Show UniProt / TrEMBL protein name		View as list		View in Fasta format (Protein)

# Geobacter sulfurreducens PCA, PCA

>GSU2139 ISGsu7, transposase OrfA
ATGGAAAAGGATGTCAGTGTCTCCGGTGCGGCGGAAGGAGAGCGTAGCTC
GACTGGAGCAGCACCGGAAGTCAAACGTTGGAGCGCCAACCGCAAAAAGG
AGGTTGTCCTGCGGTTGATGCGCGGTGAACCAATCGATGCCTTGTCCCGT
GAGTTGGGCATCGAAATCTATCGCCTGGAAGAGTGGCATCAGAAAGCACT
CCAGGGGATAGAATCTGCTCTCAAGGCTCGTGAAGGTGATCCGTTGGCAG
CGGAACTCGATGCAGCCTTCAAGCGCATCGGTGAGATCACCATGGAAAAC
GAGCTACTGCGGGAGAAAGCGAGGCGTGCCCACCCTTTGGCCCAGAGGAG
ATCGAAGAAATGA
>GSU3159 mutT/nudix family protein
TTGAAGGACTCCGGAGGGGAAAACCGGCCGGCCGCCGCCGCTTATACCCC
TGCAGCCGTGGCGCTGATCTTGCGCCGGGACGCCAGCGAGGTGTCGATCC
TCTTCATCGAGCGCTCCCCCCACGATGGCGATCCCTGGTCCGGCGACCTG
GGGTTTCCGGGCGGCAAGGTAGAGGCGGGCGATGCCGGTCCCCGTGCCGC
CGCCGAACGGGAGACTCGGGAGGAACTGGGCGTTGACCTGGCCTCGGCCC
GCCTGTTGGGTCGGCTTGCCGATATCGAGGGGGCCCACCTGCCGATCCGG
GTGTCCTGCTTCGTCTACGGTGTGACCGGAGCACTTTCCCTTCACCCGGG
CGGCGAGGTCCGCGACGCCTTCTGGGTCTCCCTGGAGGCACTGTGCGATC
CCGCCCGCCACGTAACTGCGCCGGTCCGCTTCGGCGGCGAACCCTTCGAG
CGACCGGCCATCATCCTTCCCGTGTCAGGAAAGCCGGTCCTGTGGGGGAT
CACCTACCGGCTCGTGATGCAGTTCCTGGCCCTCCTCGGCAAGGCACGGG
GATGA
>GSU0957 ISGsu1, transposase
GTGGCACATTGTAACACAGTCCTTAACCAAGTTGTCGGTTTTTTCAAGAG
ACATGAATTTGAATCCCTTGCCCGCAAGCATCACATCGGGCAGAAGTTTC
GTTCTTTTAACCGTTGGTCGCAGTTCATGGCGATGATGGTTTGTCAACTT
TCCGGCAGAAAAAGTCTGCGGGATATCGTGGAAAACCTCAAGGCCCAAGG
CCACAAGCTCTATCATCTGGGCATGAAGACGGTTTCCCGTACCACCTTGG
CCAGAGTGAACGATGAACAGCCGCATGAGTTGTACAAAGAGCTCTTTTAC
AAAATGCTGCATCGATGCAAGGCAGTTGCACCCAGTCATCGCTTCAAGAT
CGATGAAAAAGTCTATCTGCTGGATGCCACCACCATCAATCTCTGTCTGG
AGGCGTTCCCTTGGGCCACCTACCGGCAGAAGAAGGGTGCCATAAAGATG
CATGTCGGTCTTGATGCTGACGGCTATCTGCCTGAGTTCATCGATGTGAC
CGAAGGCAAGAAGCACGAGATGTCCTGGGCCAGGATGCTACAACTGCCTG
CCGGTTCACTGGCCGTCTTTGACCGGGGCTTCACCGATTACGACTGGTGG
CAGCAACTAACGACCAACGGCATCTTCTTCGTAACCCGGCTGAAAGAGAA
CGCCTTGGTGGAATACTTCAAGAAGCGTCCCGGCAGGAAAGCAACGGGCG
TCATTCTTGACCAGGAGATTCGGCTCAAAGGGATGAAGGACAAACTGCGG
CTTGTCCAGTTCATCGCCGATGACGGCAACGATTACCGCTTCGTGACCAA
TGCGCATCACCTGAAAGCAGCAATCGTGGCGGATCTCTACAAAGAGCGCT
GGAAGATCGAACTGTTCTTCAAGTGGATCAAACAGAACCTGAAGATCAAG
ACCTTCCTCGGCACCTCGGAGAATGCCGTACTCACACAGATCTGGATTGC
CCTGTGCGTGTATCTGGTACTGGCATACTTGACGTTTCTGTCAAAGATCG
GATCGTCGATGCAGCAGATATTACGGTTATTACAGCTGAATTTGTTCGAG
CGGCGAGACCTTGAAAGCCTATTCAAACCACCGAAAGTAGAGGCTTCGCC
ACAACTGGTGCTGCTTTAG
>GSU0559 ISGsu2, transposase
ATGCGCGGCTTTGACAGCAACACAGAAGCTCTCTTTACCTATGTGACACC
TGAATCCTTTGTCCCGAAGGACCACCCCTTGCGGGCCATCCGTAAAATGG
CCGACGAAGCCCTGGCAGGGATGGACAAGCTCTTTGACAGCATGTACGCC
ACAACCGGCCGCTCCTCAATCCCACCGGAGAAGCTCTTGAAAGCCCAACT
GCTGATGATCCTCTACTCCATCCGCAGCAACCGGCAGTTGGTAGAGCAGA
TCCATTACAACTTCCTGTTCCGCTGGTTCCTCGGCATGGGCTTGGACGAG
AAAGTCTGGGATCATTCCAGCTTTACCAAGAACAGTGACCGATTGATTGG
CTCCGAAGTTGCCGCCGAGTTTCTTTCCCGGGTTCTGGCCCAGGCAGAGC
GTAAGCGACTGTTGTCCCGCGAACACTTCACCGTTGACGGAACTCTCATC
GAAGCCTGGGCTTCCATCAAGAGCTTCAAGCCCAAGGATGGACCTCCTTC
AGCCGGTGGTGGCGGCAGAAACGATACCGTGGATTTCAAGGGACAGAAAC
TTACCAACGAAACCCATGGTTCCACCACTGACCCTGATGCCCGGCTCTAC
CGCAAGGGGAAGAACAAGGAAGCCAAGCTCTGCTACCAGGGACATACCCT
GATGGAGAATCGTAGTGGCCTCATCATCAGGACCAAGGTGACAACGGCAA
CCGGTTGCGGTGAGCGCGACGCAGCAAAGGCCATGGTGCAGCAATTGCCA
AGGACGACCCGACGGATCACTCTTGGCTGCGACAAAGGCTACGACACAGA
ATCATTCGTCAAAGAGCTGCGTAGGCTAAAGATAACGCCACACGTGGCCC
AGAACACCTCCAACAGGAAATCGGCCATCGACGGCAGAACCACCAAGCAT
CCGAACTACACCATCAGCCAGAAGATCAGGAAACGAATCGAAGAAGGCTT
TGGCTGGATGAAGACCGTGGGCAGCTTACGCAAGACGATGTACCGGGGAA
TCGAGAAGATCGCCATGCAACTTGATCTGCACGCTGCGGCCTACAACCTG
GTTCGGATGAAAAACCTGGGTCTCGGTGTCACCTGA
>GSU2168 DNA repair protein RadC
ATGAATCTTAATCTCTTCGGTGAACCGGTACCGCCGGTCACCAAACGAAT
CATGGTGCGCTCAATCGAGGCCCGCTACAGAAACGAAGTCGTGCGTGACG
ATGCCCCGGAATGGGTGTCGATGCGCTTCACGAAACCCGAGCAGGTCTAT
GAGATGTTCCGGGATCTCCGACGTGAGACGAAGGAGCATTTTGTGGTGTT
GCATCTCGACGGCAAGAACCGGATCGTCTGTTTCGACCGGGTCTCCATCG
GTTCGCTCAACCAGGCCATTGTTCATCCTCGGGAGGTGTTCAAGACGGCA
TGCCTGTCCAATGCGGCGGCCATTCTGCTTGTGCACAACCATCCGACCGG
TGATCCGAACCCCAGCAGCGAAGATATCGCCATCACCAAGCGTCTCAAGG
AGAGCGGCGACATTCTCGGCATCCGGGTACTGGATCACATCATCGTCGGT
GATGACGAGTTCCTGAGTTTTGTCGAACAGGGACTCTTGTAA
>GSU2128 ISGsu7, transposase OrfB
ATGAGTGCTACGATCTCCCCTGCCACCGGTAAAGCCTATGGCGTTCAGCG
CGTCTGCCTTGCCTGGGGAGTGCCCCGCTCGTCGTTCTATAGCCGTGCAG
GCAGAAAAACATTGCCTGCTGTACTGCTCAAGCGTGGTCCAAAAACACCG
CTCTCTGACGACGAGGTACTTTCTCTCATCCGGACCGACCTGGAGACATC
CCCCTTTGTCGGCGAAGGGCACCGTAAGGTCTGGGGACGACTACGCTTCG
TCAAAGGGATAAAAGTCGGCCGCAAACGAGTGTTGCGTCTCATGCGGGAG
AACAATCTGCTCTCCCCTCACCGGGTTGTTCAGGGACAGCCCAAGGACCA
CGCCGGCAAGATCATCACGGCGGCCCCCAACGTCATGTGGGGTACCGATG
GCACCAAGATCTTCACCCTGGAAGAAGGGTGGTGCTGGTTGTTTACCGCC
GTCGAGCATTGGAATGCCGAGTGCGTCGGTTGGCATGTGACCAAGAATGG
CGACCGGTTTGCCGCATTGCAGCCGCTCGCCATGGGAATCAAGGCCCGTT
TCGGCTCGGTCGGTGCCGCTGCTGCTCGAGGGTTGGCACTGAGGATGGAT
CACGGCAGCCAATACCTCTCAGAGCATTTCCAGAATCAGATCAAGTTCTG
GGGAATTGCCCCAAGTTTCTCATTTGTTGCCGAACCGCAGACCAACGGGG
TGACGGAACGGTTTAATCGGACTATCAAAGAGCAGGTCATCTATGGCCGC
CATTACCGCACAATCGAAGAAGTAAGGATGGCAGTAGCTGACTTCATGGA
TCGTTACAACCGGCTGTGGCTGGTTGAAAAGCTCGGGTTCAGAAGCCCAC
GACAGGCTTTCGAGGAGTATCAACTCAAGAAGGCTGCGTGA
>GSU2067 ATPase, AAA family
ATGGACCTCTTTGATGCACCCGCTGCAGCAGAAGCCCTGAGGAATGCTCC
CCTCGCCGAACGGATGCGTCCCCGCACCCTAGACGAGTACGTGGGACAGG
AGCACTTGCTGGGCGAAGGGAAACTCCTGCGCCGACTGATCGAGTCGGAC
ACTCTCACCTCCCTCATCTTCTGGGGCCCTCCGGGCTCGGGCAAAACAAC
CCTCGCCCGGGTCATCGCCAATGCAACAAAATCTCACTTCATCTTCTTTT
CCGCCATCCTCTCGGGAATCAAGGAAATCCGCGAGATAGTAAAGGAAGCG
GAGGAGGAAAAAAAGTACCGGGGCCGCAACACCATCCTCTTTGTGGATGA
GATCCACCGATTCAACAAAAGCCAGCAGGATGCGTTCCTCCCCTACGTGG
AACGGGGAACCTTCACCATCATCGGCGCCACCACCGAGAATCCCTCCTTC
GAGGTGGTGGCGCCACTCCTCTCCCGCTGCAAGGTGCTCGTGCTCAATCC
CCTTTCGCAGGAAAATGTGGAGCAGATCCTGCGGAGTGCCCTGGCCGATC
CTGAACGCGGCCTCGGCGCGAGCGGCCTTGCCGCGGACGACGATGCCCTT
GCCTTCATGGCAGAGCAGTCGGGCGGCGACGGCAGGGTCGCTCTGAACAC
CCTGGAAACGGCAGCCCGTCTGGTAAAAAACGGCCGGATCGACCTGGAGT
CCGTCCGCGAGGCGATTCAGAAAAAGCCGCTGCTCTATGACAAGGGGGGC
GAAGAGCACTACAATGTGATCTCCGCGTTCATCAAGTCCATGCGCGGCAG
CGATCCGGACGGCGCCCTCTACTGGCTCGCCCGCATGATCGAGGCCGGCG
AGGACCCTCTCTTCATCCTGCGGCGGATGGTGATCCTGGCCAGCGAAGAC
ATCGGCAACGCCGACCCCCGGGCGCTCCAGGTAGCCGTGGCGGCACTCCA
GGGGTTTCAGCTCGTGGGCATGCCCGAGGGACGGATCATCATTGCCCAGG
CCGCCACCTATCTGGCCACCGCGCCCAAGTCAAACGCCTCCTACGCCGGC
ATTGACGCGGCCCTGGCTGAAGTCAGGAAGAGCGGAGCCCTGCCGGTGCC
GCTTCACATCCGTAATGCGCCCACACGGCTCATGAAGGACCTGGGCTACC
ATAAGGGGTACAAATATGCCCATGACTATGAGGCAGGCTACACGCCCCAG
AACTATCTGCCGGAACGGCTTGAAGGAAAACGATTTTATGCCCCGCGGGG
GCACGGCTACGAGAAGACCATAAAAGAACGCATGGACTACATCCGCACAC
TGAAGGAGAACGACAGCGAATGA
>GSU1173 methylated-DNA-protein-cysteine methyltransferase, putative
TTGCTCGATGACGGGAACAGCGGCGCGCGACGAGGTGTATGTGTCCTTTT
TCGAGACGGCGGTGGGGGTCGGTGCCGTGGTGGCGGGCAGCGGGGGACTC
AGGGAGGTGTTCCTCCCTTCAGGGTCGCCACGCGGGAGGATATGGTCGCG
ACCGTTCGCAGCCGCTACCCCCGCCAGGCAGGCGAAAATTCTCTCAGTCG
CGAAGCGGCTCGCCAGCTTGTTGCGTACTTTGCAGGTGAGGCGGTTGAGT
TCACGGTTCCTCTCGACGAGGAGCACGTCACGCCGTTTCGGAAAAAGGTG
TACGAGATCGTACGCGGCATAGGGAGGGGGCAGGTCATGACCTATGGCCA
GGTAGCCGTCGCCGCAGGCAGCCCCGGCGCTGCCCGGGGGGTTGGCTCGG
CCATGGCCGCCAATCCCCTTCCCATTATCGTTCCCTGTCATCGGGTCGTG
GGCGTTGGGGGAGCCCTTACCGGCTATTCAGGGGCCGGCGGGATCGACTC
CAAGCGTTGGCTTCTAGAGCTGGAAGCAAGCACCGGGGCCGGAGAGTGA
>GSU0723 conserved hypothetical protein
ATGAGGTCGTATGCCCGGGGGCCGAATGTGGGGGAAGTGATGGGTAGCTG
GCGTGTGATTCTGGTCTGCATGATGCTGGGCATGGCGGTTTCGCCTGCCT
GGGGCGATGGGGGCGGGGTGTCGTGGGAACGGTTGACCCCCGAGCAGCGT
GAGGTTCTTCAGCATTTTGCCGAACGCTGGAACAGTTTTCCTCCCGAGCG
CCAGGAGCGCCTGCTGGACAGCGCCGAGCGCTGGCGAGCAATGGCGCCCG
AGGCGCGTCGGAACGCCCTGGAGCGATACCGTCACTGGCATGATCTGACT
CAGGAACAGCGCGATCTGATCCGGAAGCGGATCAAGGAGTTCCACAAGCT
TGCCCCTGCCGATCAGGAGCGCATCAAGCGTTCGTACCAGCGCTTCCAGA
ATCTTCCCCCCCAGGAACGGGAGGTTCTCAAAGGAAAATGGCGTTCGTTG
TCGCCGGAGGAAAAGCGGCAGTTCAAGGAGAAGTGGCGCTCCATGACGGA
CGAACAGCGACGGGAGTTTTTGCGGGACAGGTCAACTGATGATTCCGGCG
CGCGCTAA
>GSU0299 ISGsu1, transposase
GTGGCACATTGTAACACAGTCCTTAACCAAGTTGTCGGTTTTTTCAAGAG
ACATGAATTTGAATCCCTTGCCCGCAAGCATCACATCGGGCAGAAGTTTC
GTTCTTTTAACCGTTGGTCGCAGTTCATGGCGATGATGGTTTGTCAACTT
TCCGGCAGAAAAAGTCTGCGGGATATCGTGGAAAACCTCAAGGCCCAAGG
CCACAAGCTCTATCATCTGGGCATGAAGACGGTTTCCCGTACCACCTTGG
CCAGAGTGAACGATGAACAGCCGCATGAGTTGTACAAAGAGCTCTTTTAC
AAAATGCTGCATCGATGCAAGGCAGTTGCACCCAGTCATCGCTTCAAGAT
CGATGAAAAAGTCTATCTGCTGGATGCCACCACCATCAATCTCTGTCTGG
AGGCGTTCCCTTGGGCCACCTACCGGCAGAAGAAGGGTGCCATAAAGATG
CATGTCGGTCTTGATGCTGACGGCTATCTGCCTGAGTTCATCGATGTGAC
CGAAGGCAAGAAGCACGAGATGTCCTGGGCCAGGATGCTACAACTGCCTG
CCGGTTCACTGGCCGTCTTTGACCGGGGCTTCACCGATTACGACTGGTGG
CAGCAACTAACGACCAACGGCATCTTCTTCGTAACCCGGCTGAAAGAGAA
CGCCTTGGTGGAATACTTCAAGAAGCGTCCCGGCAGGAAAGCAACGGGCG
TCATTCTTGACCAGGAGATTCGGCTCAAAGGGATGAAGGACAAACTGCGG
CTTGTCCAGTTCATCGCCGATGACGGCAACGATTACCGCTTCGTGACCAA
TGCGCATCACCTGAAAGCAGCAATCGTGGCGGATCTCTACAAAGAGCGCT
GGAAGATCGAACTGTTCTTCAAGTGGATCAAACAGAACCTGAAGATCAAG
ACCTTCCTCGGCACCTCGGAGAATGCCGTACTCACACAGATCTGGATTGC
CCTGTGCGTGTATCTGGTACTGGCATACTTGACGTTTCTGTCAAAGATCG
GATCGTCGATGCAGCAGATATTACGGTTATTACAGCTGAATTTGTTCGAG
CGGCGAGACCTTGAAAGCCTATTCAAACCACCGAAAGTAGAGGCTTCGCC
ACAACTGGTGCTGCTTTAG
>GSU0556 ISGsu7, transposase OrfB
ATGAGTGCTACGATCTCCCCTGCCACCGGTAAAGCCTATGGCGTTCAGCG
CGTCTGCCTTGCCTGGGGAGTGCCCCGCTCGTCGTTCTATAGCCGTGCAG
GCAGAAAAACATTGCCTGCTGTACTGCTCAAGCGTGGTCCAAAAACACCG
CTCTCTGACGACGAGGTACTTTCTCTCATCCGGACCGACCTGGAGACATC
CCCCTTTGTCGGCGAAGGGCACCGTAAGGTCTGGGGACGACTACGCTTCG
TCAAAGGGATAAAAGTCGGCCGCAAACGAGTGTTGCGTCTCATGCGGGAG
AACAATCTGCTCTCCCCTCACCGGGTTGTTCAGGGACAGCCCAAGGACCA
CGCCGGCAAGATCATCACGGCGGCCCCCAACGTCATGTGGGGTACCGATG
GCACCAAGATCTTCACCCTGGAAGAAGGGTGGTGCTGGTTGTTTACCGCC
GTCGAGCATTGGAATGCCGAGTGCGTCGGTTGGCATGTGACCAAGAATGG
CGACCGGTTTGCCGCATTGCAGCCGCTCGCCATGGGAATCAAGGCCCGTT
TCGGCTCGGTCGGTGCCGCTGCTGCTCGAGGGTTGGCACTGAGGATGGAT
CACGGCAGCCAATACCTCTCAGAGCATTTCCAGAATCAGATCAAGTTCTG
GGGAATTGCCCCAAGTTTCTCATTTGTTGCCGAACCGCAGACCAACGGGG
TGACGGAACGGTTTAATCGGACTATCAAAGAGCAGGTCATCTATGGCCGC
CATTACCGCACAATCGAAGAAGTAAGGATGGCAGTAGCTGACTTCATGGA
TCGTTACAACCGGCTGTGGCTGGTTGAAAAGCTCGGGTTCAGAAGCCCAC
GACAGGCTTTCGAGGAGTATCAACTCAAGAAGGCTGCGTGA
>GSU3086 conserved hypothetical protein
ATGTCGTCGGTTATTGTGCGCAAACGTACCGCAGTCACTCCCCTTTCGGG
CGAGCATGCCTTCTTCGCCACCACAGCCAAGGGGGTTGAGGATGTCCTGG
CCGCCGAGATGCGCGGCCTCGGTTTTCGCGGGGTGGCCATAGAGCGCGGA
GGAGTGCGTTTCGCGGGCGATCTTGCCGCCTGCTACCGGGCCAACCTCTG
GCTGCGGACCGCGAGCCGCATCCTCGTGCCGCTTGCCCAATTCCCCTGCG
ATTCACCCCAGCGGCTATATGACGGTGTCCGCTCCATCCAGTGGAACGAC
TGGCTCACCCCCGACATGACCCTGGCAGTTGAGTGCAATCTTCGCGATTC
GGTTCTGACCCATTCAGGGTTCGTGGCTCTCAAGACCAAGGACGCTATAG
TCGACACCATCCGTGACCGCCACGGCAGGCGACCCAGCGTGAATCCCAAG
CAGCCGGATCTCGGGGTCCATGTTCATCTGGTCCGTAACGTCTGCACCGT
GAGCCTTGACAGTTCCGGCGCCAGCCTCGACCGGCGCGGCTACCGTACCG
AGGCGGGTGAGGCCCCGTTGCGGGAAACTCTTGCCGCCGCCCTCGTGGAG
ATGACGGGGTGGGACGGCACCGTTCCTCTCCTAGACCCCATGTGCGGCTC
GGGTACCATCCTCGTGGAGGCGGCGCTCAAGGCGCTCAATCGGGCGCCCG
GTCTCATTCGGGAGCGTTTCGGATTCCAGCACTGGCCCAGCTTCGACTCT
TCACTCTGGCTCCGTCTTGTAACCGAAGCACGCCAGGGGGAGCGCACTTC
ACTTGAGTCCCCCCTCCTGGGGAGCGATCAGCAGGCTGACCTTCTCTCTG
TCGCCGCAGCCAATGCCCGGCGGGCCGGTGTCGAGCAGCACATTTCCTTT
ACGTCTGGCGATGTGCGTGGCCTGACACCACCTCCCGCTCCTGGCATTAT
TCTCTTCAACCCTCCTTATGGCAGGAGGCTCGGCGATGAAGAAGGGCTTC
GGGTCCTCTACCGCCAGATCGGTGACGTTCTGAAGCAGCGCTGCGCCGGC
TATACCGCCTGGCTGCTCACCGGTGGGCCCGAGTTGGCCAAGGCGGTGGG
GCTCAGGGCATCCCGGCGGATCGTCCTCTTCAACGGCCCCCTTGAGTGCC
GTTTCCTGAGGTTTGATCTCTACTGA
>GSU2118 integrative genetic element Gsu21, integrase
ATGGAAAAAGTGGGTGAAAAGATCAAGCGTCGGACGTTCTGCTTCGCCAA
GACCTTCTACTGGCTGGACGAGAAGACGAAGGCCCACTTCACGGCGCTGG
AGGGAAGCGACTACAAGCCGGAACCGGAGCACGTCTACTTCGGTGAGTAT
TGCGAACAGTGGATGGAGCGGAAGATTCCGACCTTTTCGTCGGTGACGAA
GCAAAGGGATTACCGGGAAGCGCTCACCTCCCGCATCCTGCCCTACTTCG
GGGAGATGACCTTCTCCCAGGTTACCGCCACGGCGGTAGAGACGTTCATT
GACAATCTAAAGAGAGTAAACCGTGCCAAAAATCCCAAGAAGACCAAGGG
GGCAAAGCCCCTGTCGGTGAAACGGGTCAAAAACATCATCGGTCCAATGT
CAAAGGTCTGGGAATCGTCCTGCAACGACTACAACTGGAATCTCCGCGAT
CCGTTTTCCGCAGTAACCCAGAAGTACACGGAGTTGACTGACAGGGCGCT
TCAGGAAAAAGAGCGGCAGGCCGCTCTGAGGAGTGATGAGGAGGAAGATG
TCTCGACGAGGGAGATCTTCCTGCTTGAAGAGTGGCAGATACTCTGTTCC
TACATCGATCCCCACTATTACCCCGTGCTGGAACTGCTGATGCTGGGGAT
GATCGGCTCGGAGTTGGAGGCACTGCAAAAGCGGCACATAAAGGGTGGCG
TGCTGACAGTCCGCTGTGCGGTAGCGAGGGACCGGAAGGGGATGCGGCAC
CTGAAGTTCAAGCCGAAGAACTGGTATCGCAAGCGGGACGTCCCCCTGAC
CGGCAGAGTACAAAGCCTTCTGGAACAGGCGATGGCTACGGCGACGAGGG
ACGGGGTTGTTACCTTCGCCAACGACATCGCCATCCCGGCCAACCAGTTC
GTCCTCACCATGAAGGACGGCAGCCCCTTCAACTACAACTCATTCCGCAA
GACGGTGTGGAACAAGGCCTTGAAGGCGGCAGGCATGGAGCCTCGGGTTC
CTTATGCGGCCCGGCACACTCTGGTGCAGTGGTCGCTTCTGATCGGAATG
ACCAAGACCCGGCTCGTGGACCTGATGGGTCATTCGACCAAGAAGATGAT
CGACGAGGTGTACGGGAGCTATCGGCAGGGACTGGTGGAGGAGAGGGAGC
GGATTCTGGATTACCTGGGGGAAGACTTCCTCGCCCTGGAAGAGATGAAG
CTTGCGTTCCCCGAGCGCTACCGGCGGCGGATGGCAACGACGGAGCCGGC
CCATGAAACGGCGAAAGCCCCGGGCCTTCCCGCCACTTTTGGTCAAAGTT
TTGGTCAAAGCCAGGGGCTCTATCCGGATAACTACCCGTAA
>GSU2772 ISGsu3, transposase
ATGCGCGGTCTTGAGCAACAATCTGATGCTTTGTTCGTTTATCTCTCGCC
GGAATCCTTCGTTCCCAAAGACCATCCCCTTCGGCCGATTCGGCAAATGG
TAGATGCGGCACTGGAAAACCTTTCGCCGGTGTTCAGTAAGATGTACTCC
CATACGGGCCGGCCCTCGATTCCGCCGGAGCGCTTGCTCAAAGCCATGCT
GCTTCAGGTGCTGTACTCGATTCCCAGTAACGTCAAGCTGGTTGAGCAGA
TTCACTTCAGTATCCTGTTCCGCTGGTTCCTTGGCCTGGGCCTGGATGAT
CCAGTTTGGGATAATTCCAGCTTCAGCACGAATCAGGAGCGGTTGATCGA
GACCGATGTTGCCACGCAGTTCCTGGAGGCAGTACTTGATCAGGCGAAAT
GCAAGAAACTGCTCTCCAAAGATCACTTCAGTGTTGATGGCACCCTGATC
CAGTCATGGGCCTCCATCAAGAGCTTCAAGTCACGGGACGATGATGACGG
GCAACCGCCTGCCGGCAAGAATCCGGGCCGTGATTTCCAGGGTGAGAAGC
TGAGCAACGCGACTCATGCATCCACTACCGATCCTGAAGCGAAGCTCTAT
CGCAAGGGGATCAACCATGAACCGCGATTGTCGTTTGCCGCCCACCTGCT
GACCGAAAACCGTCACGGCTTGGTTATGGCAAGCAGGGTGACCATTGCCG
ATGGTTTTGCCGAACGGGAAACCGCCAAGAGCTTGATTGCCAAGGTTGCT
TCCGGCACGCGGCGTAGAACGATTGCCGCCGACAGGAACTATGATACCCA
CGACTTCGTTAGGGCCATGCGGACTCTGAAAGTTACGCCGCACGTCACGC
AAAACCACAAGAAGAAGGGCGGTTCATCCATCGATGGCCGCACCACAAGG
CATGACGGCTACGGAGTTAGCCAGACATTTCGCAAACGAATCGAAGAGGT
CTTTGGCTGGCTCAAGACCGTTGGACTGTTCCGCAAGACCCGCTACAGGG
GAGTCAGGAAGATCGACTGGCACTTTACCCTGGCAGTAACAGCTTACAAC
TTGGTCCGAATGCGAAACCTGGGGGTATGTACCACCTGA
>GSU0564 conserved hypothetical protein
ATGAGCGCATGGGAAAAATTCAAAAATAAATTCGGCAAGATCAGAACCCA
CCTCACAAGCTTGGATGATCAGCCATTAGGTAAAGCTGCGCTTGTAATCA
TTATTTTCCTGGATGTTTTCATCCTTGTTTCCATTTTTAACGGACTCGAA
GCACACACTAGGCAGCTTTCATCCCCTGACGACTACATCCCTAATGCCTG
CCGTGAGATCATAGTCAATCGCCAATGGAATCCTACTAACCGGATTGACA
ACATTTCGCAAATCATCATTGCTTCAAGCACAACCTATTACCGGGGCGAG
GAAAGGAAACGCGAACAGCATCCTGTCTGTGTGCCCTATAGTGATCTTGT
TGACCAAATCAAAAGCGATAAGGTGCTTGTCGGCATCTTCGAAGAGCGGA
GTAAGGCTGAACGTGAGGCACGCGAGCTACAAAGAGAAATTGACAATCTG
AAAGGAGCTTACGATACGTCCCTGCTCGAAACCATTGCGAAAAAGCAGGA
AAGTCAAACCAAAGTAGCCGCGATAAAGGAAGATTTTCTAAAGAAGAGTG
CTGCCCTTGATACGTTGAAAGCAAAAATTGCATCTTTGGAACAGTCGATT
AACGGTGACCCGAAAATAAAGCTTCTCTGGGAAAAACTGCAAACCTTGCA
AGAGCAGGACAGACAAAAACTGCTATCCGACCTGCGAACGATAAATTTCT
GGTACCCAGTTAAAAGACTTGGAATGCAGTTGATGTTCCTGATTCCGCTT
TTCATTGCTTTTTACCTCTGGAACAGCACAAGCATAAGGAAAAGCCGGGG
AATACAGACTCTCGTATCTTCGCACCTTCTTGGCGTATCATGTATTCCGA
TCCTTTTTAAAATCACCGAAGCTGTCTATGACATAATTCCTAAAAAACTG
TTGAAGCAACTGATTGATTTCTTGGAATCATTTAAGCTCATAGCATTATG
GCACTACATTGTAATTGCTATCTCGGTGGGTGTTTCACTTCTTTTAATAT
ACATCATTCAGAAAAAGCTTTTCTCCAGTGAAAGAATCGGCAGAATAATT
GAGCGCCGGATTTCCAATGGAGACTGCCAACAATGTGGAAAGCATTTGCC
AAGCGGGTCATCAGCTTGTCCTTTCTGTGGTTTTGGCCAGTATAAGCTAT
GCAGCCATTGCCAGAAGCAGATGCATGTATATGGCAAATTTTGCCGAGAA
TGTGGCCAGAAGGCGACTGACTGA
>GSU3287 hydrolase, TatD family
ATGGAGCCCTTGCTCACCGATACCCATTGCCATCTGGACGCCCCGCCCTT
ACGAGGACGCCTCGACGAGGTCCTGGCTTCGGCTCGCCATGCCGGCGTCG
ACCGGATCATCATCCCCGGCGTTGCCCCTGAGGGGTGGGATGAGATCGTC
CACCTGTCCCACAGGTACCCCCGTGTCTTCGCTGCCTTCGGCATCCATCC
CATGTACGCGGACCAGGCCGACGAGCAGACTCTCGCCCGGCTTGCAGGAC
TGGCGCGCGATGCCGTTGCCGTCGGTGAAATCGGCCTCGACTACCTCTGC
GCCGTTCCCCGCCCCGTTCAACAGGCAGCCTTCAGGGCCCAGCTCCGCGT
GGCAGCGGAGGCCGGCGTTCCCGTTCTGATTCACTGCCGCCGCGCTTTTG
CCGACCTGCTTGCCATCCTGCGCGAAGAGAATATCTCCCGCATCGGCGGC
GTGATGCACGCCTTTTCCGGGAGCGCCGAAATCATGGCAGAGTGCCTGAA
ACTCGGACTCCACATTGCCGTTTCAGGGGTGGTGACACGCCCAAACGCGG
TCCGCCCGCCGGAAATCGCACGCATCATCCCGGCGGACCGGCTACTCCTG
GAAACCGATGCCCCCGACATGCCGCCCAATTCCCGGCTCGGGTGCCCCAA
CGAGCCGGCATTCCTCCCGGAGACGGCCCAACGGCTGGCGGAGCTCCGGG
GAACGACCGTCCGGGAACTCGCCGCCCAGACAACCCGAAACGCCCTCAGG
CTCTTCCGCCGGATCGGTACAATCTAA
>GSU0524 conserved hypothetical protein
GTGAAGATCATCCTCAGAAACCTGGCAACAGTCTTCGGGGCAGTGGGGCC
GTCGCCCCGGCGGTTCGTGGAGGAGTTCGAGCCGGAGGCGGGGATGCGGC
TCTTTGCCGGCTTCAAGCACCGCTTCAATGACGGCCGTGACCTCTGTGCC
CTTTTCCTGGCCGCCCGGACCATGATCGAGGAGGCCGACACCATCGGCGA
CTTCTTCCTGGGGTGCCACGACCCGGAGGCCGAGGATATCACCCCCTCCC
TCACGGAGTTCAGCTCAGCGATCCTCGCCTTCGACTATTCCCCCGTCTTC
GGCACCGCCGCCATCCCGGCCGATTCGGCCTTCCCCTTCTTCTTTCCCTC
CCCGGCCTCGGGCAGTGCCTGCAAACGGTTGTGCATGTTCCTGCGCTGGA
TGGTGCGTGCCGACGACGGCATCGACCTGGGCCTCTGGAAGGAGATTTCG
CCGGCACAACTCGTGATCCCGGTGGACACGCACATCCACCGCATCGCCCG
AAACCTGGGCCTCACCGCCCGGCGGCAGGCCGACTGGCGCACAGCCAGGG
AGATCACGGCAGCGCTGCGGCGCCTCGATCCCGACGATCCGGTGAAGTAC
GACTTTTCCCTCTGCCACCTGGGAATCTCCGAGGGGTGCGACGGCACGGT
GACCCCTCTCTGCGAGGCATGCCCGGTGGTGAAATGCTGCGCCGGAGAGC
TGTCATGA
>GSU2771 conserved hypothetical protein
ATGGCACGCAAACCCCGCATACATTACCCCGGCGCTTTGTACCATGTAAT
CCTCCGCGGTAACGCCCGTCAGGATATATTTCACGATCCCGAGGACCGTT
ACCGCTTTTACCTGTTCCTGCAGGAAGGGGCTGAGCGCTTTGGCCACAGG
ATACTGGCCTTCTGCCTGATGACCAACCATGTCCACCTCGCGGTTCAGGT
AGGAGAGGTCCCCTTGTCACGGTTCATGCAGAACATAACGTTTCGCTATA
CGCGTTGGCAGAATTGGCGGATGGGGAAGACAGGCCACCTTTTCCAGGGA
CGATACAAATCCTTTCTAGTCGATGGTGATGCATACCTTCAGGAACTGGT
GGCATACATCCACCTTAACCCCGTGCGCGCCGGCATGACGACGAAGCTGG
GCAGCTACACGTGGAGCAGTCATAGGGCCTACCTTGGCAAGGAGATCATC
CCCTGGCTGAATACGGAAACCGTGCTTGCCACCTATTCATCGGATACGTC
AACTGCTCGTAAGCAGTATGCAACATTCATCTCAGACAGAGTCAAAGAAG
GCCATCGAGAAGAATTCCACGGCAAGGGGAGTTCCGATAGCCGTGTTATT
GGCGATGACCATTTCGTGGAAGCAATACTTGAACGTGCAGACAGGCTGCC
GCTACGAAGACCTGGGCTCGATATGGTAGTCGAGGTGATAAAGCGGCTCT
ACCGCCTTGATGAAGAAGAGCTTGCGTCTCCCGGGCAGAAGAGATGGGCG
GCCGAAGCACGGGGAGTGGCCGCATGGGCGGTTCAGGAGTTCAGCAGTGC
AACGTTGACTGATCTAGCCAAGAGGTTCGGCCGAGACGTCTCATCCATGA
GTGCTGCAGTCAGGAGACTGGAACAGCGACGAAAGATAGATCAAGGAATT
GCTGAAAGACTAGAACGGGTGGGGCGTGAGCTTGAAGGTGCAATCTTTCA
GGCCTGA
>GSU2599 ISGsu4, transposase
ATGAGATTTTACACTAAGACTCACAAGTACTACTGCGGAATTGATCTTCA
TGCCCGAAAAAAGTACGTCTGCATTCTCGACTCGGAAGGGACCGTGCTGG
TTCATCGCGAAATCAACTGCAATCCTGAGAGCTTCCTTCGCCTCGTGGCA
CCCTACCGGGAGGACTTGGTTGTCGGCGTGGAATGCATGTTCGCATGGTA
TTGGCTGGCAGACCTTTGCCGTAATGAAAAGATCGAGTTTGTGCTCGGTC
ACGCCCTTTACATGAAGGCAGTCCACGGTGGCAAAGCAAAGAGCGACAAG
ATTGACGCCCACAAGATTGCTGTGCTGCTCCGCGGCGGCATGTTTCCCTT
AGCCTACGTCTACCCGCCGGAAATGCGGGCAACACGGGACCTCCTGCGCC
GCCGGAACTTTTTCGTCAGAAAACGTGCTGAGCTTATGGCACACATCCAG
AACACGGTAACCCAATATAATCTGGCTCCTCTTGGCATTGATCTCGGAGT
CGAAGAGAACCGCCATGAAGTAGCTCAGCTCTTCCACGATCCGGAAGTGA
GGAAAATTATCGAAATTGACGTTGCCATGATCGACGCCTTTGACGATGTC
ATCAATGTCCTCGAACCGGACATAGAAAAAACGGCCCGGCAACACAACCT
GCATGCCCTCAAACTTCTGCGCTCAATCAACGGCGTGGGAAAGGTGCTGG
GCCTGGTAATGCTCTACGAGATCCATGACATAAATCGTTTCCCGACCGTG
CAAGACTTCTCTTCCTACTGCAGGCTGGTGAAATGTGCCCACGAATCAGC
