA TATCTGGAGGTCTCCAAGCCTCACCAGGTCAAAGCGATTTGGGTGCGCGG GCACAATGGACACGAAGAGAACGAGAGGTGCGATGAGATCGCTAAGAGTG AAGCCCAAAAGCAACGATAA >WS0440 RUVA, PUTATIVE HOLLIDAY JUNCTION DNA HELICASE TTGATCGTCGCACTCAAAGGAAATATTGAAAAAAAAGAGCCCACGAGGCT CTGGCTTGAAGTGGGGGGTGTGACCTATGAGATTTTCATCTCCATTCACA CCAGCGCTGCTTTGGGTGAAAAAGAGGCAAGACTCCTCATCACCCACCTC ATCCGCGAGGAGGCTTGGTCGCTCTATGGATTTGCCGAGGAGGCAGAGAA GAGAGTTTTTGACACTCTTATCAAGATTAATGGAGTGGGTCCTAAGGCAG CCTTAGCGATTCTCTCCACCTACACTCCCCCCACCTTTGCTCAAATCATC CAAGCTCAAGACGTGAAAGCCCTCCAGCGCGTTCCAGGGATTGGGCCCAA GAGTGCGGGAAGAATCATGGTCGAGCTTGCAGGTTTCTCCCTCTCGCTCC AAGAGGGTTCCAAAGCCTCCACGCCTCCTGTTTTTGAAGAATCAAGGCTC GCGCTTGAATCACTTGGCTTTAAGAGCGAGCTCATCGCCAAAGCCCTCCA AAACATCCAAGCCACCACAACTCAAGAGATCATCAAAGAGGCCCTCAAAA AGCTCCAGACCCTCCGCTAA >WS1825 RUVB, HOLLIDAY JUNCTION DNA HELICASE ATGGAGCGTATCATCGAGATAGAGAAGATGGAGCTAGAGGAAGCCGAGGA GGTTTCGCTCCGTCCAAGCGGCTGGGATGATTACATCGGGCAAGAGAAGA TCAAGCGTAATCTGGGCGTCTTCATCGAGGCGGCCAAACGGCGAGGGGAG GGCTTGGATCATATTCTCTTTTTTGGTCCTCCGGGGCTTGGCAAGACCAC GCTCGCTCATATTATTTCGCACGAGATGGGTGCGAATATCAAAGTCACCA CTGCGCCCATGATCGAAAAAGCGGGGGATTTGGCGGCGATTCTCACCAAT TTGAGCGAAGGAGATATTCTTTTTATCGATGAGATTCATCGCCTCTCGGC TTCGATTGAGGAGATTCTCTACCCTGCGATGGAGGATTTTCGGCTGGATA TTATCATCGGCTCAGGACCAGCGGCACAGACGGTGAAGATTGATCTGCCA AGATTCACGCTTATTGGAGCGACCACGAGGGCAGGGATGATCAGCAAGCC GCTTAGAGAGCGTTTTGGGATGAACTTTTGGATGCAGTTTTACAACATTG AAGAGCTCTCTCAAATCATCACGCTTGCTTCAATCAAGCTCAAAAAACGG TGTCTTTTAGAGAGTGCCAAAGAGATCGCTAGACGCTCTAGGGGCACGCC AAGGGTTGCACTTCGACTACTTCGGCGGGTGAGGGATTTTGCCGAGGTTG CTAATGAGGAGGAGATCAAAATCGAGCAGGCACGCTACGCGCTTCATGAG CTTGGAGTGAATGACCATGGCTTTGATGATTTGGATTTGCGCTATTTGAG GATTTTGGTGCAGAGCAAAGGCAGGCCTGTGGGGCTTGGCACGATTGCAG CGGCGATGAGTGAAGATGAAGGGACGATCGAGGATGTGGTGGAGCCCTAT CTCTTAGCACACGGCTATCTAGAGCGCACTGCAAGGGGGAGGGTGGCGAC CCGCCAGACTTATGAGCTCTTTTCGCTCCCCTTTGAGCCCAATGCGACAC TTTTTTAG >WS2229 RUVC, CROSSOVER JUNCTION ENDODEOXYRIBONUCLEASE GTGAATATTTTAGGAATCGACCCCGGAAGTCGAAATTGCGGTTACGCGAT CTTGCACCATGATCCAAAAAAAGGAAATCGCCTCGTTGAGGCGGGACTCA TCAAAATCAAAGAGCGCACTTTGCAACACCAGATTTTGGAATTTGTGGAG GGAATCGACCTCGTGCTGAAAAATCATTCGATTGATGAAGTCGCCATTGA AGATATTTTTTATGCTTACAATCCAAAAACTGTTATCAAACTCGCTCAAT TTCGTGGCGCTTTGAGTCTCAAAATTTTGCAAGATTTGGGGAATTTTTAT GAATACACTCCCTTACAAGTGAAAAAGGCTCTCACAGGTCATGGCAAGGC CGACAAGAGCCAAGTCGCTTTCATGGTGAAGCGTCTTTTAGGGCTTAAGG GAGAGATCAAACCTTTAGATATCACCGATGCCATCGCCGTGGCCATCACG CACTCTCAACGAATCAAACTAGGAGGAATCCCCACATGA >WS1872 SSB, SINGLE-STRAND DNA BINDING PROTEIN ATGTACAACAAGGTCATCTTAGTCGGCAACCTCACCCGAGACGTCGAGTT GCGCTATCTGCCCAGCGGAAGTGCCTTAGCCAAAATTGGAATTGCGACGA ATCGACGCTTTAAAAAGCAGGATGGGAGCCAGGGGGATGAGGTCTGCTTT GTGGACGTGAATCTCTTTGGGCGCACGGCTGAGATCGCCAATCAGTACTT GAAAAAAGGTTCTAAAATTTTGATCGAAGGGCGCTTGGTCTTAGAGAGCT GGACGGATCAAAGCGGTCAAAAACGCTCCAAACATAGCGTGACGGCGGAG AGCCTCCAGATGCTTGATAGCAAGGGAGCCTCCCAAGGAGGGTATGAAGG AGAGGATTACTCCTCTTATGATTCAACCCCCTCTTATGGTGCGACCTCTT CGGCCAAATCAGCTCCCAATACACAAGCTCCTTATAAAGAGCCCCAAATT CCCGAAATCAACATCGATGACGATGAAATACCCTTTTAG >WS0959 TNPA, PUTATIVE TRANSPOSASE ATGGTAGAATTTTCTAAAGATTTAGGAGAGGAAAAAATGAGTAGAAAAAG AAAAAGCTATAGTGCAGAATTTAAAACTAGAGTTGTCTTAGAATTACTAG GTGGCGAAGAGACTGTAGCACAGATTGCCAGTAAATATGAGATTACACCA AAAAGTCTCATTGATTGGAAAAAGCAGTTTTTAGAGAATGCATCACTAGT ATTTGATGTAGGTTCGGCTACTAAAGCCTATAAAGATGAGATAGAAGAGC TAAAAACAGAGAATGATGCTCTAGCAAAGAAATTAGGAAAAACAACCATA GAGAGGGATTGGGCAGTGGGAAAGCTAAAGAGCTTGGGCTTATCAAATAA AAAAGATCTTGTCACACCCAAGCTAAAGAATCTCTCCATGGCAAGACAAT GTGAAATAATAGATTTAAATCGCTCAACCCTTTATTATGAACCTAAACCC ATATCAGACAATGATTTAAAAATCATGAAAAGGATAGATGAGATATATAC TGATATATCCTCAACCTATGGCTATCGGTTTATGCATAGGCAGCTTTTGG AAGATGGATTTTCAATTGGTGTAAATAAAGTCAATAAGCTAATGAACACT ATGGGGATACAGGCAATCTTTCCAAAAAAGAAACGACACACATCCATTAA AAACTATAAACATAAAATCTATCCATATCTACTACGAGAGCTTGAAATTA ACAGAGCCAATCAGGTTTGGAGTGGAGATATTACCTATATCCCAATCAAG GGTGGTTTCGTGTATTTGTGCGCCATTATTGATTGGCACAGTAAAACGAT ACTCTCATGGAAAATATCAACAACTATGGATACATCTCTTGTAACAGATG TTTTAAAAGAAGCCATTGAAAAATATGACATTCCTGTAATATTCAACTCC GACCAAGGTAGCCAATATACCAGCCATGAACATACAGAACTTCTCAAGAA ACACAACATTCAAATCTCTATGAACGGTAAAGGCAGATCCATTGATAATA TTGCCATTGAGAGATTTTTTAGGACTTTAAAATATGATGAAATCTATATC AATGAGTATAGCTCTATTTCAGATCTCAGATTTAAGGTTTCAAGATATAT CAATTTTTACAATCACAATAGATTTCATTCAGCACTAAATTATCAAAAGC CCATGAATGTTTATCTAGAAGGGTTGAAAAACGTTGCTTAA >WS0742 TNPA, PUTATIVE TRANSPOSASE ATGGTAGAATTTTCTAAAGATTTAGGAGAGGAAAAAATGAGTAGAAAAAG AAAAAGCTATAGTGCAGAATTTAAAACTAGAGTTGTCTTAGAATTACTAG GTGGCGAAGAGACTGTAGCACAGATTGCCAGTAAATATGAGATTACACCA AAAAGTCTCATTGATTGGAAAAAGCAGTTTTTAGAGAATGCATCACTAGT ATTTGATGTAGGTTCGGCTACTAAAGCCTATAAAGATGAGATAGAAGAGC TAAAAACAGAGAATGATGCTCTAGCAAAGAAATTAGGAAAAACAACCATA GAGAGGGATTGGGCAGTGGGAAAGCTAAAGAGCTTGGGCTTATCAAATAA AAAAGATCTTGTCACACCCAAGCTAAAGAATCTCTCCATGGCAAGACAAT GTGAAATAATAGATTTAAATCGCTCAACCCTTTATTATGAACCTAAACCC ATATCAGACAATGATTTAAAAATCATGAAAAGGATAGATGAGATATATAC TGATATATCCTCAACCTATGGCTATCGGTTTATGCATAGGCAGCTTTTGG AAGATGGATTTTCAATTGGTGTAAATAAAGTCAATAAGCTAATGAACACT ATGGGGATACAGGCAATCTTTCCAAAAAAGAAACGACACACATCCATTAA AAACTATAAACATAAAATCTATCCATATCTACTACGAGAGCTTGAAATTA ACAGAGCCAATCAGGTTTGGAGTGGAGATATTACCTATATCCCAATCAAG GGTGGTTTCGTGTATTTGTGCGCCATTATTGATTGGCACAGTAAAACGAT ACTCTCATGGAAAATATCAACAACTATGGATACATCTCTTGTAACAGATG TTTTAAAAGAAGCCATTGAAAAATATGACATTCCTGTAATATTCAACTCC GACCAAGGTAGCCAATATACCAGCCATGAACATACAGAACTTCTCAAGAA ACACAACATTCAAATCTCTATGAACGGTAAAGGCAGATCCATTGATAATA TTGCCATTGAGAGATTTTTTAGGACTTTAAAATATGATGAAATCTATATC AATGAGTATAGCTCTATTTCAGATCTCAGATTTAAGGTTTCAAGATATAT CAATTTTTACAATCACAATAGATTTCATTCAGCACTAAATTATCAAAAGC CCATGAATGTTTATCTAGAAGGGTTGAAAAACGTTGCTTAA >WS1361 TNPA, PUTATIVE TRANSPOSASE ATGGTAGAATTTTCTAAAGATTTAGGAGAGGAAAAAATGAGTAGAAAAAG AAAAAGCTATAGTGCAGAATTTAAAACTAGAGTTGTCTTAGAATTACTAG GTGGCGAAGAGACTGTAGCACAGATTGCCAGTAAATATGAGATTACACCA AAAAGTCTCATTGATTGGAAAAAGCAGTTTTTAGAGAATGCATCACTAGT