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