GGGAAAGAAAAAGGGGGTCGGCGGTTCCAAGATAGGCAACGTCCATTTGA
AATGGGCCTTCTCTGAGGCCGCTGTGTTCTTCGTGCGCCACAATCCCCAG
GCAAAAATCCTGATGGAGAAACTGGTCAAGATTCATGGCAAAGGGAAAGC
GATTTCGATCCTTGCCCACAAACTGGCACGAGCGATTTTCTACATGCTGA
AAAACAATGTGCCGTTCGACCGGGAAAAGTTTTTGGCAACGGCGTAA
>GSU2591 ISGsu5, transposase
ATGAGATTTTACACAAAAACTCACAAACACTACTGCGGAATCGATCTTCA
TGCGAAGAAAATGTTCCTCTGTATCCTGGATGCACAGGGCGAGGTGCTCC
TGCACCGCAACATCTCAAGTTCGCCGGAGGCCTTTCTCAAAGCAGTCGCG
CCTTTCCGTGATGGCTTGGTGGTCGGCGTGGAATGCATGTTTGCCTGGTA
CTGGCTTGCCGATCTCTGCCGTAAGGAAGGAATCGAATTTGTCTTGGGTC
ATGCCCTTTACATGAAAGCCGTCCACGGCGGGAAAGCGAAAAACGACAAG
ATCGATTCCCACAAGATCGCGGTGCTGTTACGCGGCGGCTCGTTCCCTGT
TGCTTACGTCTACCCTCCGGAGATGCGCGCTACCCGCGATCTGCTGCGCC
GTCGGACCCATATCCACGGTGTCGGGCAAATCCTGGCCCTGGTGATGCTC
TACGAGATCCACGACATCAATCGTTTTGAGTCGGTTCAGGATTTCGCCTC
TTACTGCCGCTTAGTCAAATGCAGTCACGAATCAGCCGGGAAGAAGAAAG
GCAGCGGCGGCGCCAAGATCGGCAATGCGCATCTGAAGTGGGCCTTTTCC
GAAGCAGCCATGCTGTTCATCCGTTACAACCCGCCGGCCAAGAAGCTGGT
GGAGAATCTGGCCAAGGTACATGGCAAGGGAAAGGCTATCGGAATCATAG
CGCACAAGCTGGCGCGGGCGATCTATTACATGCTGAAAAATAACGTGCCG
TTCAACTTGGAGAAGTTCATGGCAACAGCATAG
>GSU1422 nuclease SbcCD, C subunit, putative
ATGCTCTGGATCAGTCGGGTCGAACTCCCCGCATTCGGCCGGTTCAGGGG
GGCGTCGTTCACCTTCAGGCCGGGCATGAACCTGGTTTACGGCCGCAACG
AGGCGGGCAAGTCGACGCTTGTGTCGGCAATTTCCGGAACCATCTTCGGT
TTTCGCAAGGAGCGCGATCGTTTCGTGCCCTGGACAGGCGGCGAACGGTG
TGAGGCTCGGGTGAGTTTCACTTACAACGGCCGTGAAATGACCATTGCCC
GCGACTTTCTCTCCGACCGCGTTCAAGCGATAGAGCGCGACGGGGAGAGG
ACCCTCTGGCGTTTCGAAGGCAAGGTTTCCCCCCTGGGCAGAAGCAGCGA
GCGCGAGGAATACCTGGCGAAGATTGAAGACGTGTGGGGATTTGCGGAAG
GGGACATTTTCCGCAATTCAGTCTACGTTGGGCAGCGCGACCTGCGGATC
GAGGGCGATGCGGGGCTGACCACCCGCATCAAGCAGCTCCTGTCGGGATT
TGCCGAACTCGATTACGATGCGGTGGTGGAGAGCCTGGAGAAGGAACTGT
TCGAGTTGACCAAGCGCCCCGGCGGTCGTTCGCGAGACCGGGAGCTGGAA
GAGGTTCGTGCGCGTATGGCAGTCCTGGCCGAGCAATGGCGCGAGGCGAG
CCGTGCCGTGTCGGAGCTTGCAGCCCTGGATGGGACGTTGGCCGAGTTGC
GGACCGCCGTGGCAACGGGACGAGAGGATCTGGAAAAGGGAAAGCGTTAT
CTGGAGCGGGTGAGCAGATATCACGAGGCTGCCGCCCGGGAAGAGGCGCT
TCGCAAGGATTATGACCGCATCCGGGCTGAACGGGAAAAGGTTGAGGCGC
TCACGGCAAAGAGACAATCGGTTGAAGAGCGGCTTGCATCCCTGGGCGAG
GCGGCAGGACTTCCCGACGGGTTTGCCAGGACCCTGGAAGCGTGGGTAGA
CGGCTCGGAGCGGTTGACGGCGCTTGAGAGGGAGCTGGCGGGCCTGAGCG
CCGACCGGACGCACGCCGGCTCCGTCCTGCAGGTGCCGATGCTGATCCTG
GCTCTCCTGCTTTGGGCGGGCGCTACGGGGGCGTGGTTTTTGCTGCCCCA
GGCATGGTTGCCCCTTGCCGGGGGCGCCCTCGTCATCACGGTGTTCCTTT
TTGTGCGAACCGTGCGCGCCGGTCAGGCTCGATCAGCCGAGATGGCCCGC
ATTCAGGGGCGCATCGACGGTCTCTCCGCCGATGCGGTCAGGCTCCGGGA
AGAGCTCGACCGGACCGAGGCTGAGCTGGAAAAGCGGCTGGGAACATTCG
ATCCTCTGCGGGTCAGCGATATTCTGCGCGAAATTGACCGCGCCGCGGAG
GTGAGGGGGGAATTGGCCCGGATAGAGAGTGCCCTTGGGGTCCTTCCGCC
ACTGGAGAGCATAAGGAGCCAGGAGGTTGAGCTGGCCCGGGAACTGGCCG
TGACCCGTGAAGGCATGGAGACTCTTATCGGGCGGGGCTTCCCGGTCATG
TCCCCCCGTGAGTACGCTGAGGCCGAGGAGAAGATGCGGCGGCTGGAGAG
CGAGGTGGCCGAAAAAGAAAGACTCTGCCTCGCCAAGGAGCAGGAATTGG
CGGTTATGCGCCGGGGGAGCCTTAACCTGGAGGCCATTGCGGAAGAGGAC
GAGGAACTGAAGTCCCGCGAAACCCGCCTTGTGCGTCGGGTGGAGGCGCT
ACGGCTCGCGGTCGACCTCCTGCGCGAGACCCTTGACGAGTATCGGGCCA
CTTATCTGTCGCGCCTCGGCAGCGAGATCAACGGAAAGCTGTACAATCTC
ACTGCCGGCAGATACCGCGAGGCGATTCTGGATGACGGTTTTGCGCTGTC
CATCGGCGTCGAAGGGACTCCTCGCCCGGTGGGCGCCCTGAGCTGCGGCG
CCCAGGATCAGGCCTATCTCGCCACTCGGCTCGCTCTTGGCGGAATCCTT
TCCCGTAGCCGAAAATTGCCTTTTCTTCTCGACGACCCTTTGGTACATTT
CGACGAAGAGCGCAGGGCCGCGGCTCTGGCGGCGCTTAACGTCGCAGCCT
CCGATCACCAGGTAATCCTCCTGGTCCACGATGAACGCTACCTGAAGGCA
CGGGGGGCGGATCTCTGGCACCGGGTCAAGATCGACACGAAAGGACAGCA
GGATGGACAGCTGCATCTTCTGTAA
>GSU1392 CRISPR-associated protein Cas1
ATGCAGCCACAGCTTCCTCCCCTTAAACCCATCCCGATAAAAGATCGCAT
CTCGGTTCTCTATGTGGAAAGGGGGAACCTCGATGTGCTTGACGGCGCCT
TCGTGGTGGTGGACAAGACCGGCGTCCGCACCCATCTCCCCGTTGGCGGG
GTGGCGTGTCTCATGCTGGAGCCGGGCACACGGGTATCCCATGCAGCGGT
GACGCTCGCCTCCCGGATCGGCTGCCTCCTCGTCTGGATCGGCGAGGCCG
GGGTCAGGCTCTACGCCTCGGGCCAGCCGGGCGGGGCGCGGGCCGACCGG
CTCCTCTATCAGGCGAAACTGGCCCTGGACGATTCGGCTCGGTTGAAAGT
TGTGCGCAAGATGTACGCCCTCCGCTTCAGGGAAGAACCTCCCGAGCGGC
GGAGCGTGGAACAACTGCGCGGCATTGAGGGGGTGAGGGTTCGTAAGATG
TATGAGCTTCTCGCCCGCCAGCACGGTGTTGCGTGGAAGGCCCGCAACTA
CGACCACACTCAGTGGGAAAGCGGCGATGTGCCGAACCGCTGTCTGTCAT
CGGCCACCGCCTGTCTCTACGGTATCTGCGAGGCGGCGATCCTGGCGGCG
GGCTATGCGCCGGCGGTCGGTTTCATCCATACCGGCAAGCCCCAATCGTT
CGTCTACGACATCGCCGACATCTTCAAGTTCGAAACCGTGGTGCCGGTGG
CCTTCCGGATCGCCGCCAAAAAGCCCCGCGACCCGGAGCGGGAAGTGCGG
CTCGCCTGTCGCGATGCCTTCCGTCAGTCAAAGATTCTGCATCGCATCAT
ACCTACCATTGAGCAAGTGCTAGCAGCCGGTGGCATGGATGTGCCCACGC
CGCCGCCCGAGTCGGTCGAAGCCGTAATTCCGAACAAGGAGGGGATCGGA
GATGCTGGTCATCGTGGTTGA
>GSU3035 hypothetical protein
ATGACAGCCGCGGACCTGACGGCATTACTGGCCAGTGGTGAAGAGCTCTA
CAACCTTCTCTTGTCCGAGGCGGAGGCGCTGCTGCGCAACTTCGACACCA
ACAGCTCCGAGGATTTCGAACAGGCGGTGGCGTGCCGCGAACGCATCATG
ACGTCCCTCGATGATTTTAACGGCCGCCTTTCCTCTCTGGCCTCCCAGGA
CAGTGGGCACGGGGATGCCGAGCAACTCCTGTCGTCATTTCGTCGTCTCC
AGGAGGAGTCGACCAAGAAAATCGTCGAGCTTGACTCCCTCGTAATCGCC
CTTGCCCGAGAACGCCTTGTTACCCTCGGCGAGGAGATGTCGGCCCTTGC
CCGGGGCAGAAGCGCCCTCCATAGTTATGAGGGAGGACGGGAGGAGAGGC
ACAACATGAGCAGGACCGCCTGA
>GSU2397 conserved hypothetical protein
ATGACCAGAATTGCACGCGTCATAGCAACGGGAATTCCCCATCATGTTAC
GCAACGGGGCAACCGAAGAATGCCAACATTCTTCAATGATGAGGATTACC
GAGCATATATCGCTCTGCTCGGCGAATGGTGCCGGAAATGTGGCGTAGAT
AGCCCCGGCACCCAGGTTACACGTGTTAAAGATTTGAGTCGTTCCCTGAA
AGGTGGCTTGCCGTGA
>GSU3345 hypothetical protein
ATGACCCTGCGCATCCTGCCGTTTGCCCTGCTCCTCACCTGCCTGGCGGC
ACCCGGCGTATTCGCGGCCGAGCCCGCCGCCGAAAACCGGGGCGAACTCC
AGAACCGTATCGAACAACTTGAAAAACAGATTCGCGAGCTGAAGGAATTG
CGCGAGAAGCAACAGCAGAAGGACGTGCGGGTCCGCGAGATACAGGAACC
CTGCATTGCCGCCGTGGGCATGCGGGAGGTCTGCTCCTGCCTGGCTGAAA
ACCTGCCGATGGGGGTCGACTTCACGGCCTATGTCCGCATGGTGTCCGCA
CCGAAAGAAGGAGCGGACGAGCGGGTGCTGGCGATGGTGAAGGCGGCGCG
GGAGCGGTGCGTGAAGTAG
>GSU1544 hypothetical protein
GTGAAGCGATTGACCCTGTCGACATCCTGCACGCTTATGGCGGTGATCTT
TTCACTGGTGTTCACCATCGGAGTCACTGGCGCCCGTGTCGAACCGACCG
CCACGGTCGCCCACTACTCACGCAAGGGCGATAAGAACCCTCCGCCGGCC
AAGGCGTTTCCGATCCTCAGGGAGCCCGGCTCCACCACGGCGAAATTCTA
CTGCGGCGACAGGATCGTGGCGCCCGGAGATACGCGGGCAGGGGTGATCG
AGAAGTGCGGCGAGCCGGCCCGGAAGGAGCAGCGGCGGGAAGAGCGGGTC
CAGGCGGTGACCCGCGACGGGACGTTCCTGACGACGGTGACCACTGAAGA
GTGGGTCTACAACTTCGGGCCCGACCGTTTCCTCTATCACCTGAAATTCC
TGGATGACCGGCTCGTGGAGATCAGGACGGGCGAGTACGGATACTGA
>GSU1847 ISGsu7, transposase OrfA
ATGGAAAAGGATGTCAGTGTCTCCGGTGCGGCGGAAGGAGAGCGTAGCTC
GACTGGAGCAGCACCGGAAGTCAAACGTTGGAGCGCCAACCGCAAAAAGG
AGGTTGTCCTGCGGTTGATGCGCGGTGAACCAATCGATGCCTTGTCCCGT
GAGTTGGGCATCGAAATCTATCGCCTGGAAGAGTGGCATCAGAAAGCACT
CCAGGGGATAGAATCTGCTCTCAAGGCTCGTGAAGGTGATCCGTTGGCAG
CGGAACTCGATGCAGCCTTCAAGCGCATCGGTGAGATCACCATGGAAAAC
GAGCTACTGCGGGAGAAAGCGAGGCGTGCCCACCCTTTGGCCCAGAGGAG
ATCGAAGAAATGA
>GSU1541 conserved hypothetical protein
ATGGCACGAGCGAATCGGCACTACATACCGGGTCAGGTGTGGCACATCAC
ACACCGATGTCACAAGAAAGAGTTTCTTCTCAAGTTTGCCAGAGACCGGC
GTCGGTGGCTGCACTGGCTCTTCGAGGCGAAGAAGCGGTTCGGGCTGCAG
GTTCTGAATTATGCCGTCACCTCAAATCATGTTCATCTGCTGGTAGTGGA
TACGAAACCAGAGGTCGTGGCAAAGAGCATCCAACTGATCGCCGGAAGAA
CCGCGCAGGAATTCAATCAGCGGAAAGATCGAAAAGGGGCGTTCTGGGAA
GATCGGTACCACGCAACCGCGATCGAGAGAAACGAGCATCTCGTCCGTTG
CCTCGTTTACATCGATCTGAACATGGTCCGCGCCGGTGTCGTAACGCATC
CAGCGGAATGGGAAATGAACGGATACAACGAGATTCAGAATCCGCCGGAC
CGATACGCCATTATCGACAGGCACAGTCTTTTCGATGCTTGCGGTTTCCC
GGATTACGGGAGTTTTGCCGAACAGCACCGTAAATGGGTTGAGGATGCAC
TGAAGAAGGGCATGAATCGGGAAGGCCATTGGACCGAAAGCATTGCAGTC
GGCAGTTCGGCTTTTATCACAGACACGCAACGGAAGATGGGGTGCAGCGC
CAAGGGACGGAAGCTGGAAGAACAGGTGGACGGAGCGAGTTTCCTGAGAG
AGGATGCGGAGCCTTACCATGCCCATTTTACCGGCAAAAGTGAGGTTCTA
AGCCCTGAAAATGCATTCTTTTGGGACGATTACGATGTAGTTCCAGTTGG
TTAG
>GSU3375 mutT/nudix family protein
GTGCCGATGGCGCCGGGACCGATCCCGGCCGCGGTGTTGCTCCCCCTCTT
CGAGCGGGACGGCGAAGTCCACGTTCTTTTCACCAAGCGGACGGAACACC
TGAACCATCATCGGGGAGAAATCTCGTTTCCCGGCGGAGTGAGCCATCCC
GATGATGCCTCTCCCTGTGAAACAGCCCTGCGGGAAACTTGGGAAGAGAT
AGGCATTCCGCCCGGCGAGGTGGACATCCTCGGCGAGCTGGATGATTTTT
ATTCCGTCCACGACTACCTGGTGACCCCCTGCGTGGGAGTCATCCGGGGG
GACCGCCCGCTGGTGGTGAACCCCGGCGAGATCGAACGGATCATTGTCGT
GCCGCTGAAGCATCTGCTGCGGCCCGAGGCCTTCAGGACCGAAGATTGGA
CGTGGCGCGGACGGACGCACCCCGTTCACTTCTACCGGTACATGGATGAC
GAAATATGGGGGCTCACGGCCGCCATACTCTCGCAGTTCCTCAACACGAT
ATTCCCTCGGCCGTGA
>GSU2140 ISGsu7, transposase OrfB
ATGAGTGCTACGATCTCCCCTGCCACCGGTAAAGCCTATGGCGTTCAGCG
CGTCTGCCTTGCCTGGGGAGTGCCCCGCTCGTCGTTCTATAGCCGTGCAG
GCAGAAAAACATTGCCTGCTGTACTGCTCAAGCGTGGTCCAAAAACACCG
CTCTCTGACGACGAGGTACTTTCTCTCATCCGGACCGACCTGGAGACATC
CCCCTTTGTCGGCGAAGGGCACCGTAAGGTCTGGGGACGACTACGCTTCG
TCAAAGGGATAAAAGTCGGCCGCAAACGAGTGTTGCGTCTCATGCGGGAG
AACAATCTGCTCTCCCCTCACCGGGTTGTTCAGGGACAGCCCAAGGACCA
CGCCGGCAAGATCATCACGGCGGCCCCCAACGTCATGTGGGGTACCGATG
GCACCAAGATCTTCACCCTGGAAGAAGGGTGGTGCTGGTTGTTTACCGCC
GTCGAGCATTGGAATGCCGAGTGCGTCGGTTGGCATGTGACCAAGAATGG
CGACCGGTTTGCCGCATTGCAGCCGCTCGCCATGGGAATCAAGGCCCGTT
TCGGCTCGGTCGGTGCCGCTGCTGCTCGAGGGTTGGCACTGAGGATGGAT
CACGGCAGCCAATACCTCTCAGAGCATTTCCAGAATCAGATCAAGTTCTG
GGGAATTGCCCCAAGTTTCTCATTTGTTGCCGAACCGCAGACCAACGGGG
TGACGGAACGGTTTAATCGGACTATCAAAGAGCAGGTCATCTATGGCCGC
CATTACCGCACAATCGAAGAAGTAAGGATGGCAGTAGCTGACTTCATGGA
TCGTTACAACCGGCTGTGGCTGGTTGAAAAGCTCGGGTTCAGAAGCCCAC
GACAGGCTTTCGAGGAGTATCAACTCAAGAAGGCTGCGTGA
>GSU0064 integrative genetic element Gsu32, integrase
ATGGCACGGCAGTCTACCAAGTTTAGCGATAAGTTTCTCCGGGCTCTAAA
GCCGCAGGAAAAGCCCTATGACATTCGCGAAGGTGATGGCTTCGGAGTGC
GAGTCTTCCCCAGCGGGGCAAGATCATTTTTCTACATGTACCACTTTGAC
GGGAAGCGGCGCTTCTTGAACCTCGGCAAATACCCCCAGCTCTCATTGGC
CGATGCGAGGCAGAAGCACCGAGATGCAGTTTCACAGCACGCTAAGGGCA
TCGACCCCTTGGCTGCCACACAAGAACAGAAGCGGGAGCGACGCGAGGCG
ATAACCGTGGCCGACCTCATCGACGAATACGTTAAGAACTGGGCCAAGGT
GTACAAGGTCGAGCGATCCGCCACCGAGGATGAGCGAGCCCTGTCGAAGG
ATGTTCTCCCTTACTGGGGCAAGAGGAAAGCTAAAGACATCAAACGGACC
GACGCCATCGCCCTGCTTGAGCGCATAGTCCGGCGAGGCTCTCCTGGCCA
AGCGCGGAACATTCTGAAGGTGGGCCGCAAAATGTATGAGTTCGCCATCG
AGAGGAAGTACGTGGAAGCTAACCCGTTTTCAAGAATAAGCAAGGCGGTG
CCGGCAACTATGCCGCGCACAAGGTCAAGAGTGCTAACCGAAAGCGAAAT
TAAATACATCTGGAGCGCCATCGATAAAAGTGCGGGCTCGGACGAGACGA
AGCGCGCTTTGAAATTGATCTTGGTGACCGCGCAGCGGCCCGGAGAAGTC
ATCGGTATGCATCGCAGAGAGATCGATGGCGAGTGGTGGACAATCCCACC
TGAGAGAATAAAAACAGAAAAGGACCGCACTCGGTCCAATTCGGTAGGCC
CACAACCTCATAGGGTCTACCTCTCTCCACTGGCGCTTGAGCTCATCGGC
GATAAAGATGGCTACATTTTCGAGAGCCCCCGTGGTGGCGCGATGGACTC
CAAAGCTCTATCCCACGTGGTTCATGCAGCTCCACTGGTGCCTGAGCTCG
TCAGAGACACAGAGGGCCATGTTTTCGCAGGCCCCTGTGGCCCTGTAGCT
GCCAAAGCTCTGATGCAGCTACTTGAGAAAGAAATCGCGTACCCCGACAA
GGAGAAATACTACGGTCTGACTCGATGGACCCCTCACGACCTACGGAGGA
CAGCACGTACTAGAATGTCCGCCATCAACATTCCCACCAGGCACGCGGAA
AGAGTGCTGAACCACACCCTCCCAGGCATCCAGAAAACATATGATTTGTA
TCGTTACGATCCTCAAAAAAAAGCCGCCCTGACCAAATGGGCCGCATATC
TCGAAGAGCTACTACGGTAG
>GSU1199 nuclease, putative
ATGAAGAACACGCTCTGGCTCGGGGTGACGCTCCTGCTTATGGGGCTCAT
CCTGGCGCTCTACCTGCTTACCCCCGAGCGGTCTCCAGGACCGCTGAAAT
CCTCCGTCCCCCCCGCCGGGGACCGGGTTATCACGGTGAAGGACGGCGAC
ACGGTGGTCATCGCCCCGGCAGGGGGCGGCAAGCCTTACCCCTGCAGACT
CTACGGCATTGATACGCCCGAAACTCCGAAAAAACGGAAACAGGGGCAGC
CGTACGGACAGGAAGCGGCCGACGAGCTGAGCTCTCTCGTGCTCGGCAAG
GAGGTGAAGGTTCTCCTGACCGGCGACACGACCTATAATCGCCAGGTGGG
GACTATCGAGGTGGATGGGGTGAACGTGAATCTGGAGATGGTGCGTCGGG
GTTATGCCTGGGCCTATGTCCAGTACCTGCGGAGGCCCCACGTGTCCGAG
TACCGCGAGGCCGAAGAGGACGCGCGCCGGCAACGGCTCGGGCTCTGGCA
GGATCACAACCCCGTGCCGCCATGGGAGTTTCGCAAGCGACAGAGGCTCC
AGAAGCTTGACTAA
>GSU3244 hypothetical protein
ATGCGCGCTTTCGCACTGTTGCTCGCCCTTGCCCTGGTGTTGTCCGTCTC
TGCCCCCGTTCTGGCCCAGGACGGACCCAAGCCCGAGTTCATCGTGGAGA
AAATGGCCTACAAATTCGTCCGGGGTGTCACCAATGTCGCCACGGCCATT
GTGGAGCTCCCCAAACAGTCGTATCTGAGTGTGAGGGATCGCGGCGCCGT
CGGCTACGTGGTCGGTCCGCTCAAAGGGGTCGGCATGACTGTCTACCGGG
GATTCATGGGAGCGGCGGAGGCGATTTTCTTCCCTGTTCCCCAGCCGGGC
TACTATGATCCGATGATCGAGCCCGAATATGTCTGGATGGGATGGGATGA
GGCACGGGACGACAGGCTCCGGTCAGCTGCTGGCAAGCCGGATGCCTCCG
GCGGGGAGGGCAAATGA
>GSU1297 ISGsu2, transposase
ATGCGCGGCTTTGACAGCAACACAGAAGCTCTCTTTACCTATGTGACACC
TGAATCCTTTGTCCCGAAGGACCACCCCTTGCGGGCCATCCGTAAAATGG
CCGACGAAGCCCTGGCAGGGATGGACAAGCTCTTTGACAGCATGTACGCC
ACAACCGGCCGCTCCTCAATCCCACCGGAGAAGCTCTTGAAAGCCCAACT
GCTGATGATCCTCTACTCCATCCGCAGCAACCGGCAGTTGGTAGAGCAGA
TCCATTACAACTTCCTGTTCCGCTGGTTCCTCGGCATGGGCTTGGACGAG
AAAGTCTGGGATCATTCCAGCTTTACCAAGAACAGTGACCGATTGATTGG
CTCCGAAGTTGCCGCCGAGTTTCTTTCCCGGGTTCTGGCCCAGGCAGAGC
GTAAGCGACTGTTGTCCCGCGAACACTTCACCGTTGACGGAACTCTCATC
GAAGCCTGGGCTTCCATCAAGAGCTTCAAGCCCAAGGATGGACCTCCTTC
AGCCGGTGGTGGCGGCAGAAACGATACCGTGGATTTCAAGGGACAGAAAC
TTACCAACGAAACCCATGGTTCCACCACTGACCCTGATGCCCGGCTCTAC
CGCAAGGGGAAGAACAAGGAAGCCAAGCTCTGCTACCAGGGACATACCCT
GATGGAGAATCGTAGTGGCCTCATCATCAGGACCAAGGTGACAACGGCAA
CCGGTTGCGGTGAGCGCGACGCAGCAAAGGCCATGGTGCAGCAATTGCCA
AGGACGACCCGACGGATCACTCTTGGCTGCGACAAAGGCTACGACACAGA
ATCATTCGTCAAAGAGCTGCGTAGGCTAAAGATAACGCCACACGTGGCCC
AGAACACCTCCAACAGGAAATCGGCCATCGACGGCAGAACCACCAAGCAT
CCGAACTACACCATCAGCCAGAAGATCAGGAAACGAATCGAAGAAGGCTT
TGGCTGGATGAAGACCGTGGGCAGCTTACGCAAGACGATGTACCGGGGAA
TCGAGAAGATCGCCATGCAACTTGATCTGCACGCTGCGGCCTACAACCTG
GTTCGGATGAAAAACCTGGGTCTCGGTGTCACCTGA
>GSU2467 hypothetical protein/integrase, fusion
ATGATTTTACTGCCGCACCATCTGTTCAGGCAATACCGTTCTTTTTACAA
CAACTGCGGAATCGCGGTCGCTGATTTTGCCGACTATCTGAAATGGCTGC
GCTACTTTCTCGATTTCTGTGAAAAGTATCATGTTACGGGAAGCGAGCCG
GAGAGAATCGATCTCTTCCTGAACAAGTTGCAGCAAAAAGGACAGTCTGA
GCAGAAGCGGCAGCAGGCCAGTCAGGCGGTATCTTTGTATTTCGTCATGC
TGAAGGGTGGCGCCAGTGACACGTTGCCGGTGTCCTCAGCCCCGTCCGCA
CAACCGATGGCGCAGCAGTCGGAAGGTTCGGCTGACGTGCCGCCCGACTC
TCCTCCTGTTCCCCCGCGGCACTCTTTCTATAACGTCGCTGGCTACCAGG
AAAAATCCGACTCTCCTGAATGGGATGAGGTTATGGCGAAGCTGGCAGCG
GAAATCAAGGTCAGGCATTATTCCAGGAAAACATTGCAGACCTACGCCAA
GTGGTGCCGTCAATTCCAGCGCTTTTTGAAGAACAAGCCTCCAGTGGAGC
TGACAACCGCGGATGTGAAAGAGTATCTAACCTGGCTGGCGGTGAAGTGT
AATGTGGCCGCCTCTACGCAAAATCAGGCGTTCAACTCGCTGCTGTTTCT
GTTCCGCCATGCCCTGAAGCGGGATTTCGGCGAACTGAGGGACGTGCCGC
GCGCCAAGAAGTCGCTCTATGTGCCGGTGGTGCTGTCCCGTGCAGAGATC
GACGCTATCCTTGCCCACCTCTATCACCCCCATGGCCTGATCGTGAAACT
CCTGTTCGGCTGCGGGCTGCGGCTGTTCGAGTGTCTGCAGCTGCGGGTTC
GGGATTTCAACTTCGATGCGGGTATCCTTACGGTCCACGGCAAGGGGAAG
AAGGATCGGACTCTGCCGCTGCCGGAGTCTATCCTGAATGATTTGCAGCG
GCAGATGCGGCGGGTGAAGGAGTTGCATGAAAAGGATCTGGAGCAGGGGT
ATGACGGTGTGTTCCTCGATGATGCTATGGAGAAAAAATACCCCAAAGCG
CCGAAGGAGCTGATTCATCAATGGTTCTTTCCGCAAAAGGATCTGACGCC
GGTGGAGGCGAACGGGCAGCTCAGGCGGGCGCATGTCCATGAGTCACTCT
TGCAGAAGGCGCTCTACCTGGCCGTCCGCAAGGCAAAGATCCCCAAGCGG
GTTACGGCCCATACCTTCCGCCACTCCTACGCGACGCACCTGCTGCAGGC
CAATTACGATATCCGCACCATCCAGACCAAGCTGGGGCATGCCAGCCTGA
AAACGACAATGATTTATACCCATTGTGTTCCGGTCAGGACCGTGAAGGAG
GCGCGAAGCCCGCTGGATTTCTGA
>GSU2392 ISGsu7, transposase OrfA
ATGGAAAAGGATGTCAGTGTCTCCGGTGCGGCGGAAGGAGAGCGTAGCTC
GACTGGAGCAGCACCGGAAGTCAAACGTTGGAGCGCCAACCGCAAAAAGG
AGGTTGTCCTGCGGTTGATGCGCGGTGAACCAATCGATGCCTTGTCCCGT
GAGTTGGGCATCGAAATCTATCGCCTGGAAGAGTGGCATCAGAAAGCACT
CCAGGGGATAGAATCTGCTCTCAAGGCTCGTGAAGGTGATCCGTTGGCAG
CGGAACTCGATGCAGCCTTCAAGCGCATCGGTGAGATCACCATGGAAAAC
GAGCTACTGCGGGAGAAAGCGAGGCGTGCCCACCCTTTGGCCCAGAGGAG
ATCGAAGAAATGA
>GSU0492 site-specific recombinase, phage integrase family
GTGGAGTTTGAAGTAACCACTTTCATCCGCTACCTGGAGAACGAGCGCGC
CGTTTCCCCCCACACTCGCGCCGCCTATGAGTCCGACCTTGCCCAATTCA
GGGACTTCGTCCGGGGAGAACTGGGCGCCGGAGCCGGCGCGGCGGCCATA
AGCCACCTCCTGGTCCGGCGCTGGCTTGCCCAGCTCCATCAATCTCACGC
CAGGAGCTCAATCGGCCGTAAACTGGCCGCAGTGCGTGCATTTTTTACCT
ACCTTGTCCGCACCGGAGCCCTGCCGCGCAACCCGGCAGAACTGGTCAGC
ACCCCCAAGCGCGAGAAGAAGGTCCCGTTCCACCTGAACATCGATGAGGT
GACCGCCCTGGTGGAGTCTCCCCGGGAACCCGGCGTCCTGAGCCTGCGCG
ACCGGGCCATTCTGGAAACCCTCTATTCCTGCGGCGTCAGGGTTTCGGAG
CTGACCGGCCTCAATGTGGGGGGGATCGACCTGGCTGACGGCACGGTCCG
TGTCCTCGGCAAGGGTGGCAAGGAACGGGTAGTTCCGATCGGGAGCCATG
CCCGCCTCGCCCTAAGCTCCTATCTGGCCGCCCGTAACCACCCTCCCCTG
GAGGTCCCCCTTTTCACCAACGCTCGGGGAGGCCGGCTTACCGCCCGTAG
CGTCCGGCGGGTGGTGGACAAGCATATCCTGAAAGTCGCCGCCATGAGGA
AGATATCTCCCCACACCCTGCGCCACACCTTTGCCACTCACCTCCTTGAG
GGAGGAGCCGATCTGCGTGCCATCCAGGAACTGCTGGGACATGCCTCGCT
CTCAACCACCCAGAAATATACCCACGTGGGAATCGACCGTCTCATGGAAG
TGTACGACAAGGCCCATCCCAAGGCACGCACCTGA
>GSU1383 exonuclease
ATGAAAAATCACCATCTCCAGGCAGCGATCGATGTGGAAACCACCGGCCT
TTTCCCGGGATATGGCGACAGGGTCGTCGAAGTGGCTGCCGTCCTTGTGG
ACGAGGGACAAATCGTCTCGGAATTCAGCAGCCTGATCAGGGTAACAAAG
GCGATCCCCCGCCACGTATCCATGATTCACGGCATCACCAACGACATGCT
CGCCGACCAGCCGCTGCCGGAAGAGGTCTACCCGGCTCTCGGAGATTTCA
TCGGCACGGCCCTGCTCGTGGCCCACAACGCCCGGTTCGATCTGGCATTC
CTGCGGCACGAGTTCGGCCGGTTGGGATTGTCGCTGAACAGCCGGTCCGC
CTGCACCCTGGAACTGGCCCGGCGCAGACTGCCGGAACTGACCGACCACC
GCCTGGAAACCGTCTACCAGCACCTGTTCGGAGCCGTCCCCGAAGGGACC
AGGTGCCACCGGGCGCTCGACGATGCGCGGCTCACGGCGCGGGTGTGGGG
GGAGTTGGGGGGTGGGAAGGCTATGAAAAGTGGTGCTCTGCGGTAG
>GSU0712 hypothetical protein
ATGCGCAAGGGATTGTCTGCCATCGTCGTAGGGATCGCCCTCCTCGGCCT
GGACCCGTGCCTTCCGTCCGACGGGGTGCGCGGCGAATCAGGCGGAGGAA
TCATTGTCCCGGGCCAGAGAATCGAACGTTTCAGCATCGGCGATCCGGCA
CCGGACAACCGCACGCTTCGCACTATCCGAAAAAGCAAGGGAATCGGCAT
CACCACGGCGGGCGGCATCATCGGCAGGATCACCGTCTCATCGCCCCGAT
ATGAAGTAGAGCGTAACCGCTTGAAGGCCGGCGCCACCCTGGCCGAGGTA
CTGCGATTCTACGGCAGGGGAGAAAAGACCATGAAAGGGAGCGTCATCGT
TCTCACCTATGCGGACCAGGGGGTCGAATTCGTCATCGACCCGGCCGACG
AGCGGGTCAGGTCCATCACGGTCTTTAGGCCGGTCGTCCAGAAACCGTCG
GCAGAACAGTATCGCAAGCTGTACGAACATCGAGAGAAACTGAAGGCCAA
GTGA
>GSU3411 ATP-dependent DNA helicase PcrA, putative
ATGAAATTGCTCGATAATCTTAACCCTCCCCAGCGGGCCGCGGTTCTTCA
CGGCGAAGGACCGCTCCTGGTCCTGGCCGGTGCCGGTTCCGGCAAGACCA
GGGTCATCGTCCACCGGATCGCTCACCTGATCCGCGAGCGGGGTGTCCCC
GCCCGGCAGATTCTTGCCGTGACCTTCACCAACAAGGCCGCCGGCGAGAT
GCGCGAACGGGTGGAAAAGCTCGTGGGGGGTGAGGTTCCCCTGATCGCCA
CCTTTCACTCCACCTGCGCGCGGATCCTTCGCCGGGAGATTCACCACCTG
GGCTACGATTCCTCTTTTGCCATCTATGATGACAAGGACTCCGGCAAGCT
CCTCAAGGAAGTGATGGCCGGTCTCGGTCTCGACGAGAAGCGTTTCCCTG
CGACCTCGCTTGCCTCGGCCATCGACGACTGCAAGAACCGGGGGCTTGCG
CCGGAGGACCTGCCAGCCGACACCTTCACCGGCGAGGTGGTGGGCCGCGT
CTACGCCGCCTACCAGGAGCGGTTGAAGAAGTGCAACGCCCTCGACTTCG
GCGACCTCATCATGCTGACCGTCCGCCTCTTCGAGGAGCACCCCGTGGTG
CTTGAGCGCTACCGGGACCAGTGGCGCTGGATCCTGGTGGACGAATACCA
GGATACCAACCCGATCCAGTACCGGCTCGTGCGCCTATTGGCCGGTGAGC
ACCGCAACCTCTGCGTGGTGGGTGACGATGACCAATCCATCTATCGCTGG
CGCGGGGCCGACATCCGTAACATCCTCGACTTCGAGAAGGACTTCCCCGG
CGTCACCACCATCAAGCTCGAGCAGAACTACCGCTCCACCCGGAACATCC
TTGCGGCGGCGGGAGCCGTGGTGGCACGCAACCGGGGTCGCAAGGCCAAG
ACCCTCTGGAGCGAGAACCCGCCGGGCGACCCTATCGTTTACCGCCGTCT
GGCCGACGAGCGGGATGAGGCCCGCTTCGTCTGCCGTGAGATCGAGCGCT
ACGTACGCCGTGGCGGCGACCTCCGGGACGTGGCGGTCTTCTACCGCACC
AATGCCCAGTCCCGGGTGGTGGAAGACGCTCTGGTGGCCGACGGCATCCC
CTACCACATGGTGGGCGGCATGCGGTTCTATGAGCGTATGGAGGTAAAAG
ACGTCCTTGCCTATCTGCGGGTCCTGGCGAACCCGGCTGACGAGGTTTCG
CTCAAGCGGATCATCAACGTTCCCGCTCGGGGGATCGGTCCCGGCACCGT
GGACAAGATTTCCGAGCTGGCCGTCCGCCGGGGGATCACCGTCCTCGACG
CCCTGGGTGAGGCGGCCACGGGCGGACTCCTCTCCTCGGCACCCCGGGGT
AAGGTGGCTGCCTTTGCAGCAGTCATGGAGAGGTTTTTCGCCCTGCGCGA
TCAACTCCCCCTGGCAGAACTCACCACCCGCATCATCGAAGAGTCAGGCT
ACGCGGACCGGCTTCGGCAGGAGCGGACCGACGAGGCCGCGGACCGGCTC
GCCAACCTTCAGGAACTCGTGGCTGCCATGGAAGAGTTCGAGCGGACCAG
CGATGAGCGGGGACTTGCTCCGTTCCTGGAACAGGTGGCCCTCGTCTCGG
ATCTGGAGCGTAGCGGCACGGGCCGCGAGTCGGCAACGCTTATGACCCTG
CACGCGGCAAAGGGGCTCGAGTTTCCCATGGTTTTCATGATCGGCATGGA
GGAGAAGCTCTTTCCCCATGTCCGCTCCCTGGACGACCCCGAGGCCATGG
AGGAGGAGCGCCGGCTCTGCTACGTGGGGATGACCCGGGCACGGGAGCGG
CTCTGCCTCACCAATGCCCGGCGCCGGCGGATCTTCGGCCAGGACCAGGT