ATTTGATGTAGGTTCGGCTACTAAAGCCTATAAAGATGAGATAGAAGAGC TAAAAACAGAGAATGATGCTCTAGCAAAGAAATTAGGAAAAACAACCATA GAGAGGGATTGGGCAGTGGGAAAGCTAAAGAGCTTGGGCTTATCAAATAA AAAAGATCTTGTCACACCCAAGCTAAAGAATCTCTCCATGGCAAGACAAT GTGAAATAATAGATTTAAATCGCTCAACCCTTTATTATGAACCTAAACCC ATATCAGACAATGATTTAAAAATCATGAAAAGGATAGATGAGATATATAC TGATATATCCTCAACCTATGGCTATCGGTTTATGCATAGGCAGCTTTTGG AAGATGGATTTTCAATTGGTGTAAATAAAGTCAATAAGCTAATGAACACT ATGGGGATACAGGCAATCTTTCCAAAAAAGAAACGACACACATCCATTAA AAACTATAAACATAAAATCTATCCATATCTACTACGAGAGCTTGAAATTA ACAGAGCCAATCAGGTTTGGAGTGGAGATATTACCTATATCCCAATCAAG GGTGGTTTCGTGTATTTGTGCGCCATTATTGATTGGCACAGTAAAACGAT ACTCTCATGGAAAATATCAACAACTATGGATACATCTCTTGTAACAGATG TTTTAAAAGAAGCCATTGAAAAATATGACATTCCTGTAATATTCAACTCC GACCAAGGTAGCCAATATACCAGCCATGAACATACAGAACTTCTCAAGAA ACACAACATTCAAATCTCTATGAACGGTAAAGGCAGATCCATTGATAATA TTGCCATTGAGAGATTTTTTAGGACTTTAAAATATGATGAAATCTATATC AATGAGTATAGCTCTATTTCAGATCTCAGATTTAAGGTTTCAAGATATAT CAATTTTTACAATCACAATAGATTTCATTCAGCACTAAATTATCAAAAGC CCATGAATGTTTATCTAGAAGGGTTGAAAAACGTTGCTTAA >WS0282 TNPA, TRANSPOSASE ATGGTAGAATTTTCTAAAGATTTAGGAGAGGAAAAAATGAGTAGAAAAAG AAAAAGCTATAGTGCAGAATTTAAAACTAGAGTTGTCTTAGAATTACTAG GTGGCGAAGAGACTGTAGCACAGATTGCCAGTAAATATGAGATTACACCA AAAAGTCTCATTGATTGGAAAAAGCAGTTTTTAGAGAATGCATCACTAGT ATTTGATGTAGGTTCGGCTACTAAAGCCTATAAAGATGAGATAGAAGAGC TAAAAACAGAGAATGATGCTCTAGCAAAGAAATTAGGAAAAACAACCATA GAGAGGGATTGGGCAGTGGGAAAGCTAAAGAGCTTGGGCTTATCAAATAA AAAAGATCTTGTCACACCCAAGCTAAAGAATCTCTCCATGGCAAGACAAT GTGAAATAATAGATTTAAATCGCTCAACCCTTTATTATGAACCTAAACCC ATATCAGACAATGATTTAAAAATCATGAAAAGGATAGATGAGATATATAC TGATATATCCTCAACCTATGGCTATCGGTTTATGCATAGGCAGCTTTTGG AAGATGGATTTTCAATTGGTGTAAATAAAGTCAATAAGCTAATGAACACT ATGGGGATACAGGCAATCTTTCCAAAAAAGAAACGACACACATCCATTAA AAACTATAAACATAAAATCTATCCATATCTACTACGAGAGCTTGAAATTA ACAGAGCCAATCAGGTTTGGAGTGGAGATATTACCTATATCCCAATCAAG GGTGGTTTCGTGTATTTGTGCGCCATTATTGATTGGCACAGTAAAACGAT ACTCTCATGGAAAATATCAACAACTATGGATACATCTCTTGTAACAGATG TTTTAAAAGAAGCCATTGAAAAATATGACATTCCTGTAATATTCAACTCC GACCAAGGTAGCCAATATACCAGCCATGAACATACAGAACTTCTCAAGAA ACACAACATTCAAATCTCTATGAACGGTAAAGGCAGATCCATTGATAATA TTGCCATTGAGAGATTTTTTAGGACTTTAAAATATGATGAAATCTATATC AATGAGTATAGCTCTATTTCAGATCTCAGATTTAAGGTTTCAAGATATAT CAATTTTTACAATCACAATAGATTTCATTCAGCACTAAATTATCAAAAGC CCATGAATGTTTATCTAGAAGGGTTGAAAAACGTTGCTTAA >WS0915 TNPA, PUTATIVE TRANSPOSASE ATGGTAGAATTTTCTAAAGATTTAGGAGAGGAAAAAATGAGTAGAAAAAG AAAAAGCTATAGTGCAGAATTTAAAACTAGAGTTGTCTTAGAATTACTAG GTGGCGAAGAGACTGTAGCACAGATTGCCAGTAAATATGAGATTACACCA AAAAGTCTCATTGATTGGAAAAAGCAGTTTTTAGAGAATGCATCACTAGT ATTTGATGTAGGTTCGGCTACTAAAGCCTATAAAGATGAGATAGAAGAGC TAAAAACAGAGAATGATGCTCTAGCAAAGAAATTAGGAAAAACAACCATA GAGAGGGATTGGGCAGTGGGAAAGCTAAAGAGCTTGGGCTTATCAAATAA AAAAGATCTTGTCACACCCAAGCTAAAGAATCTCTCCATGGCAAGACAAT GTGAAATAATAGATTTAAATCGCTCAACCCTTTATTATGAACCTAAACCC ATATCAGACAATGATTTAAAAATCATGAAAAGGATAGATGAGATATATAC TGATATATCCTCAACCTATGGCTATCGGTTTATGCATAGGCAGCTTTTGG AAGATGGATTTTCAATTGGTGTAAATAAAGTCAATAAGCTAATGAACACT ATGGGGATACAGGCAATCTTTCCAAAAAAGAAACGACACACATCCATTAA AAACTATAAACATAAAATCTATCCATATCTACTACGAGAGCTTGAAATTA ACAGAGCCAATCAGGTTTGGAGTGGAGATATTACCTATATCCCAATCAAG GGTGGTTTCGTGTATTTGTGCGCCATTATTGATTGGCACAGTAAAACGAT ACTCTCATGGAAAATATCAACAACTATGGATACATCTCTTGTAACAGATG TTTTAAAAGAAGCCATTGAAAAATATGACATTCCTGTAATATTCAACTCC GACCAAGGTAGCCAATATACCAGCCATGAACATACAGAACTTCTCAAGAA ACACAACATTCAAATCTCTATGAACGGTAAAGGCAGATCCATTGATAATA TTGCCATTGAGAGATTTTTTAGGACTTTAAAATATGATGAAATCTATATC AATGAGTATAGCTCTATTTCAGATCTCAGATTTAAGGTTTCAAGATATAT CAATTTTTACAATCACAATAGATTTCATTCAGCACTAAATTATCAAAAGC CCATGAATGTTTATCTAGAAGGGTTGAAAAACGTTGCTTAA >WS1957 TNPA, PUTATIVE TRANSPOSASE ATGGTAGAATTTTCTAAAGATTTAGGAGAGGAAAAAATGAGTAGAAAAAG AAAAAGCTATAGTGCAGAATTTAAAACTAGAGTTGTCTTAGAATTACTAG GTGGCGAAGAGACTGTAGCACAGATTGCCAGTAAATATGAGATTACACCA AAAAGTCTCATTGATTGGAAAAAGCAGTTTTTAGAGAATGCATCACTAGT ATTTGATGTAGGTTCGGCTACTAAAGCCTATAAAGATGAGATAGAAGAGC TAAAAACAGAGAATGATGCTCTAGCAAAGAAATTAGGAAAAACAACCATA GAGAGGGATTGGGCAGTGGGAAAGCTAAAGAGCTTGGGCTTATCAAATAA AAAAGATCTTGTCACACCCAAGCTAAAGAATCTCTCCATGGCAAGACAAT GTGAAATAATAGATTTAAATCGCTCAACCCTTTATTATGAACCTAAACCC ATATCAGACAATGATTTAAAAATCATGAAAAGGATAGATGAGATATATAC TGATATATCCTCAACCTATGGCTATCGGTTTATGCATAGGCAGCTTTTGG AAGATGGATTTTCAATTGGTGTAAATAAAGTCAATAAGCTAATGAACACT ATGGGGATACAGGCAATCTTTCCAAAAAAGAAACGACACACATCCATTAA AAACTATAAACATAAAATCTATCCATATCTACTACGAGAGCTTGAAATTA ACAGAGCCAATCAGGTTTGGAGTGGAGATATTACCTATATCCCAATCAAG GGTGGTTTCGTGTATTTGTGCGCCATTATTGATTGGCACAGTAAAACGAT ACTCTCATGGAAAATATCAACAACTATGGATACATCTCTTGTAACAGATG TTTTAAAAGAAGCCATTGAAAAATATGACATTCCTGTAATATTCAACTCC GACCAAGGTAGCCAATATACCAGCCATGAACATACAGAACTTCTCAAGAA ACACAACATTCAAATCTCTATGAACGGTAAAGGCAGATCCATTGATAATA TTGCCATTGAGAGATTTTTTAGGACTTTAAAATATGATGAAATCTATATC AATGAGTATAGCTCTATTTCAGATCTCAGATTTAAGGTTTCAAGATATAT CAATTTTTACAATCACAATAGATTTCATTCAGCACTAAATTATCAAAAGC CCATGAATGTTTATCTAGAAGGGTTGAAAAACGTTGCTTAA >WS1739 TNPA, PUTATIVE TRANSPOSASE ATGGTAGAATTTTCTAAAGATTTAGGAGAGGAAAAAATGAGTAGAAAAAG AAAAAGCTATAGTGCAGAATTTAAAACTAGAGTTGTCTTAGAATTACTAG GTGGCGAAGAGACTGTAGCACAGATTGCCAGTAAATATGAGATTACACCA AAAAGTCTCATTGATTGGAAAAAGCAGTTTTTAGAGAATGCATCACTAGT ATTTGATGTAGGTTCGGCTACTAAAGCCTATAAAGATGAGATAGAAGAGC TAAAAACAGAGAATGATGCTCTAGCAAAGAAATTAGGAAAAACAACCATA GAGAGGGATTGGGCAGTGGGAAAGCTAAAGAGCTTGGGCTTATCAAATAA AAAAGATCTTGTCACACCCAAGCTAAAGAATCTCTCCATGGCAAGACAAT GTGAAATAATAGATTTAAATCGCTCAACCCTTTATTATGAACCTAAACCC ATATCAGACAATGATTTAAAAATCATGAAAAGGATAGATGAGATATATAC TGATATATCCTCAACCTATGGCTATCGGTTTATGCATAGGCAGCTTTTGG AAGATGGATTTTCAATTGGTGTAAATAAAGTCAATAAGCTAATGAACACT ATGGGGATACAGGCAATCTTTCCAAAAAAGAAACGACACACATCCATTAA AAACTATAAACATAAAATCTATCCATATCTACTACGAGAGCTTGAAATTA ACAGAGCCAATCAGGTTTGGAGTGGAGATATTACCTATATCCCAATCAAG GGTGGTTTCGTGTATTTGTGCGCCATTATTGATTGGCACAGTAAAACGAT ACTCTCATGGAAAATATCAACAACTATGGATACATCTCTTGTAACAGATG