GAACATGCCCTCCCGCTTCATCGCCGACATCCCCCGGAACCTCCTGGACC
TGGAGGATGAATGGCAGCAACCCGCCCTCGGCTCCGTCGCGCCCGACACC
GCCGGGCGGGGGCGGGAGCCCGCGCGTCACAACCTGGCCTCCATCCTCGA
AACCGAGATCGAGCCGGATTTCGCCGACGTGGAGATCGTCCCCGTCGAAC
CCGAAGAAAGCGGCGTCTGGCTCGGCATGAAGGTACGGCACGGAAAGTTC
GGTGTCGGCACCATCCGGAAGATTGAAGGGCAGGGGGATGAGCAGAAGGT
GATCGTCTGGTTCAACTCGGTGGGGCCGAAGAAGCTTCTGGTCCGCTTTG
CCGGTCTGGAGAGGGTCTAG
>GSU1797 ComEA-related protein
GTGAAACCCCGCACCGGGCATGCGGTGTATCTCACCCTTGCCTTAGCGGT
CATGACATTACCACTACTTTTCAAAGGCCATGGCACATCCCCTTTGGAGA
TTCCTGCTGTGGCCTTTGTGCGTTCGCGCTCCGATGACCGCCCCGTGAGC
ATCATGATAACCGGCGTACCGGAGAAGTCAGGCGTTTATCGGGTTGCCCG
GGGATCCACATGCCAGAGCGTCATAAATATGGCGCTTCCCAACTCGTCGG
TTAATTATCTTCCTCCTGCTACTGTGGGCCGTATCCTCTGCGATGGTGAT
GTCGTGATCGTGCGTAATAAGAACAGAGCAACCAGCGACGTTTCCTTGGG
AAAACTGGCCGTTTCTCAGTTGATGCTGATGAGAATCCCTCTAGATCCAA
ATCGGATGGACATAAAGGATTGGGAGCTTTTGCCCGGCATCGGGCCTGAG
CTTGCGAGACGGATAGTATGTGACCGTCAAGATAATGGCGATTTTTCGTC
TTTTGAGGCATTGGAAAGGGTTCCGGGAATCGGTCCGAAGACGCTGATGT
CACTAAAAGAATTTTTTTGA
>GSU3245 DNA polymerase II, putative
ATGAACGACCTGGAACGGACCGACAATCGTCTCCTCTTCGGCGCCGACGA
CACCGCCGGGATCGTGGCAGCGGAACTGGCCGGGCGGTTCGTCCGTCTTT
TCATCCGGACTCCCCGCGGGGTCGTGGTCAGGGACGATCCCTTCCACCCG
TTCATCCTCCTGACGGACCCATCGCTCTTGGATGGATTCCGGGATGAGGT
GACCTTTCACCCGCTTTCCGGACCGGGCGAGCTCCGGTTTATGGCACTGT
TTCGCGATTGGCACGGCTGCGCCGCGGCCCGTGATTTTCTGGCCCGCCAT
ACCGGTCAAAACCCGTCGGCGCCCGGCGCCCCCTACCTCTATCTGTCGGA
CCCGGTCCACCAGCACTTTCTGCTCACAGGCAAGACCTTTTTCAAGGGAT
TTGAGTTCGGGCACCTGCGGCGGCTCGCCCTGGACATCGAGACCTCCTGC
GGCGAGGGGTTCGAGTTCTCCAACCCGGACCGGGAAGATGACCGGATTCT
CTCCATTGCTCTGATGGAGGAGGGCGGGTACGAAGCGTTCCTGTCGGCGA
CGGAGATGGACGAGCGGGAGATGCTCGAACGGCTGGGCGGGATCATCCGG
GAACGTGATCCGGATGTGATCGAGGGGCACAATATCTTTCGCTTCGACCT
GGAGTACATCCGGGCACGGGCTGCCCGCCACGGGGTAAAGCTTGCCTGGG
GGAGGGACGGGAGCATCCCCCGGGTTCACCCTTCGCGCTTCTCCGTGGCT
GAGCGGCTCATCGACTACCCGCGCTGGGACGTCTACGGCAGGACGGTCAT
CGATACCTACTTCCTCGTCCAGATCCACGACGTGTCGAGCAGGGATCTGG
AAAGCTACGGTCTCAAGCAGGCGGCCATCCACTTCGGCCTGGCCGCGCCG
GACCGGGTCTATCTGGACCGACAGGCCATGGACGAGGTATTCCGTTCCGA
TCCGGAGCGCATGAAGCGCTACAACCTGGACGACACCCGCGAGACTCTGG
CCCTGTCCCGGCTCCTGTCCTACCCCTGGTTCCTCCAGGCGCGCATCTTT
CCCTACACCTACCAGACATCGGTCATCAGGGGGAACGCCACCAAGATCAA
TGCCCTCTTCCTGCGCGAGTACCTGCACCGGCGCGAGGCGGTGCCGCTGC
CTGGTGGGGGTGACGGTGCAGGTCTTGAAGGGGGGTATGTGGAGCTACGG
GAGACCGGCATTCTCGGTCCCATTGTCCACTGTGACGTGACCTCCCTCTA
TCCGTCGCTCATGCTTGCCCGGAAGATCGCTCCGGCCCGGGAGCACCTTG
GTCTGTTCCTCCCCCTTCTGGAGGAGCTTCGCCGGTTCCGGCTGACAGCC
AAGGCGCGCGCCCGGGAAGAGTCAGATCCCCATCGGCGCGACTACTACGC
GGCGCTCCAGCAAACCTTCAAGGTTCTCATCAACTCCTTTTATGGCTACC
TGGGCGCGCCCCTCCACCACTTTGCCGATCCGGCTGCCGCCGCCGAGGTT
ACCCGGGCGGGCCGGCAGCTCATCGGGGCCATGCTTGACTGGTTACAGGA
CAGGGGTGCCCGCCCGGTGGAGGTGGACACGGACGGCGTCTACTTTATTC
CGCCCCCCGGCGTAAGCGGCGAAGAGGCCGAGTCCGCTCTGGTCCGCGCC
CTTTCCGCTACGCTCCCGGCCGGCATTGAGGTCGAGCTGGCCGGCCGCTA
CCGTGCCATGTTTTCCTATAAAGCCAAAAACTACGCTCTGCTCGGCCATG
ACGGCCGGATCACCGTGCGGGGGAGCGCCCTCCGTTCGCGGGGGATCGAG
CGCTACCTGCGCGAGTTCATGGGGGAGATGATCCGCCTCCTCCTGACGGA
CGAGGCGCAGAAGGTACCGGTCCTGTACGATGACTACGTCCACCGTATCC
GCGAACACCGGTTTCCTGTGGAATGGCTCGTCCGCACCGAGACCCTCGGC
GAGTCGCCGGCCACGTACCAGCAGAAGGTCCGCGCCGGAAAACGCAATCC
CTCCGCGGCCTTCGAGATAGCGCTCCGCGCCGACCGGCCGTATCGGGCCG
GCGATCAGATCAGCTATTACGTCACGGGACGGGGGAAAGGGGTAACCGTC
TACGAGCAGAGCGCACCGGTCTTCCGGTACGACCCGGCCCGTCCCGACGA
GAACGTGGACTATTATGTCGACAAGCTGGCCCAGCTCATGAAAAAATTTG
CCCCCTTTCTCCCCCGGGAACGGACCCTGTTCGACTGA
>GSU1450 endonuclease III, putative
ATGGCCGGCTTGGCTGAGGCCGTGAAACAGTGGCCGTCCCCCGCCGTTAC
CATCGTTTCGCAGCGGGAGGGCAATCCCTTCAAGGTCCTCGTCTCCTGCA
TCCTGTCGCTGCGCACCCAGGACCGGACTACCGGACCGGCATCGGAGCGT
CTCTTCGCTCTGGCGGATACACCCGCCGCAATGGTGCGTTTGTCAAAGGA
CGACATCGAGAAGGCTATCTATCCTGTGGGTTTTTACCACACCAAGGCTG
AACAGATCCTCGAAATCTGCCGTGTTCTTCTGGAACGGTACGACGGCGGA
GTTCCCGATGAACTCGATGAGCTTCTCGCATTCAAGGGGGTCGGGCGCAA
AACGGCAAACTTGGTGATCACTCTCGGTTTCGGGAAGCCGGGAATCTGCG
TCGACACCCACGTCCACCGAATCTGCAACCGCTGGGGATACATCAGGACC
AAGACTCCTGAGCAAACGGAGTTTTCTCTGCGTCGTATCCTTCCGCATCG
CTATTGGCTGGTCATTAACGACTACCTTGTTACCTTTGGCCAGAATCACT
GCACTCCCGTTTCCCCCCGCTGTTCAACTTGTGTCCTTGCCCAATGGTGC
GACTGCGTAGGGGTTGCGAAGCATCGATAG
>GSU0058 CRISPR-associated protein Cas2, putative
ATGGAGCATCTCTACATTGTGAGCTATGATATTCGCAACCAGCGCCGGTG
GCGGCGGCTATTCAAGACCATGCACGGCTTCGGCTGCTGGCTGCAACTGT
CGGTGTTTCAGTGCCGCCTTGACAGGATTCGAATCATCAAAATGGAGGCG
GCAATCAACGAAATTGTCAACCACGCGGAAGACCACGTGCTTATCCTCGA
TCTTGGTCCGGCCGAGAACGTTAAACCAAAAGTGAGCAGCATAGGAAAGA
CATTTGACCCGATCTTGCGCCAAGCGGTGATAGTCTGA
>GSU0046 ISGsu6, transposase OrfA
ATGATCGGAAAGGAAGAGTGTATGGAAGTCAGAATTCTCAAGAAGCAGGG
CAAGAGCATCCGGGAGATCTCGCGTATCACCGGACTTTGCCGCAACACGG
TCAGGAAATTCCTCAGGTCGACCGCTGATCCCAGGTACAAAGAACGAGCG
AAGCGACCGGGGAAGCTTGACCCATTTAAAGCGTTTCTCGAAGAACGGGT
GAAGGCGGCTCTGCCGCATCGGATTCCCGCGCCGGTGCTTGCTCGGGAGA
TCAAAAGCTTTGGCTACGATGGCGGCGAACGCACTGTCAGAACGTTTTTG
GCGACCCTTTATTCCCGCATCACGCCGGAACCCGTTGTCCGGTTCGAAAC
GGAGCCAGGCAAGCAGATGCAAGCCGACTGGTGCGAACTGCGCAAGGGCA
AGCACCCGCTGTACGCATTCGTTGGAACGCTTGGTTTCAGTAGAGATTCG
TTCGTTGTCTTCACCACCAGCCAAGCGTTCGACGTCCTTCGGGAATGCCA
CGAGATGGCATTCTCCTTCTTCGGCGGGGTCCCGCGCGAAGTGCTCTATG
ACAACATGAAGACCGTCGTGCTGGAGCGAAACGCCTTCGGCGAGGGCAAC
CACCGTTTCCACACCGGCCTGTGGGACACGGCAAAGCATTTCGGGTACAT
CCCCCGGTTGTGCAAGCCGTACCGGGCCAAGACCAAGGGAAAGGTTGAGC
GGTTCAACCGCTACCTGCGGTACAGCTTCTACTACCCGTTGGTTTCGCGC
CTGAAGCAGGCAGGACTAACTCTCGATGTCGCAACCGCGAACATCGAGGT
CAGAAAGTGGCTCAACGAAGTAGCCAACTGCCGCATCCATGGGGAGACCG
GCGAACGCCCCTGCGATCGGCTCGAGATCGAGCGGTCAGCGATGCTGCCG
CTGCCGCCAAGGCTTGCAGTCGAGCCGGACAAGCCGCAAGTCATTGCTGC
CATGCCGTGGCCGGTTATTCCCCTTCAGCGCCCCGCCTCCTTCTACGATC
AGATCCTTCAGGAGGGGCGGCTATGA
>GSU0761 ISGsu7, transposase OrfB
ATGAGTGCTACGATCTCCCCTGCCACCGGTAAAGCCTATGGCGTTCAGCG
CGTCTGCCTTGCCTGGGGAGTGCCCCGCTCGTCGTTCTATAGCCGTGCAG
GCAGAAAAACATTGCCTGCTGTACTGCTCAAGCGTGGTCCAAAAACACCG
CTCTCTGACGACGAGGTACTTTCTCTCATCCGGACCGACCTGGAGACATC
CCCCTTTGTCGGCGAAGGGCACCGTAAGGTCTGGGGACGACTACGCTTCG
TCAAAGGGATAAAAGTCGGCCGCAAACGAGTGTTGCGTCTCATGCGGGAG
AACAATCTGCTCTCCCCTCACCGGGTTGTTCAGGGACAGCCCAAGGACCA
CGCCGGCAAGATCATCACGGCGGCCCCCAACGTCATGTGGGGTACCGATG
GCACCAAGATCTTCACCCTGGAAGAAGGGTGGTGCTGGTTGTTTACCGCC
GTCGAGCATTGGAATGCCGAGTGCGTCGGTTGGCATGTGACCAAGAATGG
CGACCGGTTTGCCGCATTGCAGCCGCTCGCCATGGGAATCAAGGCCCGTT
TCGGCTCGGTCGGTGCCGCTGCTGCTCGAGGGTTGGCACTGAGGATGGAT
CACGGCAGCCAATACCTCTCAGAGCATTTCCAGAATCAGATCAAGTTCTG
GGGAATTGCCCCAAGTTTCTCATTTGTTGCCGAACCGCAGACCAACGGGG
TGACGGAACGGTTTAATCGGACTATCAAAGAGCAGGTCATCTATGGCCGC
CATTACCGCACAATCGAAGAAGTAAGGATGGCAGTAGCTGACTTCATGGA
TCGTTACAACCGGCTGTGGCTGGTTGAAAAGCTCGGGTTCAGAAGCCCAC
GACAGGCTTTCGAGGAGTATCAACTCAAGAAGGCTGCGTGA
>GSU0955 group II intron, maturase
ATGCCCGTGGAGCGCGTCATTGACCGGCCAACTCCGGAAGAGCACCTACT
GGAGCGGATACTTGCCACAGAGAACATGGACCTGGCGTGGAAACGGGTGC
GGGCCAACAAGGGCGCACCTGGCGTCGATGGTGTTACCATCGACGCGTTC
CCCGAACGGTTCCGGCCCCTCTGGGGCGATATCCGTGCATCGCTTGCAAC
AGGTACCTACCAACCACAGCCGGTCCTTCGAGTGGAAATACCCAAACCAA
CGGGCGGCACCCGCCCGCTGGGGATTCCCACCGTCCTTGACCGGCTGATC
CAACAGGCAACAGCCCAGGTGCTCACGCCGATCTTCGATCCGGAATTCTC
CGCATCGAGTTTCGGGTTCCGCCCCGGCCGCTCGGCACACAATGCCGTGC
GGCAGCTGCGGGAGTATCTGCGGCAGGGCTACCGCATTGCCGTGGACATC
GACCTTGCCAAGTTCTTCGACACGGTCAATCACGACCTCCTCATGACAAT
GGTGGGGAGGAGGGTCCGCGACAAGCGGGTTCTCACCCTGATCGGCAGGT
ATCTCAGAGCCGGGGTGGAGGTTGACGGGCGGCTGGAAAAGACCCGCATG
GGCGTACCCCAAGGGGGTCCGCTTTCCCCGCTTCTCGCCAACATCCTCCT
CGACCACCTGGACAAGGAGCTTGAGAGCCGTGGCCACAAGTTCGTCCGTT
ACGCCGATGATTTCGTCATTCTGGTGAAGAGCGAGCGTGCCGGCGAGCGG
GTCATGGGGAGCGTCAGGAAGTATCTGACGAACAAACTCAAGCTCACGGT
CAACGAAGACAAGAGCAAAGTCGCCAGAAGCGGCGACTTGAGCTTTCTTG
GCTTTGTCTTCAAGGGAACCAAAATCCTCTGGTCTGACCAGGCGTACAAG
GAGTTCCGGCGCCGGGTCAGGAAGTACACCGGCAGGAGTTGGTTCGTCTC
CATGGAGTACCGACTGAACAAGCTGTCGACCTACCTCCGCGGCTGGATGG
GGTACTTCGGCATTGCCGAAGCCTACCGTGACATCCCGGAGATCGACGGC
TGGATACGGCGGCGGGTGCGGCTGTGCTACTGGAAGCAGTGGCGGTGGTG
CCGCACCAAGATTCGGAACCTGCTCAAACTGGGTGTACAGCTTGGCACAT
CCATCAGAGCAGGGCTGAACCGCAACGGTCCGTGGGCCATGTCCCGCAGG
CTTGCCGCCCAGCACGGTATGACCAACCAGTGGCTGAAGGATCAAGGACT
TGTATCTGTCAAAGAACTGTGGGTGAAGATCCATTACCCGGCCACGGCCC
GGTAA
>GSU0990 hypothetical protein
ATGTCGAACGACCGCACCCTGAGCCCATTCCAGAGAAACCTCTATTTTTA
CGGCAAGCTGATGACAGTCCGGGACTTCGAGATGGAGCAGTCCTACCTGA
ACGGCAAGCGCCACCTGATCAACAGGATGGTGCTCGGCACTGGAGCGGTA
TGCGGCCTTGAGGTGACCGCCTCCTGGGACGAGTCGAAAAAGACTGTCGC
GCTCAGTGTCGGCGAAGGTGTGGCCATTGACTGCGGCGGCCGGGAGATCG
TGGTGGACAGACCCTCCGCCGTCACCTTCGAGCCGGCCCCGGATGTCACG
TCCTACTGCCTCTGGCTGAGCCGGGAGGACTGCCGCATTGAACCGGCTCC
GGCCCCCATGGCCGACAGCGGCAACGCCTGCGGCGAAACCTGCTGCTACA
GCCGGGTGCGGGAGGATTTTTCCCTGGCCGTGCAGAAATGGGATGGCCCG
GTCCCGTCGGTTGACGACGCCTGGTCCGGCCTCTTCACCACGGAGACGAC
CGATAGTCGGGCGGACATCCGGGCTCTGTTGAAGGCCCACTTCGACCGGA
TTCTGGCCGGCTGCCCTGCCTGCGGGGAGCCCTGCCGGGTGCCGTTGGCC
CTGGTGATACGCAAGGGAGGTGCCTGGAGCGGCACCCCGGACATCATCCA
GAACATCGTCGTGCACACCAATCCTGAACTATTCGAGATGATTCGCCGCC
ACCTGACCGACCTGGGCAACCCCCATATGACCACCGCAGCCCAGGTGGGA
GCGCTGAAGAGCGTGGACGGGGTCGAGAATCCGGGCGGCAACGTGGACCT
GGTGGCGGCAAACGCCGTCCAGATCACGCCCAACACCACCGCCAGGACCA
TCACGATCGGTGAGAGCCATTCGGGGGTCACCGGCAACCCCCACAACACC
CGGCACGAGCAGACCGGTCCGGCCTGTGTTGACCCCGCAAGTGACGATAC
CACCTGCGATAAGCACGTCTCCAACGCCAATGCCATGCGCTGGAACCGCT
CTCTGGCAGGGCTCACCGTGAACGGCGGCAGCCTTGTCGTCAATCCCGGC
GCGGCCATCGACCTGGCAGCCGGACAGAATGTGACCCTGGCCGCCGATCC
CGCCGGCAAGAAGATCACCATCAGCGCCGCAGGCGGCGGAGGGGCCTCGG
CCCGCACGGGGCGGATCTCCATCACGACCAATTCCGACGGCGTAGGCACG
GCGCGGGTTACCTCCGGGTTTGACGATAATCTCTTCTGCGTGCAGGTAGG
CATAGATTACGGTGAGCACGTGGAATACGGTTCGGTCCTCCGCTATGCCG
GCCAGACGGCGTTCATCACGGTGCGGGTGCTCAGGTACCAGGACGTCGGA
AGCTTCGATATCATGTTCTCCGCTCCGGGGGTCGGCCAGCGCACGCTGTC
TCTGCGCTGGGTCGCCATCCCGGCCGTTGCCGTTGCGGAGCCGACAATAA
CCGTGACGTCTCCCACCGTTACGGTTACCTCGCCCACATTCACCCTCACG
CAACCGACCTTTACCATGACGCAGCCCACGTTTACCCTGACCCGCCCGAC
CTTCACCATGACCGCGCCAACGCTCACGATGCCCACTATCCCAACCATGA
CCATCCCGAGCGTAACCATCCACGGCCCGATCATGAGTGGTCCCGGAACA
GTGGAGGCCCCCACGGTGATCGTTCCCCCCGGTAAGAGCACGCAGTCTCC
GCACCTGACGGACGTGAAGGGGATCGGGCCGGCCTTGGCCGGGAAACTGA
CGGCAGCCGGCATCTCGACCATTGCCGATCTTGCGGCCGCCTCCGTCAAT
GCCGTGGCGGCCGCCCTGGGTGTCAGCGATCCCGCTCGGGCGCGCGGTTT
TATCGACGCGGCCAGGAAATTGGCTAAAAAACGATGA
>GSU0048 integrase
GTGGGTCATTTTTCAATTTCCGATCAACCGGTAAAGTGGGTCAATTTTCG
ATTGCCGTTGACACCCCGGCCCACCTATTACCGACCACCGGCAACATGCC
TGCGCGAGGGCGACCTTGTGCTGATGCGTCGCATCGACGAGCTCTATTTG
GAACACCCCTGGGCGGGCAGCAGAACGATGGCTACCTTGCTTTCCACTCC
GGATGAGGTTGTCGGCCGAAAGCGGATCAGTCGCCTGATGCGGCTGATGG
GGATCGAATCGGTCGCGCCGAAACCGGGAACCAGCAAGCGCCACCCCCAG
CACCCGGTCTATCCGTATCTGTTGCGGGGCCTCGTCATCGACCGGCCCAA
CCAGGTCTGGGCCGCCGACGTCACCTATATCCCCATGGCCAAGGGGTTCA
TGTATCTGGTGGCCATCATGGACTGGACAACCCGGAAAGTCCTTTCCTGG
CGGCTGTCTAACACCCTCGACAGCAGGTTCTGCGTCGAGGCTCTGAATGA
AGCTCTCAGCAACTTCGGCACCCCGGAGATCTTCAACACCGATCAGGGGT
GCCAGTTCACCAGTGAAGCCTTTACCTCCGTGCTCACCGCCAACGGCATC
CGGATCAGCATGGACGGCAAAGGACGCTGCCTCGACAACGTCTTCGTCGA
GCGACTGTGGCGCACTCTCAAGTACGAGAGGCTTTATCTCAAAAGCTTTG
ACTCCGGGATTGAACTTTCCCGGGAGCTTTCATCCTGGTTCTCGTGGTAT
AACGGTGTCCGCCCTCACCAATCCCTCAAGAAGCGGACCCCGGACCAGGT
TTACTTTGCTGGACTGCCCGAGAAAAAGGCTGCCTGA
>GSU2758 excinuclease ABC family protein
ATGGCCCACGAATCGATCTCCATCCGCAATGCCCGCCAGAACAACCTGAA
GAATCTCGATCTCGACCTTCCCCTGGGCGAGTTGATTGTCGTCACCGGCG
TTTCCGGTTCGGGGAAGTCGTCGCTCGCCTTCGATACGGTCTACGCCGAG
GGGCAGCGGCGCTACGTGGAGACCTTTTCCCCCTATGCCCGTCAGTTCCT
GGAGCGGATGGATCGCCCGGCCGTGGACCGGATCGACGGCATCCCCCCGG
CCATCGCCATCGACCAGACCAACCCGGTCCGCACCTCCCGCTCCACCGTG
GGTACCATGACGGAACTGAACGACCACCTGAAGCTCCTGTTCGCCCGGGC
CGCGCGGCTCTTCTGCCGCGGCTGCGGCCGGCCGGTACGGCGCGATACGC
CCGAGAGCATCGCGGATGAGCTGCTGGCGCGGGATGCCGGCGCCGGGGCC
GCCGTGCTGGTTACCTTCCCGGTGCCGGTGCCGGCCAATTTTTCCACCGA
CGAGGTGAAAGGGTTCCTGGCCGGCCAGGGATACACCCGCATCTACCGGG
AGGAGGAAGGCATCCTGGAGGTGATCCAGGACCGCACCCGCCTGGCACCG
GCGAACCGTTCCCGCCTGGTGGAGGGGATGGAGGCGGCGCTGCGCGTCGG
GCACGGGCGGGTGTTCGTCCGTCCCGCCGGCGAAGGTTCCGCGTCGGAAC
CGTGGCGCTTTTCCAGCGACCTCCACTGCCCGGACTGCGACATCTCCTAC
CAGGACCCGGCGCCCCACCTCTTCTCCTTCAACTCGCCGGTGGGGGCCTG
CGCCACCTGCCGGGGGTTCGGCCGGGTGATCGGCATAGACCTTGGGTTGG
TGATCCCGGACGAATCCAGGTCCCTGGCGGACGGGGCGGTGAAGCCGTGG
CAGACCGAGAGCTACCGGGAATGCCGGGACGACATGATCTCCTTCGCCAC
CAAGCGTGGCATCCCTGTCAACGTGCCCTGGCGGGAGCTGGCGCCGGAGC
AGCGCCGGTGGGTGCTCGAGGGGGAGGGTTCCTGGGAGGACGGGCTCTGG
TACGGGGTGCGGCGCTTTTTCGACTGGCTCGAAACCAAGAGCTACAAGAT
GCACATCCGGGTCCTCCTCTCCAAGTACCGGGCCTACACCCTCTGTCCCG
CCTGCGGGGGGGCGCGGCTCTCCCCCGATGCGCTCCTGTGGCGGCTCGGG
ACAACGGAGGAGGCCGACCGGGTCCTGCCGCCGGAAGAGCGGTTCCGCCC
CCAGGGGATGGAGTTGCCCGATGAGGTTCTACGCCACCTCCCCGGCCTCA
CCATCCACGATGTCATGCTCCTGCCCCTGGAGCGCTGCTCGTCGTTTTTC
GGCGGCTTGGCGCTGCCGGCCCCCCTGGACGAGGCGGCGGACCTGCTGCT
GCGGGAGATCCGCGTCCGCCTGGGCTACCTGGGGGAGGTGGGGCTCGGCT
ACCTCACCCTGGACCGCCAGTCGCGCACTCTCTCCGGGGGCGAGGTGCAG
CGGATCAACCTGACCACGGCCCTGGGTACCTCCCTGGTGAACACCCTGTT
CGTCCTGGACGAGCCCTCCATCGGCCTCCATCCCCGGGACATGGGGCGGG
TGATCGGCGTGCTGCGGCAGTTGCGGGACGCGGGCAACACCCTGCTGGTG
GTGGAGCACGACCCCCAGGTGATGCTCGCCGCCGACCGGTTGCTCGACCT
TGGCCCCGGTCCGGGCGAGCGGGGCGGCGAGGTGGTCTTCTTCGGCCTGC
CCGCGGCAATTCTGAACGAGCAGCGCTCCCTGACCGGCGAGTATCTGGCG
GGGCGGAAACAGGTGGCCACCGGCGACGGGCTCCGGCCGGTTAGGGAGGG
GCATCATTCCCTGGAAATCCTCGGCGCCGCCGCCCACAACCTCACGGGGG
TCGACGTCCGCATTCCCCTGAACCGCCTGGTCTGCATCACCGGCGTCTCC
GGCTCGGGCAAGTCGACCCTGGTCCAGGAGGTGCTGCACCGGGGGCTCCT
GAAGCTCAAGGGGAGGCCGACGGAGCCGCCGGGGGCGCACGCTGCCATCC
GTGGTGCGGAGCTGATCGGCGATGTCGTTATGGTGGACCAGTCCCCCATC
GGCAAGACCACCCGCTCCAACCCCGCCAGCTACGTGGGGGCCTTCGACGC
CATCCGCAAGCTCTTCGCGGCCGAGCCCCTGGCCAAGGAGCGGGGCTATA
CCACCGGCACGTTCAGCTTCAACGCCGGCACCGGCCGCTGCCCTTCCTGC
GGCGGCAACGGCTTCGAGCATGTGGAGATGCAGTTCCTCTCCGACGTCTA
CCTCCGTTGCCCCGACTGCGACGGCAGCCGCTACCGCCCCGAGGTGCTGG
AGGTGCGGCTCGTGCCGGGAGGGGGCGGGCGCCCCCTGTCCATCGCCGAC
GTGCTGGAGATGACCGTGACCGAGGCGGTGGCTTTTTTCGCTGATCAGCG
GGAGGTGCTCCGGCGCCTGGAACCGCTGGAGGCCGTGGGGCTCGGCTACC
TCCGCCTGGGCCAGCCGGTGCCGACCCTTTCCGGCGGTGAGGCCCAGCGC
CTGAAACTTGCCGGCCACCTGGCCGAAGTGGGGGGGCGGAGACGCACGGG
GGCGGGGAACCTTTTCCTGTTCGACGAGCCCACCACCGGCCTCCACTTCG
AGGACATCGCCCGGCTCCTGGCCGCCTTTCGCCGGCTGCTGGAGGCCGGG
GACTCCCTGGTGGTGATCGAGCACAACCTGGACGTGATCAGCGCCGCGGA
CTGGCTGATCGACCTGGGGCCCGAGGGGGGCGACGCCGGGGGACGGGTGG
TCTGCGTCGGGACACCGGACCAGGTGATGACGTGCCCGGAAAGCCATACC
GGCCGAGCCCTGCAGGAGTACGGGGAGGAACTGGCCGCCCTGGTGCGGGC
ATCGACTCAGCCGGCGGCGGAGGCGCTCCCCGCCGTGGTGCCGGACCGGT
CCATCCGCATCGTCCATGCCCGGGAGCACAACCTGAAGAATGTCACCATC
GCCGTGCCCCGTGACCGCTTCACGGTCATCACCGGCATCTCGGGGAGCGG
CAAGTCCACCGTGGCCTTCGACATCCTCTTTGCCGAGGGGCAGCGGCGCT
ACCTGGAATCCCTCAACGCCTACGCCCGCCAGTTCGTCCAGCCCGCTGCC
CGTCCCGACGTGGACGCGGTCCTCGGCATCCCGCCCACGGTGGCCATCGA
GCAGCGGACGAGCCGGGGCGGGCGCAAGAGCACCGTGGCGACCATGACGG
AGATCTACCACTTCCTCCGCCTCCTCTTTGTGAAGCTCGGGGTCCAGCAC
TGCCCCGACTGCGGCATCCCCATCACCCCCCAGACCCCGGACGCCATCGC
AGCCCGGCTTCTGCGGGAGCTCCGGGGGAAGCGGGTGGCGCTCCTGGCAC
CGCTGATCACGGCCCGGAAAGGGTACTACACCGACCTGGCCGCGTGGGCC
GCGGGCAAGGGCTTCACGCACCTGCGGGTGGATGGCGTCATGACCCCGGT
GGAGCCCTGGCCACGCCTCGACCGCTTCCGGGAGCACGACATCGACCTGC
CGGTGGGGGAGATTGCCGTGTCGGCCAAAGGGGAGGGGGAACTGCGGCAG
CTTCTCGACCGGGCCCTGGTCTTCGGCAAGGGGGTGGTGCGGGTGGCGGT
GACGCACGCCGACGCCGGCAGCCAATCGAAAGCGGAGTTGCTCTTTTCGA
CGCTCAGGGCCTGCACCTCCTGCGGCCAGAGCTTCCCCGAGCCCGACCCG
CGGCTCTTTTCCTACAACTCCCGCCACGGCTGGTGCCCCCGTTGTTTCGG
CACGGGGCTGGAGATCCCCGGCTTCGACGCGGAGCAGACCGGCGAGGAGA
TCTGGTGGAACGAGTGGTTCGAGGGGGAGGAGCAGACCTGCTCCGCCTGC
CGCGGCGCCCGGCTCAACCCCGAGGCCCTGGCGGTCCGTTTCCGGGACCG
GAATATTGCCGAGCTGACGGCCCTCACCGTGATCCAGGCTGCCGCCTTTA
TCGCCGAACTGGGTCTTGAGGGGCGGGAGGCGGCCATCGCCCGCGATATC
GTGGCCGAGATCACGACGCGGCTCGCCTTCCTGGGCGAGGTGGGGCTCGG
GTACCTGTCCCTCGACCGGGCGGCCCCGACCCTCTCCGGCGGCGAGGCCC
AGCGGATCAGACTGGCGGCCCAGCTGGGCTCGAACCTGCGGGGGGTCTGC
TACATCCTGGACGAGCCCACCATCGGCCTCCACCCCCGGGACAACCGGAT
GCTGCTGGACACCCTGCGGAAACTGGAGGGGAAGGGGAACACCATCGTGG
TGGTGGAGCACGACGAGGAGACCATCCGCCGGGCCGAGCACGTCATCGAC
CTGGGCCCCGGCGCCGGGGTCAACGGCGGCCTGGTGGTGGCCGAGGGAAC
CCTGGAGCAGGTCATGGCGGCCCTGGACTCCCTCACGGGGCGCTACCTGG
CCGAGCCCCTGCGCCATCCCCTGGTGGAGCGGCGACCTGCGCCGCCGCCG
GATGCGCCGGCCATCCAGGTGTTGGGGGCCACCCTCCACAACCTGCGGGA
GATCGACGTGTCCTTCCCGCTCCGGCGTCTGGTCTGCGTGACCGGCGTCT
CGGGGAGCGGCAAGAGCACCTTGGTGCGCAACGTTCTCCACGCCGGGCTC
CAGGGGCTTCTGGCCCACGGCAGGGGGGCCCATGCCGTGGCCGGGTGCCG
GGAGATCCGGGGCTGGGACCAACTCACCCGCGTGCTGGAGGTGGACCAGA
CCCCCATCGGCAAGACGCCCCGTTCCTGTCCCGCCACCTACGTGGGATTC
TGGGACGCCATCCGGAAACTCTACGCCGGCACTACCGAGGCGCGGCTGCG
GGGGTACGGCCCCTCCCGCTTCTCCTTCAACGTGAAGGGGGGGCGGTGCG
ACGAGTGCGAGGGGCAGGGGGTGAAGACCATCGAGATGAGCTTCCTCCCC
GACGTGAAGGTGGCGTGCGAGGTGTGCGGCGGCCTCCGCTTCACCCCTGA
AACCCTTATGGTCCGCCATCGGGGGAAATCCATCGGCGACCTCCTGGCCA
TGAGCGTGGACGAGGCAGTGGAGTTCTTCGCGGCCCACCGGTCGATCCTT
CACCCGCTCCAGCTTCTGCAGGACGTGGGGCTCGGCTACCTGACCCTGGG
CCAGCAGAGCCCGACCCTTTCCGGCGGCGAGGCCCAGCGGATCAAGCTCG
TTACCGAGCTGGCCAAGGCAAAGCCGGTGAAGGATGCGCTCCGGGTGCCT
CGCACCGCCTCCCACTCCCTCTACATCCTGGACGAACCCACCATCGGCCT
CCACATGGCTGATGTGGAGAAGCTGGTACGAGTCCTGCACCGGCTGGTGG
AGGCGGGGAACTCGGTCATCGTCATCGAGCACAACCTGGACGTGATCGCC
GAGGCCGACTGGCTCATGGACCTGGGGCCCGAGGGGGGTGACGGCGGCGG
GCGCATCGTGGCCCGGGGGACGCCGGAAGAGGTGGCCCGGATGGGGGATG
TGTCCCACACGGGGAGGATTCTCGGGGAGTTTTTGCGGGAGCGGCGGCGC
GCCGGTCCGTCAGCGTAG
>GSU1078 chromosomal replication initiator protein DnaA, truncation
TTGCGCCCGCGCCCGGGCAAGGCGCGCTCTTCTAGGCCGTTTCCCGCCAT
GCAACTCGTCTTCGACTTTCCCGTCACCCCCAAATACTCGTTCGACAATT
TCGTGATCTGTGCCGGCAACGAGACTGCCTGCCGTTTCGCCCGGCGCCTG
ACGGACGAAAGCGGTTCGGAAAATCTCCTCTACCTCCATGGGCCCTCCGG
TTCGGGCAAGACTCATCTGCTCATGGCAATGGGGGCCTGTTTTGCGGGCC
GGGTCGGGCTTAGGGCAGTGCCATGCATCTCTTTCAAGGATGTTGACGAG
ATCTACCACGGCGAGTATCCGGCCGAAGAGGTCTCAAGGTTGGCCGAGCG
TTTTCGCGGCGCGCCAGCCCTTCTTGTGGATGATCTCCACCTGATCCCCG
ATCAGCAGAGTGTCCGGGTGGAGCTCTGGCAGCTGTTCAACGACTTCTAC
CAGGCCGGCCGGCCCATAGCCATCACCGGGCTCAACCCCCCCAACGAACT
TCCCACCCTCGATGGTCACCTGACTTCGCGTCTGCTCTGGGGGCTCGTGG
CGAAAACCGATATTTCGGACGACGATTCCCGTCGCCGCATCATGCAGAAG
CTGGCAGATGACCGTCAAATCATCCTTCCCGCCGACGCGGTCGACTACCT
TCTGGTGCATGTACGCCGCGACGTGCCGTCCCTTGTTGCCGCGCTGGACG
CGATAACCCGCTATGCCTTCAGCGCCAAACGGAAGATTACCATGCGACTG
GCGCGCGAGGCACTGGCGCTTCTCTAG
>GSU2170 ISGsu7, transposase OrfA
ATGGAAAAGGATGTCAGTGTCTCCGGTGCGGCGGAAGGAGAGCGTAGCTC
GACTGGAGCAGCACCGGAAGTCAAACGTTGGAGCGCCAACCGCAAAAAGG
AGGTTGTCCTGCGGTTGATGCGCGGTGAACCAATCGATGCCTTGTCCCGT
GAGTTGGGCATCGAAATCTATCGCCTGGAAGAGTGGCATCAGAAAGCACT
CCAGGGGATAGAATCTGCTCTCAAGGCTCGTGAAGGTGATCCGTTGGCAG
CGGAACTCGATGCAGCCTTCAAGCGCATCGGTGAGATCACCATGGAAAAC
GAGCTACTGCGGGAGAAAGCGAGGCGTGCCCACCCTTTGGCCCAGAGGAG
ATCGAAGAAATGA
>GSU1711 integrative genetic element Gsu5, resolvase
ATGGCAATGATAGGTTATGCAAGGGTGAGCACTGAGGATCAAGACCTGAC
AGCACAGGTGAAGCAACTAACTGAGGCCGGTTGTGATCGTCTCTACCGGG
AAAAGGTGTCAGGTGTGAAGCGTGATCGACCTGAACTGGTGGCGATGTTG
GATTACGTGCGTGAGGGTGACGTTGTGGTGGTCTGCAAGCTGGACAGGAT
CGCCAGGAGTACGGCACACCTTCTTGAGATAACCGAGACGCTAGAGAGGA
AGGGCGTAGCCTTTCGGGTGTTGAACCTGAACCTTGATACCACAACGCCC
ACAGGCAAGCTCATGTTGACAATGTTGGGGGCAATCGCCACGTTTGAACG
GGAGATGATGCTTGAGAGGCAACGGGAAGGGATCGCCACGGCGAAGGCAG
AGGGACGCTACACAGGGCGGAAGGCCACGGCGAAGGCAAAGGCGGGGGAA
GTGTTGAGCCTCATTGCACAAGGCAAGGGAAAGCAGACCGTAGCGGATGA
ACTTGGGATCGGGGTAGCATCGGTTTACCGGATCATTCAGGAGCACAAGG
GTTCGGTTGGCAATGCCTGTTGA