TTTTAAAAGAAGCCATTGAAAAATATGACATTCCTGTAATATTCAACTCC GACCAAGGTAGCCAATATACCAGCCATGAACATACAGAACTTCTCAAGAA ACACAACATTCAAATCTCTATGAACGGTAAAGGCAGATCCATTGATAATA TTGCCATTGAGAGATTTTTTAGGACTTTAAAATATGATGAAATCTATATC AATGAGTATAGCTCTATTTCAGATCTCAGATTTAAGGTTTCAAGATATAT CAATTTTTACAATCACAATAGATTTCATTCAGCACTAAATTATCAAAAGC CCATGAATGTTTATCTAGAAGGGTTGAAAAACGTTGCTTAA >WS1364 TNPA, PUTATIVE TRANSPOSASE ATGAGCCGTAAAAAAGGAGTGAGCTATACCTCCGAGCAGAAGACTAGGAT TGTTTTGGAGATGCTCAAAGAGGAGGAGACCCTAGCCCAGATTGCCAGTC GTTATCAGGTCACCAGCCAGACGCTAAACAGCTGGAAGCGACAGTTTTTA GCCAACGCTTCCCTGGCCTTTGAGCCAGCTAAGGCTTTGCAGGAATACAA AGACCAGATACAAAGCAAAGAGCAGGAGATCGAAGAGCTACAAAAACAGC TGGGCAAATCGGTCGCCGAGAAGGAGTGGCTAGCAAAAAAGCTCGAGGGC TTGGACTTATCGAATAAAAAAGCTCTTGTCGAGTCCAAGCCCGAAACCAT CAGTATCGCAAGGCAGTGTGAACTTCTGGGCATCAGCCGATCGGCCTACT ACTATAAACCGATCTCCCTAAGTAGAGCCAACCTGCAGATCATGCACGCC ATCGGCGAGATCGCCACCGATAACGCCGAGTATGGCTACCGCTTTATCCA TCAGCAGCTTTTAGAAGATGGATATCGCATCGGCAAAGAGCGGGTGCTCA AATACATGCGGGTGATGAATTTGCGAGCTCTCTACCCGAAAAAGCGAAAG CACACCAGCATCCACAACCTGGAGTACAAACGCTACCCCTATCTGCTCAG CCAGTACCACAACAGCAAGAAGCAGGTAGTGGTGGATAGGCCCGGCGAGG TGTGGAGTGGTGATATCACCTACATCCGCATGAACGGTGGTTTCATGTAT TTATGCGCCATCATCGACTGGCACTCCAAGGCGATACTCGCCTACAAGAT CAGCAATACAATGGATGCCTCACTGGCCGTTGATACGCTCAAAGAGGCCC TGCAGACCCACCCAGCTCCCAGGATTTTTAACTCTGACCAGGGTAGCCAG TACACCAGTGAAGAGCATACCCGGCTGCTAGAGGAGCACCAGATCGCCAT CTCCATGAATGGCAAGGGGCGGTCAATCGATAACATCGCTATTGAGCGGT TCTTTAGAACCCTCAAGCACAGTAGCATCTATATCAATGATTACAGAACC ATCAAAGAGCTCAAGGAGGGCATCAAGAACTATATCCACAAATACAACTT CAAGCGATTTCACTCATCGATCGAATACCGAAAACCGATGAATGTCTACC TTGAAGCACAGACAGTAGCGTGA >WS1262 TNPA, PUTATIVE TRANSPOSASE ATGGTAGAATTTTCTAAAGATTTAGGAGAGGAAAAAATGAGTAGAAAAAG AAAAAGCTATAGTGCAGAATTTAAAACTAGAGTTGTCTTAGAATTACTAG GTGGCGAAGAGACTGTAGCACAGATTGCCAGTAAATATGAGATTACACCA AAAAGTCTCATTGATTGGAAAAAGCAGTTTTTAGAGAATGCATCACTAGT ATTTGATGTAGGTTCGGCTACTAAAGCCTATAAAGATGAGATAGAAGAGC TAAAAACAGAGAATGATGCTCTAGCAAAGAAATTAGGAAAAACAACCATA GAGAGGGATTGGGCAGTGGGAAAGCTAAAGAGCTTGGGCTTATCAAATAA AAAAGATCTTGTCACACCCAAGCTAAAGAATCTCTCCATGGCAAGACAAT GTGAAATAATAGATTTAAATCGCTCAACCCTTTATTATGAACCTAAACCC ATATCAGACAATGATTTAAAAATCATGAAAAGGATAGATGAGATATATAC TGATATATCCTCAACCTATGGCTATCGGTTTATGCATAGGCAGCTTTTGG AAGATGGATTTTCAATTGGTGTAAATAAAGTCAATAAGCTAATGAACACT ATGGGGATACAGGCAATCTTTCCAAAAAAGAAACGACACACATCCATTAA AAACTATAAACATAAAATCTATCCATATCTACTACGAGAGCTTGAAATTA ACAGAGCCAATCAGGTTTGGAGTGGAGATATTACCTATATCCCAATCAAG GGTGGTTTCGTGTATTTGTGCGCCATTATTGATTGGCACAGTAAAACGAT ACTCTCATGGAAAATATCAACAACTATGGATACATCTCTTGTAACAGATG TTTTAAAAGAAGCCATTGAAAAATATGACATTCCTGTAATATTCAACTCC GACCAAGGTAGCCAATATACCAGCCATGAACATACAGAACTTCTCAAGAA ACACAACATTCAAATCTCTATGAACGGTAAAGGCAGATCCATTGATAATA TTGCCATTGAGAGATTTTTTAGGACTTTAAAATATGATGAAATCTATATC AATGAGTATAGCTCTATTTCAGATCTCAGATTTAAGGTTTCAAGATATAT CAATTTTTACAATCACAATAGATTTCATTCAGCACTAAATTATCAAAAGC CCATGAATGTTTATCTAGAAGGGTTGAAAAACGTTGCTTAA >WS1230 TNPA, PUTATIVE TRANSPOSASE ATGGTAGAATTTTCTAAAGATTTAGGAGAGGAAAAAATGAGTAGAAAAAG AAAAAGCTATAGTGCAGAATTTAAAACTAGAGTTGTCTTAGAATTACTAG GTGGCGAAGAGACTGTAGCACAGATTGCCAGTAAATATGAGATTACACCA AAAAGTCTCATTGATTGGAAAAAGCAGTTTTTAGAGAATGCATCACTAGT ATTTGATGTAGGTTCGGCTACTAAAGCCTATAAAGATGAGATAGAAGAGC TAAAAACAGAGAATGATGCTCTAGCAAAGAAATTAGGAAAAACAACCATA GAGAGGGATTGGGCAGTGGGAAAGCTAAAGAGCTTGGGCTTATCAAATAA AAAAGATCTTGTCACACCCAAGCTAAAGAATCTCTCCATGGCAAGACAAT GTGAAATAATAGATTTAAATCGCTCAACCCTTTATTATGAACCTAAACCC ATATCAGACAATGATTTAAAAATCATGAAAAGGATAGATGAGATATATAC TGATATATCCTCAACCTATGGCTATCGGTTTATGCATAGGCAGCTTTTGG AAGATGGATTTTCAATTGGTGTAAATAAAGTCAATAAGCTAATGAACACT ATGGGGATACAGGCAATCTTTCCAAAAAAGAAACGACACACATCCATTAA AAACTATAAACATAAAATCTATCCATATCTACTACGAGAGCTTGAAATTA ACAGAGCCAATCAGGTTTGGAGTGGAGATATTACCTATATCCCAATCAAG GGTGGTTTCGTGTATTTGTGCGCCATTATTGATTGGCACAGTAAAACGAT ACTCTCATGGAAAATATCAACAACTATGGATACATCTCTTGTAACAGATG TTTTAAAAGAAGCCATTGAAAAATATGACATTCCTGTAATATTCAACTCC GACCAAGGTAGCCAATATACCAGCCATGAACATACAGAACTTCTCAAGAA ACACAACATTCAAATCTCTATGAACGGTAAAGGCAGATCCATTGATAATA TTGCCATTGAGAGATTTTTTAGGACTTTAAAATATGATGAAATCTATATC AATGAGTATAGCTCTATTTCAGATCTCAGATTTAAGGTTTCAAGATATAT CAATTTTTACAATCACAATAGATTTCATTCAGCACTAAATTATCAAAAGC CCATGAATGTTTATCTAGAAGGGTTGAAAAACGTTGCTTAA >WS1022 TNPA, PUTATIVE TRANSPOSASE ATGGTAGAATTTTCTAAAGATTTAGGAGAGGAAAAAATGAGTAGAAAAAG AAAAAGCTATAGTGCAGAATTTAAAACTAGAGTTGTCTTAGAATTACTAG GTGGCGAAGAGACTGTAGCACAGATTGCCAGTAAATATGAGATTACACCA AAAAGTCTCATTGATTGGAAAAAGCAGTTTTTAGAGAATGCATCACTAGT ATTTGATGTAGGTTCGGCTACTAAAGCCTATAAAGATGAGATAGAAGAGC TAAAAACAGAGAATGATGCTCTAGCAAAGAAATTAGGAAAAACAACCATA GAGAGGGATTGGGCAGTGGGAAAGCTAAAGAGCTTGGGCTTATCAAATAA AAAAGATCTTGTCACACCCAAGCTAAAGAATCTCTCCATGGCAAGACAAT GTGAAATAATAGATTTAAATCGCTCAACCCTTTATTATGAACCTAAACCC ATATCAGACAATGATTTAAAAATCATGAAAAGGATAGATGAGATATATAC TGATATATCCTCAACCTATGGCTATCGGTTTATGCATAGGCAGCTTTTGG AAGATGGATTTTCAATTGGTGTAAATAAAGTCAATAAGCTAATGAACACT ATGGGGATACAGGCAATCTTTCCAAAAAAGAAACGACACACATCCATTAA AAACTATAAACATAAAATCTATCCATATCTACTACGAGAGCTTGAAATTA ACAGAGCCAATCAGGTTTGGAGTGGAGATATTACCTATATCCCAATCAAG GGTGGTTTCGTGTATTTGTGCGCCATTATTGATTGGCACAGTAAAACGAT ACTCTCATGGAAAATATCAACAACTATGGATACATCTCTTGTAACAGATG TTTTAAAAGAAGCCATTGAAAAATATGACATTCCTGTAATATTCAACTCC GACCAAGGTAGCCAATATACCAGCCATGAACATACAGAACTTCTCAAGAA ACACAACATTCAAATCTCTATGAACGGTAAAGGCAGATCCATTGATAATA TTGCCATTGAGAGATTTTTTAGGACTTTAAAATATGATGAAATCTATATC AATGAGTATAGCTCTATTTCAGATCTCAGATTTAAGGTTTCAAGATATAT CAATTTTTACAATCACAATAGATTTCATTCAGCACTAAATTATCAAAAGC CCATGAATGTTTATCTAGAAGGGTTGAAAAACGTTGCTTAA >WS1081 TNPA, PUTATIVE TRANSPOSASE ATGGTAGAATTTTCTAAAGATTTAGGAGAGGAAAAAATGAGTAGAAAAAG AAAAAGCTATAGTGCAGAATTTAAAACTAGAGTTGTCTTAGAATTACTAG GTGGCGAAGAGACTGTAGCACAGATTGCCAGTAAATATGAGATTACACCA AAAAGTCTCATTGATTGGAAAAAGCAGTTTTTAGAGAATGCATCACTAGT ATTTGATGTAGGTTCGGCTACTAAAGCCTATAAAGATGAGATAGAAGAGC TAAAAACAGAGAATGATGCTCTAGCAAAGAAATTAGGAAAAACAACCATA GAGAGGGATTGGGCAGTGGGAAAGCTAAAGAGCTTGGGCTTATCAAATAA AAAAGATCTTGTCACACCCAAGCTAAAGAATCTCTCCATGGCAAGACAAT GTGAAATAATAGATTTAAATCGCTCAACCCTTTATTATGAACCTAAACCC ATATCAGACAATGATTTAAAAATCATGAAAAGGATAGATGAGATATATAC TGATATATCCTCAACCTATGGCTATCGGTTTATGCATAGGCAGCTTTTGG AAGATGGATTTTCAATTGGTGTAAATAAAGTCAATAAGCTAATGAACACT ATGGGGATACAGGCAATCTTTCCAAAAAAGAAACGACACACATCCATTAA AAACTATAAACATAAAATCTATCCATATCTACTACGAGAGCTTGAAATTA ACAGAGCCAATCAGGTTTGGAGTGGAGATATTACCTATATCCCAATCAAG GGTGGTTTCGTGTATTTGTGCGCCATTATTGATTGGCACAGTAAAACGAT ACTCTCATGGAAAATATCAACAACTATGGATACATCTCTTGTAACAGATG TTTTAAAAGAAGCCATTGAAAAATATGACATTCCTGTAATATTCAACTCC GACCAAGGTAGCCAATATACCAGCCATGAACATACAGAACTTCTCAAGAA ACACAACATTCAAATCTCTATGAACGGTAAAGGCAGATCCATTGATAATA TTGCCATTGAGAGATTTTTTAGGACTTTAAAATATGATGAAATCTATATC AATGAGTATAGCTCTATTTCAGATCTCAGATTTAAGGTTTCAAGATATAT CAATTTTTACAATCACAATAGATTTCATTCAGCACTAAATTATCAAAAGC CCATGAATGTTTATCTAGAAGGGTTGAAAAACGTTGCTTAA >WS1108 TNPA, PUTATIVE TRANSPOSASE ATGGTAGAATTTTCTAAAGATTTAGGAGAGGAAAAAATGAGTAGAAAAAG AAAAAGCTATAGTGCAGAATTTAAAACTAGAGTTGTCTTAGAATTACTAG GTGGCGAAGAGACTGTAGCACAGATTGCCAGTAAATATGAGATTACACCA AAAAGTCTCATTGATTGGAAAAAGCAGTTTTTAGAGAATGCATCACTAGT ATTTGATGTAGGTTCGGCTACTAAAGCCTATAAAGATGAGATAGAAGAGC TAAAAACAGAGAATGATGCTCTAGCAAAGAAATTAGGAAAAACAACCATA GAGAGGGATTGGGCAGTGGGAAAGCTAAAGAGCTTGGGCTTATCAAATAA AAAAGATCTTGTCACACCCAAGCTAAAGAATCTCTCCATGGCAAGACAAT GTGAAATAATAGATTTAAATCGCTCAACCCTTTATTATGAACCTAAACCC ATATCAGACAATGATTTAAAAATCATGAAAAGGATAGATGAGATATATAC TGATATATCCTCAACCTATGGCTATCGGTTTATGCATAGGCAGCTTTTGG AAGATGGATTTTCAATTGGTGTAAATAAAGTCAATAAGCTAATGAACACT ATGGGGATACAGGCAATCTTTCCAAAAAAGAAACGACACACATCCATTAA AAACTATAAACATAAAATCTATCCATATCTACTACGAGAGCTTGAAATTA ACAGAGCCAATCAGGTTTGGAGTGGAGATATTACCTATATCCCAATCAAG GGTGGTTTCGTGTATTTGTGCGCCATTATTGATTGGCACAGTAAAACGAT ACTCTCATGGAAAATATCAACAACTATGGATACATCTCTTGTAACAGATG TTTTAAAAGAAGCCATTGAAAAATATGACATTCCTGTAATATTCAACTCC GACCAAGGTAGCCAATATACCAGCCATGAACATACAGAACTTCTCAAGAA ACACAACATTCAAATCTCTATGAACGGTAAAGGCAGATCCATTGATAATA TTGCCATTGAGAGATTTTTTAGGACTTTAAAATATGATGAAATCTATATC AATGAGTATAGCTCTATTTCAGATCTCAGATTTAAGGTTTCAAGATATAT CAATTTTTACAATCACAATAGATTTCATTCAGCACTAAATTATCAAAAGC CCATGAATGTTTATCTAGAAGGGTTGAAAAACGTTGCTTAA >WS1501 TOPA, DNA TOPOISOMERASE TTGAAAAACCTGATTATTGTCGAATCACCGACCAAGGCTAAAACCATCAA AAATTTTTTGGGCAAAGAGTATGAAGTGATCGCCTCCAAGGGGCATATCC GCGATCTTCCCAAGCACAACTTTGGAATCAAGATAGAGGGGCAGAGCTTT CTCCCTGACTACAAGATTGAAAAGGGTCACGAGGCAGTCGTGAAGGAGAT CAAAGCGCTTGCCCAAAAGGCCAAAACCATCTATATCGCGACCGATGAGG ATCGAGAGGGAGAGGCGATTGGCTATCATATCTCCCATGCGATCGACAAA GACCCCACTACACTCCCGCGAATCGTCTTTCACGAGATCACTCAAAACGC CATTAAGCACGCCCTAGAGACTCCTCGCTCCATCAATATGGACATGGTGA ACGCTCAACAGGCGAGGCGTTTGTTAGATCGAATCGTGGGTTATCGCCTC TCTCCGCTGATCTCTTCCAAGATTCAAAAAGGGTTGAGCGCGGGTCGAGT CCAAAGTAGCGCTCTAAAGCTCATCGTAGATAGGGAGAGGGAGATTCGCT CCTTTGTGCCTGTGACTTACTTCACGATTGAGGCGCTCTTTGAAAAGGGA ATCGAGGCGGAACTGATTGAGTTTGAAGGGGAAAAACTAGAGAAGCTCTC CATCGGAGAATCTAAAAAAGCCAACGAGATGGTCAAGGTGCTTCAAAAAG AGAGCTGGAGCATCACGGGAATTGAGCATAAAAGACGCAAGACCTCCACT CCTCCCCCCTTTATGACCTCCACGCTTCAGCAAAGCGCCTCTTCGGTGCT TGGATTTTCACCTAGCAAAACCATGATGGCAGCCCAAAAGCTCTACGAAG GGGTGATGACTCATCAGGGGGTGATGGGAGTGATCACCTACATGAGAACC GATAGCCTCAATATCGCCAAAGAGGCTCAAGAGGCGGCTAGATCAAGAAT CAAAGAGGTCTATGGGGAGCGTTATCTGCCTAAAGAGCCCAAAGTTTACA CGACTAAGTCTAAATCCGCCCAGGAGGCGCACGAGGCGATTCGTCCCACT CTAATTGACTTCACTCCGCAATTAGCCGCACAATATCTCAAAGGCGATGA GCTCAAGCTCTACTCGCTCATCTATAATCGATTCCTTGCCTCGCAGATGA ATGATGCGGAGTTTGAACTCCAGACTATCCTGCTTGGCTCCTCCAAGGGG GTCTTTAAGGTGAGCGGGCGCAAGCTCATTTTTGATGGTTTTTATCGTGT GATGGGGAGCGAGGATAAGGATAAGCTTCTGCCGGAGCTCCAAAAAGGAG AGGCACTCAAACTAGAAGAGTGCAAAGCCAATCGCCATGAGACGGAGCCG CCCGCAAGATTCTCTGAAGCCTCTATCATCAAAACGCTTGAAGCCTTAGG AATCGGCCGCCCCTCCACCTATGCACCGACTATCTCGCTTTTGGCGGGTC GTGACTACATCCGAATCGAGAAGAAGCAGATCATCCCTGAAGAGGTCGCC TTTAAAGTGATCGAGGTGCTAGAGGCGCATTTCACGGAGATTGTGGATAG CCATTTCACGGCAACCCTTGAAGAGGAGCTCGATGAGATTGCCGAATCAA AGAAAGATTGGCAGAAGGTGCTTTGGGATTTTTATGAGAAGTTTGATGCC AAGATCGCCCTGGGCAAAAAAAATATTGAAAGTCAAAAAGTGGCGATCCC CACAGGCGAGATGTGCCCCAAGTGTGGTGCGGAGCTGGTGAGGCGCATGA GTCGATATGGGGAGTTTGTCGCTTGCAGTGGCTATCCTAAGTGTAAATAT ATCAAACCTCAAGAATCATCTCCTGAGCAAGAGGGCGAGGAGAGCGAGGA GGTGTGCGAGAAATGCGGCAAGCCAATGGTTAAAAAGCGCGGACGCAATG GTGAATTTTTGGCGTGTAGTGGCTATCCAGATTGCAAAAACACCAAGTCT CTCAAAAAGAGCAGCACCCCTAAAAAAGTCCTAGAGGTGAAGTGCCCCAA GTGCGGAGGAGAGATTATCGAGCGTTCTTCTAGGCGGGGTAATTTCTTTG GTTGCGCCAACTATCCTAAGTGCGACTTTATAAGCTCTCATGAGCCTATC AATGAGAAGTGCCAAAAGTGCGGAGGCATGATGGCCAAGCGCACTTATCG CAAAAAAGAGGTGCACGAGTGCATCGCTTGCAAAGATCGAATCGAAGTTG AAGAGAGAAATGAGGAAGAGAAGTGA >WS1931 TRP1400B, PUTATIVE TRANSPOSASE GTGATTGATGCGCTCAATCACTTTGCTACTAAGCACATCCGTAATGGTTT TAAAAAGCTCTATCTTCGAATTCGTAATGCAGGATATGATTGGAATCATA AACGAGTATATAGAGTTTACAAGTCTTTAGGACTTAATATGCGCCCTAAA ACAAAGCACTGCCTGCCAGAACGTGTGCAGACACCACTGCAAGAGTTGGA GTGTATCAATGATGTTTGGTCTATGGATTTTATGTCTGATACTCTTTGGT ATGGCAAACGCTACCGCCTACTAAATATCATCGATGAGTACAACAGAGAA TTTTTAGATGTAGAGATAGATACATCACTCCCTGCACATAGAGTAATCAG AGCGCTAGAGCGTGTTTGTGAATATAGAGGGTATCCAAATACCATCCGTG TTGATAATGGTCCAGAGTTTATCTCTACACAGCTTGAATTATGGTGTAAT AAGCACAATATCACACTAGATTTTATCAGACCCGGAAAACCTATCGAGAA TGCTAGAGTTGAAAGATTTAATGGTAGCTTTAGAAGAGAATTGCTCAACT GCTATGTGTTTGGATCACTCAGTGAAGTGAGGGAAAAAGTTAAAGAGTGG AAATATGACTATAATCATCACAGACCACATGAGGCATTGGAAAATTTAAG CCCTATCAAATATTTACAAAAGCATAATCAGGACAAGAAATTATCAGCTT GA >WS0741 TRP1400B, PUTATIVE TRANSPOSASE ATGCGCCCTAAAACAAAGCACTGCCTGCCAGAACGTGTGCAGACACCACT GCAAGAGTTGGAGTGTATCAATGATGTTTGGTCTATGGATTTTATGTCTG ATACTCTTTGGTATGGCAAACGCTATCGCCTACTAAATATCATTGATGAG TACAACAGAGAATTTTTAGATGTAGAGATAGATACATCACTCCCTGCGCA TAGAGTAATCAGAGTGCTAGAGCGTGTTTGTGAATATAGAGGGTATCCAA ATACCATCCGTGTTGATAATGGTCCAGAGTTTATCTCTACACAGCTTGAA TTATGGTGTAATAAGCACAATATCACACTAGATTTTATCAGACCCGGAAA