>GSU2561 conserved domain protein
ATGACGGACGTCCAGAAGGAACTGCAGAAAATTCGCGGCATCGGCGAGGT
GCTGGCCAAGCGGCTGGCCGAGGCGGGGCACGACACTTTCGAGAAGATCG
CCGCGGCCGGCGAAGAGGGGCTCAGGGCCATCAAGGGGATGAATCCCCGT
TCGGTTGTCTCAATTGTTGCCCAGGCCGCCGAACTGGCTAAGGGGAAGGC
TGAGGACCGGGCCCGGCGCGTGGAAGAGCTGAAGGCCGCCGCCCTGACCC
TGCGGGAGCAGGTGGAGGGGATCGCCCGCACGGTACGCGAGCGCTTTGCC
GATGAACTGGAAAAGAAGACGGCCCGCCGGGTGGAGAAGGAGTTACTCAA
GGTGGTGACGACCCTGGAAAAGGTGGAAGGGAAGATCGGCCGCCGGGTGA
AGCGGGCCGGCAAGGGGCTCGCCAAGGCCGAAAAACGCCTGGCTGGTCTG
GCCGATACGGGGCTCAAAGAGGTCGAACAGGGACTGCGGCGGACGCGCAA
GGCCCTCAAGCGGGTGCTTGCCTGA
>GSU0167 conserved hypothetical protein, truncation
ATGCCCCGCCAACCACGCCTCGACATACCAAATATCTTGCATCACGTCAT
CGTCCGCGGTATCGAACGCCGCGACATCTTTGACGATAACCACGACAGGG
CGCGTTTCGTCTCCCGTCTGTCGGAACTTCTCACCCAGAGCGGCACCAGA
TGCTTTGCCTGGGCGCTCATGTCCAATCACTTCCATCTGCTGCTGATGCC
CACCACGGTTCCCCTGGCGCAGACCATGCGCCGCCTGCTCACCGGCCATG
CCGTTTATTTCAACCGCAGACACAAACGCACCGGCCATCTGTTCCAGAAC
CGCTAG
>GSU2593 ISGsu6, transposase OrfA
ATGATCGGAAAGGAAGAGTGTATGGAAGTCAGAATTCTCAAGAAGCAGGG
CAAGAGCATCCGGGAGATCTCGCGTATCACCGGACTTTGCCGCAACACGG
TCAGGAAATTCCTCAGGTCGACCGCTGATCCCAGGTACAAAGAACGAGCG
AAGCGACCGGGGAAGCTTGACCCATTTAAAGCGTTTCTCGAAGAACGGGT
GAAGGCGGCTCTGCCGCATCGGATTCCCGCGCCGGTGCTTGCTCGGGAGA
TCAAAAGCTTTGGCTACGATGGCGGCGAACGCACTGTCAGAACGTTTTTG
GCGACCCTTTATTCCCGCATCACGCCGGAACCCGTTGTCCGGTTCGAAAC
GGAGCCAGGCAAGCAGATGCAAGCCGACTGGTGCGAACTGCGCAAGGGCA
AGCACCCGCTGTACGCATTCGTTGGAACGCTTGGTTTCAGTAGAGATTCG
TTCGTTGTCTTCACCACCAGCCAAGCGTTCGACGTCCTTCGGGAATGCCA
CGAGATGGCATTCTCCTTCTTCGGCGGGGTCCCGCGCGAAGTGCTCTATG
ACAACATGAAGACCGTCGTGCTGGAGCGAAACGCCTTCGGCGAGGGCAAC
CACCGTTTCCACACCGGCCTGTGGGACACGGCAAAGCATTTCGGGTACAT
CCCCCGGTTGTGCAAGCCGTACCGGGCCAAGACCAAGGGAAAGGTTGAGC
GGTTCAACCGCTACCTGCGGTACAGCTTCTACTACCCGTTGGTTTCGCGC
CTGAAGCAGGCAGGACTAACTCTCGATGTCGCAACCGCGAACATCGAGGT
CAGAAAGTGGCTCAACGAAGTAGCCAACTGCCGCATCCATGGGGAGACCG
GCGAACGCCCCTGCGATCGGCTCGAGATCGAGCGGTCAGCGATGCTGCCG
CTGCCGCCAAGGCTTGCAGTCGAGCCGGACAAGCCGCAAGTCATTGCTGC
CATGCCGTGGCCGGTTATTCCCCTTCAGCGCCCCGCCTCCTTCTACGATC
AGATCCTTCAGGAGGGGCGGCTATGA
>GSU3266 DNA helicase II, putative
ATGGACTATTGCGCCGATCTCCATATCCATTCGCCCTTTTCCCGGGCAAC
GAGCAAGGAGTGCGACCCTGCCGGGCTTGCCGGGTGGGCGAGGGTGAAGG
GGATTCAGGTGGTGGGCACGGGCGACTTTACCCATCCGGGGTGGTTTGCC
CGGCTGCGGGAGGTGTTGGAGCCGGCCGAACCGGGCTTCTTCAGGCTGCG
GGACGAGAATGCCCCCGCCCCCTTGGCCGGACTCGCTCCTTCAACCGCAC
CGGTCCGTTTCATGCTCACCGCGGAGATCAGCTGCATCTACAAGCGGCAC
GGGGCGGTGCGCAAGGTCCACAACCTCCTCTACGTCCCCGACTTTGCCGC
TGCCGAACGGGTCAACGCCCGGTTGGCCGGCATCGGCAATATCGAGTCCG
ACGGCCGCCCCATCCTAGGCCTCGACTCCCGGAATCTGCTGGAAATCCTG
CTGGAGGCCACGCCGGACGGATTCCTGGTGCCGGCCCACATCTGGACCCC
CTGGTTTTCCCTGTTCGGCTCCAAGTCCGGCTTCGATACGGTGGAAGAGT
GCTTCGGCGACCTTGCCCCTCACGTCTTTGCCCTGGAAACCGGCCTTTCG
TCCGATCCGGACATGAACCGGCTGATTTCCGCCCTCGACCGGTTTGCCCT
CATCTCCAATTCTGACTGCCATTCCCCGTCCCGACTGGGGCGCGAGGCCA
ATCTCTTCAGCACCGGCTTCGATTTCTTTTCACTGCGCGACGCCCTGAAG
GGCAACCACCGCGAAACCTTCCGCGGTACCGTGGAATTCTTTCCCGAGGA
AGGGAAGTACCACATGGACGGCCACCGGGACTGCGGCATCCGCTTCGAGC
CCGACGAGACGCGCCGGCATGGGGGACGCTGCCCCGTGTGCGGCCGTCCC
CTCACTGTGGGGGTGCTCCACCGGGTGCTGGAACTGGCCGACCGGGATAC
GCCGCTCTTTCCCGACGATGCCCCTACGTTTTTCAGCCTGGCGCCGCTGA
CGGAAGTGGTGGGAGAAATCCTCGGAGTGGGCCCGGCCTCCAAGCAGGTC
ATGAGCCACTACGTCCGGCTGATCGAGCGGTTCGGTTCGGAGTTGGATAT
CCTCCTCCGGGTCGATCCTGGCGAGATTGCCGTCGTGTCGCCGGTTCTGG
CCGAGGCGATCGTCCGGATGAGGGAGGGCCGGGTGATCCGCCAGGGGGGC
TTTGACGGCGAGTACGGAACCATCAAGGTCTTCGAGGAGGGTGAGGTGGC
TCGGCTGTCAGGACAGGGGGGGCTTTTCAGCGACGGCGCTCCATCCCGGC
GGGGGCGTTCCAAAGCGATCAGCCGGCCTCCGGCAGCCAGCGGGCGGAGA
TCGGTGACCCCGCCCGATCCGGCGCCTGCCGCGGGACCCGATCCCGGCCA
GGCCGAGGCGCTCGCCTGCGATGCATCCCGGGTGCTGGTGGCCGCTGGAC
CGGGTACCGGCAAAACCTACACCCTGGTGGCGCGGCTTGCGGCACTGCTT
GCTGCGCCGGGCACGGACCCGGCCCGGGTCTGCGCCATCACCTTCACGAA
CCGGGCAGCCGCCGAGGTGCGGGAGCGATTGGCCGCGGTGGCGGGCGAGG
CTGCCGGACAGGTGTTTGTCGGCACTTTTCACCGCTTCTGCCTCGACTGG
CTCAGGCGCGAGGAGCCCGACCGGGTCGTGGTGGGGGACGAAAGCCGGGA
GCGGCTGTTGCGGCGCCTCTTTCCCGAAATCGGTGTCCGGGAGCGAAGCG
GCTTGGCCGCGGAGATCGCCGATTTTCTGCATCGCGACAATGGCGGGGAC
GCACCGGAGCCGGTGCGTTTCTATCTTGACGAACTGGCCCGGCGCGGCGC
CATGGACTTGGACGACGTGGTCCCGGCCCTGGTCCGCCGCCTGAGAGGCG
ACGAGACCTTCCGGCGGCGGGTGTGCGCCGGCGTCGCCCATCTCTTCGTG
GACGAATTCCAGGACCTGAACGCTCCCCAGTACGCCTTGGTGGAGATACT
GGGGGAAGAGGCCACGATCTTCGCCATCGGCGACCCAGACCAGGCCATCT
ATGGCTTCCGGGGTAGTGATCCCTCTTTTTTCTTCCGTTTCGCCGACCTT
CCCGCCACCCGGCGGCTGGACCTCAGCCGCAACTACCGGTCGGCGGCGCC
CCTCGTCGAGGCCGCATCGGCCGTCATCGCCCACAACCGGCTCAGGAGCG
GCATCAGTCTAACGCCTACCACGGCGCGGGAGGGAGCGATCGAGTTGTAC
AGGGCTCCGACGCCGGCGGCGGAGGCCGAGTTTATCGTTCGGCGCATCGA
GGAGCTCATGGGGGGGATCAGCAGTTTCTCCATCGCCTCGGGGCGGGGCG
GCGACCAGGACAGCCGCCGGAGCTTCGGCGACATCGCCATACTCTACCGG
TTGGCGCGGCAGGCCGACGAGTTGGCCAACGCCCTGGACCGGCGGGGGAT
TCCGTTCCAGTTGGTGGGCGCCGTTCCCTACTTCCTCGGCCCGGTCGCGG
GCGCGGCCACCCGGTTTGTCCGAGCAGCGGCGGGGAGTACGGAGCTGGCC
GACTGGCTGGCTCTGGCACAGGATCTGCCGGGGGTCGGCGAGGGTACCAT
CCGCCGGCTGGAAGAGGCCCTTCCCCTGACCGGCGATTTCCCGGCGCTCG
TGGCCGGTGTCGAGCTGCCGCCCCCTGTTGCGCATCGGATGGCCGAGCTG
ACTGCTCTCCTTGAACGCTTCCGGTCCGTGGCCGGTCGTGAGGGAATTGC
TCCGGCCCTGGGTGAAGCCCTGACCCTGTTCGGCACGGATCAGGGGCATG
CCGACTGTAGGCGGCTCCTGGCCCTTGCCGGAAGCTTCGGCCGGGACATC
GTCGCCTTTGACCGGCATCTGCGGGAGTATGCCGCCGAAACGGTTTATGA
CGAGCGGGCCGAGGCGGTGGCGCTCATGACGCTCCATGCCTCCAAGGGTC
TGGAATTCCCCGTGGTCTTCCTGGCGGGGTGCGAGGAGGGGCTTATCCCG
TGCACTCTCTGGCGGGACGTGGATGTGGAGGAGGAACGGCGGCTTTTCTA
TGTGGGTATGACCCGGGCGAAGGAGACGCTCGTGCTCAGCGCCTCCTCTG
AACGCCCCTGGGTCAGTCCTGCTGAGCGGCCGCTTTCCCGCTTCGCGGGA
GAAATCCCTGGACGGTTGATCCGGCAGCCGGAGCCGGGCCGTGGCGGCCG
GCGGAAGCCGAAGGGGGAGCAGCTGGACCTTTTTTGA
>GSU3084 hypothetical protein
GTGTTGCGTAAACATCTCATACTGCTTGAGGAACTGCAGGAGCTCGATCT
GAAGATCGACGGTCGCCAGGGAGAACGGCAGGCGCTTCTCGATCAGCTCG
CCGAGCTGGACCGGCAGGTGGAAGAGGCACGGCTCGCCGTGGACGGCATC
AAGGCCGAGCTGGCGGCTGCCGAAGAGGAGAAACTGAGCCTTGAAGCGAA
TCTGGCCGCGGAGGATGAGAATATTGTCCGCTCAGAGGCGCGGCAGAAGG
AAATCAAAACCCAGAAAGAGTACCAGGCGATTCTGAAAGAGATCACTGCT
GCCAAGAAGCAGAAGGGTGAGCTTGAGGAGCAACTCCTCCAGAAAACGGG
ACAAGTTGAGCAGTTCGTTGCCGATATTGTTGCCCGTGAGGGAGATATCA
GCAGTGTAGCGCGCCCGGTACCCTGGACACAAGATAAGAGTCACGCAGCC
TTCTTGAGTTGA
>GSU1359 helicase, putative
ATGCGTTTAGCTCACGGCATATACGAAGCACTTCTCGATGAAGCTTTGCA
GGAGGCCCTAGCCCTGCGGCCGGAACTGCGACGCGTTTTCAGCAAGATCG
ATCAGGAGGAGCAGCCGGCCCTCTATGCCGCCTTTGTCGCCCGGGTACTG
GAGCAGGCGCTGCGAGAGGAGTCGGACCAGGAAAAGCGCCTCGCACTCTG
CAACCGGATTCTTGGCTCCGTGGCTGCTGAGCCGGGTAGGGGGCATCTGG
AAAAGCGCCGTCTGATCCCGGAACAGAAGCCGCTCCTCTTGGAAATCACC
CCGCCCAACTACAACCAATCCGGGCTCCCCCGGCCCCATACCTCTCTTGC
ACAAAGCAGTCTCTTTACCGGAGCAGATGGTCATCTCCAGCTTGTCCATG
AGTTGCTGGCTGAACTACGCTCCGCCGACGGGGTGGATATCCTCGTATCC
TTCATCAAGTGGTCCGGTCTGCGGCTCCTCATGCCGGCTTTTGAAGATCT
GCGTGACCGACAGGTCCCGGTGCGGCTGATCACCACCTCCTACATGGGGG
CGTCCGATGCCCCGGCGGTGGAGTGGCTGGCTGGTCTCCCCAACGTGCAG
GTCCGAGTCTCCTACGACACCGAGCGGACCCGGCTCCACGCCAAGGCCTA
TCACTTCCGGCGGCAGAGCGGCTTCTCCACCGCCTACATCGGCTCAGCCA
ACATGTCCCAGGCGGCGATTACCAGCGGGCTGGAGTGGAACCTGAAAGTC
ACCGCCCAGGACATGCCTCACGTGCTGGAGAAGTTCAGCGTCGAGTTCGA
GACTTACTGGAACAGCCGGGAATTCGTCCCCTTCGATCCGGCCCGGCCGG
AGCAGTTTCGCAGCGCCCTGGCCCGCGCCAAGAACAAGGAGATCAGCGGT
CCGGCGGTCTTTTTCGATCTTACCCCCCACCCGTTTCAGGAGCGGATTCT
GGAAGCGCTGGAGCGGGAGCGCAGCGCCCACGACCGCTGGCGCAATCTGG
TCATCGCCGCCACCGGCACCGGTAAGACCGTGGTAGCGGCCTTTGATTTC
AAGCGCTTCTATGAGCAGAAACAGAAGCAGGCAAAGCTCCTTTTCCTGGC
CCACCGGCAGGAGATTCTCCAGCAGGCACTCGGCACCTTCCGCAACATCC
TGCGGGACCAGAATTTCGGCGAACTGCAGGTCGGGCCCTATGACGCCACC
CGTCTGGAGCACCTCTTCTGCTCCGTCGGTATGCTCACCTCCCGCCGCCT
CTGGGAGCAGGTCGGCCCGGACTTCTACGACTACATCGTCATCGACGAAG
CCCACCACGGCACGGCCGGCAGCTACCGTCCCATCTTCAACCACTTCTCC
CCGCAGATACTGCTGGGACTCACCGCCACCCCGGAACGGATGGACGGCGA
TAACGTGGCCGCCGATTTTGGCAACCGCTTTGCCGCCGAGATCCGCCTCC
CTGAAGCGCTGGAGGAGAAGCTCCTCTGCCCCTTCCACTACTTCGGCATT
GCCGACCCCATCGCCATCAACGGCGATCAGTTCTGGCGCAATGGCAAGTA
CGATGCCGCGGCTCTGGAGAACGTCTATGTCCTCGATACGGCCAACGCCC
GTAAGCGGGTGGCGGCGATCATTGAGGCTCTGAAGCGCTACGAGCCGGAC
GTAGCGAGCCTCAAGGGGATCGGTTTTTGCGTCACCATCCGCCATGCCGA
GTACATGGCCGAGCAGTTCAGCCAGCGCGGCATCCCGTCAGCCCCCTTTG
TCTCCGGCATCGACTCCGACCAGTGCGCCGACCTCCTGGCCCGGCTGAGA
AACGGCCAGCTCACCTTCCTCTTCACCGTGGACAAGCTGAGTGAAGGGGT
GGACGTGCCGGAGATCAACACCGTCCTCTTTCTGCGCCCCACCGAGAGCC
TGACGGTCTTTCTCCAGCAGCTCGGCCGCGGCCTGCGCCATGCCCCGGAG
AAGGAGTGCCTCACCGTCCTCGACTTTGTCGGTCAGGCCCACCGCCGCTA
CCGCATCGACACCAAGCTGAAAGCACTCCTCCCCCGGCACCGCTTCGCCA
TCGACAAGGAAGTGGAGCAAGATTTCCCCCATCTGCCGGCCGGCTGCGCC
ATCCAGCTTGACCGCCTCTCCCGCCAGTATGTGCTGGACAATATCCGGGA
GAACTTCGGCCGTCTGGCGGTGCAGGTGCCGGACCGGCTCCAGACCTTTA
CCAGCGAGACCGGGCAGGAGCTGACCTTTGGCAACTTCATCCGCTACCAC
GATTACGAGCCGGAGGTGCTGCTGGCCAAGGAGTCGTGGAGCGAGTGGAA
AGCCAAGGCCCAACTGGCGCCGATTCCGGTCGATCCCGATCTGGCGCGGC
TGAAGAAAGCCCTGCTCCGGGCGGCCTTCATCAATGGCCCACGGGAAGCA
GAGCTGCTGCGGCAACTGCTGGCCATGCTTGCCGCCGGGCAGGTGATCGA
GGCGCTGGCTCTGGCCGGTTCATCGGCCATGCTGCTCTATTACCGCATCT
GGGGGGATAGGGCGGAGAAGGTGGGGATTGCCTCGCTGGCAGAGGCCTTC
CAACGGCTAGCCGCCAACCCGAGCATCTGCGCCGATTTGGACGAGATTTT
GGCCTGGTCGTTGGATACCACCGAAGTTGCCGGGATTGCCCCGGAGCTGC
CGTATCGTGTGCCGCTGGAGTTGCACGCCCAGTATGGCATTCGTGAGGTT
CAGGCCGCCTTTGGCCGTGCGACGCTGGAGAGCAGCGGCCAGACCGGGGT
CGGGGTGATGCACTTTGCCGAGCAGAAGACCTATGCCCTGTTGGTGACCT
TCCAGAAGACGGAAAAGGAGTTCTCCCCCAGCACCATGTATGCGGATTAC
CCCATCAGCCGGGAGCTGCTGCACTGGGAGTCCCAGGCCAACACCGCCCA
GCATCACACCGACGGGCAGAACCTGATTCATCATCAGGAGCGGGGCTACA
CGGTTCTGGTATTTGCCCGTGGGAAGAAAAAGCGGAACGGGGTTACAGTG
CCGTTCACTTACCTGGGGCCGGTGGATATGGTGAGTTATGAGAGCGAGCG
GCCGATTAAGATGGTCTGGCGGCTCAGGTATGCGATGCCGGTGGAGATGT
TTGAGGATAATCGGCGGGGTGGGTGA
>GSU1712 hypothetical protein
ATGTCCGCCCTAAGACTCGCCCTTCTGTTCCTCCTGCTGGCTACTCCAGC
CCTTGCGAAAGACTTGAACGGAGAGGTTGAGGAACTCAAGCTACAAGTGA
GCACTCTTGAGTACACCATAAATAGTCAACGCTCCACGATCAACCGCCTA
AAGGAACTCCAGGAGGAACACGAGGCCCTCTTAAAGAAACTTGTTATCCA
GTATTGGGAGCTTAAAGAACAGGTCGAAAAACAGAAGAAAGCGACAAGAT
AG
>GSU0762 ISGsu7, transposase OrfA
ATGGAAAAGGATGTCAGTGTCTCCGGTGCGGCGGAAGGAGAGCGTAGCTC
GACTGGAGCAGCACCGGAAGTCAAACGTTGGAGCGCCAACCGCAAAAAGG
AGGTTGTCCTGCGGTTGATGCGCGGTGAACCAATCGATGCCTTGTCCCGT
GAGTTGGGCATCGAAATCTATCGCCTGGAAGAGTGGCATCAGAAAGCACT
CCAGGGGATAGAATCTGCTCTCAAGGCTCGTGAAGGTGATCCGTTGGCAG
CGGAACTCGATGCAGCCTTCAAGCGCATCGGTGAGATCACCATGGAAAAC
GAGCTACTGCGGGAGAAAGCGAGGCGTGCCCACCCTTTGGCCCAGAGGAG
ATCGAAGAAATGA
>GSU0043 ImpB/MucB/SamB family protein
GTGAGCGGGGGAGAGCCCAGGCAGCGAACCATCCTCCACATCGACATGAA
CGCCTTTTTCGCCAGTGTCGAACAGCAGGCGAACCCGAGCCTCCAGGGAA
AACCCATCGCCGTTGTCGGCTCCGGCCGCACCGTGGTCACCACCGCCTCC
TATGAGGCCCGGGCCTTCGGCGTCAAGACCGGCATGAACAAGTGGGAAGC
GCTCCAGGCCTGCCCCCACCTCATCCTGGTCGTGGGTGACAACCGCAAAT
ACACCCACACCTCCACCCAGATCAACCGGATCTTCCGGGACTTCACCCCG
GAGGTGGAAACCTTCTCCATCGACGAAGCCTTCCTCGACGTCACCGGCTC
CCTGGCGCTCTTCGGCTCCGCCGAAACCATCGCCTGCCGGATCAAGGCCC
TGATCCGCCATCGTTTCGGCCTGACCTGCTCCATCGGCATCGCCCCCAAC
AAGCTCCTCGCCAAACTCGCCTCTGACATGAAAAAGCCCGACGGCCTCAC
CATCATCCGCCCGGAAGAGGTGACCCGCCTCATGGAGATCATCCCCATCC
AGGACCTCTGCGGCATCGGCGTCAAGACCAGAAAACAGCTCAACAGCCTC
GGCATCCAGACCTGTGGCGAGCTGGGGCGCTTCCCGGTGGAGATCTTGCG
GCGCACATTCGGGGTGATCGGCGACCGGCTCCACCTCATGGGCAAGGGGA
TCGACGATTCCCCCGTGGTCCCCGTCGAGGAGGCCGAAGAGGTAAAGAGC
GTCGGCCACTCCATGACCCTGGACAGGGACCTCACCGCTCGACGGGACAT
CCTCAAATACCTCCTCCAGCTCTCCGAGATGGTGGGCCGCCGGGCACGGC
GCTACGGCGTTGCCGGCAAGACGGTCCATCTCACCATCCGCTATGCCGAC
TTCACCACCGTGGGCAAGCAGCAGACCCGGAACCAGGCCACTAACAGCAC
AGAGGAAATTTACGCCGAAGCGGTGAAGATCCTCGACACCTTTGAGCTGC
TGCAGCCGGTGCGTCTTCTGGGGGTGCGGATCACGAACCTGTGCTACCAG
CGGGAACAGTTGCCGCTCTTCGAGAAGGAACGGAGGAAGGCCCTTGCCAC
CGGGGCCATGGACGCGGTGAACAACAGGTATGGCGACTTCTCTGTCACCT
TCGGGAGCCTCCTTGATGAAGAGGAGAAGGGGAGCTTCGTCATCTCCCCG
GCCTGGCGGCCGGAGGGGATCAGGAATGTGGAGGTGAAGTGA
>GSU1021 hypothetical protein
ATGACCGACCTGCCCCAATCCTCCGGCGAACGCCATATCGAACGGATCAT
GGAGGAACTCGATCCCTCATCGGAACGCTTCCAGGTACTGGAAACCGCAA
AAAAGTTCAAATCATCCTGGGTGGAGCTGGGCGACCGGTTGTTCGGCGTG
AACAACCGCAATCTCTACCGTGACTGGGGATACGGCAGCTTCGAGGAATA
CTGCACGAGGGAAATCCGCATCAAGAAGGAAACGGCCCAGAAGCTGACGC
TGGCCTACCGCTTCATGGAGCAGCACGAACCCCAGCTCCTGGCACGGCGG
GAAGAGCCCCGCCCCCTTCCCGACTACCGCTCCATCGACCTCCTGCGCCA
AGCCCGGGAAGAAAAGGGGTTTTCCGACCAGGAATACGCCGACCTGCGCA
AGCGGGTCGTGGAGGAGGAGCGGAGCCACCCCACGGTGCTCAAGCAGTTC
AAGGAGGTTGCCAGGAGCCGTCAGGAGCCGGTGCGGGACCCGGCAGTCAC
GGTCAGGGGCGCCCTTGCCGCGGCCCGGCGCCTCGAAACCGCCCTGGCAG
GGGTGGACGGGCTGCCGGACGGCCACCGGGAAGCGGTGAGAGGACTGGTT
GCCCACCTGGAGAATGAACTGGAGGAACTGGCCGTGACGGTCGAGCACGG
CTAA
>GSU2597 ISGsu2, transposase
ATGCGCGGCTTTGACAGCAACACAGAAGCTCTCTTTACCTATGTGACACC
TGAATCCTTTGTCCCGAAGGACCACCCCTTGCGGGCCATCCGTAAAATGG
CCGACGAAGCCCTGGCAGGGATGGACAAGCTCTTTGACAGCATGTACGCC
ACAACCGGCCGCTCCTCAATCCCACCGGAGAAGCTCTTGAAAGCCCAACT
GCTGATGATCCTCTACTCCATCCGCAGCAACCGGCAGTTGGTAGAGCAGA
TCCATTACAACTTCCTGTTCCGCTGGTTCCTCGGCATGGGCTTGGACGAG
AAAGTCTGGGATCATTCCAGCTTTACCAAGAACAGTGACCGATTGATTGG
CTCCGAAGTTGCCGCCGAGTTTCTTTCCCGGGTTCTGGCCCAGGCAGAGC
GTAAGCGACTGTTGTCCCGCGAACACTTCACCGTTGACGGAACTCTCATC
GAAGCCTGGGCTTCCATCAAGAGCTTCAAGCCCAAGGATGGACCTCCTTC
AGCCGGTGGTGGCGGCAGAAACGATACCGTGGATTTCAAGGGACAGAAAC
TTACCAACGAAACCCATGGTTCCACCACTGACCCTGATGCCCGGCTCTAC
CGCAAGGGGAAGAACAAGGAAGCCAAGCTCTGCTACCAGGGACATACCCT
GATGGAGAATCGTAGTGGCCTCATCATCAGGACCAAGGTGACAACGGCAA
CCGGTTGCGGTGAGCGCGACGCAGCAAAGGCCATGGTGCAGCAATTGCCA
AGGACGACCCGACGGATCACTCTTGGCTGCGACAAAGGCTACGACACAGA
ATCATTCGTCAAAGAGCTGCGTAGGCTAAAGATAACGCCACACGTGGCCC
AGAACACCTCCAACAGGAAATCGGCCATCGACGGCAGAACCACCAAGCAT
CCGAACTACACCATCAGCCAGAAGATCAGGAAACGAATCGAAGAAGGCTT
TGGCTGGATGAAGACCGTGGGCAGCTTACGCAAGACGATGTACCGGGGAA
TCGAGAAGATCGCCATGCAACTTGATCTGCACGCTGCGGCCTACAACCTG
GTTCGGATGAAAAACCTGGGTCTCGGTGTCACCTGA
>GSU2594 ISGsu6, transposase OrfB
ATGAGCGACATCCAGCACCAGCGTATGGTCACGCTCTGCGATGATCTGAA
GTTTCTGTCGGTGGCCGATGTCTACACCGACCTTGCAGATGCCGCGGCAA
AGCAGGAATCCTCCTACATCGACTACCTTGAACAGGTACTCAAGGCCGAG
AACGACGTCCGACAGGGACGCTCGCGCCACACAATGGCAAAGCTCGCCGG
TTTTCCCGCGATCAAGACTCTCGAGGATTATGACTTTGAGTTCGCCACCG
GCGCCCCGAAACAGCGAATTCTGGACCTGTCGGCGATGGCATTCCTCGAG
CGCCGGGAGAATGTAATCCTGCTGGGTCCCAGCGGCACCGGAAAGACTCA
CCTCGCCATCGCGCTCGGCTACCGCGCTACTCAGTGCGGCGTGAAGGTAC
GCTTCATCTCCGCCGCCGACCTGATGCTGCAACTTGAAAGCGCCCAGCGG
CAGGGGCGGTACAAGGAAGTAATGCGGCGCAGTGTCCTGGGGCCGAGACT
GCTCATCATCGATGAGATCGGCTACCTCCCGTTCAGCGAAACGCAGGCGA
ATCTGTTCTTTCAGGTGATCGCCAAAAGGTACGAAACAGGTTCCGTCATC
CTCACTTCGAACCTGAGCTTCGGGGAATGGGAACAAGCCTTCGGCGGCAA
TACGGCACTCACATCAGCTATGCTCGACCGACTGCTGCACCACGCCCATG
TCATTCAGATCAGAGGTGACAGCTACCGGCTGAAAGAGAAGCGACGCGCA
GGTATTCTCGGCCAGCAACTGCCGACACCTCAGATCGATGACTAA
>GSU2489 deoxyribonuclease, TatD family
ATGAACGAGTCAGGTTTTCTCATCGACACCCACGCCCATATCGACGGCCA
CGACTTTGCGGCCGATTTCGACGCCATGCTCTCCCGCGCCTGGGAGGCGG
GGCTTTCCCACATCGTCACGGTAGGGGCTGACCTGGAGTCCAGCCGGGCC
GCAGTGGCACTGGCCGGCCGCCACGAGCGGATCTGGTGCGCCGTGGGCAT
CCATCCCCACGACGCGGGGCGGGTGACCGACCGCTGCTACGACGAGATCA
GGACCCTGGCCCAGGGGAACCCCAAGGTGGCGGCCATCGGCGAAATCGGG
CTCGACTTCTTCCGGGACCGCTCGCCCCGCGACGAGCAGGAACAGGTCTT
CCGCCGCTTCATCAGGCTGGCCCGGGAACTGGCATTGCCCATCGTGGTGC
ACGACCGCGACGCCCACGAGCGGGTCATGGCGATCCTGCGCGAGGAAAAG
GCCCGGGACGTGGGTGGCGTGCTCCACTGCTTCTCCGGCGACCTGGCCAT
GGCCAGGGAATGCGTGGACATGGGCTTCCTGATCTCCATCCCCGGCACCG
TCACCTACCCTTCCAACGAAGCCCTGCGCGAGGTGGTGCGCGGCGTCAAG
ATCGAGCACCTGCTGGTGGAGACCGACTGTCCCTACCTCACCCCGGTCCC
CCACCGCGGGAAGCGGAACGAGCCGGCCTACGTGCGGCTCACCGCCGAAA
AAGTGGCGGAACTGAAAGGGCTCTCCCTGGAGGACGTGGGACGGATCACC
TCCCTCAACGCCCGGCGGCTCTTCGGCATCGGGGAGAGCGACCAGGCGGC
CCGGATCGCCTACCGGATCAGGAACTCCCTCTACCTGAACATCACCAACC
GCTGCTCAAACCGCTGTTCCTTCTGCGCCAAGTTCGACGACTACACGGTG
AAAGGACACCACCTCCGGCTGGACCACGAGCCGGACAGCGCCGAGGTGCT
GGCTGCCGTCGGTGAGCCGGGGCCGGTGGATGAAATCGTCTTCTGCGGCT
TCGGCGAGCCCATGCTCCGCCTCGACCTGATCGTGGAAGTGGCGCGGGAA
CTGAAGAAACGCGGCTTCCGCATCCGTATCAACACCGACGGCCAGGCGAA
CCTGGTCCACGGCCGCAACGTCCTGCCCGAACTGCAAGGCCTGGTGGACT
GCATCTCCGTGAGCCTCAACGCCGCCGACGCCGACACGTACGCCCGCCTC
TGCAACACCCCCTTCGGCACCAACGGCTTCAACGGCATCTGCCGGTTCCT
GGAAGAGGCCCGGCTGTACATCCCCACGGTGGTGGCCACGGCCGTTACCG
TGCCGGGCATCGACGTGGCCGCCGTGCGCGCCCTGGCCGAGTCCCTCGGC
GTCGAGTTCCGGGAGCGCGAATTTGCCGAGGTGGGGTAA
>GSU2391 ISGsu7, transposase OrfB
ATGAGTGCTACGATCTCCCCTGCCACCGGTAAAGCCTATGGCGTTCAGCG
CGTCTGCCTTGCCTGGGGAGTGCCCCGCTCGTCGTTCTATAGCCGTGCAG
GCAGAAAAACATTGCCTGCTGTACTGCTCAAGCGTGGTCCAAAAACACCG
CTCTCTGACGACGAGGTACTTTCTCTCATCCGGACCGACCTGGAGACATC
CCCCTTTGTCGGCGAAGGGCACCGTAAGGTCTGGGGACGACTACGCTTCG
TCAAAGGGATAAAAGTCGGCCGCAAACGAGTGTTGCGTCTCATGCGGGAG
AACAATCTGCTCTCCCCTCACCGGGTTGTTCAGGGACAGCCCAAGGACCA
CGCCGGCAAGATCATCACGGCGGCCCCCAACGTCATGTGGGGTACCGATG
GCACCAAGATCTTCACCCTGGAAGAAGGGTGGTGCTGGTTGTTTACCGCC
GTCGAGCATTGGAATGCCGAGTGCGTCGGTTGGCATGTGACCAAGAATGG
CGACCGGTTTGCCGCATTGCAGCCGCTCGCCATGGGAATCAAGGCCCGTT
TCGGCTCGGTCGGTGCCGCTGCTGCTCGAGGGTTGGCACTGAGGATGGAT
CACGGCAGCCAATACCTCTCAGAGCATTTCCAGAATCAGATCAAGTTCTG
GGGAATTGCCCCAAGTTTCTCATTTGTTGCCGAACCGCAGACCAACGGGG
TGACGGAACGGTTTAATCGGACTATCAAAGAGCAGGTCATCTATGGCCGC
CATTACCGCACAATCGAAGAAGTAAGGATGGCAGTAGCTGACTTCATGGA
TCGTTACAACCGGCTGTGGCTGGTTGAAAAGCTCGGGTTCAGAAGCCCAC
GACAGGCTTTCGAGGAGTATCAACTCAAGAAGGCTGCGTGA
>GSU2171 ISGsu7, transposase OrfB
ATGAGTGCTACGATCTCCCCTGCCACCGGTAAAGCCTATGGCGTTCAGCG
CGTCTGCCTTGCCTGGGGAGTGCCCCGCTCGTCGTTCTATAGCCGTGCAG
GCAGAAAAACATTGCCTGCTGTACTGCTCAAGCGTGGTCCAAAAACACCG
CTCTCTGACGACGAGGTACTTTCTCTCATCCGGACCGACCTGGAGACATC
CCCCTTTGTCGGCGAAGGGCACCGTAAGGTCTGGGGACGACTACGCTTCG
TCAAAGGGATAAAAGTCGGCCGCAAACGAGTGTTGCGTCTCATGCGGGAG
AACAATCTGCTCTCCCCTCACCGGGTTGTTCAGGGACAGCCCAAGGACCA
CGCCGGCAAGATCATCACGGCGGCCCCCAACGTCATGTGGGGTACCGATG
GCACCAAGATCTTCACCCTGGAAGAAGGGTGGTGCTGGTTGTTTACCGCC
GTCGAGCATTGGAATGCCGAGTGCGTCGGTTGGCATGTGACCAAGAATGG
CGACCGGTTTGCCGCATTGCAGCCGCTCGCCATGGGAATCAAGGCCCGTT
TCGGCTCGGTCGGTGCCGCTGCTGCTCGAGGGTTGGCACTGAGGATGGAT
CACGGCAGCCAATACCTCTCAGAGCATTTCCAGAATCAGATCAAGTTCTG
GGGAATTGCCCCAAGTTTCTCATTTGTTGCCGAACCGCAGACCAACGGGG
TGACGGAACGGTTTAATCGGACTATCAAAGAGCAGGTCATCTATGGCCGC
CATTACCGCACAATCGAAGAAGTAAGGATGGCAGTAGCTGACTTCATGGA
TCGTTACAACCGGCTGTGGCTGGTTGAAAAGCTCGGGTTCAGAAGCCCAC
GACAGGCTTTCGAGGAGTATCAACTCAAGAAGGCTGCGTGA
>GSU2127 ISGsu7, transposase OrfA
ATGGAAAAGGATGTCAGTGTCTCCGGTGCGGCGGAAGGAGAGCGTAGCTC
GACTGGAGCAGCACCGGAAGTCAAACGTTGGAGCGCCAACCGCAAAAAGG
AGGTTGTCCTGCGGTTGATGCGCGGTGAACCAATCGATGCCTTGTCCCGT
GAGTTGGGCATCGAAATCTATCGCCTGGAAGAGTGGCATCAGAAAGCACT
CCAGGGGATAGAATCTGCTCTCAAGGCTCGTGAAGGTGATCCGTTGGCAG
CGGAACTCGATGCAGCCTTCAAGCGCATCGGTGAGATCACCATGGAAAAC
GAGCTACTGCGGGAGAAAGCGAGGCGTGCCCACCCTTTGGCCCAGAGGAG
ATCGAAGAAATGA
>GSU2829 deoxyribodipyrimidine photolyase, putative
ATGAACTGCGGACGGATTCGTTCCCTGCTTCAGGGGGGGGAGGCCACGGC
CGGGCCGGTGATATACTGGATGAGCAGGGACCAGCGCGTTGCCGACAACT
GGGCTTTAATCCACGCCCAGAAGCTCGCACTGGCCCGTAGCGCACCGCTT
GGGGTGCTCTTCTGTCTTGCCCCACGTTTTCTCGGCGCGACCGCACGCCA
GTATCGGTTCATGCTCAAAGGGCTGGAGCAGGTTCGGGCCGCGCTGAATC
GGCTTGATATTCCCTTCTTTCTCGTGACCGGTGATCCCAAGGGGGCGGTC
GCGGCCTTCACGAGGCGGCACAGGGTTTCGTATCTGGTTACCGATTTTGA
TCCGCTTCGTGTCAAACGGGAGTGGAAACGGCAGGTGGCAGGGGAGATAT
CAATCCCGTTCGACGAGGTGGATGCCCATAATATAGTCCCCTGCTGGATC
ACATCACAGCGTCAGGAGTGGGGGGCATACACCATCCGCCCAAAGATACA
CCGGCTGCTTCCCGATTTCATGGAGCCGTTTCCGCCTCTGCAACGTCACC
CGTTTCCGTGGCAGGGAGCGCTGCCTTCAGACGCCGAGTGGCGTGAGACT
TTTACGGGGATGACCTTGGACGAATCGGTGCCCGAGGTCAGCTGGCTCGC