ACCTATCGAGAATGCTAGAGTTGAAAGATTTAATGGTAGCTTTAGAAGAG AATTGCTCAACTGCTATGTGTTTGGATCACTCAGTGAAGTGAGGGAAAAA GTTAAAGAGTGGAAATATGACTATAATCATCACAGACCACATGAGGCATT GGAAAATTTAAGCCCTATCAAATATTTACAAAAGCATAATCAGGACAAGA AATTATCAGCTTGA >WS0557 UNG, URACIL-DNA GLYCOSYLASE EC 3.2.2. TTGATTATGGCGGATTTGGAGCGAATCAAGATTGAGCCCTCATGGAAAGA GGTCTTGAAAGAGGAATTTACCAAACCCTATTTTGATTCCATCCGAGAAT CATACCTTCAAGCCAAGAGCAGCGGGGCGATCCTCTATCCACCCGCTCCG CTCCTTTTCAACGCCTTTAACCTCACCCCTTTTGATCAGGTCAAAGCGGT CATCTTGGGCCAAGATCCCTATCACGCTCCCCATCAAGCCATGGGGCTCT GCTTCTCCGTGCCTAAAGGAGTTGCCCTCCCCGCCTCGCTCCGCAATGTC TATAAAGAGTTAGAGCGAGACCTTGGGATTCCTCCAGCCAAGCATGGCGA TCTCACCTCTTGGGCTAAACAGGGCGTCTTCATGCTCAATGCCATTCTAA GCGTGGAACAGGGCAAAGCAGGATCGCACCAAAAGTTTGGCTGGCAAACC TTCACCGATGCCGCCATCTCTGCTCTCTCTAGAAAGAAAAAGGGGGTGGT TTTTCTGCTTTGGGGGAATTTCGCTAGAGAAAAGAGGGTTCTGATTGACT CTACAAAACACACGATTTTAGAATCAGCCCACCCCTCGCCCCTAGCAGGG AATCGATACTTTGGGAATGGGCACTTCTCTAAGACCAATGAGATTTTAAA AGTTCAGGGAGAGCGCGAGATTCTCTGGCGTCTTCCTGAATGA >WS1628 UVRA, EXCINUCLEASE ABC SUBUNIT A GTGGGCAAGCCCAATGTGGACAAGATTGACGGACTCACACCCGCCATCGC CATCGACCAAAAGACCACCTCTAAGAATCCTCGCTCCACCGTGGGCACAA TCACGGAGATTTATGACTACCTGAGGCTCCTTTACGCGCGAATTGGTACA CAGCACTGCCACCTCTGCGGTGAGCCCATCTCCCAAATGAGTGCGAGCGA TATCATCGAGCAGGTGCTCTCCCTCCCCCAAGATTCCAAGGCGATCATCC TCGCCCCGATCATCAAAGAGAAGAAGGGGACCTTCGCCGATAAGATCGAA TCACTTCGCCATAAAGGCTATGTGAGAGCGCAGGTCAATGGCGTGATGGT GCGACTGGATGAGGAGATCAACCTAGCCAAGACCAAAAAACACACCATCA AAATCGTGATCGATCGCGTGGTGATCAACGAAGCCAACAAAGAGCGAATC GCACAAGATGTCGAAAAGGCGCTCAAAGAGTCTTATGGAGAGGTGGAGGT GGAGATTCTCGGCCAAACGCCTGATGAGCCCAGCCGACTCATCCACTACA GCGAGCACCTCGCCTGCTTTGATTGCAAGGTGAGCTTTGAGCCCCTAGAG CCTCTCTCCTTCTCCTTTAACTCCCCCAAGGGAGCCTGCCCTGAGTGCGA TGGACTTGGAATTCGCTACAGCATCGATGTCAAAAAAATCATCGATCCCC ACCTGCCCCTAGGCAAAGGCGGAATCAAAGTGATCTATGGCTTCAATAAA GGTTACTACAGCGAACTTTTCCACGCTTTTTGCGCCCAAGAGGGAATCGA CCCCCAAAAGAGCTTTGAGGAGCTAGAGGAACACCAGAAGAAGTGGGTGC TCCACGGAAGCGCGAGCGATGTCACCTTCACATGGAAAAGCTCCACACTC AAACGCCCCTGGCGAGGTATCATCCAAATCGCCTACGATATGTTCAAGGA TGAAAAAGAGCTCAATGATTACATGAGTGAAAAGGTGTGCGATCTCTGTC ATGGCCATCGGCTCAAACTCTCCTCACTCGCCGTCAGGGTCGCCCAAAGA GGAATGGGCGAGATTTTGGATATGCCCATTGAGGAGTGCTACAGCTTCTT TGAGGATGAGGCCAACTTCCTCTACTTGAGCGAGCAAAAGCGCTTCATCG CCGCACCCATTCTCAAAGAGATTCGCGAGAGGCTCTATTTTCTCTACGAT GTAGGTCTAGGCTACCTCTCCCTAGGGCGAGACGCGCGAACCATCAGCGG AGGAGAATCACAGCGAATCCGTATCGCTAGCCAAATTGGCAGCGGGCTTA CGGGCGTAATGTATGTCCTAGATGAGCCCAGCATCGGGCTCCATGAGCGA GACACGCTCAGACTCATCAAAACCCTCCGCAGCCTTCAAGAAAAAGGCAA TAGCGTCATTGTCGTGGAGCACGACAAAGAGACCATCGAACACGCCGACT TTATTGTGGATATTGGTCCGGGTGCGGGGAAATTTGGCGGAGAGGTGGTC TTTGCTGGAACTCTAGAGGAGCTCAAAGCTCAAAGCACCCTCACTGCGCA ATACCTCAAGGGTGAAAAGAGAATCGAATATTTCCATCGCCGGCCTCAGC AAGATTGGCTAGAGATTAAAAATGTCACTATCAACAACATCAAAAATCTC AATGTGAAAATCCCTCTAGCCAATTTCGTCTGTATCACAGGCGTGAGCGG CAGCGGCAAAAGCTCACTCATCCTCCAAACCCTCCTTCCCGTAGCCCAAG AGCTACTCAACAATGCCCGCAAGGTCAAGAAAGTGGATGGAGTGGAGATT GAGGGGTTGGAGAGACTGGATAAAGTGATCTATCTAGATCAAAGCCCCAT CGGTCGAACCCCAAGAAGCAACCCCGCCACCTACACGGGCGTGATGGACG AGATTCGCTCCCTATTTGCCGAGACCAAAGAGGCGCAGATTCGAGGCTAT GGCGTGGGACGATTTAGCTTCAATGTCAAGGGCGGACGATGCGAAAAATG CCAAGGCGAGGGCGAGATCAAAATCGAGATGCACTTCTTGCCCGACATCA TGGTCAAATGCGACAGTTGTCATGGAAGCCGCTACAACCTCCAAACGCTT GAAGTGGCCTACAAAGGCAAAAACATCGCCGATGTGCTGGGCATGAGCGT GGATGAGGCGCTCGAATTTTTCGCCCCGATTCCCAAAATCGCTCAAAAGC TCCAAACTCTAAGCGATGTAGGGCTTGGCTACATCACCTTGGGACAAAAT GCCATCACGCTAAGCGGCGGGGAGGCACAGAGAATCAAACTCGCCAAAGA GCTGGGACGAAAAGACACAGGGCAGACGCTCTATATCCTTGATGAGCCCA CCACAGGGCTTCACTTTGCCGATGTGGATCGCCTCACCAAGGTGCTCCAC CATCTCACTGACTTAGGCAATAGCGTGATTGTCATTGAGCACAACCTCGA CATGATCAAAAATGCCGACTATGTGATTGACATTGGGCCTGAGGGCGGGA GCAAGGGAGGAAGAATCGTGGATGAGGGCACGCCCGAAGAGGTCGCCAAG CGATGGAGAGAGCGAGGCAGCCACACGGGTGAGTTTCTCGCCAAAGAGCT GGGGATGTGA >WS1960 UVRB, EXINUCLEASE ABC SUBUNIT B ATGCAGCCTTTCAAAGTGCACTCTCCCTATGAGCCTGCAGGTGATCAGCC TCAAGCGATTGAGAAGCTCGCCCAAAGCATTCAGACCCAGCATCGCTATC AGACGCTTGTAGGCGTCACGGGAAGCGGCAAGACCTACACGATGGCTAAG ATCATTGAGAAGCTTCAGATTCCTACGCTCATCATGACTCACAATAAAAC CCTCGCCGCTCAGCTCTACAGTGAGTTTCGCGGCTTTTTCCCTAAGAATC ATGTGGAATATTTCATCTCCCACTTTGACTACTACCAGCCCGAAGCCTAT ATTCCGCGCCAAGACCTCTTCATTGAAAAGGACAGCTCCATCAATGAGGA GCTGGAGCGCCTCAGGCTCTCAGCGACCACTTCGCTCCTGGCGCATGAGG ATGTAATTGTGGTGGCTTCAGTCTCGGCCAACTATGGTCTTGGAAGCCCT GCAGAGTATGTTCAGATGATCCAAAAGCTAGAGGTAGGGGAGCGGCTGCA TCAGCGCGAGCTTTTGCTGCGATTGGTGGAGATGGGCTATAAGCGCAACG ACAACTTTTTTGATCGTGGAGATTTTCGTGTCAATGGCGAGGTGATTGAT ATCTATCCTGCCTACAGCGAAGATGAAGTGGTGCGCGTGGAGTTTTTTGG GGATGAGATTGAACGCATTGCCCTCCTAGATAGCGTGGATAGGCAGGCTT TGGGGGAGCTGCCAAGCTATATTCTCTATGCGGCCAATCAGTTTATCGTA GGGCAGAATCGACTTCACGAGGCGCTCAAAACCATCGAATCGGAGCTAGA AGAGCGGTTGGCGTTTTACCAAAAAGAGGGGCGAATGGTCGAGCACGCTA GGCTCAAACAGCGCACCGAATTTGACTTGGAGATGATTGGAGCGACAGGA ATTTGCAAGGGAATCGAAAACTACTCACGCCATCTCACGGGTAAAAAAGT AGGTGAAACTCCTTACTCTCTGCTGGATTACTTTGAATTTAAGGGCAAAC CCTATCTCATCATCGTGGATGAATCACATGTCTCTTTGCCTCAGTTTGGG GGGATGTATGCAGGGGATCGAAGTCGTAAAGAGGTACTGGTGGAGCATGG ATTCCGCTTGCCTAGTGCACTGGACAACCGTCCGCTCACCTATGAGGAGT TCATCACCAAGGCGCCGCACTACCTCTTTGTCTCGGCAACCCCTGCGCCA AGGGAGCTTGAGCTAAGCCAAGCGCAGATCGCTGAGCAGATCGTGCGCCC CACGGGACTTTTGGATCCTCTCTATGAGGTGCGCGATAGTCAAAATCAAG TCGCCGCACTCTTTGATGAGATCAAAGCGGTGGTGGCGCGAGGCGAGCGT GTGCTCATCACCGCCCTCACGAAAAAGATGGCCGAAGAGCTGACCAAGTA TTATGCCGATTTGGGAATCAAGGTGCGCTATATGCACTCAGAGATCGATG CGATTGAGCGCAATCAGATTATTCGAGGGTTACGCACGGGAGAGTTTGAT GTGCTGGTGGGAATCAATCTTTTGCGAGAGGGACTGGATCTTCCTGAGGT CTCGCTGGTGGCGATTCTGGATGCGGATAAGGAGGGCTTCTTGCGGAGTG AGACAAGCCTCATTCAGACCATGGGACGTGCGGCGAGGAATCTCAATGGA CGCGTTTTGCTCTTTGCTCAAAAGATCACTCCTTCGATGAAGAGAGCCAT GGAGGTGACCGACTATCGCCGCTCCAAACAGCAGGAATTCAACCAAAAAC ATGGAATCACCCCCAAAAGCGTCACGAGAAAATTGGATGAAGAGCTGCGT CTTGAAGGGGTGGGCGATCTCTACGCAAAGGCCTCAAAGAAGGAGAAAAT TCCTAAAGCAGAGCGAGAGAAAATCATCAAAGAGATGACCAAAAAGATGC