GTCGGGAGAAGAGGCAGCGCAGGCCGCTTTGGCCAGATTTCTTGAAGACG
GTCTGGCGGGCTACGCAACCCGGCGCAATAATCCTGCAGTAATGGGACAG
TCGGGATTATCCCCCTGGCTCCATTTCGGCCAGCTTTCCGCCCAGAGGGT
CGCGCAGGCAGCGTTTGCTGCCGCCGCGCCGATAGAATCGCGTGATGCCT
TTCTTGAAGAATTGATCGTACGTCGGGAGCTTGCCGACAATTTTTGCTAT
TACAACGATGCCTACGACCGCTTCGACGGTTTTCCCGAGTGGGCGCAAAG
AACCCTCAACCGGCATCGGCACGATCCTCGCCCCCAGTGCTATGAGCATG
ACGTGCTGGAGCAGGGACAGACCCACGATTCTCTCTGGAATGCAGCACAA
CTGGAAATGGTACGCTGGGGCAGGATGCACGGCTACCTGAGAATGTACTG
GGCAAAGAAACTGCTCGAGTGGACCTCTTCGCCCGAAGATGCCCTCATGA
TTGCCATTCAACTCAACGACCGCTATCAGCTCGACGGCAGGGACCCCAAC
GGATACGCTGGCATTGCCTGGAGCATCGGCGGTGTCCATGATCGTCCCTG
GGCAGAGAGACCCGTCTTTGGCACGATTCGCTTCATGAGCCGCGACGGCT
GCCGGAGAAAGTTCGATACAGATGCCTACGAACGCCGGGTGATTATTAGT
CCTGCCACATGTGCGGGAATAGCTCTGTGTAAATAA
>GSU1365 Mrr restriction system protein, putative
ATGGCACGACAACGAACTAGCCCAATGGAAGAAATGATTTTGGTTGCCAC
CAAGCTCCCCTGGTGGGCGTGCCTGCTGCTGGCACTTGTGTCGTACGCCG
TGCTTCACGTGATGGCAATGCGGCCTGTAATGCCTGCTACGGTTGTCCCC
GGCCAGATGGGTGACGCCGTGGCACGGGGGCTCATTACGACTCTGGCCAT
GTTTGGACAGTACGTGATGCCATTTGCGTTTGCTCTGGCTGCCCTGCTGT
CGGCCGTTAATGAATATCGGAATAAAAAGAGCGGTACTTTCGTCCCTAAT
CATCTTGATGTAGCGCCACCTTCCAGGAAAAGAGTGTCAACAGAAGCTAG
CGTTCCAATGCCCACATCCGGTAATTCCGGAAAGATGAACCGGGATTTCG
ATCATATGCTTCCTGGTGGTGAGGAAGAACTAGCAATTGAGAATCCGCAA
CCTGTCCCATTGCCGCAGCAGTGGGGCATGTCTGTCATTCAAATGATGGA
GTGGAAGCGTTTTGAAATTGTCACCCGGGAATTTCTGAAGATGACAGGAT
ATGATGCCCATGAAACGAAGGTGGGCGCTGATGGCGGAGTGGATATTAGG
GTCACAAAGCCCAGTAACGATACTTTCCAGGGTATTGTGCAGTGCAAAGC
TTGGAATTCGTATCGGGTTGGGGTAAAGCCAGTGCGCGAGCTTTATGGTG
TCATGGCCGCCGAAAAGGCGACGGCTGGTATGGTTATCACATCCGGTACC
TTTACTGCGGAAGCGGAAGAATTTGCTAAAGGGAAGGTCAAACTAATTTC
TGGCGTGAATTTTCTTGAGCTTATTCGAAAATTGCCACCGGAGAAACAAC
AAAGGCTTCTGGATATTGCATTGGAAGGGGATTATCAAACGCCAACGTGC
CCACAGTGTGACCTGAAAATGACACTGCGCGAAAATAAGTCGGGGAAAAA
TCCAGGGTCAAAATTCTGGGGATGTGTCCGGTATCCCCACTGTCGGCAAA
CGCTCGTATATACCGGGAACGGAAGCCGGGTCAGGCTTCCAAGTTGA
>GSU1223 hypothetical protein
GTGTCGGCCTCGGGCCGCGAACTCCATACCCTGCGCGAGGTCAATGGTCT
CGCCCCGGCGGAGCGCGACCGGGTTTACGCCGGACTGATTCCACCCCGGC
TGTTTGAACTGCTTGGAATATCGCACGAAACCCTGCGTGGAGCCGACGGG
CTCGGCAGGGTACGGATTATCGCGCCGGAGGGAATCGGCCTGGTGCGGAT
CGAGGTGAGGGCCCGGCCAGACGACCGGGACACGGTCTTCTTTCTGGAGT
TGGCCGATACCCCCTACCGTCAGATTGAGCTGGCCTTTTGCATCATCGCC
GACCCATGTGCCCCGCGTTTCGATGTGGACAGGGATGCCGAAGGGCGGTC
CAATTACTTCGCCTCTCAGGGGCGGAACGTCCCCGAAGAGATCCGCGCCA
TGGCGGCGGGGCTGTTCCCGAATCAGACGCGCCGCGGCCTCAACCTGTTC
GGCGAGTTCTTTCCGCGATTTGAGCGCTTTGTGGACGCCCTCGGTATGGA
GATGATTGCGGCGGAGCCCCTGACCTACGATAACGCCATCCGCTACGAAA
AGTACGGTTTTGACTATGTCACGGGGAAACGGCTCATGGTGGAGATCGAT
CGGGAATTCAGGCCTGGCGGGATTCTCCACCAACGGCTCGACGGCTCGAC
GCCATTCCGGCTGCCCGGTGCCGAACGGACGGTGCGGGGGCGCAGCTGGG
CCATCCACGACGGCATCATGGACGAGCAGTGGGACGACGTGCGCATCTAC
AAAATGGTCGGTATCCATGCGGGAGTCGATACCTTTCCTGACCGCGAGAG
CGACCTTGTTGGCGAAACACGAGGAGGAGTACGAATATGA
>GSU1822 DNA mismatch repair protein MutS
ATGTCCGAACTTACTCCCATGATGCGCCAATATCTGGAGATCAAGGCTGA
TCATCCTGACGCGATCCTCTTTTTTCGTCTGGGCGATTTCTACGAAATGT
TCCTTGACGATGCGGTCAAGGCATCGCGTATCCTTGACATCACCCTGACT
TCGCGCAACAAGGGGGGCGACGGTGCCGACATTCCACTCTGCGGTGTCCC
TTTTCATTCGGCGGCACCGTATATCGCCAAACTGGTCGAGGCGGGCGAGA
AGGTCGCCATCTGCGAACAGGTCGAGGACCCAAAAAGCGTCAAGGGGATC
GTCAAGCGGGAAGTGGTCAAGGTGGTTACCCCTGGCCTGGTGATTGACGC
CGAAAGCCTTTCTCCCAAGGAGAATAATTATCTTCTGTCTCTTTTCCCCG
GCCCGGACCGCTGGGGGGTTGCCTATCTCGATCTCTCCACAGGTGATTTC
CGAGTAACCGAAACTGATTCAGCCGATGCCGCGTGGGCGGAGGTCGCCTG
CGTCAACCCCCGTGAAATCCTGATGCCCCTTTCGTTCAGGGACGGGGGGG
CGGGGAGTGAACGCCCGGACCTGGCGGCGGGGCGGATGCTCAGCTATGTT
GATGAATGGGTGTACGACGCCGAGTATGCCGAACGCATGGTGCGTAATCA
TTTTGGTGTCGCCTCTGCGGAGGCGGCTGGGTGCGGCAGCATGGACTGCG
GCCTCAGGGCCGTTGCCGCGGTGCTCCACTATCTGCAGCAGACCCAAAAG
GGGGACGTTCGCCATATCAGCTACCTTCAGGCGTACCGTACCCAGGAGTT
CCTGGTGCTGGACGAGTCTTCCCGGCGCAACCTGGAGCTGAACGCCACCA
TTGGCGATGGAAAGCGGCGCGGCTCTCTCCTTGGCTTGCTGGACCGGACC
GTGACGGCAATGGGGGGGAGGAAGCTCAAACAGTGGATTAATTATCCGCT
TGTATCCATAGAAAAAATAAACGAACGACTTGATGCGGTCGAGGAGCTGG
TCGCTGATGCCGAGTTCAGGCAGGGGGTTCGGGCGGCCCTTGACGGCGTC
TATGACCTGGAGCGGCTTAACGGCCGGATCAGCCTCGCTTCGGCTTCGGC
CAAAGATCTGGTCGCCCTGCGCGCTTCCCTGGTACGGTTGCCGTCGCTCA
TTGCCCTTCTGACGCCGGCAGCCTCAACGCTCCTGGCCAGATTGCGCGAC
GGGATTGATCTCCTCGCGGACGTGGAGGAGCTGATCGGCCGTGGCATCGT
GCCAGATCCTCCCTTTGTTCTCCGTGAAGGGGGGATCATCGCGCAAGGGT
ACCACTCCGAGCTTGACGAACTACGCAGCATCAGCCGGGAAGGGAAGGGG
TTCATTGCCCGCCTTGAAGCCCAGGAAAAGGCGCGCACCGGTATTTCGTC
GCTCAAGGTTCGCTACAATAAGGTGTTTGGTTATTACATCGAGGTGACCA
AGTCGAACCTGTCAGCCATCCCGGACGACTACATCCGGCGCCAGACCCTG
GCCAATGCCGAGCGTTTCATCACGCCTGAGCTGAAAGAGTACGAGGAAAA
AGTGCTCGGGGCCGAAGACAGGATCGTTGAGCTGGAATACGCACTCTTCC
AGGATATCCGCCAGCGGGTGGCGGCCCAGGGGGAGCGGATCGCCCGCACT
GCGGACCGGCTTGCGACTCTGGACGTGCTGGCGGCCCTGGCCGACGTGGC
CCACGACCATCGCTATGTCAGGCCGACGGTGGACGAAGGGGACGCCATCG
TCGTCACCGGCGGCCGCCATCCCGTGGTGGAAGCCCTGAACCGGTCCGAG
CGGTTTGTTGCCAATGATGTGCAGCTCGACAACGGTGAGAACCAGTTGGT
CATCATCACTGGTCCCAACATGGCCGGTAAGTCGACCTTCATGCGACAGG
TGGCCCTGATTGTTCTCATGGCCCAGACGGGGTCCTTCGTGCCTGCCGAC
GAAGCCAGCATCGGCGTGGTCGACCGCATCTTCACCCGGGTCGGCGCATC
GGACAATCTGGCGCGGGGCCAGTCGACCTTCATGGTCGAGATGATGGAAA
CCGCGGCGATTCTGCGCAATGCAACGCCGCGCAGCTTGGTCGTGCTCGAT
GAGATCGGCCGGGGAACATCCACCTTCGATGGTGTTTCCATTGCCTGGGC
CGTGGCCGAGTATCTGCACGACACGGAGCGGTGTGCGGCAAAGACCCTCT
TTGCCACCCACTACCACGAACTGACCGAGCTTGCGGTGACACGCAACCGG
GTCAAGAACTGTAATGTGGCGGTGAAGGAGTGGAACGATCAGGTAATCTT
TCTCCGCAAGATCGTCGAGGGAGGGGCCTCCCACTCCTACGGTATTCAGG
TGGCCCGCTTGGCCGGACTTCCGCAGGAGGTTATCGAGCGGGCCAAAGAG
ATTCTCCATAACCTCGAAAAGGGAGAGTATGCCGAAGGGGGCATACCGCG
CATCGCCCGGGGGAAAAGGGCCGGAGCGCCGAAGCCGTCGCCGCAGCTGT
CCCTCTTCGACCAGGGGGACGACCTGCTGCGTCGCCGGATTGCTGGTTTG
AATATTGCAGCTCTCACCCCCCTTGAAGCGCTCAATATCCTGGACGAATT
GAAAAGGATGGTCTGA
>GSU0081 hypothetical protein
ATGACAATGATCGACAATCCCGACCAGGCCCGCCGCCTTGCCCGCGCCAT
CATCTCGGACATCGCCATTTACAACCGGGAAAAGGTCGAGCAGGGGATCA
AGAACGACACCATCTTCGATCTGCTGGCCGAAGAGATTGAGGAGGGGCGC
CAGCATTTCGCCTCGCGGGTGGCGCCGGAGCTGGCGGGGGCCGGCATTTT
CGACTTGGCGCTAGTTGATGTCCTGATCAAGCGGGCGGGCAAGATCGAGT
CGGCCATCTGGTAG
>GSU1421 nuclease SbcCD, D subunit, putative
ATGCCCATCCGATTCCTCCATACCGCCGACCTGCATCTCGACTCGCCCCT
GCGCACGTTCGGCGACCTTGCCCGTGAGCGCCGTCGCGACTTCCTGAAGA
CCTTCGACCGGATCGTAAATCTTGCCATCAAGCGAGAGGTGGACTGCATC
CTGATAGCAGGTGACCTGTTCGACTCCACATCGGTTGGCGCCGAAACGGT
GGGGCGCGTGCAGGATGCCTTTTCCCGGCTGGCGGGGCGTGGGGTGCAGG
TCGTCCTGATCCCCGGCACCCACGACAACATCATCTCGGCGGAGAGTGTC
TACAGCCGCTACCAGTTTACTGGCGTTCATATTCTACGCGAACCGGCGGT
GGATGAGCCGTTGCGGCTGGACATTCGTGGCGAGGCAGTGTTTTTCTACG
GTTTTGCCTATCGCTCGGACCGTTCGCGGGAAGCCCTCGAATCCATGCGT
CGCCGCTCCGGCGACGGCATCCATGTGGGACTTCTGCACGGCTCCCTCAA
GGGAAATCCCGAGTGGGAGATGCGCAAGAAGGACATTCCCTTTTCCGTGG
CCGATCTGGTCGCGCTCGACCTGGACTACATCGCGCTCGGCCACTACCAT
GACGCCGCCTGCCTGGAAGAGGGGGGGCGCGTCATTGCCTGTTATCCCGG
CTCGCCGGAGGGGAAAAAGTTCGGCGAGAACGGTCCGCGTTACGCCTTGA
TCGTGGAGGTGGCGCCGGGCAATGCCTCGGTTGAACGGGTCGAGGTGCAG
ACGCGGATCATCCGGGAGTTCAACGTCGACGCCTCGCTCTTTGCCGAGCC
GGCGGCCCTTGAAGCGGAACTGGCACGTCTTGGCACTTCCGATACCGTCG
GGCGCATCAGGCTGTGCGGGACCGTGGAAGAACCCCTGGACACGGCCAAT
CTGTCCGGGCGGGTCAAAGGGAACTTCGCCTGGCTCGAGCTGGTGGACGA
AACCGATCTTTACAATAGCGGTCATGTGAAGCGGATGGAGCGGGAGGACT
CGATCCGGGGCCTTTTCATCCGCAAGATCCATGAACGATACGACGCAGCA
GGTTCCGACGCCGAACGCGAACTGTGCCGCGACGCCCTCAGGCTCGTCAT
GGGGCGGTTCAGTCGTGGAGGGGGGAATTGA
>GSU2175 trfA-related protein
TTGCCTGACCACCTTCAACCGACGCTGTTCCAGGACGCCGGAAAAACACA
AGCGTCCGACACGTTTCAGGAACTGCTGGCAAGTATCGCTGCCAGACCCA
AATACCTGCCAGACTGGCCGGAGAGTCACCGGGCTTTGCCCAATGAGATT
CTGCGGTCGGCGTTATTCAATTGCCGTAATAGGAACCTGCCTCGCATGTT
CCTGAAGGAGGTTGAGATCGCAGTGATTGGAGATGGTCAGGTTATTTATC
GAGGGGAAGAGCTTCGGCAGGATGACGAGCTGGTCTGGATGCACCTGATG
CATTTGATCAAGAAGAGCCCGCTGGGAGAGTGCGTTGAGTTTACCCCTTA
TTCGTTCATCAAGGCGCTCGGATGGCCCATCAAGGGCCAAAACTATGATC
GGCTCCGGAATTGTCTGAGTCGCATGCAGGCTACGGCGCTGCGCATACAG
TCCAAGCGCCTGCATAGCTTCGTCAGCATTTCATTGATCCAGAAATTCCT
TTCCAGAAACGAGCGGAACGAGAGCCTGACCCGATGGCAGGTATGGGTCG
GGAAGGAGATGCAGTTGCTGTTCGACGAGGAGTTTCTGACCAGGGTGATG
TGGGAGACCAGGCGGTCGTTACCAGACGGCATTGCTTCAAAACTGTTCGG
CTACTGGGCCAGTCATCGGAAACCGTACCCGGTTAAAGTCGAGACCCTGC
TGAAGCTGTGCGGTTCCGGCATGCAGACAAAACACTTCAAGATTGAGCTG
AAAAGGGCTCTCGATCTTCTCAAGCAATCAGGATTTCTGGAAGCATGGGA
GCTTAAGGATGAACTTGTTGTGGTTGTTCGGAGACATTGA
>GSU2164 hypothetical protein
ATGGAACTTACCACTACCATCAACAGCTCGTTTTCCCGCACCCGGGGGAA
TGAACTGAACAAGGGGTACTACCCGACCTTTCCATCTGACGTTCAGACGG
TACTTCGTATCCTGGAGCCGTCATTCGGTTGGAAAAGCCGGCGCTACAAT
GCCCTGAAAACCATATCAGTCCTTGACCCCTGCGCGGGTGAAGGCGAATT
CCTGACCACAGTGACTCGCTGGCTCAAAAGGCGCTTTGCCGCCTCCAACG
GTTCACCTCACGAAATCCTCTCCTATGCCGTTGAACTGGATGCCGGCAGG
TTCGCCAGGATTCACGGGACAACCCAGAAACTCAACTCGTCGTTCTTCGA
CGTGGAGCTTTCCGGCAAGTTCAATCTGATCTTGCTGAATCCGCCTTACA
ACAAGGCCGCCGGCAACGAACTGGTCACCTGGATGGAAAAGACAGCGCCC
CTGCTGGCCTACGAAGGAGTGATGGTTCTCATCATTCCCGAGTATGAACT
GAAAGGGAGGCTGCTGGACATCATCCAGGGTACGTTTACCTTTGCCTACG
CCTTCCAAAGCGAGGAATACGCCCGCTTCAAGCAGGTTGTCGTATTTCTG
GCAAAGAATCAGGACAACAGCAGCGAAATCTATCATCAGTATGTCCGTTA
TCAGAGTTGGCCCGCTGCCAACCTGGGGGATGGAGCGGTACGGGGGAAGT
ACACCGTGCCGGGCAAACGCCAGACTCTTTCCCTTGGCGGCAGCAATGGC
AGCAACCGCCCGCTCATGACGGCCCGCGACCTCACGGAGTTTTACCGGGA
GTGCGAGGACCGGCTCGACAAGGCGGCGGGCATGGTACTGGACAGGCAGT
ATCCGTCGTCTTATGACACCAGCATCCAGCCCATCTCAACCCTGCGAACT
GCGCACGCCGTCCAACTGGCAGCCATGAACAGCCAGATCGAATCTATCAC
CATCAACTGCGACTTCTTCCTGGCTAAATTCATGGTCATCACCAAAAACG
AGACCTTCAAAGATCCGGAGAACAACTGCGAGACGATGGTCTGCAAGCCC
ACCGTCGAAGCATTTCTGATGGACCGCCACGGGTACGTGAAACCGGCCCG
GGAACACGGGTTCGATTATTACGAACTCAACAGCCGGCTCTCATCGGTGC
TTCTGCAGAAACTCTCACGGCTCTACCAGCCCCTTCACGAAATCGGCCAG
GACGAAGCATACCTGGTTGATGAACTGCAGGGGATCGGTCTGCTCCCCCC
GCAACGGGAAGCGGTCAAGGCCGTCATCAAAGCCTACCGCTCAGGACGCC
GGGGTATCGGCATTCGTGCCAATACCGGCACCGGGAAAACATGGATGGCG
AAAGCGGTGAAGTACCTGACCAATGCGAAACGCACGGTGATGGTATCGGA
ACCGCAGCTTATCCCCCAGTTGGCACGGGAATACGCCAACGAGGGGTTCA
ATGTGCATGTCATCGACTCCTGGGAAGTCTTGAAGGAACTTGCCGCAACC
AGGCCGCACGGTCTCTACCTGATCGCTTACACACGGCTCAGGATGCACCC
GAAATACCGGCTATGCATCAGGAGTCGTAAAACCATCGTCAAGAAGGATG
GCAATAGCTCCGTGGAATTCACGGAGGTATGTCCGTCCTGCCGTTCGCCT
CTGACCGAGAAGATCCGCAAGGGTGACAAACCCAAGTGCTCATATTGTGG
CGAACCGCTCTTTACCTATATTCCTGAAAATGACCGCACAGCCATGACCT
ATCGCCGCTGGATCAGCGAGATCGAGAACAACGGCACCGCCACGGAAGCA
CGGACGCACAACAAACAGTTGCCGTACATCCGATTCCTCAAGCGGATTCC
ATTCGACCTCGCCATCTTCGACGAAGTTCATAACGCGGCCAACCTGATGA
GCAATCAGGGGACCGCGTTCATCCGGCTTGCCGCAACTGCTGCCAAAGTT
CTCGCCCTCACCGCCACCGTGACCAACGGTATGGCGAAATCAGTCTACAA
CATCCTGTGGGGGCTGAATCCGAAGCAGATGCGCGACTCCGGCTGGGAGA
TGAAGTCAGCCACAGATTTCCAGACAAAGTACGGAGCATTCAAAGAGGTC
AGGAAAACCGATGAAAAGAACCGTCACCGGGAATCGGAACGTGTCACCAC
CTACGATACCGCCGGAATCTCGCCGGCAGCCCTGATCTATACGCTCCCCA
ACTTCGTCAATGTGGACAGTGACGACTTCGATGACCTGCCACCAGTGGAA
CGGGAGGTCATCAAGTGTCCGTCACACGCTCTGGTGGAAACCTGTCACCG
GAGCATCGAAAACATCATCGAAAAGGCAGACCTGCCACCGGAAGACCTTC
TTGCCGCCGCAGCCGTCCGCAATGCCGCTTTTCTGCGTGTCAGCGACACG
TTCCGGCATTACAACGACGAACTGAAGCTGCGGGATGTTCCGCTCGGCAC
GCTGCACCGGCTGTCGCTTCCCGACGGGGAGCTGCTGCTGGAAAAGGAAG
AAAAACTCATCGCTATCGCCCAAGGGGTGATTGACCGGGGAGAGCGTCTA
CTGGTCTATACCGGGAACACGCAGAAGATCGACATGCGCCCCGTCCTGAA
ACGCATCCTTCGGGATAACGTCCAGGGCGCCAGCATCGAGATCCTGCCCG
ACTCGGTTGCACCTGAAAAGCTGGTTGGATGGTTCGAGCAGGTAACGGCT
CAAGTCGTTGTCGTCTCGTTCCATCGCGTCGCCACGGGTCTCAACTTGTC
CCAGTTCAATAACCTTGTCTGGTACGACTACACGTCCAATACCAGACTGG
CCGAACAGGGGGACGGGAGAATCCGTCGCGTCAACACTGCTGACATCCAC
CGGGCTCAGTTCGGGGAAGTTCGTCCCGTCCGTTATTGGTATCTCACCTC
TTCAGAAGTCCAGGCGTTGCAGCTTGCCTACACCCTGGAGAAGAGGATGG
TCGCCAAGCTGGCGGAGGGGGAAACACCAGACATCGACCCGGCGGAATGC
AGCAGCAGCCAGTCGTTTTCATCCCTGATGACCAAGGCGCTCAAGGAGGG
GAACTTCAACTACTCCGACCCGTCGGCACTGTTGAAGAAGATGACCCAGC
ACGAGAACGCCCGCGTCAGGGGGGACAACAAGGCCGCATCGCCGGTCAGA
AACAACGTCATCCAGCTGCCGGTCACCAGACCGGAACCCGTTCCCGTTCC
ATCATCCATTGCCGTCATCCACTGTGAAGGGGGCAAGGAAATCACCCGGG
AACTGCCGTTCGGCACCTACCAGACCTTACTGGATACAGGAGCGCTGGAA
TTCACCCTGTTCGGCGTCTATCTGCGCCAACCCGCTCCCATGCGGAAGCG
GGCCTGA
>GSU1126 phage SPO1 DNA polymerase-related protein
GTGATCGCTTCCCTGCGCCGCTATCTGGAGGAAGTCCGGGAGACGGGTGT
AGAGGGCCTCCCTCTGGCCGCTCCCGCGCCGAGTGTCTCTGCGGCGGAGG
CGTCCTCTGCGTCTGCCGTTTTCGGTGACGCGCGGGAAACCCTGGACGAT
ATCCGGCGTGAGATGGGGGGGTGTCACCGGTGCGCCCTTGGCGCCGGCCG
GACTAATCTCGTGTTCGGGGTCGGCAATCCCGCCGCGCGCCTCATGATTA
TCGGCGAGGCGCCCGGTCGCGACGAGGATCTGCGCGGCGAGCCCTTCGTG
GGGGAGGCGGGGCAGCTCCTGACCAAAATCATTGAGGCCATGGGCTTCGC
CCGCGAGGACGTCTACATCTGCAACGTGCTCAAATGCCGGCCGCCGCACA
ACCGCGATCCGGCATCCGCCGAGATCGAGGCGTGCTCATCCTTCATGCTC
CGCCAGGTGAAGGCCGTGGCGCCCGAGGCCATTCTGGCACTGGGCACCTT
TGCGGCCCAGACCATCCTTGGTACCAAGGAGCCCATTTCGCGGCTGCGGG
GACGGTTCCACGACTATCACGGCATCCCTCTCATGCCGACGCTTCATCCG
GCTTTCCTGCTGCGTAACCCCGAAAGGAAGAGGGACGTGTGGGACGATGT
CCGGCAGGTCATGGGGCTTCTGGGCAAGGAGGTCCCCGGCAAGGGGGACA
GGAGGTGA
>GSU0650 conserved hypothetical protein TIGR00252
GTGCCGGTAGGAGAAGGCAGCCATCATAACAAGATCCTCGGTGTTCGCGG
CGAGGACCTGGCCGCAGCCTACCTTGAACGGCTCCGTTACCGTATCATCG
ACCGGAACTTCCGCTGCAGGGGGGGGGAGGTCGACATCGTAGCCCGTGAC
GGAAAGACACTTGTGTTCGTCGAGGTCAAAACCAGGAGGACGGCCGGTTA
CGGCGTCCCCCAGTTGGCGGTCACTCCCTTCAAGCAGCGGCAGATTTCCA
AGGCGGCTCTTGCCTGGCTCACCCGCAAGGGCATGTTAGACGTAAACGCC
AGGTTCGATGTTATCGCAATAACCATTCTTTCCCCCGACGCCCCCCGCAT
CGAACATATCACCAACGCTTTCGAGCTTGCCTACTGA
>GSU3377 helix-hairpin-helix domain protein
ATGAGCGGATCCTCGGTGACAACGGCGGGTGGGCCTGAGGGGGTGCGTGA
CCGGCTCATGGCGGTCTACGATCAACTCTTCGCGGCCTACGGACCCCGCC
ACTGGTGGCCCGCAGACACCCCCTTCGAGGTCTGCGTCGGTGCAATCCTG
ACCCAGAATACCAACTGGGGCAACGTGGAAAAGGCCATTGTCCGGCTCAA
GGCTGCGGGGCTCCTCTCCCCGGAGGGGCTGCGCGATGTACCTGTTGCCG
AGTTGGCGGAGACGATCAGGCCGGCCGGTTACTACAATGTCAAAAGCGCC
CGGCTCAAGGATTTTGTCGGGTTTCTCTTCGGCCGCTTCGGCGGTAGCCT
GGAGCGGATGTTTGCGGGAGAGTGGCGGGAACTGCGACGGGAACTGCTTG
GGGTAAGGGGTATCGGCCGGGAGACAGCCGACTCGATCCTGCTCTATGCG
GGAGGCAAACCTTCCTTCGTGGTTGATGCCTATACGAAACGCCTGTTTTC
CGCCCTGGGTCTCGTGGCCCCGACGACCGACTATGAGACCGTCCGCGCAC
TCTTCATGGACAACCTTCCCGAAGACACTACGCTGTTCAACGAATATCAC
GCCCTCATCGTGGAGCATTGCAAGCGGCACTGCACCACCCGCCCCCGTTG
CGGCGAGTGCGGACTCCATCTGTTATGTCGAGCCTGA
>GSU3354 mutT/nudix family protein
ATGGATACCCGCAACAGGATGATTCTTTTCAACGGCCTGGTGGTTAATGT
GGAACAGATGGACGTCCGGATCGGCGCCAAAGGGTGGCACACGTTTCAGG
TTGTGCGGCATCCGGGCGGGGTGGGAGTCCTTCCGCTCCACGAGGACGGA
ACGGTCACCCTGATCCGCCAGCTCCGGCCGGCCGTGGACGATATGCTGCT
GGAGATCCCGGCGGGTCGGCTCGATCCGGGCGAGGAGCCTTCCGCCTGCG
GCCGGCGCGAATTGACCGAGGAGACGGGACTTACGGCTGAGCGGCTCGAA
TCCCTCGGCACGATCCTGACCTCTCCGGGGGTCTTCGACGAGCGGATCCA
CCTGTTTCTCGCCGTCGGTCTTACCCAGGGGGAAGCGACCCCCGAGCAGT
ACGAGGAAATCGAAACCGTGCGCCTTCCCCTGGCCGATGCCCTGGCCCTG
GCCGCCGAGTGCGGAATTCGGGATGGCAAGACCATTGCGGCCCTTCTGCG
GGCCTCGGTGCGCCAGTCATGA
>GSU0227 type II DNA modification methyltransferase, putative
ATGAGGGCGGTCGAGCTCTTCTGCGGCATCGGCGGTTTCGCCGCCGCGGT
GGAGGGGACGGGCGTCCGCGTGGTGGCGGCTATGGACCAGGACGAGGCGG
CCCTTGCCACTTACCGGCTCAACTTCCCCGGCCACGGCGCGCGGAAGGTG
GATCTGGAGCGGGTGAGCGCCTGGGAGCTGACCGCAGGAGGGGTAGACCT
CTGGTGGCTGTCGCCTCCGTGCCAGCCTTACTGCGAACGGGGCGTCCGCC
GGGATCTGGCTGATCCCCGGGCCCGGAGCCTCGTGCATATCCTCAATCTG
GCCGCCAGGATGTCCGATGAGGCTCTGCCGCGCCATCTGGCCCTGGAGAA
CGTGGCCGGCTTTGTCGGCTCCGAAGCCCACGGCCGGCTCACGGAGGTGC
TGTCGTCGCGGGGGTACCGGCTGCAGGAGCGGCTGCTCTGCCCCACGGAG
CTGGGCATTCCCTCCCGTCGCCCCCGCTACTATCTGGCCGCCTCCCGGGA
GTCCCTGGCACCGGCGGAGGTTCTCTCGCCACTGCCCCGGCAGCCTTTGG
CCGAGTACCTTGATCTCCTGCCGGCAAACGGCCAGCCGGCCGAGCTCCTG
CTCTCCCCCGCCATCGTGGAACGGTTCGGCGCGGGCTTCCGCATTCTCGA
CCCTGCCGATCCCGATGCCTACACCACCTGCTTCACTTCGGGCTACGGCA
GGTCCCTCACGGCATCGGGGGCCTACCTGCGCTGCAGCGACGGTGTCAGG
CGTTTTTCCCCCGAGGAGATCGCCCGCCTGCTGCACTTTCCACCGTCGTT
CCGCTTTCCGGAAGAGGTGCCGCTGCGCAAGCGCTGGCAACTGGTGGGGA
ACAGTCTGTCCGTGGCCGCGGTGCGGGAGGTGCTTCGGGCGTTGCCGTTA
CCGGCTGAGGAGGGGTGA
>GSU3083 ISGsu7, transposase OrfB
ATGAGTGCTACGATCTCCCCTGCCACCGGTAAAGCCTATGGCGTTCAGCG
CGTCTGCCTTGCCTGGGGAGTGCCCCGCTCGTCGTTCTATAGCCGTGCAG
GCAGAAAAACATTGCCTGCTGTACTGCTCAAGCGTGGTCCAAAAACACCG
CTCTCTGACGACGAGGTACTTTCTCTCATCCGGACCGACCTGGAGACATC
CCCCTTTGTCGGCGAAGGGCACCGTAAGGTCTGGGGACGACTACGCTTCG
TCAAAGGGATAAAAGTCGGCCGCAAACGAGTGTTGCGTCTCATGCGGGAG
AACAATCTGCTCTCCCCTCACCGGGTTGTTCAGGGACAGCCCAAGGACCA
CGCCGGCAAGATCATCACGGCGGCCCCCAACGTCATGTGGGGTACCGATG
GCACCAAGATCTTCACCCTGGAAGAAGGGTGGTGCTGGTTGTTTACCGCC
GTCGAGCATTGGAATGCCGAGTGCGTCGGTTGGCATGTGACCAAGAATGG
CGACCGGTTTGCCGCATTGCAGCCGCTCGCCATGGGAATCAAGGCCCGTT
TCGGCTCGGTCGGTGCCGCTGCTGCTCGAGGGTTGGCACTGAGGATGGAT
CACGGCAGCCAATACCTCTCAGAGCATTTCCAGAATCAGATCAAGTTCTG
GGGAATTGCCCCAAGTTTCTCATTTGTTGCCGAACCGCAGACCAACGGGG
TGACGGAACGGTTTAATCGGACTATCAAAGAGCAGGTCATCTATGGCCGC
CATTACCGCACAATCGAAGAAGTAAGGATGGCAGTAGCTGACTTCATGGA
TCGTTACAACCGGCTGTGGCTGGTTGAAAAGCTCGGGTTCAGAAGCCCAC
GACAGGCTTTCGAGGAGTATCAACTCAAGAAGGCTGCGTGA
>GSU0512 conserved hypothetical protein
ATGGCCGGGGAGATAGAAGACGCAAAAGTCGGTCTCACCTTTCGGCTTGA
CGGTGGAGGGTACAAGCTCAGCGCGAGCTTTGTGCCGACCGATGAAAAAC
CGCCCATCAACCTCACTTGGATCAAGCAGGCTCTAGCCGCAGCGGGGTTT
GCCGACCTCTATCTCTACGAGCACGCCCTGGTGGAGCTGCTGAAGCGTTA
CAACGCCGCTAGCCAGCCGTTCACCTTTGACCTGGGCGAGCGTCGCAACG
GTTCTTTCACCATCACCTGTACCCCCGATAACCTGGAAGCCCGTCTAACG
ATCATTCCGGCGTACGGCGGCAAAGCGGTCGCTGCGGAGCAGGTCAGGCA
GGCACTGAAGGAAAAGGGGATCGTCTTCGGTGTTGACGAAGAGGCCATCA
ATCGGGCCATTGCCGACGGCGTGGCCTCTGATCTCCTGGTGGCACGGGGA
ATACCACCCCAGTCGGGCACCGATGGTGAACTGGTGAGCTTCGTTCCCGA
GATCCGCGATCGCCAGCCTCAACTCCTCGATGATGACAGGGTCGACTACC
GGAACCTGGGGCAGATTCTCAGTGTCCGTGCCGGCGAACCCCTCATGCGC
CGCATTCCGCCCGTTGAGGGTGTTGCGGGGACCAGTATCACGGGGAAAGC
CATTTCCTCCCCGCCTGCACGGGATGTAGCCTTTGCCCCGAATCTACCGG
GGACTGCCTTTGATGCTGATGATCCCAACCTCCTCGTGGCCGCCGTGGAC
GGCCAACCCGTCCTGGTTGCCAACGGAATCGTCGTCGAACAGGTTCTCCG
GCTGAAGCTCGTCGATCTGTCCGTCGGCAATCTGGATTTCAACGGAACCA
TCGATATCGCCGGAGACGTGGTTGCGGGAATGACCGTCAAAGCCAGCGGT
GACATCATCATTGGCGGAGTGGTTGAGGCATCCAGAATTGAAGCTGGTGG
GAATATTGAGGTCCGTGGCGGTGTCATCGGCCAGGGGGATACCCGCTCCT
CGGCTGCGGAAGCGGGGAGGGACACGGTGCGGATAAGGGCCGGTGGGTGC
GTCTCTGCCCAGTTTGTCGAGAATGCCTTCGTTGAGGCGGGCGACAGCAT
CCAGGTGCAGGAGTTCTGCATGCAGAGCGAACTGGTGGCGGGCAACCAGA
TTGTCGTAGGGCATGACGGCGGAAGCAAGGGGCACGTCATTGGTGGCAGC
TGCCAAGCGATCAATCTGGTCCGGGCGGTAACCCTCGGTTCGCACGCCGG
CGTGCATACCACCGTGAGCGTGGGGGTCGACCCCCATGTTCGGGAACGTT
TTTCCACTGTGCGCCTCAAGCTCCAGGAAAAAGAGCGGGAAATGGACGAG
CTTGCGAAGAAGCTTGAGTACTACGTGTCGCTGCCGTCGGCCCAGCCGGA
ACAGGTTGCGCGCACCCGTGAGGCCAGGGACAAGCTTCAGTCGGTCATTT
CGGAGCTCACGGGGGAAAAGAAGCGTCTCCAGAAGCGCCTGGAACAGGTG
GCCAGCGCCCAGGTCGTTGTGGAACGAGAGGCCCTGGTCGGGGTCGTGAT
ATCCATCGGCGCGAAGGTCTTCCAGGTTGACGAGGATCTGGGCGCAACGG
TCTTCCGCATCGAAGAAGGAGCCATTGTCGCTTCTTCCTGA
>GSU2471 group II intron, maturase
ATGCCCGTGGAGCGCGTCATTGACCGGCCAACTCCGGAAGAGCACCTACT
GGAGCGGATACTTGCCACAGAGAACATGGACCTGGCGTGGAAACGGGTGC
GGGCCAACAAGGGCGCACCTGGCGTCGATGGTGTTACCATCGACGCGTTC
CCCGAACGGTTCCGGCCCCTCTGGGGCGATATCCGTGCATCGCTTGCAAC
AGGTACCTACCAACCACAGCCGGTCCTTCGAGTGGAAATACCCAAACCAA
CGGGCGGCACCCGCCCGCTGGGGATTCCCACCGTCCTTGACCGGCTGATC
CAACAGGCAACAGCCCAGGTGCTCACGCCGATCTTCGATCCGGAATTCTC
CGCATCGAGTTTCGGGTTCCGCCCCGGCCGCTCGGCACACAATGCCGTGC
GGCAGCTGCGGGAGTATCTGCGGCAGGGCTACCGCATTGCCGTGGACATC
GACCTTGCCAAGTTCTTCGACACGGTCAATCACGACCTCCTCATGACAAT
GGTGGGGAGGAGGGTCCGCGACAAGCGGGTTCTCACCCTGATCGGCAGGT
ATCTCAGAGCCGGGGTGGAGGTTGACGGGCGGCTGGAAAAGACCCGCATG
GGCGTACCCCAAGGGGGTCCGCTTTCCCCGCTTCTCGCCAACATCCTCCT
CGACCACCTGGACAAGGAGCTTGAGAGCCGTGGCCACAAGTTCGTCCGTT
ACGCCGATGATTTCGTCATTCTGGTGAAGAGCGAGCGTGCCGGCGAGCGG
GTCATGGGGAGCGTCAGGAAGTATCTGACGAACAAACTCAAGCTCACGGT
CAACGAAGACAAGAGCAAAGTCGCCAGAAGCGGCGACTTGAGCTTTCTTG
GCTTTGTCTTCAAGGGAACCAAAATCCTCTGGTCTGACCAGGCGTACAAG
GAGTTCCGGCGCCGGGTCAGGAAGTACACCGGCAGGAGTTGGTTCGTCTC
CATGGAGTACCGACTGAACAAGCTGTCGACCTACCTCCGCGGCTGGATGG
GGTACTTCGGCATTGCCGAAGCCTACCGTGACATCCCGGAGATCGACGGC
TGGATACGGCGGCGGGTGCGGCTGTGCTACTGGAAGCAGTGGCGGTGGTG
CCGCACCAAGATTCGGAACCTGCTCAAACTGGGTGTACAGCTTGGCACAT
CCATCAGAGCAGGGCTGAACCGCAACGGTCCGTGGGCCATGTCCCGCAGG
CTTGCCGCCCAGCACGGTATGACCAACCAGTGGCTGAAGGATCAAGGACT
TGTATCTGTCAAAGAACTGTGGGTGAAGATCCATTACCCGGCCACGGCCC
GGTAA
>GSU0695 hypothetical protein
ATGAGGCATTATCTTCGCATCATCACCGCGGCGCTTGCCGGGCATCTGCT
CGCCGCAGCGGGCGCTGCCCATGGCTGGCACGATGAAACCCACCTGGCGG
TTGCACGGGCGGCCGGCTACCACAAGTGGTACAACGCGGCAGGACCGGAT
ATCGCCAAGCAGAAGGCGGGAAACATCGAACAGCGCAACCACTACTGCAA
CAACAACCGGGGCGAGGCGGTGACCGTCGGGACGGTCCTCGGCCAGATTG
CCCGCTACAACGATCCATCCGATGAAGAGGGCCATCTCTACGGCGCCATC
ATCGCCGCGCTCCGGGGATACGAACGCTCCAGCCGCGAGGGGAAGTACGC
CGAATACCACCTGGCCTACGCTGCCCACTACCTGGCGGATCTTTCCATGC
CCCTGCACAACACCCCCTACGACGACTTCAACCGGAGGCGCCACGAACGA
AACGACGGCATCGTGGAAAAATCGGTTCTCCGTGACGTTGAGCGTATCCA
GCGGCTCATGGCGCCGGTGGCCCTGGGCAGGGAGAGTTTCGAAGCGGACC
TGGCCCGGGAGATCACGCGAATCGCCAATGGCGCCAGCCGGCTGGCCGAG
CGGATGCGGCGGGAAAACCGGGACATGACCCCGGAGGAGACCTACGGGCA
GCTCGCCCAGAGTGCTGCACTGCTGGAAGCTGTTCTCGGCCGGGTTCAAC
AGCGGGGGGGCGAACGATGA
>GSU2207 DNA polymerase III, delta subunit, putative
ATGAAATCCGACGAACTGGATAACGCCATTGAAAGGGGGGAGATTGCCCC
CCTTTACTATTTTTACGGAGACGAGCCCTATCTGATGGAGCGGGCCGTCA
AGCGTCTCACGGAACGGGTCGTGTCGGCGGATTTCCGCGATTTCAACCTG
GACGTATTCTACGGCAACGAGAGCAAGGGGGATGATATCGCCACTGCCGC
CCAGACCCTGCCCATGTTCGCCGACCGCCGCATGGTGCTCGTCAAGCGGG
CCGGCGATCTGTCGGCCGCTGCTCTCGAAACCCTTGCCGCCTGCGTTGCC
GATCCCGCTCCCCAGACCTGTCTCCTCTTTGTGGGCGACAAGATCGACAA
GCGGAAGAAGTTTTTCCTGGATCTGGCAAAAAAGGGAGAACTGGTCGAGT
TCAAGCGTCCCTACGAGAACCAGCTCGGCGTATTCATCCGTGACGAGGCC
CGGAGTCTCGGCAAGCGGATCGACGGCGCTGCCGTTGAAATGCTCGTCTA
TCTCGTGGGGAACAATCTGGGGGAACTGGCGACCCAGCTGGAAAAGGTGG
CCACCTTTGTGGGTACGAGGGAGACGCTCACGGTAGAGGATGTGCGGGAA
GTGGTATCCGATACCAAGGTGGAAAGCGTTTTCGACCTGGCCAACGCTCT
GGGAGAGCGTGATCTGGGCAAGTCTCTGCGGAGCCTGGCCACTATTTTGC
GGGACGGCGAGGCCCCACTCATGCTTCTGGCCATGATAGCGCGGCATTTC
CGCCAGCTCTGGCGGGTGCGCGAGCTCATGGCCGCCAAGGTCCAGCAACA
GGAGGTCGCCCGCAGAACCGGCATCAATCCCTACTTCCTCAAGGGGGTCA
TGGATCAGGCCCGCAACTTCACCGTGGCAGACCTGCGCCGGGTCTTCGAG
GGGCTCTATGCAGCCGATCTCGCCCTCAAGGGAGTCGGTGGCGGCGGAAA
ACCTTCGCTGGTCATGGAACGGCTGGTGATGGACGTGTGCGGGATGGGAC
GGCGGAAGAGGTAA
>GSU2280 ISGsu7, transposase OrfA
ATGGAAAAGGATGTCAGTGTCTCCGGTGCGGCGGAAGGAGAGCGTAGCTC
GACTGGAGCAGCACCGGAAGTCAAACGTTGGAGCGCCAACCGCAAAAAGG
AGGTTGTCCTGCGGTTGATGCGCGGTGAACCAATCGATGCCTTGTCCCGT
GAGTTGGGCATCGAAATCTATCGCCTGGAAGAGTGGCATCAGAAAGCACT
CCAGGGGATAGAATCTGCTCTCAAGGCTCGTGAAGGTGATCCGTTGGCAG
CGGAACTCGATGCAGCCTTCAAGCGCATCGGTGAGATCACCATGGAAAAC
GAGCTACTGCGGGAGAAAGCGAGGCGTGCCCACCCTTTGGCCCAGAGGAG
ATCGAAGAAATGA
>GSU2279 ISGsu7, transposase OrfB
ATGAGTGCTACGATCTCCCCTGCCACCGGTAAAGCCTATGGCGTTCAGCG
CGTCTGCCTTGCCTGGGGAGTGCCCCGCTCGTCGTTCTATAGCCGTGCAG
GCAGAAAAACATTGCCTGCTGTACTGCTCAAGCGTGGTCCAAAAACACCG
CTCTCTGACGACGAGGTACTTTCTCTCATCCGGACCGACCTGGAGACATC
CCCCTTTGTCGGCGAAGGGCACCGTAAGGTCTGGGGACGACTACGCTTCG
TCAAAGGGATAAAAGTCGGCCGCAAACGAGTGTTGCGTCTCATGCGGGAG
AACAATCTGCTCTCCCCTCACCGGGTTGTTCAGGGACAGCCCAAGGACCA
CGCCGGCAAGATCATCACGGCGGCCCCCAACGTCATGTGGGGTACCGATG
GCACCAAGATCTTCACCCTGGAAGAAGGGTGGTGCTGGTTGTTTACCGCC
GTCGAGCATTGGAATGCCGAGTGCGTCGGTTGGCATGTGACCAAGAATGG
CGACCGGTTTGCCGCATTGCAGCCGCTCGCCATGGGAATCAAGGCCCGTT
TCGGCTCGGTCGGTGCCGCTGCTGCTCGAGGGTTGGCACTGAGGATGGAT
CACGGCAGCCAATACCTCTCAGAGCATTTCCAGAATCAGATCAAGTTCTG
GGGAATTGCCCCAAGTTTCTCATTTGTTGCCGAACCGCAGACCAACGGGG
TGACGGAACGGTTTAATCGGACTATCAAAGAGCAGGTCATCTATGGCCGC
CATTACCGCACAATCGAAGAAGTAAGGATGGCAGTAGCTGACTTCATGGA
TCGTTACAACCGGCTGTGGCTGGTTGAAAAGCTCGGGTTCAGAAGCCCAC
GACAGGCTTTCGAGGAGTATCAACTCAAGAAGGCTGCGTGA
>GSU1044 mutT/nudix family protein
GTGTCGCCAGCCCCCGCACGCCGGCACCGGTTGCGGACAACACCCGCTTC
GACAATCTCCGGAGGCCCCATGCGGTATCCCGATACGGTCAATCTTCCCT
TTAACGCAGCGGTACTCGGCGACTGCTTCGAAATGCTCCATCCCGGCATC
CCCGATGATGGCGCGCCGGGCATCTGGACCATTCTGCGCGGCGGTTCGCT
GGTTGTGGCCGCCCAGGCCGACCGATTGGTTCTCCCCCGTGGGACGTTGC
CGGATGGGCTTGTTGCCGAGTCCGAGCCTGTCCTTATTGCCCGCTGGCAG
GGGCTGCCGGTCAGGGCCGTCCGCATCGGCTCCCGGGCCGAGCTGCCGTC
GCATCTGGCTGCTGAGCCGTTCAACGCAGGCGACGAACGTCTGGATGACG
CAACCCTCACTCTGGGCGGCATTGCCCAGCAGGTCCTGCACTGGGATCTC
TCCAGCGTCCGCTGCCCGCGTTGCGGTGGTGCCACGGAGCGTCTTGCCGG
CGGATGGGGCAAGCACTGCCCCTCGTGCCGGACCGAGCATTTTCCCCACA
TCCATCCCTGCGCCATCATCCTCGTCAGGAGGGGAGACGAGTTTCTCCTG
GTTCGCAAGCCCGAGTGGGCGCCCGGGCGTTATAGCCTCGTGGCCGGTTT
TCTCGATTTCGGTGAGTCGCTGGAGGAGTGCGCCCGCCGTGAGGTGCGGG
AAGAGGCAGGGGTTGAGATTACCGACATCCGCTATGTGGGGAGCCAGTGC
TGGCCGTTTCCGAGCCAGCTCATGGCGGGGTTCGTGGCTGAATACACCGG
CGGCGAGATCCGGGTCGATCCCGATGAAATCGAGGACGGCCGCTGGTTCA
GCGTGGACCGGATGCCCGGTTCGCTCCCCCATCACCGCAGCATTGCCCGG
TGGATCATCGAGCGCTTTGCACTCGGGGACCGGGAAAAGTCATGA
>GSU0057 CRISPR-associated protein Cas1/Cas4
ATGGCTGAGACAGACGGGAGTATTCCTCTCATCCCGGTTCGCATGCTCAA
CGAACACGTCTACTGCCCGCGACTGGCCTATCTCATGTGGGTGCAGGGTG
AGTTCTCCCACAATGAGTTCACGGTTGATGGCGTTATCCGCCACCGCAGG
GTCGATGCTGGCGGCGGAGTGCTGCCCTCCGAGACCCAGGAGGATTCCAG
GATACATGCCCGCTCGGTGAGTCTCAGCTCGGAACGGCTGGGAATTACCG
CCAAGATCGATCTGGTGGAAGGGGAGGGAGCATACGTTTCTCCTGTCGAT
TACAAGCGGGGCAAACGCCCCCATGTGGCCGGCGGAGCATACGAGCCGGA
GCGGGTTCAGCTCTGTGCCCAGGGGCTTCTTCTGCGGGAGCACGGATTTG
CCAGCGATGGCGGCGCTCTCTACTTCGTTGCCTCCCGCGAACGGGTGCCG
GTTGCATTTGATGATGAACTGATCGGAAGAACCCTGGCCGCCATTGATGA
GATGGGACGCACGGCGTTGTCGGGCACGATGCCCCCGCCGCTGGAGGACA
GTCCCAAATGCCCTCGCTGCTCGCTGGTGGGGATCTGTCTGCCGGATGAA
GTGCGCTTTCTCTCCCATTTGTCGGTGGAGCCCCGCCCGATCATCCCGGC
CGACGGGCGGGGGCTTCCTCTTTATGTCCAGTCGCCTAAGGCCTATGTGC
GCAAGGACGGCGATTGCCTGGTCATCGAAGAGGAGCGGGTACGGGTGGCC
GAGGCCCGGTTGGGGGAGACGTCGCAGGTGGCGCTCTTCGGCAACGCGAC
CCTCACGACGGCGGCCCTCCACGAATGTCTGCGCCGGGAGATTCCCGTCA
CTTGGCTCTCCTACGGGGGCTGGTTCATGGGGCATACCGTCAGCACGGGG
CACCGCAATGTGGAAACCCGCACCTACCAGTACCAGCGGAGCTTTGATCC
GGAGACCTGCCTGAACCTCGCCCGGCGCTGGATCGTAGCCAAGATCGCCA
ACTGTCGGACGCTGCTGCGGCGCAACTGGCGGGGGGAAGGTGACGAAGCA
AAGGCGCCCCCCGGTCTGCTCATGTCGCTGCAGGATGACATGCGCCACGC
AATGCGAGCCCCTTCGCTGGAGGTGCTGCTCGGCATCGAGGGGGCTTCCG
CCGGCCGCTACTTTCAGCATTTCAGCCGGATGCTCCGCGGTGGTGATGGC
GAAGGGATGGGTTTTGACTTCACCACCCGCAACCGCCGTCCGCCCAAGGA
TCCGGTCAATGCCCTGCTCTCCTTCGCCTATGCCATGCTCACCCGGGAGT
GGACCGTGGCGCTCGCCGCCGTGGGACTCGATCCCTACCGGGGCTTCTAC
CATCAGCCCCGCTTCGGCCGTCCGGCCCTGGCTCTTGACATGATGGAGCC
GTTTCGGCCGCTGATCGCGGATTCAACGGTGCTTATGGCAATCAATAACG
GCGAGATCCGCACCGGCGACTTCGTCCGTTCCGCCGGCGGCTGCAACCTG
ACCGACAGCGCACGCAAGCGTTTCATCGCTGGGTTCGAGCGCCGTATGGA
GCAGGAGGTGACACACCCCATCTTCAAGTACACAATCAGTTACCGGCGGC
TGCTGGAGGTGCAGGCGCGGCTTCTGACCCGTTACCTTTCGGGGGAGATC
CCCGCCTATCCGAACTTTGTCACGAGGTGA
>GSU2180 ISGsu1, transposase
GTGGCACATTGTAACACAGTCCTTAACCAAGTTGTCGGTTTTTTCAAGAG
ACATGAATTTGAATCCCTTGCCCGCAAGCATCACATCGGGCAGAAGTTTC
GTTCTTTTAACCGTTGGTCGCAGTTCATGGCGATGATGGTTTGTCAACTT
TCCGGCAGAAAAAGTCTGCGGGATATCGTGGAAAACCTCAAGGCCCAAGG
CCACAAGCTCTATCATCTGGGCATGAAGACGGTTTCCCGTACCACCTTGG
CCAGAGTGAACGATGAACAGCCGCATGAGTTGTACAAAGAGCTCTTTTAC
AAAATGCTGCATCGATGCAAGGCAGTTGCACCCAGTCATCGCTTCAAGAT
CGATGAAAAAGTCTATCTGCTGGATGCCACCACCATCAATCTCTGTCTGG
AGGCGTTCCCTTGGGCCACCTACCGGCAGAAGAAGGGTGCCATAAAGATG
CATGTCGGTCTTGATGCTGACGGCTATCTGCCTGAGTTCATCGATGTGAC
CGAAGGCAAGAAGCACGAGATGTCCTGGGCCAGGATGCTACAACTGCCTG
CCGGTTCACTGGCCGTCTTTGACCGGGGCTTCACCGATTACGACTGGTGG
CAGCAACTAACGACCAACGGCATCTTCTTCGTAACCCGGCTGAAAGAGAA
CGCCTTGGTGGAATACTTCAAGAAGCGTCCCGGCAGGAAAGCAACGGGCG
TCATTCTTGACCAGGAGATTCGGCTCAAAGGGATGAAGGACAAACTGCGG
CTTGTCCAGTTCATCGCCGATGACGGCAACGATTACCGCTTCGTGACCAA
TGCGCATCACCTGAAAGCAGCAATCGTGGCGGATCTCTACAAAGAGCGCT
GGAAGATCGAACTGTTCTTCAAGTGGATCAAACAGAACCTGAAGATCAAG
ACCTTCCTCGGCACCTCGGAGAATGCCGTACTCACACAGATCTGGATTGC
CCTGTGCGTGTATCTGGTACTGGCATACTTGACGTTTCTGTCAAAGATCG
GATCGTCGATGCAGCAGATATTACGGTTATTACAGCTGAATTTGTTCGAG
CGGCGAGACCTTGAAAGCCTATTCAAACCACCGAAAGTAGAGGCTTCGCC
ACAACTGGTGCTGCTTTAG
>GSU1355 ISGsu7, transposase OrfA
ATGGAAAAGGATGTCAGTGTCTCCGGTGCGGCGGAAGGAGAGCGTAGCTC
GACTGGAGCAGCACCGGAAGTCAAACGTTGGAGCGCCAACCGCAAAAAGG
AGGTTGTCCTGCGGTTGATGCGCGGTGAACCAATCGATGCCTTGTCCCGT
GAGTTGGGCATCGAAATCTATCGCCTGGAAGAGTGGCATCAGAAAGCACT
CCAGGGGATAGAATCTGCTCTCAAGGCTCGTGAAGGTGATCCGTTGGCAG
CGGAACTCGATGCAGCCTTCAAGCGCATCGGTGAGATCACCATGGAAAAC
GAGCTACTGCGGGAGAAAGCGAGGCGTGCCCACCCTTTGGCCCAGAGGAG
ATCGAAGAAATGA
>GSU0961 ISGsu4, transposase
ATGAGATTTTACACTAAGACTCACAAGTACTACTGCGGAATTGATCTTCA
TGCCCGAAAAAAGTACGTCTGCATTCTCGACTCGGAAGGGACCGTGCTGG
TTCATCGCGAAATCAACTGCAATCCTGAGAGCTTCCTTCGCCTCGTGGCA
CCCTACCGGGAGGACTTGGTTGTCGGCGTGGAATGCATGTTCGCATGGTA
TTGGCTGGCAGACCTTTGCCGTAATGAAAAGATCGAGTTTGTGCTCGGTC
ACGCCCTTTACATGAAGGCAGTCCACGGTGGCAAAGCAAAGAGCGACAAG
ATTGACGCCCACAAGATTGCTGTGCTGCTCCGCGGCGGCATGTTTCCCTT
AGCCTACGTCTACCCGCCGGAAATGCGGGCAACACGGGACCTCCTGCGCC
GCCGGAACTTTTTCGTCAGAAAACGTGCTGAGCTTATGGCACACATCCAG
AACACGGTAACCCAATATAATCTGGCTCCTCTTGGCATTGATCTCGGAGT
CGAAGAGAACCGCCATGAAGTAGCTCAGCTCTTCCACGATCCGGAAGTGA
GGAAAATTATCGAAATTGACGTTGCCATGATCGACGCCTTTGACGATGTC
ATCAATGTCCTCGAACCGGACATAGAAAAAACGGCCCGGCAACACAACCT
GCATGCCCTCAAACTTCTGCGCTCAATCAACGGCGTGGGAAAGGTGCTGG
GCCTGGTAATGCTCTACGAGATCCATGACATAAATCGTTTCCCGACCGTG
CAAGACTTCTCTTCCTACTGCAGGCTGGTGAAATGTGCCCACGAATCAGC
GGGAAAGAAAAAGGGGGTCGGCGGTTCCAAGATAGGCAACGTCCATTTGA
AATGGGCCTTCTCTGAGGCCGCTGTGTTCTTCGTGCGCCACAATCCCCAG
GCAAAAATCCTGATGGAGAAACTGGTCAAGATTCATGGCAAAGGGAAAGC
GATTTCGATCCTTGCCCACAAACTGGCACGAGCGATTTTCTACATGCTGA
AAAACAATGTGCCGTTCGACCGGGAAAAGTTTTTGGCAACGGCGTAA
>GSU3082 ISGsu7, transposase OrfA
ATGGAAAAGGATGTCAGTGTCTCCGGTGCGGCGGAAGGAGAGCGTAGCTC
GACTGGAGCAGCACCGGAAGTCAAACGTTGGAGCGCCAACCGCAAAAAGG
AGGTTGTCCTGCGGTTGATGCGCGGTGAACCAATCGATGCCTTGTCCCGT
GAGTTGGGCATCGAAATCTATCGCCTGGAAGAGTGGCATCAGAAAGCACT
CCAGGGGATAGAATCTGCTCTCAAGGCTCGTGAAGGTGATCCGTTGGCAG
CGGAACTCGATGCAGCCTTCAAGCGCATCGGTGAGATCACCATGGAAAAC
GAGCTACTGCGGGAGAAAGCGAGGCGTGCCCACCCTTTGGCCCAGAGGAG
ATCGAAGAAATGA
>GSU0763 helicase, putative
ATGACTACGGTCAGCAGGCAGATCCAGAGCGCTGACGAGGCGATCTGTCG
GAATATCGAATCGCTCGCTGACCAGCGGGCATTGCTCTCCCAAAATGTTC
TCGCACAGCTCCGGAACCTAGTCGAGGGAGTTGCGGTCCGTCTCCACACG
GGCTCACCCGATGCCGAATTCAACTACGCCGCAGTAGAACCGGCACTCGC
CTTCGTCAAGAGTGAGGCAAGATTCAACTTCCTCGGCAAGTTCCATAAAC
TGATTCAGAAAAGTGTGTCCCACTACACCCTGGACGGGGACGCTTCCGAG
CGTTTGATGCTTAAGTACTACGAGTACCTCCACCGCGTCCGTAGCTTGCT
TCAAGACAACTGTGGAGTTACGGTGCTGGCGAACCTCGAGGCCTTCCCGG
TCGACCTCGATCCGTCGCTGCAGGAGTACCAAGAAAAGATAGCAGCAAGA
ATTGAGGCAGTCCGTTCATCTCGACCAAGCAGCAGCATCCGCGACAGGTA
TTACATCCACAAAACGCGCCCGTTTTTCGTCGGCGGGCGCATATACTACG
AAGTCACCTTCTACCGCGCCGTCGACAAGGTGAACAAGTTCGACCGTATC
ATTGCCTTCAGCTACATCGATATGACTGACAAGTACGCGGCCATGTTGAC
GCTCCAGCGCGACTCAATCGAAGTGCTCGGCCAGACAATGCCGATCACAA
TCGTCCGCGAGTGGGAGGTCTCTATCCGCCCGTGCGAATTTAAAAACTTC
GCGCGCCTTCTGGGCATCACCTTAGACGTGCGGACCAGCTCGGTGGAGTA
TCGCTACCTGATGCGTGGGCTGACTAAGAGTTCCGTCAATCTGCTCGACC
TGGTTGATATGCCCGACGATAAGTACACACAGGTAAGGACAGCAGGTACG
GGTGACGCCACCAAATCACAGGTCTTTCCCGTACTGGATGAAGTGCGCCA
CATTGTGAGATCAGCCGCTCCGGGTCACAACGTACTCCGCTATCTCATGC
TACGAATGCATAACCAGATCCTCAAGCCGCAGCACCTCCAGGGCGGCTGT
TACCTTCTCTCCGACATGAAACTTCAGTTCGGCTGCATCCCCTTTGACAC
CATGCCGTTCTGTACCTCGCTACCGGGGCACAACCCCAGGTACTGGGACC
TCGTCGAGAGCCTCGATGCAACCGATCGGAACCACGAACTGCTCGCTCGA
TGCGTGAGGAACAATGTGGAGCGTCACGGAATTCTCTACACGCCAGTTGT
TGAGCTCGAGAAATTCGGAAACGTCAACGGCTTGATCTCCACTTACAACA
ACAAGCTCTACTACAAGCATCCGGAGCGCCGGCTCGTGCTCGACAAGGGG
CACGTCTTCATCTCCGGGTATGAGAACGACACAGTCTCCATCGTTGAGAA
GCTCCAGGAGCATGCATCAGCCGGAATCGCCGGCTACACCCAAGCCGTCG
AGCGCTGGCTCGATGAGACATCTCGTAGCATTGACGACCAGGTGAAGAAG
GATGCACTCAAACAGTTGTTCAGCCAGTCGCGTGTCGCCCTGATCTACGG
GGCGGCTGGCACTGGCAAGTCAACGATGGTGGACCACATCGCGCACTACT
TTAACGACAAAGCGAAACTCTTCCTCGCGCACACTCACCCAGCGATCGAC
AACCTCAAACGCAAGGTAACCGCGCAGAACTCGGCCTTCCGAACAATCAG
CAGCCAGATCTCCAGGAGAACCACCGATCCGGTTTACGACCTCCTCATCA
TCGACGAGTGCAGCACCGTGAGCAACGCAGACTTGATCAAGGTACTGGAG
AAGACCTCCTTCAAGCTGCTCGTACTCGTCGGCGACGTCTACCAGATCGA
GTCGATCGAGTTCGGCAACTGGTTCGGAATCATTCGTTCATTCATCCCGA
GCACGTCGGTGTTCGAGCTGACGACGCCCTTCAGAACCAAGAATGACTCA
CTCTTGGGCTTCTGGAATAAGGTTCGAGCCATCGAAGACGACATCGCCGA
GGTCATGGCCCGCAACGGGTACTCGACCGCACTCGACAAGACGCTGTTTG
AGACCCAAGGGCAGGACGAGATTATCCTGTGCCTGAACTACGACGGCCTC
TATGGTATCAACAACATCAATCGATTTCTGCAGAGCAGCAACCCCGGTAC
TGCGACCACTTGGCGCGAGTCCACATATAAGATCGGTGACCCTGTCCTAT
TCCACGAGACCGAGCGGTTCCGCCCGGTGATCTATAACAACCTAAAGGGC
TGGATCGTCGGCATCGCCCACGCCCCTGGTCGGATTCAATTCGACGTCAA
GCTCGATCGACCGCTCAGCGAGTTCGATGTCGAGTGTGATGAGCTCGAAT
GGGTGGTTGACTCGACAGTGCGCTTCTCCGTCTACGAGTACGATGACACC
AGCGATGAGGACGACGACTCACTGAACTCCAGTGTACCATTCCAAGTGGC
CTATGCCGTATCGATCCACAAGGCGCAGGGCCTCGAGTACGATTCCGTCA
AGATCGTAATCACCGATGCCAATGAAGACGACATTACACACAGCATCTTC
TACACAGCCGTAACTCGTGCACGTGAGCGTCTGCGGATCTTCTGGACGCC
CGAGACGCAACAGAGTGTTCTAAAGGGCCTCCGCCGTAGCGCCAACCCAA
AGGACGCCGCTCTTCTCGCTAGCCGTCGTGGCCTTATGCCGGTCAGTGGA
GGGGTGAAGACTAGGGGGGCGTAG
>GSU0547 MutS2 family protein
ATGATCAGAACCGAAACCCTCCGTACCCTCGAATTCGATAAAATACTTTC
GGCCGTGTCGGGCTACGCCCACAGCGGCGCCACGCGGGACGAAACCGCCC
TGATCCGGCCCCTGGACGACCGGGAGGCCATTGTCCGGCGCTTCGGCCAG
GTGGACGAGATCCGGCGGCTGCGCCAGCTGGGGATCGATCTTTCCCTCCG
CTCCTTCGAGGACATCGCACCGCTGCTGGCGGCAGTCCGCCCCGACGGCG
CGGTGCTGGACCCCACGGAGCTGGTGGTCCTGTTCCCGATCCTGCGGACC
ATGACCGCCATTGCCAAGCAGTTCGCCTACCGGACCGACATCCCCCTGCT
GCGGGAACTGGCCGGCACCCTGACCGGCTTCCCCGACCTCCTGGACGAGC
TGGAGGTATCCATCGACTCCGAGGGGGAGATCCTCGATTCCGCCTCGCCG
CTCCTCTCGGACCTGCGCCAGAAGAAGCGCCACCTCACCGAGCGGATCAG
GCGGCGGCTGGCCGAGATCGTCCGCGAGACCGGGGTCACCACCTTCCTCC
AGGACGATTTCATCACCCAGCGGGGCGGGCGGTGGGTGATCCCGGTGCGG
ATGGATTCCAAGGGAATGGTCCCCGGCGTGGTGCACGACGTCTCCAATTC
AGGCGAGACCGCCTTCATGGAGCCCCTGGAGATCATCGGCCTGGCCAACG
AGCTGGAAAACCTGGTGGCTGAGGAAAAGGCCGAGATGATCCGCATCGTC
CGGACCATCTGCCGGATGATCCGCCAGGAAGCCGACGGCCTGGATGAGCA
GTTCCGCATTCTGGTCCGGCTTGACGTGCTGAACGGCATTGCCTTGTTCG
CCGATTCCCTCGGCGCCGAGACCCCCGAGATCACCGACGCCCGCTTCATT
CGGGTCCGGGAGGGGCGCCACCCGCTCCTGGCGCTCATGGCGCGGGAACG
GGGGGTCGGCCGGGTGGTGCCGCTGGACCTGGGGCTGGGGGGAGCTGAAC
GTCCTGATTCGCATGTGGCGAATCAGGTCATGGTCATCACCGGGCCCAAC
GCGGGAGGCAAAACCATCTCCCTCAAGACCACCGGCCTCCTTCACCTCAT
GGCCCTGGCGGGGATTCCGGTGCCGGCGGCCTCCACTTCGTCGTTCCCCC
TGATCTCCGACCTCCTGGTGGACATCGGCGACGAGCAGTCCATCGAGCAG
AGCCTTTCCACCTTCTCGGCCCACGTCTCCAACATCGCCGGCATCCTGGA
GCGGGCCGACCGCCGCACCGTGGTGCTGCTGGACGAACTGGGCACCGGCA
CCGAGCCGGTCCAGGGGGCGGCCATCTCCTGCGCCGTCCTGGCCGACCTG
CAGGACAAGGGGGCGCTGGTCATCGCCACCACCCACCTGACCGACATCGT
GGGCTTCGTCCACAAACGGGACGGCATGGTCAACGCTTCCATGGAGTTCG
ACCGCCAGACCCTCACCCCCCTCTACCGTCTCACCGTGGGCGAGCCGGGC
CAGTCCCACGCCCTGGAGATCGCTCGCCGGTATGGCCTTCCCGACCGGGT
CGTGGCCGTGGCCACCGGCATGCTCTCTCGCATGGAGACTGAATTCCACG
AACTGCTGGCCGAGCTCAAGGACCAGCGCCGGCGCCACGAAGAGGCCCTG
GCCGAGGCGGAACGGCTCCGGCGCGATGCCGAGGAGAAGGCCCGCATCGC
CCGCGAGCGGCTGGCCGAGGCCGAGACCCGGCGGCGCGAGGCAACCGAGA
AGGCCCTCCAGGAGGCAAAGGAGATCGTCCGGGCCGCCCGGCGCGACGTG
AACGCCATCATCGAGGAAGCCCGCAGGGAGAAGAGCAGGGAGGCCCGGAA
GAAGATCGACGAGGCCGAGGCCGCGGTGGAGGCGAAGCTCCAGGAGTTCC
ACCCCGAGGAGACCCTTTCCCTGGATGCCGTCCGCGAGGGCGACACTGTC
TTCGTCAAGGCCATCGGCCACGACGGCACCGTCACCGCCGTGGACCGCCG
GACCGGCCGGCTCCGGGTGCGGGCCGGCGCCATGGAACTGGAAGTGGCGG
CCACGGACGTTTCCCCGCGCCGGGGCAAGGCCACCGAGGCCAAAATCCGC
ACCGGCTCGGGCAGAAGACCGGCGCCGGATGCGGAGACCCCCCGCGAAAT
CAACCTGATCGGCCTGCGAGTGGACGACGCCCTGGCGCGGTTGGAGCCCT
TCCTGAACCACGCCTCCCTGGAAGGATACGGCGAGCTGCGGATTGTCCAC
GGCAAGGGGACCGGCGCCCTGATGCGGGCTGTGCGCGAATACCTTGACGG
TCACCCCCTGGTGCGCGAGTTTCGTCCCGGCGAGCCCTTCGAAGGTGGCG
AGGGCGCCACGGTGGTGACGCTGCGGTAA
>GSU1725 nuclease SbcCD, C subunit, putative
ATGCGGATACTCTCCATCCATCTGAAGAACATAAAATCCCACCGCGACAC
GGAGCTGACCTTCTCCGCCGGTATCAATGTCCTTTCCGGCCCCAACGGCG
TCGGCAAGAGCACGGTGTTCGAGGCGATCGGCTACGCTCTGTTCGGGGTG
GACGCCCGGGACTTCGTCTCCAACGTGGACCGGTTTCTCTCCATCGGCAC
CAAGAAGGGAGAGATCGCCGTCGCCTTCTGCACGGATGCCGGAGAAACCT
GGCGGGTGACCCGAACCGTCGGCACCCCGGCCAAGTGGCTCCTGGCCAGG
GAGCAGGGTGGGGCCTTCGAGGTGGAGGAGCACGCCCGAATCGAAGAAAC
CGAGGCCCGCATCGCCGAACTCCTCGGTCTCGACAACGGCCGTCCCCTGG
CGGAGCAGTTCAAACTGGTGATCGGCCCCTTCCAGAACGAATTCCTCGGC
CCATTCGTCATCAAGCAGCCCACCAAACGCCAGGAGGCCTTCGACGAGAT
CCTCGGCATCGATGCCTGGCGCAAGACCTACAAGAGCACCAGCTCGCTCC
TCTCCGCTGTGCAGGAAAAAATCAAGATTATCGCCGTGGAGATTGAGGCG
AAAGAAGCCCAGGTTGCGGTCCTGCCCGAGCGTGAGGATGAACTGGCAAA
GATAAAAACCGATGCCGAGGCGCTCCGGAAAGTCCTTTCATCACAAGCGG
ATGCCCTGCGGGACGTGGAGAAGCAGCTGGTCGAGCTCGATGACCAGGAA
AAGGGAATAGCCGCGCTCCAGGCCGAGATCCAGATCCTCGTTAACCGCAT
CACTGATGGCGAAGGCAAGATCAAGGATCAGGGGCAAAGGGTAGGGGAGG
CGGAGAAGGCCGGCGGGGTTCTGGAGCAGACGCGGGCGGGCAAGGAGGCT
TTCGAACGGGCCGAATCGCGGCTGGCGGAGTTGGTGAGTAAAGACAAACA
GCGTCGAGAGGTCGAGAAGGACGTTACCCGCCTTGAAAATGAGACCCAGC
GCCTGACGCAGGCAGTCGAGCATGAACAGAAGGAGATTGAAGGGGAGGGG
CGCCGCCTCAGAGAGGAAGAGGACGCCCTTGCCAAAGCCCGGAACGAACT
AGAGCCGGACCGGAAGGTGGTGGACACGGCTGGCCGGCTGCCAGGACTTC
GCGACGAGATCAATCGCGTTCGCTCGGAAAAGGGACTCCTGGAAGGGCGC
CGCATCGGACTTCTGGAGGGGCAGGAGAAGCTTGGCGAAGGGACATGCCC
CTTTTTCAAGGAGCCCTGCCGGAACGTGGCCGGAACCACGCCGAAAGACG
TGTTCACCACGAGGATTGCCGAGCTTGACCGGAAGATGCAGGCACTCACC
GAGGCCTTGGGCAAACTATCCGTAGAGGTGGCTGACGCCGAGGCGGCCGA
GAAACAGCTTGCCGCCCTGACAGTCCGGAGCCAGGAACTGCACAAACAGA
CGATGGGCTTGGTTGAACGCCGCGCCAGAAATGAAAAACGCGTCGCTACG
TTGCAGACATTGTCAACGCAACAGATCGAAGCGGCCACCCGGGCTAAAGC
GCGCAGGGACGATCTTCAGGTCTTTGCCGGCCTTGACCATGAGATTGAAC
GTGCAACCGCAGAGCGGGGCCGGTTCCAGGCCGACCGCGATGCCTACCAT
GCCCACGAAAAGGATGCCCTGGATCTGGATAACCGGCGCCAGACCCTGGA
GAAGATGCTCCGGCTCCTGGATGAGTTGCAGAAGCAACTCATCGGGAAGA
AAGAGGAACTTATCCGGCTTCAGGAAACCTATAAACCGGGCCAGCACAAG
GAAGCCCGTGACCAGAAAGACCGGCTGGTAGCGCAAGTCGCCTCGCTAGG
CCAGCAGATCGAAAATCTGGAGAAGGACCGGAAGCGCCTTGAGGATGAAA
TCGGCAAACTGAAGCTGCTTAAAGACGAGATTGGGCGGAAGCAGGCCGAG
AGGAACTCCTTCGAACAGAAGGAGAAACTCGTCAAATTCCTCCGCAACCA
GGTCTTCAAGAACGTCTCAGCCCAACTCTCGGAGCGGTTCCGGGAGGAAA
TCAGCCTCCGCGCCGACCGGATCTACCGCACCATTGCCGAGGCCGATGAG
GAACTGGTCTGGTCCGAGAACTACCAGATCGTGCTGCGAGACATGACGGA
CGGCGTTGTTCGCGAACGGAGCGACGACCAGCTCTCCGGCGGCCAGACCA
TGAGCGCCGTAGTGGCCCTGCGGCTGGCACTGCTTCAGACCATCGGCGCC
CGGATCGCATTTTTTGACGAACCGACATCCAACCTTGATGCCTCGCGGCG
GGAAAACCTGGCCACCGCATTCCGCGCCATCGATGTAGGCCGGGAAGAGG
TCACCGAACACTGGTACGACCAACTGTTCCTCATCAGCCATGATGTAGCC
TTCACCGAGATTACGGATCAGATGATTCAACTGGGCGAGTGA
>GSU1363 RNA-directed DNA polymerase
ATGAGTATCTGGAGCCCGCTTTTATTTAATGCTGAAGGAAAGAAACAAGG
GTATGATTGCCGTTATCTCCACAAGTTAACTGACCAAGGGAATAAACTCT
CAGACAGTGGTTTGCCTGTAATTTTCACGCTCGCTCACCTGTGTGCGATG
GCAGGTGTTTCCTTTTCTCTCATTCACTCCTGTGTGTCCAGGAAATACGA
CCCATATAGAAGCTTTACAATTAAAAAGAGGTCGGGAGGGTATCGCCAAA
TTGTGGTGCCTGAACCTGAGTTAATGCATCTCCAGAGATGGATTAATGAG
TTTATATTGAAGCGGGCAAAGGTGCATTCTTGTGCTGCTGCATATATTTC
AGGCTCCGATATAAAAATGAATGCTTCAAAGCATCTCGGTGCAAACTGGC
TAATAAAGTTAGATATACAGAGATTTTTCGAGTCTATATCAGAACTGCAA
GTTTATTATATCTTCCATAGACTTGGGTATCCAAAATTATTGTCGTTTGA
AATGGCCAGAATCTGTACCAGAGTAGACACCCAAAGCAATAGACATTTTA
GACCAAGATGGAATAACAGAATCCATCACTTCGAAATCCTTGAGTACTGT