ATGAAGCGGCCAAGCTTCTTGATTTTGAGGAGGCGGCAAGATTGAGGGAT GAGATTGCCAAAATCCGCGCCCTCTAG >WS1607 UVRC, EXCINUCLEASE ABC SUBUNIT C TTGCAATCAGAAACCCTCCTAGAGACCCTTCAAAATCTCCCCGATCAAAG TGGAGTCTATCACTACTTCGATTCTCGCTCCAAGCTCCTTTATGTGGGTA AAGCCAAGAGCCTCAAAAAGCGCGTGAAGAGCTATTTTCAATTCACGCCG ACTCTTGCGCCCTCACCCAAGCTCTCCCCTCGAATCCACAAAATGATCAG CGAAGCCGCCTTCATCCGCTACATCGTAGTGGAGAACGAACACGATGCAC TCATCCTTGAAAACTCCCTCATCAAGCAGCTCAAACCCAAATACAACATC CTCCTGCGCGATGACAAAACCTACCCCTATATCTATTTTGACGAAAATGA ATCCTTCCCTCGCCTAGAGATCACGCGCAAGATTCTCCCCCACAAAGGCG TGCGCTACTTTGGTCCCTACACCACAGGAGCTAGAGAGCTACTAGAGAGC CTCTATGAGTTGCTCCCTTTGGTGCAAAAAAAAGGGTGTCTTAAAGCCCA AAAGGCGTGCCTTTTCTATCAGATCCATCGCTGTCTCGCTCCTTGTGAAT CCAAAATCTCCAAAGAGCGCTATGGGGAGATTTTCAAAGAGGCTCTAGGG CTTCTCCAAAACCACTCCAAGCTCATCTCCCGCCTCAAAGAGAGGATGGA AAAACTGGCAGAGAATCTTCGTTTTGAGGAGGCAGGAGAGCTGAGGGATC GAATCGAAAAGATCAAAAGAATCGAAGCCTTCTCTGGAATTGATCTCGCT AGATTAGAGGATCTCGATATTCTCGCCATTGCCACTAGCGGCAAGCACTC CATGCTTACAAGACTCTTCATGCGCGAAGGCAAGGTGGTCTCTAGCACCA GCACTCCGCTCAAAGCCCAAGAGGGGCTGGATGAAGAAGAGGCCTATAGG CGTGCGATTCTTCACTATTACGACTCTTTCATGCCCCTCCCCCCCAAGCA GATTCTTCTTCCTTTGGAGCTTGAATCCAAAAGAGAGCTTGAGGCTCATC TTGAGGGGCTTTTTGGACGAAAAATCCCCCTTCATCACCCCAAGCAAGGG AGTAAAAAGGCTCTCATCGACCTTGCTTTGAAAAACGCCGAAGAGCTTTT GAGATTGGAGGGGGAAAAAGAGGAGATTCCCCTTTTAGAATCGCTTCAAG AACTTTTGGGGCTCGAATCGCTCCCAAGAAGAATCGAAGCCTTTGACACC TCCCACCTAAGAGGCGAGGCGTGCGTGGGCGCGATGGTGGTCTATGAGGA GGGGTTTTGCAAAGAGAGCTATCGCCGCTACGCCCTAGAAGGCAGGGATG AGTATTCACAAATGAGAGAGATGCTGGGGCGCCGCGCTGAAGCATTTGAT CGAGAATCGCCTCCTGATTTGTGGCTTCTTGATGGCGGATTGGGTCAGAT TCGACTCGCGCAAGAGATCATTGAGAGCCTTGGAGCCAATGTCGAAATCA TCGCCATTGCCAAAGAGAAGATTGACGCCAAAGCCCATCGCGCCAAAGGA GCTGCCAAAGATATTCTACGCACCCCCACCGAGGAGATTCGCCTCCTTCC CAGCGACAAACGCCTCCAGCTGCTACAAAAAATCCGAGATGAGGTGCATC GATTCGCCATCACCTACCATCGCCAACAAAAACTCAAAAAAGATCGCCAA ATCGATCTCCTGGAGATTAAGGGAATCAAAAAAGGCAAACTCAAGCGGCT TTTGGACTTTTTTGGAAGTTTTGAGGCCATCAGAGAAGCGAGCTTTGAAG AGCTTTGCAAAGTGGTGAGTGAGGGCGAGGCGAGAGCTATTTTGGAGGCT TCATTTTAG >WS1926 YDAA, HYPOTHETICAL PROTEIN-Putative Site-specific recombinase ATGGCAAAAGCTATAGGGTATATTCGAGTAAGCACTGACCAACAAGATTT ACAAAATCAACAGCACTCAATTTTAAACTATGCAAATAAAAATGCACTTG GCAAAGTTGAATTTATTGAAGTGAAGATGAGTAGTCGCAAAAAAGATGAA GATAGAAAGATAGATGAACTTTTTGAAACCTTACAAGCTGGTGAACATCT AATCGTATCTGAACTTAGTCGTATAGGAAGAAGTGTTGTAAATGTTGTCA CAATTGTCAATCAACTCATAGCTCTTGGCGTAAATCTTCATATCTTAAAA GAACAGCTTTTTATAAAACCAAATGAACAAAATCCATTTACAGATTTTCA AATAAATATTTTTTTAGCTTTTGCACAACTTGAAAGAGATCTTATTAGCA AAAGAACAAAAGAAGCACTACAAGCAAGAAAAGCAAAGGGGATAAAACTT GGCAAACCAGTTGGAACTATTCAAGGAAGCATTTACGATAAAGACAAAGA AAAAATCAAAGAGCTTCATAGTCTTGGTGTAACTCTTACAAATATTTCAA AAAAACACTTAGGTTATGGAACTATTAAAAGTCTAAGTGAATATGTAAAA AATAAACTTGATAAGGAGAAGTAG >WS1728 YFFD, NUCLEOSIDE POLYPHOSPHATE HYDROLASE GTGGCGGAACACCCTGAGTGGGTGAGCTATGATTTTCCTGAAACAGTCGC GCCCAAGATGTATCCTTATGACGGACAGACTCAAAAATATTTTCTTGTTC GGCTAAGGCATGATTCTCTTGTCAACCTCAACACCCAAGAGCCTGAATTT AGCGACTATAAATTCGTCTCCTACGAGAATATTTTCCATCACATCACCTA CTTTAAAAGACCCATTTATAAGCAGGTGCTCGAATACTTCAAGAAAAAGG GATACCTCTAA >WS0000 dnaA, dnaA, probable chromosomal replication initiator protein TTGCTAGGCGATACTACATTAAAACAACTTAAAGACGAAATCTCAACGCT TGAATATGAGCGCTATATTAAGCAGCTTCGATATGATGAAGAAGCCTCAC GCACGGACTTAGCGGTCTATATTGCCCCCAATCAATTTATCGCTAACTGG GTCAAAACCAAATATGGTGAGCGACTCGCCCATCTCTTTGAGCTAAGCAC AGGAATCCGCCCTAAAATAGAGATTCGCCTTGGTTCTTTAAAGAAAGATG TGAAAAGTTCTTCCCCCAAAGCGGGAGTTAGCAAAGGCCAAAAAAGCACC ATCTTAAACCCATCTTTCACATTCGATTCTTTTGTGGTCGGAAATTCGAA TCGATTCGCCTATGAGGTCTCGCAAAATGTCGCTAAAAAACAGGGAATCG CCTATAATCCCCTTCTTATTTACGGCGGCACGGGTCTAGGAAAAACACAC CTACTCAACTCGATTGGAAACTATAATGTTGCCAAGGGAAAAAGCGTCAT CTATGTCACCAGTGAGCAGTTCCTTAATGATTATCTCTATCATATTCGCA ACAACACCATGGATCGATTCCGTGATAAATATCGTGCTTGCGACTATCTT CTTATTGATGATGTTCAATTTTTTGGCGGAAAACCCCAAATCCAAGAGGA GTTTTTTCACACCTTTAATGAGCTCCATAATAAAAACAAACAGATTGTCC TCACCTCAGATAAGACTCCCAAACAGATCGCAGGACTAGAAGAGAGGCTC AAAAGTCGTTTTGAATGGGGAATGGTCTCAGATATTCAACCCCCAGAGTT AGAGACTAAGATCAACATTATTAAGAAAAAGTGCGAATTTGATGGAATAT ACCTAAGCAACGAGATCATCAGCTATATTGCCACCAACATGGACAACAAT ATCCGTGAGATTGAGGGAATCATCATCAAACTCAACGCCTACGCCAACTT GATGAATCAAGAGATCACTCTTCAATTTGCTAAAAATGTCCTCAAAGAGC AGATTAAAGAGGAGCGTGAAAATATCACTTTGGAAAATATCATTGAGGTG GTCTCTAAAGAGCTCAATGTCAAACCCGCCGAAATCAAAAGCAAAGGGCG AAGTAAAAATATCGCCAACGCTAGAAGAATCGTTATCTTTCTTGCGCGAA CCCTCACACCCAACTCTATGCCCTCGCTCGCTCAATTCTTTGGGATGAAA GATCACAGCTCCGTGAGCAAGGCAATGAAAACGGTTAAAACAGAAATTGA AGAGGATGCGAACTTCAAAATGGTCATTGAAGAGCTAAAAAACAAGATCA AATCAAGGAACTAA >WS1983 dnaE, DNA POLYMERASE III ALPHA SUBUNIT ATGAGCTATCCCTACACCCACCTTCATCTGCACACCGAATACTCCTTGCT AGATGGAGCCAATAAGATCAAGAGTCTTGCCAAAAAGGTCAAGCAGCTTG GTATGAGTGCCGTCTCGATGACCGACCATGGCAATATGTTTGGGGCGATT GACTTTTACACTGCGATGAAAAAAGAGGGAGTCAAGCCCATCATTGGAAT CGAAGCCTATCTTCATAATAGCGATGAATTGGGAGACAAGAGCACCAAAC AGCGATTCCATCTCTGCCTCTATGCCAAAAACGAGGTTGGCTACCAAAAC CTCATGTATCTGAGCTCCATGAGCTTTATTGAGGGATTCTACTACTATCC GCGAATCAACAAAAAGCTCCTCAGAGAGCATAGCGAGGGGCTTGTCTGCT CTTCGGCGTGCTTGCAAGGAGAGGTGCAGTGGCATCTCAACACCAACAGC GAGCGTAATGTAAAATTTGGCGCCAAGGGGTATGAGCGCGCCAAAGAGGT GGCGTTAGAGTATCGAGAGATTTTTGGCGAGGATTTTTATCTAGAGATCA TGCGCCATGGAATTGGCGACCAGCTCTTTATTGATGAGCCCCTTCTTCGC CTGAGCCTAGAGACGGGAATCAAGATCATCGCCACTAACGACACTCACTA TCAACTCCAAGAGGATGCTGAGGCGCACGAGGCGTTCATGTGCATCGCGA TGAACAAAAACTTCAATGATCCCAATCGCCTTCGTCATAGCGTTCAGGAG TTCTATCTCAAATCGCCCGAGCAGATGGAGGAGCTATTCGCCGATATTCC CGAAGCGCTTTTAAACACCCAAGAGATTGTAGAGAAGTGCAATTTGGAGC TTCATCTTGGCAACCCCACCCCTCCGACTTTTAAATTCACCGAGGATTAC GCCAAAGCCGAAGGGCTTGATTTTCACACCGATGATGACTACTTTGCCTA TAAGTGTCGTGAGGGATTAAAGAAGCGTTTAAAACTGGTTCCAGAGACTC GACATGAGGAGTATCGGGAGCGGCTAGAGCGAGAGATAGAGATCATCAAC AAGATGAAATTCCCCGGCTATATGCTCATCGTTTGGGATTTTGTGCGCGC GGCCAAAGATCGTGGAATCCCTGTAGGGCCAGGGAGGGGAAGCGCGGCGG GAAGTTTGGTTGCCTTTTGCCTAGAGATCACGGATATTGATCCGCTCAAA