GATTCTAGGGTTGGTTATTTACCACAAGGTGCTCCTACTAGTCCGAGTTT
GTCCAATTTAACCTGCCGAAAACTTGATAAAGAAATTTACGACCTTAGTT
GCCGTTCTGATTGCCGATATACTAGATATGCAGATGACTTCGCCTTTTCT
TTTATAGATCTTGATAGGGAAAAAGCCTCAAATTTTGTAAATCAAGTCAG
TCGAATCATATCATCTTACGGTTTTAGAAAGAATGCTCGAAAAACAAAGA
TCATACCCCCTGGATCAAAAAAAATTATTACCGGGCTTGTTTTGGGTAAT
GGGAAAGTGCATCTTCAGAAAGAATTAAAGGATTACATAAGACAAAATAT
ATACTTTGCAACTAAATATGGTGTAGATGAACACTGTAAAAAACGTGGAT
TCGTCTCAATAGATGGATTTTATAATCATCTGGAAGGAATTGTTAATTTT
GCACTATTTATTGAACCAGATTTTGGAGAAAAAGCCTTTGAGGAGTTTCG
TGCAATTAAGTGGCCATCTTTAATAGTGGGGCTTCATGCTTAG
>GSU1613 A/G-specific adenine glycosylase, putative
TTGAACAGGGAACAGGAGCTGACACATCTCTTCCGCCGGGAGGGGCTCAC
GCCTGCAGTTGCGGACCTCTTCCGGCGGATCGTGTATGACTGGTATGCAT
CCCAGCGTCGCGAACTCCCCTGGCGGGAAACCTTTGATCCGTACGCCATC
CTCGTGTCCGAGATCATGCTCCAGCAGACGCAGGTGGAGCGCGTCAGGGA
AAAGTACCCAACATTCCTGGCCGAGTTTCCGAACCTGAGGGCCCTGGCTG
CGGCGCCACTGGAACGGGTTCTTGCGGCATGGCAGGGGCTTGGCTACAAC
CGGCGCGCCGTGAACCTCAAGCGCTGCGCCGAGGCGGTTGTCGCAAGTCT
GGGAGGAGAGCTCCCCGCTGATCCGAACGAATTGGTCCGGCTGCCGGGCA
TTGGAACGTACACGTCCCGGGCAGTGGCCGCCTTTGCCTTCAACACCCCC
CTGCCCTTCATCGAGACCAATATCCGCAGCGTGTATATCCACCATTTCTT
CGCGGACCAAAGCAGCATTCACGACCGCGATCTCATGCCTCTGATCGAAC
AGACCCTGGACCGTGACAATCCCCGCGAATGGTATTACGCTCTCATGGAT
TACGGATCGCACCTGAAGCGACTGCATGGCAATCCGTCGCGCCGCAGTTC
ACATCATACGCGACAGACTCCGTTCAAGGGATCCAACCGGCAGGTGCGCA
GCCGCATCCTCCGGGCCGTCCTGGAAAATCCGGGGATCAGCCGCGATGCG
CTTGAAAAGGCAGTGGGAGCGAGCAGCGAAATCGTGGGGAAAAACCTGGA
ACAGCTTGCCGCGGAAGGATTTATCGTGTCGCGGGGTCCAGGGTATCGCA
TCCTATAG
>GSU2119 integrative genetic element Gsu56, integrase
ATGAAACAATTTACCGACCGTTACCTCACCTCTCTCAAACCTCAAGATAA
AAAATATGTCGTAAGAGAGGGCCGAGGATTCGCGATCCAGGTGCTGCCTT
CAGGAACAAAGACATTTATGTATATCTTTGAACTGAACAAGCAGAAGGGG
TACCTACTGCTCGGCAATTATCCCGCCATGTCCTTGGGTGATGCCCGGAT
AGCTTACAACGACGCATATAAACTCGTCAAGAACGGCATCGATCCACGCG
AGGAAAAAAGAACAGCTATCGAGGAACAATCTCGATTGGCAAATGAGGCT
AGACTTCAAGCTGAAGCTGCAGCCCTTGCTGCTGAGAAATTGGAAAAAGA
TTCCTTTGATTCCCTGATAGAGGATGAACTCCCCGAAGGATACACCCCGA
TAACCGTAGAACAGCTCGCTGCGATATGGTACGTCAAATACTCTAAGGAG
AATCATTCAGTTCGATGGCGAGAAACTATCCTTAGCGCTATCAAGACCCA
CATCATTCCCGGTATCGGCAAAATGGAAATTTCCTCTGTCAGACACAAGC
ATGCTGTTTCTCTCATCGAGCAAATTGCATCCAAGGTCCCGGGATCGGCT
CGTAACGTGATGAAATTTGGCAGACAAATGTTCAAATATGCCTGTCGGCA
AGAGTGGGCGGAGATTCAGCCGTTCCAGGAGATCACAGCATCTGTCCCCA
AGATTGCCCCCAAAACTGACGACCGGCATCTTGATGACGACGAAATCGTG
AAGGCGTGGAAAGAAATCAGCAAGGGACCAAGCTCTACCGAGGTCAAGCG
TGCGCTTAAATTGATTCTGGTAACCGCTCAGCGCCCCGGAGAAGTTGCAC
AAATTCACCGTGATCAGATCAAGGACAGATGGTGGACTATCCCTGCAGAG
GTTGCTGGCAAAAATGAACGTGAGCACAGAGTCTACTTGACTGACACTGC
TCTGGAGCTGATCGGACAAGGTAAAGGGTACATCTTCTCATCTGGCCGAG
GGAAAAGAGGCCATATTTCCGAGAACACTCTTTCACAAGCCATAAATCGA
GGTTATTTGGACGAAGATGTTGTGAAAGTTGTTGGGAACAGAAAAATCAA
AGCGCGCAAAGAACCTTACTTCGGGATGAAGCCATGGTCGCCGCATGATC
TTCGCCGAACCGCACGCACAAATATGGCACGAGTTGGCATTACAGACGAA
GTTGGCGAAGAAGTCATAAATCACATCAAGCCAGGCATAGTCGGCGTTTA
CAATAAATATCGTTATGACAATGAGAAAAAGGACGCCCTTTTGAAGTGGG
AAGCCTTGTTACTGAACATTCTGTCACCCAAACCGCAGGATAGTAATGCA
GATGGAGAATAG
>GSU1848 ISGsu7, transposase OrfB
ATGAGTGCTACGATCTCCCCTGCCACCGGTAAAGCCTATGGCGTTCAGCG
CGTCTGCCTTGCCTGGGGAGTGCCCCGCTCGTCGTTCTATAGCCGTGCAG
GCAGAAAAACATTGCCTGCTGTACTGCTCAAGCGTGGTCCAAAAACACCG
CTCTCTGACGACGAGGTACTTTCTCTCATCCGGACCGACCTGGAGACATC
CCCCTTTGTCGGCGAAGGGCACCGTAAGGTCTGGGGACGACTACGCTTCG
TCAAAGGGATAAAAGTCGGCCGCAAACGAGTGTTGCGTCTCATGCGGGAG
AACAATCTGCTCTCCCCTCACCGGGTTGTTCAGGGACAGCCCAAGGACCA
CGCCGGCAAGATCATCACGGCGGCCCCCAACGTCATGTGGGGTACCGATG
GCACCAAGATCTTCACCCTGGAAGAAGGGTGGTGCTGGTTGTTTACCGCC
GTCGAGCATTGGAATGCCGAGTGCGTCGGTTGGCATGTGACCAAGAATGG
CGACCGGTTTGCCGCATTGCAGCCGCTCGCCATGGGAATCAAGGCCCGTT
TCGGCTCGGTCGGTGCCGCTGCTGCTCGAGGGTTGGCACTGAGGATGGAT
CACGGCAGCCAATACCTCTCAGAGCATTTCCAGAATCAGATCAAGTTCTG
GGGAATTGCCCCAAGTTTCTCATTTGTTGCCGAACCGCAGACCAACGGGG
TGACGGAACGGTTTAATCGGACTATCAAAGAGCAGGTCATCTATGGCCGC
CATTACCGCACAATCGAAGAAGTAAGGATGGCAGTAGCTGACTTCATGGA
TCGTTACAACCGGCTGTGGCTGGTTGAAAAGCTCGGGTTCAGAAGCCCAC
GACAGGCTTTCGAGGAGTATCAACTCAAGAAGGCTGCGTGA
>GSU1244 methyltransferase, putative
GTGCGGGTCGTAGGCGGAAGCGCCCGGGGCCGTCGCCTGGCCGCACCCCG
CGGCAACCGGGTACGCCCCACGGCCGACCGGATCAAGGAGGCTCTCTTCA
ACATTCTTCATTCAGGAATGGAGGGCTTCGAAGAGGTACGCGTTCTGGAC
CTGTTCGCCGGGACCGGGAACCTGGGAATTGAAGCATTGAGCCGCGGTTG
CAGCGAAGCGGTGTTCGTGGACAGTCACCGGGAATCGGTGGCCGTGATCC
GGCGCAACCTTGATGAACTCGGCTTCGGCGACCGGGCCCGCATCATCGCC
AGGGATGCCCTGACCGCCATTGATTACCTTGAGCGGGAGGGAGCCTCCTT
CCGGCTCGTGATGCTCGACCCGCCCTACCGGCTCGGCTTGGCTGACAAGG
TCCTGGGGCGCCTGGCAGGGTCGCCCCTGATCGCAGAAGAGACGATCATC
GTCGTCGAGTCCGCCGTGGACGAGGTACTACCCGACCTCATGGAACCGCT
CCACTTGGTTGACCGGCGGATCTACGGCGATACCGCCCTCTCATTCTTCC
GGAAAAGGAACTGA
>GSU1724 nuclease SbcCD, D subunit, putative
ATGACGAGATACCGTTTTTTCCACACCGCCGACATCCACCTCGGCAAAAC
CTACCGCACATCCACCGGTGAGGCTGAACGCTACGAAGACTTCTTCCGCA
TGCTCGGCAGCATTGTGTCCGACGCCATTGCGGCAAGGGTCGATTTCGTT
CTGATTGCTGGCGACCTCTTCCACACCGGGCAGATTCTCCCCCGTACCTT
CGCCCGGACCATCGAGACACTTCAGCCGCTCAAGAACGCCGGCATCCCCT
GCATTGCCGTGGAAGGGAACCACGACTGGATACACCGCCGCGACAGCATC
TCGTGGATGGAAGCGCTGTCGCAGATGGGTTATATCCACCTGCTGCGCCC
CAGCCGTACTGAGACCGGCGGCTACCGCTTCAGTCCCTTTGATTACGAAC
AGGGCATGGGCGGCCACATCGAGGTCAACGGAGTCAACATCTACGGCCTC
GGCTACATCGGCACCCAGGCGGGCGCCCACGTAGCGCGCATCTGCGAGGC
TATCACCACCACGAATAACATCCTCCTCTTCCATGTGGGTGTCTGGACCT
ACTCACCGGTTGAGATCGGCAACATGAAGCCGGAGGAGGCGCTCCCCCTG
GCCGATGTCTTCGACTACGTGGCCTTGGGCCACGGCCACAAGCCCTACAT
CATCGCCACCCCGGAAGGCCGCGCTTACGCCTTCAATCCCGGCTCCCCCG
AATGCGTCAACTTTGGCGAGGAAAAGTACGACAAGGGGTATTACCTCGTT
ACTGTCAATGACGGAGTCTATACCCATGAGTTTCGGCCGACCAATCCCCG
CCCCATGCTGGTGACCACCATTGACCTGGATGGCGCCGGAGATGCGGAAA
CGGCTCTGACGCGGTTCCGCAACGTGGTTGCCGCAAAGATCGCATCGTTC
AGCGATGACCGTCAGCCGCTCCTGGAGATCAAGCTCACCGGCCGGGTCGG
CTTCCACCCCTTTGAGCTGGGGCGGGAACGGCTTCGCCTGGCCCTTGAGG
AGATCTGCAACCCTCTCCATGTGGAGATCAAGAACCACCTCTCCCTGGTC
ACTGCCGGGGGGGGCGCAGAATCCGAAAAGAAGAGCCTCGCCGAGATCGA
GCGGGAGGTGCTCAGGGAGTTGATATCCGCCAAGAGCGAGTACAAGGGGC
GGGAGGATGAACTGGTGCGGCTCTCCCTGGCGATCCGCGACCAGGTGCTC
AAGGGGGAGACGGACGGCGAAGAGTTGCTGGGACTTCTGATGCGGGAGCC
TGCCTGA
>GSU0552 conserved domain protein
GTGCCATCACTCGATGATTTCTTGCGTAGGGGATATTTCCCCAAAGAGTT
GCTACCACCGTTCACAACGAGTTCGTACGCAGATGCGTTGAACGGCCTTG
GAACTGTGCCCGATTCTAACTTCAAACAAACCAAATGTATCAGATTTTCC
CACTCGAAATACGCATCTCTTCGTCGTGATCTATCAATTCCGAACCCATA
CCCATTCTACGAGTTGGCCGCCCTGTTATCAGCGCACTGGGGGGAGGTCG
AGACACAATGGAATAACTCTCCCTACACACGTAGTGCCCCTGTTCCATCC
ATGACCAGGGCGGTAGAAGGAAATACAAATTTCAATGCCCTTCCTAATGC
CCGTGCCGAGGTTCGTTCTTCGGGGCGCTTCCTCCTCAACGCGGACGTAT
CGAAGTGCTACCACACTATATACACTCACAGCCTACCATGGGCGTTACAC
ACTAAGCCCGTAGCAAAGAACAACCAAAAATGGCCTCCCGCTGGAGGAAA
ACCTCCTTTGGTCGGCAACGGACTTGACCTATGGTCAAGGAACCTGCAAG
ACGCACAAACTATTGGCCTCCCAGTCGGACCGGACACCTCCTTTGTACTT
GCCGAAGCACTTCTGTCTGCAGTAGATCAACTAGTTGCGTCAAAAATCGC
CGGTGCGCGCGGCTTTAGGTTTGTTGATGACTACGAGTTCGTATGTGACA
CACTTGAACAAGCTGAACAGGTTCTATCCGTTCTTCAATGGGCACTCGCA
GAGTTCGAGTTGAGTCTCAACCCCAAGAAAACAACTATCAAGGAACTTCC
AACGGCACTGGATACCACATGGGTAAACGCCTTCTGTGAATTAGAGTTCG
CCGCCGAGTCTCCGAAATTACAACGGCAACTTACTCGGTACTTTACGGAT
GCCTTCGAATTGACATGCAAGTTCCCAGGTGATCCAGTCCTTAAGTACGC
TGCAGCTCGATTGCCGGACAATCCACCCGATGATGCGGCGGCAAACTTAA
TCCAGCGTCTGTCCCTACAGGCGGCTTGCGTAGATTCAGGCACACTTCAA
CATACATTACGTTCCTTTTGGGATCACCGGTCCGCTGGTCGAGATCTCGA
TCTAGTCGCCTTGAAAAGAGCTTTAGATTTTATTGTCCAGAGACATGCCC
TTCTAGGTCATAGCAGTGAGGTCGCATGGTGTATATGGGCAGCCGACGTA
TTTACTGTCCAGCTTTCCACATCTTCTGCCAACTGCATCGGAAATATGGT
TGATGACGTAGTTGCACTGACCGCATTGGATGGAATCCAAAAAGGGGCAT
TTGAAACTCCGCCAAATACAAACAATTGGGAATACATCATCAACAACACA
AGCCTGAAAGAAGAACACTGGCTACTATTATTCGAGGCCATTGGGCAAGG
TTGGCTTCCCCCACCAGTTGGAGGGGATCCAGCACTCGCAGACCCCTTTT
TCAATCACCTTCGTACTCAAGATGTCAGATTCTATGATACTGCTGCAACC
CTTGATATCCCTGAACCACCGGGTCCGGACACCTATTGA
>GSU2396 conserved hypothetical protein
ATGGCCAGAATTGCACGCGTCATAGCAACGGGAATTCCCCATCATGTTAC
GCAACGGGGCAACCGAAGAATGCCAACATTCTTCAATGATGAGGATTACC
GAGCATATATCGCTCTGCTCGGCGAATGGTGCCGGAAATGTGGCGTAGAT
ATCTGGGCGTACTGCCTTATGCCGAACCACGTTCATCTTATTGCTGTCCC
AGAAACCGATGACGGCTTGCGTCGCGGGATCGGCGAGGCACACCGGCGAT
ATAGTCGCATGATCAACTTCCGTGAGAACTGGCGCGGCCATCTCTGGCAA
GGGCGTTTTGCCTCGTTTCCAATGGATGAATCCTATCTTCTCGCTGCCGC
TCGCTATGTAGAAATGAACCCGGTACGCGCCCGCTTGACGCCGAAAGCTG
CGTTGTGGCCCTGGAGTAGTGCTCGGGCGCACCTTGACCGGATGGACGAT
GAACTGGTCAAGGTTGCGCCTCTATTGGAATTGGTTGGAGACTGGAGTCT
GTTTCTTGCCGGAACAGGAGAAGAAGATCAGTTAAACGATATCCGAAAAC
ACGAGCGAACCGGCAGACCTCTTGGAACAGAAGAATTTGTCGAACGTCTG
GAATCGGCCCTTGAACGCCCGTTAAAGAAAGGGAAGCCGGGACCAAAAGG
TAATGATAATTAA
>GSU1616 ImpB/MucB/SamB family protein
ATGAGCAATCATCGAACCATTCTCCATCTGGACATGAACGCCTTTTTTGC
CTCGGTTGAGCAACAAGCAGACCCATCCCTCCAAGGAAAGCCAGTTGCGG
TCATCGGGTCAGGCGCGCGCACCATCATCACTACCGCATCCTACGAGGCA
CGCGCCCACGGGGTCGGCACGGGCATGACAACCCACGAAGCAAAACGGCT
CTGCCCGGAATTGATCCTCGTTATCGGCAACAACCGGGAATACACCCGTA
TTTCAAAACTGATCTTCGAAATGCTCGGGCAATTCACCCCCCTTGTGGAA
GTCTTTTCCATTGACGAAGCCTTTCTCGACTTGACCGGTTCGCTTCGACT
TTTCGGCCGCGCCGACGTGATTGCCCGCGAGATCAAAGCCCGCATAAGGG
ACCGATTCGGCCTCACCTGCTCCATCGGCATCGCTCCCAACAAGCTTTTG
GCAAAGCTGGCCTCGGACATGCAAAAGCCCGATGGTCTCACCATCATCCC
CCCCGAAAACGTGGCTTCACTCATGAAAACGACCCCGATCCGCAGCCTCT
GCGGAATAGGCCCATCCACTGAACAACGACTGAAATACCTCGGCATTTCA
ACCTGTAACGATCTGGGACACTTCAGCTCCAAGATACTTACCCGACATTT
CGGTGCCATGGGAGCACGACTCAAACAGATGGGACAGGGCATTGACGACT
CTCCCGTAATACCGACCACAACGGAAGAAGAAGTTAAAAGCGTCAGCCAC
AGTACAACCCTGGACCACGACCTCACCAACAAGGACGACATACATAAGTA
CCTGCTTATGTTATCGGAGATGGTAGGACGCCGCGCGCGCCGCTACAAAA
CCAAAGGGAAAACAGTTACCCTAACAATACGGTATGCCGATTTCACCACG
TTCAGCCGCCAGGAAACCCTCCCCTCCCCATTGAATCGAAGCGGCGACAT
TTATCGAGCCGTCACTGCACTGCTCGACACACTCCAATTAACGCAACCAA
TACGACTCCTGGGCGTTGCCATCAGCAACCTTGTACATGCCTCGGAACAG
CTCCCCCTCTTCCCGGAAGAACGGCGGCTCACAACCCTCTCGCAAGCCAT
GGATCAAGTCAATGACCGGTTCGGAGAAACCACCATCACCTTTGGCACCT
TGCTGGGACAAGACAACTGCTCGCACGTTATCGCCCCTGCCTGGAGACCC
GCTGGCATACGTGACGTAAAAGTAAAATAA
>GSU0252 ISGsu1, transposase
GTGGCACATTGTAACACAGTCCTTAACCAAGTTGTCGGTTTTTTCAAGAG
ACATGAATTTGAATCCCTTGCCCGCAAGCATCACATCGGGCAGAAGTTTC
GTTCTTTTAACCGTTGGTCGCAGTTCATGGCGATGATGGTTTGTCAACTT
TCCGGCAGAAAAAGTCTGCGGGATATCGTGGAAAACCTCAAGGCCCAAGG
CCACAAGCTCTATCATCTGGGCATGAAGACGGTTTCCCGTACCACCTTGG
CCAGAGTGAACGATGAACAGCCGCATGAGTTGTACAAAGAGCTCTTTTAC
AAAATGCTGCATCGATGCAAGGCAGTTGCACCCAGTCATCGCTTCAAGAT
CGATGAAAAAGTCTATCTGCTGGATGCCACCACCATCAATCTCTGTCTGG
AGGCGTTCCCTTGGGCCACCTACCGGCAGAAGAAGGGTGCCATAAAGATG
CATGTCGGTCTTGATGCTGACGGCTATCTGCCTGAGTTCATCGATGTGAC
CGAAGGCAAGAAGCACGAGATGTCCTGGGCCAGGATGCTACAACTGCCTG
CCGGTTCACTGGCCGTCTTTGACCGGGGCTTCACCGATTACGACTGGTGG
CAGCAACTAACGACCAACGGCATCTTCTTCGTAACCCGGCTGAAAGAGAA
CGCCTTGGTGGAATACTTCAAGAAGCGTCCCGGCAGGAAAGCAACGGGCG
TCATTCTTGACCAGGAGATTCGGCTCAAAGGGATGAAGGACAAACTGCGG
CTTGTCCAGTTCATCGCCGATGACGGCAACGATTACCGCTTCGTGACCAA
TGCGCATCACCTGAAAGCAGCAATCGTGGCGGATCTCTACAAAGAGCGCT
GGAAGATCGAACTGTTCTTCAAGTGGATCAAACAGAACCTGAAGATCAAG
ACCTTCCTCGGCACCTCGGAGAATGCCGTACTCACACAGATCTGGATTGC
CCTGTGCGTGTATCTGGTACTGGCATACTTGACGTTTCTGTCAAAGATCG
GATCGTCGATGCAGCAGATATTACGGTTATTACAGCTGAATTTGTTCGAG
CGGCGAGACCTTGAAAGCCTATTCAAACCACCGAAAGTAGAGGCTTCGCC
ACAACTGGTGCTGCTTTAG
>GSU0954 conserved hypothetical protein
ATGCCACGATCAGCGCGAATTGACATTCCTAATCTTTTGCAGCACGTGAT
CGTTCGCGGCATAGAGCGCCGCGACATCTTTCTCTCGGATGATGATCGGT
GGGACTTCCGGAATCGGCTTCAGAAGCTTCTGCTGGAGATGGATGTTGAC
TGCCTGGCGTGGTCGTTGATGTCGAACCATTTCCATCTTTTGCTCCGGCC
AACACGGACCCCGCTTGCCCCCTTCATGCGGAGGCTCCTTACTGGCTACG
CCGTCTCGTTCAACCTGCGCCACAACCGCTCCGGGCATCTATTCCAGAAT
CGGTACAAGTCGATCGTGTGCGATGAGGATTCGTACCTTCTGGAACTGGT
GAGATATATCCATCTGAATCCTTTGCGTGCTGGTATTGTTGCCGATCTGG
GCGCGCTGGACACCTTCCCGTGGTCCGGCCATGCAATGCTGATGGGGAAG
ATTGTTCTGGAGGGCCAGGGGATCAACGAGGTCCTGCGGTATTTTGGGCC
GGGAGTCTCCGCATCACGCCGCACATACCGCGAATTCATGGCCGATGGTG
TTTTACAGGGGGAGCGCCCGGACCTTGTCGGAAAGCGTTCAGGAGCCAGC
GGCGGTGGCTGTCCGGCCAGCGATAGAAGGATTCTTGGCGATGAAAATTT
CGTTGAACAGCTGAAGACCGAGGAATGCCTGCACCAACAACTGCGACGTC
CTATGTCGATAGAATCGATTGTTGCGACCATTGCCGACCAATACGGAGTC
GCGCCGAAAGCCATAGCATCAAAGTCTCGTCTGCCGCGGACTTTGGATGC
GAGGGCGGTCGTTTGCTATACCGCAGTAGAAGAGGGCCACACCGGGGCAG
AGGTTGGGAGAGTGTTGGGTATGACAAGATCAGGCGTCGCAATAGCCAGA
AGACGCGGCGAGGAAGTTCTTGCCCGAATCGAGTCGACAGCAGAATTTCA
GCACGATACACGTCTGGATTCGACAAATTAA
>GSU1356 ISGsu7, transposase OrfB
ATGAGTGCTACGATCTCCCCTGCCACCGGTAAAGCCTATGGCGTTCAGCG
CGTCTGCCTTGCCTGGGGAGTGCCCCGCTCGTCGTTCTATAGCCGTGCAG
GCAGAAAAACATTGCCTGCTGTACTGCTCAAGCGTGGTCCAAAAACACCG
CTCTCTGACGACGAGGTACTTTCTCTCATCCGGACCGACCTGGAGACATC
CCCCTTTGTCGGCGAAGGGCACCGTAAGGTCTGGGGACGACTACGCTTCG
TCAAAGGGATAAAAGTCGGCCGCAAACGAGTGTTGCGTCTCATGCGGGAG
AACAATCTGCTCTCCCCTCACCGGGTTGTTCAGGGACAGCCCAAGGACCA
CGCCGGCAAGATCATCACGGCGGCCCCCAACGTCATGTGGGGTACCGATG
GCACCAAGATCTTCACCCTGGAAGAAGGGTGGTGCTGGTTGTTTACCGCC
GTCGAGCATTGGAATGCCGAGTGCGTCGGTTGGCATGTGACCAAGAATGG
CGACCGGTTTGCCGCATTGCAGCCGCTCGCCATGGGAATCAAGGCCCGTT
TCGGCTCGGTCGGTGCCGCTGCTGCTCGAGGGTTGGCACTGAGGATGGAT
CACGGCAGCCAATACCTCTCAGAGCATTTCCAGAATCAGATCAAGTTCTG
GGGAATTGCCCCAAGTTTCTCATTTGTTGCCGAACCGCAGACCAACGGGG
TGACGGAACGGTTTAATCGGACTATCAAAGAGCAGGTCATCTATGGCCGC
CATTACCGCACAATCGAAGAAGTAAGGATGGCAGTAGCTGACTTCATGGA
TCGTTACAACCGGCTGTGGCTGGTTGAAAAGCTCGGGTTCAGAAGCCCAC
GACAGGCTTTCGAGGAGTATCAACTCAAGAAGGCTGCGTGA
>GSU2141 ISGsu1, transposase, interruption
GTGGCACATTGTAACACAGTCCTTAACCAAGTTGTCGGTTTTTTCAAGAG
ACATGAATTTGAATCCCTTGCCCGCAAGCATCACATCGGGCAGAAGTTTC
GTTCTTTTAACCGTTGGTCGCAGTTCATGGCGATGATGGTTTGTCAACTT
TCCGGCAGAAAAAGTCTGCGGGATATCGTGGAAAACCTCAAGGCCCAAGG
CCACAAGCTCTATCATCTGGGCATGAAGACGGTTTCCCGTACCACCTTGG
CCAGAGTGAACGATGAACAGCCGCATGAGTTGTACAAAGAGCTCTTTTAC
AAAATGCTGCATCGATGCAAGGCAGTTGCACCCAGTCATCGCTTCAAGAT
CGATGAAAAAGTCTATCTGCTGGATGCCACCACCATCAATCTCTGTCTGG
AGGCGTTCCCTTGGGCCACCTACCGGCAGAAGAAGGGTGCCATAAAGATG
CATGTCGGTCTTGATGCTGACGGCTATCTGCCTGAGTTCATCGATGTGAC
CGAAGGCAAGAAGCACGAGATGTCCTGGGCCAGGATGCTACAACTGCCTG
CCGGTTCACTGGCCGTCTTTGACCGGGGCTTCACCGATTACGACTGGTGG
CAGCAACTAACGACCAACGGCATCTTCTTCGTAACCCGGCTGAAAGAGAA
CGCCTTGGTGGAATACTTCAAGAAGCGTCCCGGCAGGAAAGCAACGGGCG
TCATTCTTGACCAGGAGATTCGGCTCAAAGGGATGAAGGACAAACTGCGG
CTTGTCCAGTTCATCGCCGATGACGGCAACGATTACCGCTTCGTGACCAA
TGCGCATCACCTGAAAGCAGCAATCGTGGCGGATCTCTACAAAGAGCGCT
GGAAGATCGAACTGTTCTTCAAGTGGATCAAACAGAACCTGAAGATCAAG
ACCTTCCTCGGCACCTCGGAGAATGCCGTACTCACACAGATCTGGATTGC
CCTGTGCGTGTATCTGGTACTGGCATACTTGACGTTTCTGTCAAAGATCG
GATCGTCGATGCAGCAGATATTACGGTTATTTGTAGCGCGCCCGGTACCC
TGGACACAAGATAAGAGTCACGCAGCCTTCTTGAGTTGA
>GSU0133 hypothetical protein
ATGGGTATTCTTTCAACAACAACAGCCATATGCCAGTTCCGGGTCGCGGG
GGATCTCCCTGCCGGTGACCTCTATCCCTGGATTGCCGAACATCTCGCCC
GACAGGCCTTTCAGTCCATCGATCAAGGGGTCGCCGAGCAGTCCGTGGGG
TGGGTTCATCTGGATGACCATCGGCAGATGAGCTTCGACATCCCCGCCGC
CTTCTGGCGTGACCATTACGTGGCCTTCACCCTGCGCCGCGACCAGCGCA
AGCTTCCGGCGGCGCTGGTAAAGGCCTATCTTCAGGTGGCCGAGCATGAG
TACCTCTCGGCCCATCCCGGCCTCAACCGGGTGCCCAAGCAGAAGCGCGA
GGAGCTGAAAGAGGCGGTGCGCCTCAACCTCCTGGCCAAGACCTTGCCGG
TTCCCTCCACCTGGGATGCGGTCTGGGACACCCGCACCGGTATCGTCACC
TTTACCTCCCTGTCGGCTCCCATTATCGAGCTGTTCGAGACCCAGTTCAA
GAAGACCTTCGAGGGGACGCGCCTGGTGGCGATCCATCCCTATGCCCGGG
CAGAGGCCGTGGGAGGCGAAGGGCTGAAGCCTGCCCTCGAACAGGCCAAC
CTCGCCACGAGCGATGCCGCCATCGATCTGATCAGGAGCAACCAGTGGCT
CGGGTGGGATTTCCTCCTCTGGCTTCTCCACCGGACCATGACCGATTCTT
CCGAGTACTGCGTGGGGCAGCCCGGCCCGGCTCTGGCAGGCGAGCCCTTC
GTGGCTTACCTGAACGATCGCCTGGTCCTCGTGAGCGCCGGGGAGGCAGG
AACCCAGAAAATCACCGTGGCCGGTCCCCAGGACCACTTCCGAGAAGCCC
GCACTGCCCTTGCCCACGGCAAGCGGATCACCGAATCGACTCTCTACCTG
GAAAAGGAGGAGCATGTCTGGAAGTTGACCCTCAAGGGGGAACTCTTCCA
TTTTGCTTCCCTCAAGTCCCCCAAGGTGGCCATCGAAAAGGGCGAGCACG
TGGACGAAGGGAGCGAACGGGAAGCGGCCTTTTACGAGCGGATGTATGTT
CTGGAACAGGGACTCCAGCTCTTCGACAGCCTGTACGGCGAATTCCTCAC
GGTGCGTCTGGGTGCCGGATGGGGCGAAGAACTGGCTCGGATCGAAGGGT
GGCTGGCAGGGGAGTAA
>GSU0047 ISGsu6, transposase OrfB
ATGAGCGACATCCAGCACCAGCGTATGGTCACGCTCTGCGATGATCTGAA
GTTTCTGTCGGTGGCCGATGTCTACACCGACCTTGCAGATGCCGCGGCAA
AGCAGGAATCCTCCTACATCGACTACCTTGAACAGGTACTCAAGGCCGAG
AACGACGTCCGACAGGGACGCTCGCGCCACACAATGGCAAAGCTCGCCGG
TTTTCCCGCGATCAAGACTCTCGAGGATTATGACTTTGAGTTCGCCACCG
GCGCCCCGAAACAGCGAATTCTGGACCTGTCGGCGATGGCATTCCTCGAG
CGCCGGGAGAATGTAATCCTGCTGGGTCCCAGCGGCACCGGAAAGACTCA
CCTCGCCATCGCGCTCGGCTACCGCGCTACTCAGTGCGGCGTGAAGGTAC
GCTTCATCTCCGCCGCCGACCTGATGCTGCAACTTGAAAGCGCCCAGCGG
CAGGGGCGGTACAAGGAAGTAATGCGGCGCAGTGTCCTGGGGCCGAGACT
GCTCATCATCGATGAGATCGGCTACCTCCCGTTCAGCGAAACGCAGGCGA
ATCTGTTCTTTCAGGTGATCGCCAAAAGGTACGAAACAGGTTCCGTCATC
CTCACTTCGAACCTGAGCTTCGGGGAATGGGAACAAGCCTTCGGCGGCAA
TACGGCACTCACATCAGCTATGCTCGACCGACTGCTGCACCACGCCCATG
TCATTCAGATCAGAGGTGACAGCTACCGGCTGAAAGAGAAGCGACGCGCA
GGTATTCTCGGCCAGCAACTGCCGACACCTCAGATCGATGACTAA
>GSU0555 ISGsu7, transposase OrfA
ATGGAAAAGGATGTCAGTGTCTCCGGTGCGGCGGAAGGAGAGCGTAGCTC
GACTGGAGCAGCACCGGAAGTCAAACGTTGGAGCGCCAACCGCAAAAAGG
AGGTTGTCCTGCGGTTGATGCGCGGTGAACCAATCGATGCCTTGTCCCGT
GAGTTGGGCATCGAAATCTATCGCCTGGAAGAGTGGCATCAGAAAGCACT
CCAGGGGATAGAATCTGCTCTCAAGGCTCGTGAAGGTGATCCGTTGGCAG
CGGAACTCGATGCAGCCTTCAAGCGCATCGGTGAGATCACCATGGAAAAC
GAGCTACTGCGGGAGAAAGCGAGGCGTGCCCACCCTTTGGCCCAGAGGAG
ATCGAAGAAATGA
>GSU0189 dbpA, ATP-dependent RNA helicase DbpA
ATGAATCCGAAAGCATTTTCGTCGCTTCGCCTGAAAGCCCCCATGCTCAG
GAACCTGGCCTCCCTCGGCTATGCCGAGATGACACCGATTCAGGCCCACA
GCCTGCCGCTCATCCTGGCCGGCAAGGATGTGATCGCCAGGGCCAAGACC
GGTAGCGGCAAGACCGCGGCTTTTGGCATCGGACTGCTGTCGCGTCTGGA
TGCATTATCCTTCCGGGTGCAGGCGTTGGTGCTCTGCCCGACCCGTGAGC
TGGCCGATCAGGTGGGCAAGGAACTGCGGCGTCTGGCTCGATTCACCGAC
AACATCAAGATCTTGACCATCTGTGGCGGTGTTCCCTTCGGGCCCCAGCT
GGGTTCGCTGGAGCATGGGGCCCATGTGGTGATAGGCACACCCGGCCGCC
TGCTGGATCACTTGCGGCGCGGCAGCCTTGACCTCTCCGCGCTGCGGACC
CTGGTATTGGACGAGGCGGACCGGATGCTCGACATGGGGTTCCAGGATGA
CATCAGTGCCCTGATCGCCGCCGCCCCGCCCAAGAGGCAGACTCTCCTCT
TTTCCGCCACCTACCCGGACTCCATTGCCGCCATGAGCGCCGGGGTCCAG
AGGGAGCCGGTGGAGGTCAGCGTGGACGAGGTCCATGGGGAGGGGGCCAT
CGAGCAGGTATTCTACGAGGTGGACAGCGGCCAGCGGATCGAAGCGGTCG
AGCGGATTCTCGGGCACTATCGTCCCGAGTCTGCTCTCATCTTCTGCAAC
ACGAAGCTGGAGTGCCAGGAGGTGGCCAATGCCCTGGCCGTCCGGGGGTA
TGCCGCACTGGCCATCCATGGTGACCTGGACCAGCGGGAGCGGGACCGGG
TGCTGGTCCGGTTTGCCAACAGGAGCGCATCGGTGCTGGTAGCAACCGAC
GTTGCCGCCCGGGGGCTGGACATCAAGGAGCTTTCGGCGGTGATTAACTA
CGAGTTGACCCGCAATCCGGAGGTCCATACCCACCGCATCGGCCGCACCG
GTCGCGCCGGGGAGCGGGGGCTGGCCGTAAGCTTGGTAACGCCCCGGGAA
AGCCGTCTGATTGCAGCCATCGCGGATGTGCCCGGCAGCATTATCGCCCG
TGGCGACCTGTCCACGCTGGCACCGCTAACGGCGAAGCCGCCGCTGCCCC
CCATGGTGACGCTCTGCATCGACGGGGGCCGCAAAAACAAGCTGCGGCCC
GGTGATATTCTGGGGGCACTCACCGGAGAGGGAGGTATGCCGGCCAGCGA
GGTGGGGAAGATTGATGTGTTCGATTTCTTTACCTACGTGGCCATTGCGC
GGCAGAGCAGTGAGCAGGCCTTGAACTTTCTGAGGGGACACAGGATCAAG
GGGCGTTTCTTCAAGGTGAGGAAAGCAGTCTGA
>GSU0363 dinG, ATP-dependent helicase DinG
ATGAAACGTTACTTTTCGGAACAGGCCATCCTCGACCTGCGCGCGGCCAT
CGCCGACGCCGGGGGCAACGAGGTTTTCTTCCTGGGGCGCACGGACGAGA
ACCTCCTCGTGGTGGAGGTGGAGCCCCTTGCCCGAGGCAACCGGGACGCC
GTGGCCGCCATCATGATTGCCACCAGCTTCGGCGACGTGGTGATCCACAA
CCATCCATCCGGCGTCCTCACCCCCTCCCAGGCCGACGTGGAGATCGCTT
CGCTCCTGGGAAACCAGGGGGTGGGCTTCTCGATCATCGACAACCGGGCC
GAGAACTGCTACCAGGTGGTTCCCCCCTTTGCCCGGCGGGAGACCCAGCG
GCTGTCGTTCCCGGAGATCGAGCGGATCTTCGCGCCGGCCGGGGTGCTCA
CCGACAATCTTCCCGGCTACGAATACCGGGACGAGCAGCTCAGGATGGCG