TACGCGTTGCTTTTTGAGCGATTCCTCAATCCTGAGCGGGTGAGTATGCC TGATATCGATATGGACTTCTGCCAGAGTCGGCGAGGTGAGATTCTTGACT ATGTGGTCAATAAGTATGGTCGCTATAATGTAGCCCAGGTGATCACTTTT GGTACGCTTCAGGCCAAGGGGGTGATTCGTGATGTCGCCCGAGTGATGGG GATGCCCTATGGCGAGGCGGATGCGATGGCCAAACTCATCCCTGATGAGC TAGGAATCACGCTCAATGGCAAGGGCAAAGAGGGGACTCCTGATTATAAG GCGGGGGCATTTCAGAAAGAGCCCAAGATCAAAGAGCTCATCGATTCCAA TAAAGAGGCTCGCAAGGTTTGGGAATTTGCGCTTCTTTTGGAGGGGCTCA AGCGAAACGCTGGAACCCATGCCGCAGCGGTGGTGATTGACAGCCAAAAA GAGCTTTGGCACAAAGCCCCCCTCTACAAGCCTAGTGGCGATGAGACGAT TGCGACCCAATATTCGATGAAATACCTTGAAGATGTGGATCTTATCAAGT TCGACTTCTTGGGACTTAAGACGCTCACGGTGATTCGAGGGGCGATGGAT ATGATTAAGGTGCGCTATTCCAAAGAGATTGATTTTAACGCGCTGGATGT GAACGATCCAGCGGTCTATGAGACGATCCAGAGCGGTAACACCATCGGCC TCTTTCAAGTGGAATCCAAGGGGATGCAAGATCTCAACAAACGCCTCAAG CCCACCACCTTTGAAGATATCATCGCGGTGCTCGCGCTCTATCGGCCTGG TCCGATGGAATCGGGGATGTTGGATGACTTTATTGACCGAAAGCATGGCA AAGCCCCGATTCTCTATGCTTTTCCTGAGCTAGAGCCTATCCTCAAGCCC ACCTATGGAGTGATTGTCTATCAAGAGCAGGTGATGCAGATCGTTCAGAC CATTGGAGGTTTTAGCCTTGGAGGGGCTGACTTGGTGCGGCGAGCGATGG GGAAAAAGATCAAAGAGGAGATGGATCGCCTCAAAGGGGAGTTCGCCAAT GGAGCAGAGAAGAGAGGGTTTGATCGCCAAAAATCCGAAGAGCTTTTTGA TCTGATTGTCAAATTCGCTGGCTATGGATTCAACAAGTCTCACTCCGCCG CCTATGCGATGGTCACTTTCCAAACCACCTATCTTAAGACCTACTACCCC CACGAATTCATGGCTTCCCTTCTCACCTCCGAGCAGGACAACACGGACAA GGTCGTGAAGTATGTCGATGAAGCCAAGCGTCTAGGGATCAAGGTCCTTC CTCCTGATATTTCGCGATCTCTCCTGGAGTTTAGCGTGGCAGAGATTGAG GGAGAAAAGGTGATTCTCTTTGGGCTTGGAGCGATCAAGGGGGCGGGCGA GATCGCTCTTAGCAAGATTCTAGAGGAGCGCGCCAAAGCCCCTTTTGAGA ATCTAGAAGATTTTCTTGGGCGAATCGATGCGCAAAAGGTGAACAAAAAA GCGCTCGAATCGCTCATTAAAAGTGGGAGCATGGTCGGTTTTGGCTACTC AAGGCGTGCGCTTTTGGAGCAGATTGAAGCGATCAATGAAGCCTCCAAGG AATCAGAGCGCGCCAAAAGGATGGCGGAAAATTCACTCTTTGGGGATAGC GAGGAGATGATTGTAGCGCGGGTGGAGATTGAAAATTTTGAAGAGTATCC CCTAAAGCGCCTCTTAGAGCTAGAGAAAGAGACGCTTGGCTTTTATGTCT CAGGCCATCCGCTGGATGATTTTCGCCCTGAGCTTGCCGAGGTGAACTAC ACGCTCTCCAGCCAGATGGAGCAGATTGAGGATGGGAGTGCAGCGCTCTT TATTGGTAAGGTTGAAGAGGTGACGACCAAATTCAGTAAAAAAGGGAATC GGTTTGGAATCCTAAACATCCTCGATCTGCATGGAAACATCGAAATGATG GTTTTTGAGCGGATGCTAGAGGAGCTTGAAAAGCTGGACAAAGAGCGCCC CATCGCCTTTAAGTGCCTCATCAACAAAGAGGGTGAAAACACCCGTTTGC GTGTGGAGAAGATCATGACCTTTGAAGAGGCGCGTGGGGCAAAAGTCGAG ACCAAGATGAGCGTTCAGGATGTCTCAGGTGCGCTTGTGGCGGTTTTGAG TAGCGATGTGGAACCTGAGGTGATCGCGACCCTCCGAAGTGCGGCGATGG CGCATCAGGGCAAGCGCGAGCTGAAGGTGCTTTTGCGCGGCAAACTCCAA GAGATTGTGATGGTGACGGGATTTCATGTGCACACCAAGATCAAAGAGAG TCTTGGAGAGCTAGAGTGGATGGATGAGGTGGGCTAA >WS1902 dnaG, DNA PRIMASE PROTEIN ATGATTACCGAAGAATCCATTGAACGACTCAAGCAGATGATCGACATCGC TGATGTGGTCGGCTCCTATCTAGAGCTCACCAAAAGCGGCGCAAGCTTCA AGGCTCTATGCCCTTTTCATGGCGAAAAAACCCCTAGTCTCATCATCCAT CCGCAGAAGGGATTCTACCACTGTTTTGGATGTGGAGCCAGCGGTGATGC GATCAAGTTTGTCATGGAGTATGAGAAGCTCACCTACCCCGAAGCCATTG AGAAGATCGCTGGACTCTACAATGTCTCCCTCTCCTACACCGATGTCGCC TCCAATGCCCCTAAAAGCTCCCTCCTAGAGAAGCTCTCTAGCTTCTATCA AAAACGCCTAGAGAGCGAACCAAACGCTCTAGAGTATCTGAAAAGCCGAA GCGTACACACCAACATGATCGAGAGATTCGAAATTGGCTACGCTCCCGCC TCGTCGGAGACCTTGCGATTCTTAGAAGGGGGATTCTTCTCTCAAAACGA AGCTCTAGAGCTGGGGGCGCTCGCCGAGGAGAATGGTCGGCTCTATGCCC GATTCATCGATCGACTCACTTTTCCCATCTATGCTCCTAACCGCAAATTG GTGGGCTTTGGCGGTCGAACCATGGGAAATCATCCCGCCAAATACATCAA CTCCCCCCAAACCAAGCTCTTCAACAAATCCAAGCTCCTCTATGGCTATC CCCTCGCCAAAGAGGCGATTCTCAAAGAGGGCAAAATCATCGTCACTGAA GGCTATCTAGATGTGATTTTGCTCCATCAGGCGGGATTCTCCTATGCGGT GGCAACCCTTGGCACGGCTCTCACGCTTGATCATCTCCCCCTCCTCTCCA AGGGCGAACCCAAGATTCTCCTCTCCTATGATGGCGACAAAGCAGGAATC GCCGCTGCGCTCAAAGCCTCTCGCCTGCTCGCAAACCACGGGAAAGAGGG GGGAGTGGTGCTCTTTAGCGGGGGGCTTGATCCAGCGGATATGGTCGCCC AAAAGAGAATCGAGGAGCTCAATCGCCTCTTTTTACGCCCCACTCCTTTT GTCGAATTCGTGCTCCAAAAGAGTGTTGAATCGTATGACCTCAGCTCACC CCTCCAAAAAGAGGCTGCGCTCAAGGAGTGCGGAGGGTTTTTGCGCACCC TCTCCCCCCTCCTCCAAGAGGAGTATAAGCCCCTTCTTGCTTCGTTGCTT AAGATTCCTGCTTCGCTCATTCGCACGGTCAAATCTCCTCGCCACCCCCT CGCACCCCCCAAAGAGGGAATCGGCGCAGGAGGCAGCGAGCTGGCAGAGG CGAGCCTTATTAAGACCATTTTGGAGCAGCCAAGGCTTTTGGAGTTTGTC TTGGAATATCTTGATAGCGAGGTCTTTGGCGTCCATCAGGCGGAGTTTGA GCTTTTAAAGCTGGGAGAGTTTGAACACCCCAAACTCCTTCGAATCCTCC TTCAAGAGCGAATCCACCCCTTAGAAGAATCGGTGCTCAAGGAGCAATTG CGCCTCATGTTGCGCCACTTCTATAGCAAAAAACTCAAAGAGATCGCCGC CAACAAGAGCCTTGATTTCAAGATTCGCGCCTTTTGGCTTGGCAAAATCC GCGTCCACTTAGAAAAACTCGAAAAAGGAGGGTTGGTCCCTTATGAAAGC TTTGGCGCTCTTTAG >WS0365 gyrA, DNA GYRASE SUBUNIT A ATGAGCGATTTGCTGAGCAATAACGAGGACATCAAAGAGGTCAATATTGA GGATTCCGTCAAGGAGAGCTACCTAGACTACTCCATGAGCGTCATCGTGG GGCGAGCCCTCCCTGATGCGAGAGATGGCCTCAAGCCCGTCCACCGAAGA ATCCTTTACGCGATGCATGAGCTAGGCGTGGGCGCTAGGGCAGCCTACAA AAAGAGCGCGAGAATCGTGGGAGATGTGATCGGTAAGTATCACCCTCACG GAGATACAGCGGTCTATGACGCGTTGGTGCGGATGGCTCAGGATTTCTCC ATGCGACTTGAGCTCGTCGATGGGCAGGGAAACTTTGGCTCTATCGATGG GGATAACGCCGCGGCGATGCGATACACCGAGGCGCGCATGACGCAGGCAA GCGAAGAGATTCTTCGAGATATTGAAAAAGAGACGGTCGATTTTGTCTCC AACTATGATGACACGCTCAAAGAGCCCGATGTGCTTCCTAGCCGTATTCC TAACCTCCTTGTCAACGGCTCCAATGGAATCGCCGTAGGGATGGCGACCA ACATCCCTCCGCACCGTTTAGATGAAGTGGTCGAGGCGCTTATCCACTTG ATTGATCATCCTCAAGCCGAGCTTGAGGATTTGATGGGCTTTGTTGAGGG TCCTGATTTCCCCACGGGAGGAATCATCTATGGCAAGCAGGGGATTATCG AAGCCTACCGCACGGGTCGAGGACGAATCAGGGTGCGTGCTAAGACTCAT ATCGAGAAGAACAAAACCAAAGATGTCATCGTCATTGATGAGGTCCCCTA CCAGACTAACAAAGCCAGACTTGTGGAGCAGATCGCCGAGCTCGCCAAAG AGAAGGTGATTGAAGGAATCGCCGAAGTGCGTGATGAGAGCGACAGGGAA GGGATTCGGGTCGTCATTGAGCTCAAAAAAGACGCCATGAGCGAGATTGT CCTCAACCACCTCTTTAAATCCACCGCGATGGAGACCACCTTTGGAATCA TTTTGCTGGCGATTCACAACAAAGAGCCCAAAATCTTCACGCTCCTAGAG CTGCTCAATCTCTTCCTCAACCACCGCAAAACCGTGGTCATCCGCCGAAC GATTTTTGAGCTGGAGAAGGCTAAGGCGCGCGCTCATATCCTAGAGGGGC TTAGAATCGCGCTGGATCATATTGATGAGATCGTTTCCCTTATTCGAGCC TCTAGCGATGCCAAGGAGGCTAAAGAGGGGTTGATGGCGCGCTTTGGGCT TAGCGAGATTCAATCTCAAGCCATTTTGGATATGCGCCTTCAGCGACTCA CGGGGCTAGAGCGGGAAAAGATCGAGAATGAATATCAAGAGCTCCTCAAA GAGATCGAACGACTCACGGCGATTCTTCGTAGCGAAGAGAAGCTCAATGA GATCATCAAGCAAGAGCTCATCGAGATTCGGGAGAAATTTTCCACTAAGC GAAAGACTACCATTGAAGAGGATTATGAGAGTATTGATATTGAAGACCTC ATCCCCAATGAGCCCACCGTGGTCACCATGAGTCATCGAGGTTATGTCAA GCGCGTTCCTCTGCGCTCCTACGAGAAGCAAAATCGTGGCGGCAAAGGCA AAATCTCTGGCAATACCCATGATGATGACTTCATTGAGAGCTTCTTTGTC TCCAATACCCATGACACGATTCTCTTTATCACTGACAAAGGGCAGCTCTA CTGGCTCAAAGTCTATCGGATTCCTGAGGCGGGGCGAACGGCCATTGGCA AGGCGGTGGTCAACCTCATTCAGATTGGAGCGGATGAGAAGATCATGGCG ACCATCACCACTCAAGATTTCAATGAGGATAAGTCGCTCATGTTCTTCAC TAAAAATGGTATCGTGAAGCGAAGCAATCTGAGCGAATTCAAAAATATTC GAAGCGTTGGAATCAGGGCGATTAATTTGGATGACAATGATGAGCTTGTG ACGGCTAGAATTATCGATTCCAATGTTAAAGAGATCTTTGTGGCGACCTA CAAAGGAATGTGCATCCGCTTCCCCGTCGAGGATATTCGCGAGATTGGCC GAGTGGCGCGCGGCGTGACGGGAATTCGCTTCAAAGAGGATGAGGATTAT GTGGCAGGCGCGACCACGATTGGTGATGAGAAAGAGGAGCTACTCACGGT GAGTGAGAAGGGAATTGGCAAGCGCACCGAAGCGGAAGAGTATCGCTTGC AGTCTCGTGGCGGCAAGGGAGTCATTGCGATGAAGCTCACGCCTAAAACG GGTCAGCTTGTGGGCGTGGTGAATGTCGATGAGAGCATGGATTTGATGCT TCTCACCAGCACGGGCAAGATGATTCGTGTCGATATGCAGACCATCCGCA AGGCGGGCAGAAACACTAGCGGAGTTATTATCGTGAATGTGAGCGATGAT AAAGTGGTCTCCATTGCGCGATGTCCAAAAGAAGAGAATCCTGAAGAAGA GGCCAGCGATGAAGGACTTCTCTCTCCTGAAGCCTAA >WS0002 gyrB, DNA GYRASE SUBUNIT B ATGCAAAATCAACAATACAGCGCCGACAATATCAAAGTTCTCAAAGGTCT TGAAGCCGTCAGAAAACGCCCTGGAATGTATATTGGTGACACCAATGTCA ATGGTCTTCACCATCTTATCTATGAAGTGGTGGACAACTCTATCGATGAG GCGATGGCGGGTCACTGTAACACCATCTCTATCACGCTTACCAAAGAGGG AAGTGCTATTATCGAGGATAATGGACGAGGGATTCCTGTGGATATGCACC CCACCGAAAATCTCCCTGCTGCCACGGTTGTTCTCACCGTTCTTCACGCG GGAGGAAAGTTTGACAAAGATTCCTATAAAGTCTCAGGTGGACTTCATGG GGTTGGGGTTTCTGTCGTCAACGCCCTCTCTAAAAAATTGGTTATGACCA TCCGTAAAAACGGAAATGTTTACACTCAAGAGTTCTCATGCGGGATTCCC AAGACGGGCTTGGACATCATTGGCACAAGCAAAAAAAATGGAACCACCAT TGAATTTATCCCTGATGATGAGATTTTTGAAGTCACGGTTTTTGATAGAG AAGTGTTGGCTAGACGTTTTAAAGAGCTCGCCTATCTCAACCGAAATATC ACGATTCACTTCAAAGATGAGCGCGATAATTTTAACGAGAGTTATCACTT TGAGGGAGGTTTGCGTCAATTTGTCGAACACCTCAATAAGAAGGTCCTCG TCTCCCAAGTTTTCAGCTTTTCTGATAATGAGAGCGACACTGAGGTAGAG ATTGCCCTTGCCTATAACGATGGCTATGATGAGAAGGTCTTAAGCTTCGT GAATAACATTAAAACCCCTGAGGGCGGAACTCACGAGGCAGGTTTCAGAG CGGGTCTTTCTCGTGCGATCACGAGCTACATTGATGCCAATGCCAATGCC AGAGAGAAAGATAACAAAATCACGGGTGATGATGTTCGTGAGGGTCTTGT GGCAATCGTTTCAGTCAAGGTGATGGAACCTCAATTTGAGGGTCAAACCA AGGGTAAGCTCGGAAGCTCTTTTGTTAAACCCATCGTGCAGAAATTGACC TATGAAAAAATTGCCAAATTCTTTGAAGAGAATCCTAATGATGCCAAAGC GATCATGCAAAAAGCCCTTATGGCTGCACGCGGAAGAGAAGCGGCCAAAA AGGCTAGAGAGCTTACAAGGAAAAAAGATTCTCTTATGGTGGGGACGCTC CCTGGAAAATTGGCGGATTGCCAAAGCAAAGATCCTTCTATCTCTGAGCT CTACCTAGTGGAGGGTGATAGTGCGGGCGGTTCGGCCAAGCAGGGGCGAG ATCGAGTCTTTCAGGCAATTCTTCCCCTTAAAGGAAAGATTCTCAATGTA GAGAAGAGCCGCTTGGATAAGATTCTCAAAAGTGATGAGATTAAAAACAT GATCACCGCCCTTGGTTGTGGAATCGGTGAGGAGTTTGATATCAATCGTA TTCGTTACCAAAAAATCATCATCATGACCGATGCGGATGTCGATGGGAGC CATATTCAAACCCTCCTCCTCACCTTCTTCTTCCGCTATCTCAAACCTGT GATTGAAGCGGGCTATCTCTATATTGCCCAGCCTCCTCTCTATCGATTCA AAAAAGGGAAAAAAGAGATCTATCTACGAGATGAGAAGGCGTTGAGCGAA TACCTCATCGAAAATGGAATTGAAAATTTCGCTTTTGAAGGGGTTGGTAC ACCCGATCTTTTAGAGATTCTTCGATTCGCCTCTCACTATCGCCTCACTT TAAAAGAGTTAGAGAAGCGCTTTGCGATGATTGATGTAGTGAAATATATG ATCGAGCATCGAGATTTGATCTCTTTGCCCATGAGTGAGCTCTATATTAA GCTAGAGGAGTTTGTCCAACAAAAAGGCTATAACATCCTTAATAAGCGCG TGGAAGAGGAAAAAATCCATCTCTATGTACAGACACACGAGGGATTGGTG GATTTGGTAATTGATGATTCTCTCTTCACTCATCCTCTTTTTGAAGAGGC CTATTATGTTCATAATCTTATTCTGGAGAGGGATTTAAGCTTTTTGGGCG AAAAAGATATTCTCACGATTCTTGAAGAGATTGAAGAGAGTGCCAAAAAA GGTGCTTATATTCAGCGCTATAAAGGTCTAGGAGAGATGAACCCTGAGCA ACTTTGGGAGACGACCATGACACCAGAGAATCGCCGATTACTCAAGGTGC AGATCACTGATGACATGGAAGCAAGCGATGTATTCTCTCTCTTTATGGGA GATGAGGTGGAGCCGCGCCGCGCCTACATTCAAGATCACGCCAAAGACGT GAAACACCTAGATGTGTAA >WS1622 recN, DNA REPAIR PROTEIN-ATPASE TTGGGGGGATGCTTGATCTCGCGACTGCTCATCAAAAACTCCCCCGCCTT TGCTCATGAGAGCCTTGAACTTCATGAGGGATTCAATGTCTTTAGTGGAG CCAGTGGTGCGGGAAAGTCACTCCTTATGGAATCGATTCTAGCCCTCTTT GGTCTTAGAGAGAGCAACGCCGAGCTCATTGAGGGGGTGCTGGAGATTCC CTATTCGTTAGAAGAGTGGGGAGTGGCTCATGAGGAGGAGACCACCTTCT CGATTCTCAAAAAGGAGAAAGTGCGCTACTTTGTCAACTCCCAATCCCTC TCCAAGAAGCGTGTAGCGGAGATCGCCTCAGGGTTTATCAAGCATGTCAA TCCCAAAAATGGTGAGGAGCTTGAGCCTGCGAGGCTTTTGGGTCTGCTAG ATGGCTTTATCCTCCATCAAGAACCCTCTTTTAAAGAGCTCCTAGAGAGT TATGCGGAGCGATTTTTGGAGCTTACAAGAGTCAAAGAGGAGCTAAAAAG AGTCGCCGAGGAGGAGTCAAGGGTCGAAGAGCTCAAAGAGTTTGCCCGCT TTGAGATCGCCAAAATCCGCCAGATCAATCCCAAAAAAGGGGAGCACGAG GAGCTCATGAGGCTCAAAAAAAGCCTCTCCAAAAAAGAGAAGATACAAGA ATCGTGTGAAAAAGTAGAGCGATTCTTGGAGGGGGAGCGCTCGGTGAATG CTTTTTTGGAGCTTCTAGGGCGCGAGAAAGAGTTCTTTGAATCGGTGATG AACGAGCTAAGAGCGCTCATTGAAGAGGAGAGAGGCCATCTTTTGGAGCT AGAGGAGATGGATGCAGAGAGCCTCTTAGATCGTCTTGAGAAGCTCGCGG ATTTGAATCGGCGCTATGGTGGAGAGGAGGAGGCGCTTGCCTATCTGGTG CAAAAGCAAAAAGAGCTGGAGCGTTATGAGAATCTCACCTTCTCCAAAGA GGCACTCCAAAAAGAGCTCACCCAGCTAGAGAAGAGCACCAAAGCCCTAT CCAGTCGTCTCCACGAGAGTCGATTGAGCTATGTTCCAAAGCTTGAGTCG TTGCTCAATGAGCGTCTAGGAGCACTTCTGCTTCCTTGCGCTAAGCTTGC TTTAGAAGAATCAACTCTTCATGCCAAGGGGCAGGATTGGGTGCGACTCA TGCTGGGGAATGCCAAAGCCGAATCGGTGAGCTCAGGGGAGTTTAACCGC CTAAGGCTTGCCCTCTTAGCGCTTGAGGCGAGGCACTCCAAGAGGCTTGG AGTGCTTATCTTGGATGAGATCGACAGCAATTTAAGCGGTGAGGAATCAG AAGGGGTGGCCAGGGTGCTCCAAGAGCTCTCGCGCTCCTATCAGATTCTT GCCATCTCGCACCAGCCCCACATGCCCTCCTACGCCCATCGCCACTTTTT GGTCAAAAAAGAGGCTAAAGGAAGCACGATTGAGAGGCTTGATAGAGAGG GGCAGATATTAGAGATTGCGCGAATCGTGAGTGGAAGCGAGATCACGCCT GAGGCGCTTGAGTTTGCCAAAAAGCGTCTTGAGTCCAAGCCCTAA >WS1718 rnhB, RIBONUCLEASE HII RNASE HII GTGAGAATCTGTGGAATCGATGAGGCAGGAAGAGGCACGCTCGCAGGAAG TCTTTTTGTGGCGGGAGTGGTTTTGGAGATAGAGATCGAGGGGCTTAGAG ATTCTAAAAAACTCTCCAAAAAGAATCGATTCAGACTTTATGATGAAATC GTCCAAAACGCTTCTTTTCATATCGTAGAATCAAGCGCCCAAAAGGTCGA TTCCCTAGGGCTTGGAATCTGTCTTAGGGAGTCGATTCTAGAGATATGCA CCCAAGTGAGTGCCGATTCTTATATCATGGATGGCAACACCTCATTTGGC GTCCAAGGAGTGGAAACGCTCATTAGGGGCGATTCCCTGCTCCCTTGTAT CTCCGCGGCAAGTATCTTGGCCAAAGCCTCCAAAGACAGGGAGATGGAGC GACTGGATCGGCTCCATCCTGAGTATGGATTCGCCAAGCATTGTGGCTAT GGCACCAAGGCGCACCTAGAGGCGATCTTGCACCTAGGCTACTCCCCTTT TCATCGCCAAAGCTTCAAGCTCAAACGCCTGCTCTACCCTACCCTTTTTT AA