TTCCGCGTCACCGAGGCCTTCAACGACGACCGGGTGGCGGTCATCGAGGC
GGGCACAGGCACAGGCAAGTCGCTGGCCTACCTGGTCCCCGCCGTTCTCT
GGGCCATCCGCAACCAAGAGCGGGTGGTGGTTTCCACCAACACCATCAAT
CTTCAGGAACAGCTGACCCGCAAGGACATTCCCTTTCTCCAGCAGCACGC
CGGCATATCCTTCAAGGCCGTGCTCGTGAAAGGGCGCTCCAACTACCTCT
GCCGCCGCAAACTGGCCGCCGTCAAGGCCGAGCCGTCGCTCTTCGCCGAT
GACCCCGCCGCCGGCGAGCTGGAGGCCATCATCGCCTGGAGCGAGACCAC
TGGGGAAGGATGCCGGAGTGATCTCTCCTTCATTCCCAAGGAGGAGGCGT
GGGAGGAGGTGGCCTGCGAGGCCGACCAGTGCGGCCGGGTCCGCTGCCCC
TTCTACGCCCGCTGCTTCTTTTACTCCGCCCGACGCCAGGCTGCCAGCGC
CGATCTTCTGGTGGTGAACCACTCACTCCTCATGGCCGATCTGGCCCTGC
GCCAGGAGGCCGGCTACCGTTCCACCGCCATCCTCCCCCCTTTCGAGCGG
CTCATCGTGGACGAGGGGCACCATTTGGAGGACGTGGCCACGGGACACCT
GTCGGCCCAGGTCTCCCGCACGGGGCTGTTAAAACTCATGGGAAGACTCC
AGAACCCGCGCAAGCCACAGCGCGGGCTCCTGCCCCAGTTTTCAGCAGGG
CTTGTCCGGGAGATGCCCGAAGCCCTCGACGAACTCTACCGGGAACTGGC
CGAACGGATCGATGGCACCCTCATCCCTCGCCGTCAGCAGTTGACCGACG
GCGTCACTCGTGCCATGGACGCCATCGGGATCGCCCTCGTGGGTCACCTG
TCGGAACGGGGGGGCACGACGGGCGAACGGAAACTGCGGGTGACGCCGTC
GCTCTTCGGCAGCCGACTCTGGCGAGTGGTGGACGACGAGGTGCGGGAAC
TGGCCGCGGATATGAACGACTACGTGCGGGAACTGAAAGGAGTCCTCACG
GCCTGCGTGCGTCTTCCTGAGGAGGTACGGGAAAAGCTTGCCGGGCTCCT
CATCGACCTGCGGGGAATCACCGGCAGGCTCGAAGCCGTGGCCGGCGACC
TGATCTTCTTCATCGGCCGCGAGGGCGAGGTTTGCCGCTGGTTTGAGGTG
AAACGGGGCAAGAATGGCATGGTCGTACGGCTCTGCTCGTCTCCTCTGGA
GGTGGCGGCATCCCTCAAGCGGACTCTCTTCGACGCCTTCCGGACCGTGG
TCGTCACCTCCGCCACGTTGGCGGTGGGAGAGCGGTTCGACTACCTGGCC
AGACGAACCGGCATCGCGCTCCTGAAACAGGATCGGGTCACCGAACTCCT
CCTGGCTTCCCCCTTCGACTACGAGCACCAGGCCTTCGTGGGGATCCCCG
CCGATATCCCGGAACCTGCCTCGCGCGGCTTCCAGGAAGCCCTGGAGCTG
GCCCTTCACCAGGGACTGGCCATCTCGGAGGGGCACGCCTTTGTCCTCTT
CACCTCCTACGACCTGCTGGCAAAACTTTTCGGCAGGATGGCCGAGACAC
TGAAACGGCGAGGCCTCACCCCGCTGCGCCAGGGAGAGGTCAACCGACAC
CACCTCCTGGCCCGGTTCAGGCAGGAGCCCAACGCCGTGCTCTTCGGCAC
CGACTCCTTCTGGGAAGGAGTTGACGTCCAGGGGAAGGCTCTGGAGCTGG
TGGCGCTCACACGTCTCCCCTTCAGGGTCCCCACGGAACCGGTCCTGGAG
GCCAGGGCCGAGCACATCGCCGCCGGTGGGGGCGACCCCTTCATGGAATA
CACGGTTCCCCAGGCGGTCATCAAGTTCAAACAGGGATTCGGACGGCTGA
TCAGAAGCAGAGAGGACCGGGGCGCGGTCCTCATCCTCGACAGTCGGGTC
CTGACAAAAAACTACGGCGGGCATTTCCTCCGGTCACTGCCGCCCGTGCG
GCTCGTGACCGGTTCTTCGGCGGAGGTCTTCGGGGCCATGGCTGACTTCT
TCGCGGCCCCTCCATCCCCATAG
>GSU0000.1 dnaA, chromosomal replication initiator protein DnaA
ATGGAAGAAGTTTGGCTCCAGGCACAATCCAATCTCGCTAAGGTTCTCAC
ACATCAGACCTTTAACACCTGGATCGAACCGATCAAGTATCTCGGATCCA
AGAAGAATGTGCTGCTGCTGGAAGCCCCGAACCAGTTCGTCAGGGACCGG
GTAAGCGAAAGCTATCTTCCCATGATTCTCGAATCGGTTCAATCGCTTAC
CGATTCCCAGACCAAGATCGAACTTCTGATCGCAAAGCCCAAAACGGAAA
AACCCAAACAGCCTGCGGCCTCTGAGGTCACCGCCGCGGAACCGGAAGCC
TGTTCGGGGCCCGATCACTCAACCAACCTGAACCCCAAGTACACCTTCGA
CACGTTCGTCTGCGGCGGCAGCAACCAGTTCGCTCACGCGGCGGCCCAGT
CGGTGGCGAACAGCCCGGCCGGCAAGTACAATCCCCTTTTCATATACGGT
GGCGTGGGACTGGGTAAAACCCACCTCCTCAACGCAATCGGCAACCATGT
GCTGTCGGTGAACCGCAAGGCACGGATCTGTTTCTACACGTCGGAAAAAT
TCATGAACGAACTCATCAACTGCCTGCGGTACCAGAAGATGGATCAGTTC
AGAAACAAGTTCCGTAAGATGGACATTCTTCTCATCGACGACATCCAGTT
CATCGCCGGCAAGGAACGGACCCAGGAGGAGTTTTTCCACACCTTCAACT
CGCTCTACGAATCCCACAAGCAGATCGTAGTGACGTCCGACAAGTTCCCC
AAGGATATTCCCGGCCTGGAAGAGCGCCTCCGCTCACGTTTCGAGTGGGG
CCTCATCGCCGATATCCAGGCGCCCGACACGGAAACCAAGGTAGCGATCC
TGCGCAAGAAGGCGGATGCGGACCATATCTCGCTCCCCGACGATGTGGCC
CTGTTTCTGGCATCCAGCTCAACAACCAACGTGCGGGAACTGGAAGGAAT
GCTCATCAGACTCGGTGCCGTTTCGAGCCTGACCGGCAAGAACATCACCC
TCGACATGGCACGGGAAGTCCTCAAGGACATCATTGTGGACAAGTCGAAG
GAAATAACGGTTGAGATGATCCAGAAATTCGTGGCCGAACACTTCAGCCT
CAAGGTGGCTGATCTCAAATCGGACAAGCGGCTCAAGGCGCTGGTGATAC
CACGCCAGATTGCCATATTCCTGTGCCGTGATCTTACCAAATCTTCATAT
CCGGAGATCGGTGAACGGTTCGGCGGCAAAGATCATTCAACCATCATCCA
CTCGGTGAAAAAGGTGGAAAAGCTCCTCAGTCAGGATTTCGAACTCAGAA
ACACCGTCGACACCCTGAGGAAGGGGCTGTTGAGCTGA
>GSU0998 dnaB, replicative DNA helicase
ATGTCCGCGGTCGATCTGAGAAAAGTTCCTCCCCAGAGCATTGAAGCCGA
GATGTCGATTCTCGGCGGCGTGCTCCTCGATAACGAGGCGATCAACCGCT
GTCTGGAGTTGATCGAGGCCGACGATTTCTATCGCGAGTCCCACCGCAAG
ATATTCCGGGCCATGATCGACCTATCCAACCGGAGCGAGCCCTGCGACCT
GATCACCCTCACGGACATGCTCAAGCGCAAGGGAGAGCTGGAGGAGGTGG
GGGGCGGCGCCTATCTTGCCACCCTGGTGGACTATGTCCCCACTGCCGCC
AACATCGCCTACTACTGCCGGATCGTGAAGGAGAAGTCGGTAACCCGGCG
CCTCATCACCGCCGCCACCGACATCGTCACCCGCGGCTATGACGAGGAGA
CCACGGTGGACGAGCTTCTGGACGGCGCCCAGAAGACCATCTTCGAGATT
TCCGAGAACAAGCTCCGCCCTGCTTTCACCCCGGTGGGCACCATCCTCAA
GGATACCTTCAAGAGAATCGAGACCCTCTACGAAAAGAAAGAGCACGTAA
CCGGCGTCCCCACCGGGTTCTACGACCTGGACAAGATGACCGCCGGTTTC
CAGCCGGGCGATCTCATCATCATTGCCGGCCGCCCCTCCATGGGCAAGAC
GGCCTTTTCCCTCAATATCGCCCAGTATGCCGCGGCCCATGCCGATCCGC
CCCTGCCCGTGGCCGTGTTCTCCCTGGAGATGAGCAAGGAATCCCTGGTT
ATGCGTCTGCTCTGCTCCGAGTCGCGGGTTGATGCCAGCCGCCTGCGGAC
CGGTCACCTGGTGGACACCGACTGGCACAAGCTGACCCACGGGGCCGACA
AGCTTTCCAAGGCCCGGCTCTACATCGACGATACCCCGGCCATTCCGGTG
CTGGAGATGCGGGCCAAGGCCCGGCGCCTCAAGGCGGAGAACGGCCTCGG
CATGATCGTGGTGGACTATCTCCAGCTCATGCGCGGCTCCAGTCAGGAGT
CACGCCAGCAGGAGATCTCGGAAATCTCCCGCTCCCTCAAGGCCCTGGCC
AAGGAGCTGGACGTGCCGGTGGTGGCGCTCTCCCAGCTCAACCGGAGCCT
GGAAAGCCGCACCGACAAGCGCCCCATGATGAGCGACCTGCGGGAATCGG
GGGCCATAGAGCAGGACGCCGACGTGATCATGTTCGTGTATCGCGACGCT
GTCTACTGCGATGACTGCAAGAAGCGCGACGGTTCCTGCACCAAGGGGCA
CGAGAAGGACGCCGAGATCATTATCGGCAAGCAGCGTAACGGCCCCATCG
GCTCCGTCAACCTGCTGTTCAACGGCGAATTCACCAAGTTCGAAAATATG
GAGAAGCATCATGATTACTAA
>GSU1401 dnaE, DNA polymerase III, alpha subunit
ATGAGCTTTGTCCATCTCCATCTCCATACCCAGTACTCCCTTCTCGACGG
CGCCATCCGCCTGGGCGACCTGGTGAAAAAGGTTAAGTCCCACGACATGC
CCGCCGTGGCCATCACCGACCACGGCGCCATGTTCGGGGCCATGGAATTC
TACCTTAAGTGCAAGGACAAGGACGTGAAGCCGGTCATCGGCGCGGAGGT
CTATATCGCGCCGGGCTCCCGTTTCGTCAAGGAGGCCAGGGGAGGGGAGG
CCGGCGCCGGCTACCACCTGCTGCTCCTGTGCGAGAACATGACCGGCTAC
CGGAACCTGTCCAAACTGGTCTCCATCGGCTTCAAGGAAGGGTTCTACTA
CAAGCCGCGCATCGACAAGGAGGTCCTGGCCGAGAACGCCGAGGGGCTCA
TCTGCCTTTCCGCCTGCCTCAAGGGGGAGGTTGCCTATCTGTGCGAGCGC
GACCGGGTCGCCGAGGCGGTGGACGTGGCCCGCTGGTATGCCGATCTCTT
CCCGGACCGCTACTACATCGAGCTTCAGGAAAACGGCCTCGTTGAACAGG
ACAAGGCCAACCGGGGGCTGCTGGAGGTGGCGCGGGAAGTGGGTCTGCCG
CTGGTGGCCACCAACGACTGCCACTATCTCAACCGGGAGGATGCCCGGGC
CCACGAGGTGCTCCTCTGCATCCAGACCGGCAAGACCATGAACGATCCGT
CGCGGATGCGCTTCTCCGTTGACGAGTTTTACGTGAAGACCCCCGAGGAG
ATGGCCGCCGCATTCCACTATGCGCCCGAGGCGATCTCCAACACCGTGAA
GATCGCCGAGCGGTGCGATCTTTCCTTTGACTTCAAGACCTATCACTTCC
CCCGCTTCGAGCCCCCCGTCGGCCTGAGCCTTGATCAGATGCTGGAGGAG
GCTGCCCGCACGGGACTGGAGTCGCGCCTGACCGCTATCCGGGCCAAGCA
CTCGTCCATGACCGCCGAGCAGGAGCAGGCCTACTGGGACCGCCTCGCCA
TCGAGCTCGCCTGCATCAAGCAGATGGGGTTCCCGGGCTACTTCCTGATC
GTGGCCGATTTCATCAACTGGGCCAAGGACCACGGCATTCCCGTGGGCCC
GGGCCGGGGCTCGGCGGCCGGCTCGCTGGTGGCCTACGCCATCCGGATCA
CCGACCTGGACCCGATCCCCTACAACCTCCTCTTCGAGCGCTTCCTTAAC
CCGGAGCGGATATCCATGCCCGATATCGACGTGGACTTCTGCCAGGATCG
GCGCGAGGAGGTGATCCAGTATGTCACCGAGAAGTACGGTCGCGACAAGG
TCTGCCAGATCATCACCTTCGGGACCATGTCCGCCCGGGCCGTCATCCGC
GACGTGGGGCGGGCCCTGGACATGACCTACGGCGAGGTGGACCGGATCGC
CAAGCTGGTGCCGGAGGTCCTGGGCATTACACTGGAAAAGGCCATTGCGC
AGGAGCCCAAGCTCAACGAGGCGGCCGAGGCCGATCCGCGGGTGAAGGAG
CTGCTGGAGGTGGCCCTGCGCCTGGAGGGGCTTGCCCGCCATGCCTCCAC
CCACGCGGCCGGCGTGGTGGTGGCCCCCGATGTGCTGGAGCAGTTCTGCC
CGGTCTACAAGGACCAGAAGAGCGGCTCGCTCACCACCCAGTACTCCATG
AAGTACGTGGAGAAGATCGGGCTGGTCAAGTTCGACTTCCTGGGGCTCAA
GAACCTGACGGTCATATTCAACGCGGTCCGGCACATCCGGGCCGACAAAA
AGCCGGACTTCGACATCGCCGCCCTGCGGGACGACGACGAGGAGAGCTAC
AAGCTGCTCCAGGCCGGCAACACCACCGGGGTGTTCCAGCTTGAATCCTC
GGGGATGCGGGAACTGCTCCGCAAGCTCAAGCCCTCCTGCTTCGAAGACA
TCATCGCCGTCTGCGCCCTCTACCGTCCCGGCCCCCTCGGCTCGGGCATG
GTGGACGACTTCATCGACCGCAAGCACGGCCGCAAGAAGGTGGTCTACGA
TCTGCCGCAACTGGAGCCGATCCTCAAGGACACCTACGGGGTCATCGTCT
ACCAGGAGCAGGTCATGCAGATCGCCCGCTCCCTGGCCGGCTACTCCCTG
GGCGGCGCCGACCTGCTGCGCCGGGCCATGGGCAAGAAGGACCCGGCCGA
GATGGCCAAGCAGCGGGACATCTTCCTGGAAGGGGCCAAGAACAACGGCA
TCGATCTCCAGAAGGCCGGCGCCATCTTCGACCTGATGGCCAAGTTCGCC
GAGTACGGGTTCAACAAGTCCCACTCGGCCGCCTATGCCCTGGTGGCCTA
CCAGACCGCCTATCTCAAGGCCCACTATCCGGTTGAGTTCATGGCCGCGC
TCCTGACCGAGGACATGGCCAACACCGACAAGGTGGTCAAGAACATCGCC
GACTGCCGCGAGATGGGGATCGAGGTGCTGCCACCGGACATCAATGCCTC
GGATCTGTCGTTCCGGGTCCTGGGCAACTCCATCCGCTTCGGTCTCGGCG
CGGTCAAGAACGTGGGCGAGTCGGCCATCGAAGCCATCATCGAGGCCCGG
GGCGACGGCCCGTTCAAGGATATTTTCGAGTTCTGCGAGCGGGTTGACCT
GCGCAAGGTCAACAAGCGGGTGGTGGAATCCCTGATCAAGTGCGGCGCCT
TCGACTCGACCGGCGGGCGGCGCTCCCAGCTCACGGCGGCCCTTGAAGAT
GCCATGTCCCTGGGCCAGAAGATCCAGCAGGAGAAGGAAAGCGCCCAGGT
GTCGCTCTTCGGTGCCGAGGAGATCGTCCGGACCAACGGCAACGGCAAGG
GAAAGGTGCAGCTCCCCGATCTGCCCGAATGGGACGACAAGTTTCTGCTG
GCCCAGGAAAAGGAGGCCCTCGGCTTTTTCATCACCGGCCATCCCCTGGG
CCGCCACGAGAAGGACATCCGGCGCTTCACCACCGCCGACACCGCCACCC
TGGAGGAGCGGGCCGACAAGAGCGAGGTCAAAATTTGCGGCATCGTGGCC
ACCATGAAGGAGCTCATGACCAAGAAGGGGGACCGGATGGCCTTTGCCAC
CCTGGAGGACCTGGTGGGCTCCGTGGAGGTGGTGGTCTTCCCCGAGGTCT
TTGCCAAGGCGTCGGAATACCTCAAGTCGGACGATCCGCTGCTGGTCACC
GGCACCATCGATAAGGGGGAGAAGAGCGCCAAGATCATGGCCAGCGACGT
GGTTCTTCTCCGGGACGTGACCGCGCGGCAGACCTCACGGGTGATCTTCG
CCCTGCAGGGGGACGGCCTCGACCGCTATCGCCTGGAGGAGCTCAAGGCG
ATCATGCTCCGCCATCCCGGTACCTGCAAGGCCACCCTCACCATCGACAT
CCCGGACCAGTGCCGCGCCACCATTGCCCTGCCCGATTCCTGCATGGTTG
CGCCCTCTGACGAATTGACGGTGGAGGTCAAGAACCTCTTCGGCTATCAT
GCCGTTGCGTTTGAATAG
>GSU3090 dnaG, DNA primase
ATGTCAAACATCCCCGACGATAAGATTAGGGAGATACGCGAGCGAGCTCC
GATTCTGGAGGTGGTCTCGGATTATGTGAGCCTCCGGAAATCGGGCGCCA
ATTACCAGGGACTCTGTCCGTTCCACGGCGAGAAGACCCCCTCCTTCAAC
GTGAATCCGGCCCGGGGGATCTTTCACTGTTTCGGTTGCGGCGTTGGCGG
AAATGCCATCACCTTTGTCATGAAGATGGAGGGACTGTCGTTTCCCGAAG
CGGTCAAGTTCCTGGGCAAGCGGGTCGGTGTCGAAATCGAGGACCGTCCC
GTTACCGCCGCAGAGAAACGGCGGCAGGACGAACGCGAAGAGCTCTATGG
GATCATGGACCTGGCTGCCAGGCTCTATCGCGAGGCCCTGGAGCGAAACG
AAGAGGCCGGCGCGGCCCGGCGCTACCTTGAAACGCGCGGTGTGGACCGG
GAGACGTCCGAGGCGTACCGTCTCGGGTTCGCGCCGGACCGGTGGGATTA
TCTCTCGCGGCACCTGCAACACCGCAAGGTCTCCATGGATCTGGCGGAAC
GGCTGGGACTCGTGCGTCGGCGCGAGGGGGGCGGCTACTTCGATATCTTC
CGCAACCGTCTCTTGTTTGCCATCACCGATATCCACGGACGCACGATCGG
GTTTGGCGGCAGAGTCCTGGATGACTCGCTGCCCAAATACATCAACTCTC
CCGAGTCGCCCATCTATCACAAGAGCGACGTGCTCTTCGGCGTCCACCTG
GCAAAGGGCGCTCTGCGGGAGCAGGGCAGCGCCATTATCGTAGAGGGTTA
TTTCGATCATCTTGCCCTCTATCAGGCAGGGGTCCGGAACGTGGTCGCCA
CTTGCGGCACGGCCTTGACCGAAGGCCATGTGAAGCTTTTGCGGCGCTAC
GCCGGGAAAGCCTACACCCTGTTCGATGCGGATAGTGCCGGACGGAAGGC
GACCGTGCGGGCGATCGACCTCTTTCTTGCGGAAAACTTCCCGGCCCACG
TGGTGGAGTTGACCCAGGGAGAAGACCCGGACAGTTTCGTCAAGAAAGAG
GGGGCGGACATCTTCCGGACACGGCTCGCCAAGGCCCGGCCGGCATTTGA
TTTTCTCTTCCGCGACCTGCTCGGACAGGTGGATGCGGGTACGGTAGAGG
GAAAGCTGAAGGTGGCGAACGAGTTGGCGCCCCGCTTGGCAAAGCTCGCC
AATCCCATCGAGCGGGAACTCTACGTGAAGGAGATCGCACGGGTTCTGGG
TATTGATGTCCGTTCCCTGCTGCGTGCGTCGGGCGGAGCAGCCGGATCAC
GCCCTGACCCCCTTCCCCGCCCGACTGCGGAGCGCCGGCCACGTGGCGCC
GGTCCCGAAGAGATGCTGCTTGCTCTCATGGCGCGATCCGCTGAAGTGGC
AGATCGAGTCCGCCGCGGTGAGGCGGCGGGGCTATTCCGTCCCGAGCTTG
CTCCCGTTGCCGATGCCATACTTGAGCGGCACAGCCGGCGGGTGGAGATT
GACTGGGGGGAGCTTCTCGAACTGGTTGCATCCCCCGAGGAAAAGGGACG
CATTGCGGCGTTCCTCGTCAACGACGATCATCTCGCGGACGTTGATGTCC
ATAAGGCCTTTGACCAGTGTCGCCAAGCCCTGGAGCGTGGTTCCCTCAAG
CGGCTCAAGGACTTGGCCAGAGAGCTGGCTGCGGCTGATTCGGATACCCC
CCGGTACCGGGAGCTGCTTGCCGAAATAGAGGCCTTGCGAAACAGGAAAT
CGCAGTTATCTTAA
>GSU0001 dnaN, DNA polymerase III, beta subunit
ATGGAATTCACGATTGACAGGGACACCTTCTCGCGGGCTCTCCAGAAGAT
CCAGGGGATCGTCGAAAAGCGCAACACCATGCCGATCCTCTCCAACGTCC
TCATCGAGGCACTGGAAGATCGGATCGAGCTGACCGCCACCGACCTGGAA
GTCGGCATGAAGAGCTCCTACCCCACAACGGTTGCGAGCCAGGGCAAAAT
CACCGTATCGGCCAAGAAGCTCTATGAAATAGTCAAGGAGCTTCCCGACG
AGACCATATCATTTCTGACCAAAGCGAACGACTATGTGGAGATCCGCTGC
GGCAAGGCCAAGTTCACTATTGTCGGCCTTTCCTCCGAGGAGTTCCCCTA
TTTCCCCAAGGTCAATGAAGAGAGCTTCATCAGGATCGAAAGCGGCCTGC
TGGCCGACATGATCGAGAAAACCTCGTATGCCATCTGCTTCGATGAGACC
AAGTACAATCTGAACGGTACCTTCGTGAAGGCGTCCGAGGAAGATGGCCG
CTCGATACTTCGCATGGTTGCCACCGACGGCCACCGGCTCTCCATCACCC
AGAGGGAATTCAACGGTGCAGTAAGCCCCGAGATGGCCAAGGGGGTCATC
TTCCCCAAGAAAGGCATCTTCGAGCTGAAAAAGATGTGCGAGGAGGAGTC
GACCCAGCTTTCCCTGGGCTTCCTGGATAACAGCGCCGTGATCGTTAAGG
GAAACACCGTCGTGGTGATGCGCCTGGTGGACGGAGAGTTTCCCGATTAC
ACCAGGGTGGTGCCGGTGGCCAATGACCGGATCGTCACCGTGGCGCGGGA
TCCGTTCTTCCATTCGCTGCGCAGGATGTCCATCCTTTCCAGCGAAAAGT
TCAAGGGCATCAAGATGGATATTCAGGAAAGCGGCATGGTGATCTCTTCC
AGCAACCCGGAACTGGGCGAGGCGTCCGAAGAACTGGACGCCGTATTTGC
CGGAGATGCCATCTCCATCCGCTTCAATGCCAAGTACCTCATCGATGTGC
TGGCAGTGCTGGATGAGAGCAGCGTGGCACTCCACCTGAAGGACGAGCTT
TCTCCGGCCATCGTGAGGCCGGCTGACGGCGACGGTTTCACAGCGGTAAT
TATGCCCATGCGTCTGTAG
>GSU0094 dnaX, DNA polymerase III, gamma and tau subunits
GTGTCCTATCTCGTTCTCGCACGAAAGTGGCGTCCCCAGACCTTCAGCGA
CCTCACGGGACAGGAGCACGTCAGCCGAACCCTTCAGAACGCCATTGATT
CCGGCAGGATCGCCCACGCGTTCCTCTTCACAGGGGCCCGCGGCGTCGGC
AAAACCTCGTCGGCCCGGATTCTGGCCAAGGCCCTCAACTGCGAGCAGGG
TATGAGTCCCGAGCCGTGCAACGTCTGTCCCGCCTGTACCGAGATCACGG
CCGGCACCTCGGTCGATGTTCTTGAAATTGACGGGGCCTCCAACACCGGT
GTCGACGATATTCGCGAACTGCGGGAGAACGTCAAGTACCTTCCGTCGCG
GTTGCGCTACAAGATCTTCATCATTGATGAAGTCCACATGCTCTCCACCA
ACGCCTTCAACGCCCTGTTGAAGACCCTGGAGGAGCCACCGCCCCACGTG
AAGTTCATCTTTGCCACCACCGAGCCCCACAAGCTTCCCATCACCATACT
CTCACGCTGCCAACGCTTCGATTTCCGGCGGATTCCGCTTGCAAAGGTGG
TGGCCCGACTGCGTTACATCGTCGACCGTGAGGGGATTTCCATCAGCGAC
GAGTCCCTTGCCGTGGTGGCGCGCAAGGGAGACGGCAGCATGCGGGACTC
CCTGTCGGTCCTGGACCAGGTGCTTGCCTTCTGTGGCGAGACGGTGAACG
ATGATGATGTGGTGAGCCTTCTGGGTGTCGTGGACCGGCGCCTGCTGCTG
GAGGCGTCGGCCGCCGTTTTGGGCCGTGATACGCGCAGTGTGCTCGGGGT
GGTTGCCCGGGTGGACGAATTCGGTTACAACATGCGTCAGTTTTGCGGCG
AACTTATCGACCATTTCCGCAATCTGACCATCATGAGGGCCGTGGGCGAT
GCGGGAGACCTGCTCGACCTCTCCGAGGCGGAGCTCCAGTCGGTTCGTGA
ACAGGCATCCTCGGCGCTGCTGGAGGATCTGCAGCGGCACATGACAATCC
TCCTGCGGGCCGACGGCGAGTTGGCTCACTCGGGCTACCCCCGGCTGGTC
CTGGAGATGGCGCTGGTTCGAATGGCGACGCTGGCGCCCCTGGTGCCGGT
GGGTGAACTGCTGGACAGGCTCGGCAGAATCGAGGAGCGGGGCAGCGGTG
TTGCGGCCGACGCCCGGGCGTCATGGCGCCCCTCACCCCCGCCGGAGGCC
GGGGTCGCCCCTGTGCCGCGTCCGGCACCCTCTGCCCTGGCCGAACAACG
ACCCCGCCCCGTTCCTGCCGGGGCTGAGGCAAAGCCGCCCCCGTCGCGTA
GTGACTCGCCCGTTCAGGAACCTCGGCGGACCGGGGATGAGTGGGCCGAT
TTTGTTGCATTCGTCAAGGGGGCCAAGCCCCGGATCGGCACATCGCTGGA
GTACGGCAGTCCGCTGCATATTGCCGCTGACCGCCTAGAAATCGGTTTTC
CGGAAAACTCCTTTGCTCTGTCGAGCCTCCGGGACGGCGATGCGCAAGCA
TCTCTCAAGGCCTTGGCGGAGCGCTTCTTCTCGGCACCCATGACGGTTGC
CCTCAAGGTGTTGACCGGTGAAGGCCATGCGCCTCCCAACCTGCTTGAAA
AAAAAAGAGCTGAAGATGAGCAGCGCCGCACCGGCCTGAAGCGGTCGGCC
GAATCCCATCCGGCGGTATCCTCGGCCCTTGAGGTCTTTGACGGAACACT
CGCAGAGGTTGCCCCGCTGGGGACGCGAGGCAAGCTATAA
>GSU2550 drpA, DNA processing protein DprA
ATGTATCACTGGTTTGCGCTCAGATCGGTCCCCCTGGTGGGGAATGTCCT
CTATCGCCGGCTGCTGGATCGGTTCGGCTCTCCCGAGGCGGTTTTCAGGG
CCTCCGATGCTGAGCTTGCGTCCGTGCGCGGCGTAAGCTCCGCCGTTGCG
GCCTCCATCCGGGGGCATGATCCCCGTGCCTTTGCCGAGTCAGAGTGCGA
ACGGGTCCGGCGCGCGGGCGTCCGCATCGTCACCATCCGGGACCCTGACT
ACCCGCCGCTTCTCCTCCAGATTGCCGACCCGCCCCCCTACCTCTACGTC
AAGGGCGACCCGACGGGGCTGGAGCCTGCCGTGGCCGTGGTGGGGTCGCG
CCGGGCCACCGTTTACGGCCGCACCGTAACGGCCCGGCTGGCCGAGGACC
TTGCCCGCCGCGGGGTGGCGGTGGTTTCGGGCATGGCCCGGGGCATCGAC
ACTGCGGCCCACCAGGGCGCCCTGGCCGGGGAGGGGAGAACCGTCGGCGT
TCTGGGGTGCGGCATCGACGTGGTGTATCCCCCCGAGAACCGGGCGCTCT
TCGCCCGGGTGGCCGACCGGGGAGCCCTGGTGTCCGAGTTCCCCCTGGGC
ATGGGGCCTCTGGCCGAGAATTTTCCCCGCCGCAACCGGATCATCAGCGG
CATGTGCCGCGGTGTCCTGGTGGTGGAGGCGGCCGAGCGGAGCGGCTCGC
TCATCACGGCACAGATGGCCCTGGACCAGGGGCGGGACGTCTTCGCCATC
CCGGGGAATATCACGAGCAGCGGCAGCAGCGGCACCAACCGGCTCATCAG
GGAAGGGGCCAAACTCGTGGCCGGAGTCGAGGATATCCTGGAAGAGCTTG
TCCCCCGAGCTGCGGCCGCGGTTGCCGTTGCGCCGCCACTGCCGCCGCTT
CCCGCCGGCGAGGCCGCCCTGATGGCGATGTTCGGCGCCGATCCACTTCA
CATCGACGAGATCATTGCCAAAAGCGCGTTGACAGTGGGGGAGGTTTCGG
CTATGTTACTGCGCCTGGAACTGAAAGGAGTCGTAACTCAGCTTCCCGGC
AAGTTTTTTCACGCTAACTGA
>GSU0004 gyrA, DNA gyrase, A subunit
ATGCTTGAACAATCCCTGAACAAGACAGCCGTCAACATCGAAGACGAGAT
GAAGCGCTCGTACATGGACTATGCCATGAGCGTCATCATCGGCCGGGCCC
TCCCCGATGTGCGGGACGGGCTCAAGCCGGTGCACCGCCGCTGCCTCTAC
GCCATGTACGACATGGGCAATGATTACAACAAGCCCTACAAGAAATCGGC
CCGGGTGGTCGGGGACGTGATCGGTAAGTATCACCCCCACGGCGACGCGG
CGGCCTACGATACCATCGTCCGGATGGCCCAGGACTTCTCCCTCCGCTAT
CCACTGGTGGACGGCCAGGGGAACTTCGGCTCCGTGGACGGCGACTCGCC
GGCGGCCATGCGGTACACCGAGATCCGGATGGAGCAGTTGGCCCACGAGC
TCCTGAACGACCTGGAGAAGGAGACCGTGGACCTGGGGCCCAACTACGAC
GGCTCCCTCACGGAGCCCCTGGTGCTTCCCTCCAAGTTCCCGAACCTCCT
GGTGAACGGCTCCTCCGGCATCGCCGTCGGCATGGCCACCAACATACCTC
CCCACAACCTTACGGAGGTCATCAACGGGATTATCGCCACCATCGAGAAT
CCGAATATCAGCTTCGAGGAGCTCCTGGCCCTCATCCCCGGCCCCGATTT
CCCCACCGGCGGGTTCATCTACGGCCGGGAGGGAATCCTCCAGGGGTACC
GGACCGGCCGCGGCATCGTCCAGATGCGGGCCCGGGCCTCCATCGAGACC
CACAAGAAGACCGAGCGCCAGTCCATCATCGTCACCGAGATCCCCTATCA
GGTGAACAAGGCGAACCTCATCACCAAGATCGCCGAACTGGTGCGGGAGA
AGAAGCTGGAGGGGATCAGCGACATCCGCGACGAGTCCGACCGGGACGGG
ATGCGGATCGTCATTGATCTCAAGCGGGACGAGAATCCCCAGGTGATCCT
GAATCACCTCTACAAGCAGACCCAGATGCAGACCTCCTTCGGCATCAACA
TGCTCGCCATTGTGGCGGGGCGGCCGCGGGTCCTGACGCTTCGGGATGCC
ATCGGCCACTTCATCGACCACCGGCGGGAGATCGTCACCCGGCGCACCAT
CTTTGATCTCAAGAAGGCCGAGGCCAGGGCCCACATCCTGGAAGGGTACA
AGATCGCCCTGGACTGGCTCGACGCGGTCATCGAGCTGATCCGCGGGTCC
AAGACCCCGGCCGAGGCCAAGGAAGGGCTCATGTCGGGCCTCTTCTCCGA
CGAGGAGTGGCTGCGGAAGATGGGACTCCCGCTGCCGGCCATCCACAGCC
AGTACCAGAAACCGGTTCGGCTCACCGAGGTCCAGGCCCAGGAGATCCTG
AACCTGCGGCTCCACCGCCTGACAGGCCTGGAGCGGGACAAGATCCTCCA
GGAGTACGACGACATCCTCAAATACATCGCCCGGCTCAAGGAAATCCTCG
CCTCCGAGGCGGAGATCCTCAAGATCATCGTGGGTGAGCTGCGGGAGCTG
AAGGAGAAGTTCGGCGACGAGCGCCGCACCGAGATCGTGGACCGGAGCGC
CGAGATCTCCCTGGAGGACACCATTGTCGAGGAGGACGTGGTGGTCACCG
TCTCCCACACCGGCTACATCAAGCGGACCGCAGTTTCCCAGTACCGCTCC
CAGCGCAGGGGGGGCAAGGGGAAGACCGGCATGAAGACCAAGGAGGAGGA
TTTCGTCGAGCACCTCTTCGTCGCCTCCAGCAAGGACTTCATGCTCTTTT
TCACCGACGCCGGCAAGGTCTACCAGATCAAGGTCTACGAGATCCCCGAG
GGGGGCCGGGCCACCCGTGGCAAGGCCATTGTCAACCTTCTGAACCTTCA
GGAGAATGAGCAGATCACCGCCATTCTCTCGGTGAAGGGATTCGACGACG
ACCGCAATATCATCATGGCAACCCGGCTCGGAGTGGTGAAGAAGAGTCCC
CTGCGGGAATATGCCAACATCCGCAGCGGCGGGATCATTGCCGTGAATCT
GGACGATGGGGACAAGCTGATTGCCGTGGCCCTGACCGATGGCAGGCAGG
ACGTGCTCCTGGCATCGAAGAACGGCAAGTCGATCCGCTTCCACGAGGAT
GACGCCCGACCCATGGGCCGGGTCTCCCGCGGTGTGCGGGGAATGTCCCT
GGAGGACGACGACGTGGTCATCGGCATGGAGATCATCAATCCCAACGCCA
CTGGCTCCACCATTTTCACCGTCACCGAGAATGGCTTCGGCAAGCGGACC
GAACTGGATGAGTACCGGGTCCAGTCCCGCGGCGGCAAGGGGATCATCAC
CATCAAGACCACCGAGCGCAACGGCTGCGTGGTGGACATCATGCAAGTAA
CCGATGAAAACGACCTGATGCTCATCACCGACCAGGGGAAGATCCTCCGG
ATTCCCGTGGCCCAGTTCTCGGTCATCGGCCGCAACACCCAGGGGGTGAG
GCTCATGACCGCCGAGCAGAACGAGCGGATCGTGGCCGTGGCAAAGCTGG
CCGAGAAGGATGAAGGGGACGACGGCGCCGACGGAGGCGATGATCTCCCC
GACGCGGAGGTCGTGGAGGAGTAG
>GSU0003 gyrB, DNA gyrase, B subunit
ATGACCGACGAACAGAACTACGATTACGGTGCAGACAAGATCAAGGTCCT
GGAGGGGCTCGAGGCGGTACGCAAGCGCCCCGCCATGTACATCGGCTCCA
CCGCGGCCCAGGGGCTCCACCACCTGGTCTACGAGATCGTGGACAACTCC
ATTGACGAGGCCCTGGCCGGCTACTGCAACGAGGTGAACGTCACCATCCA
TCTGGATGGTTCCCTGACGGTGGTGGACAATGGCCGCGGCATTCCTACCG
ACATCCACCCCACGGAGGGGAAGCCGGCGGCGGAGGTGGCCCTCACGGTC
CTCCATGCCGGCGGCAAGTTCGACAACACCTCCTATAAGGTCTCCGGCGG
GCTCCACGGGGTCGGGGTCTCGGTCGTGAACGCCCTGTCCAGGAAGCTGG
AGCTGGAGATTCGCCGGGACGGGAAGGTGTACCGCCAGTCCTACGCCTGC
GGCGACCCCCAGACTCCCCTCGAAGTGATGGGGGAAACGAAAAAGCGTGG
GACCAAAATAACCTTCCTCCCCGACGATACCATCTTCGAGACCACGGAGT
TTTCCTTCGACGTTCTTTCCCAGCGGCTCCGGGAGCTGGCGTTCCTCAAC
GCCGGGGTCCGGATCACCATCACCGACGAACGGGAGGAGGGAAAGCACCA
CGACTTTCACTACGAAGGAGGCATCGTCTCCTTTGTGGAGTACCTGAACC
GCAACCGGACCGCCCTCCACCCGAAGCCGATCTACTTCAAGGGTGAAAAG
GCAGGAGTCGAGATGGAGGTGGCCCTCCAGTACAACGATTCCTATGACGA
AAAGGTTTTCTCTTTTGCCAACAACATCAACACCCACGAGGGTGGAACCC
ACTTGGTGGGGTTCCGGGCGGCCCTCACCCGGACCATGAACACCTATGCC
GCCGCCAACGAACTCCTCAAAAAGGAGAAGGTTGCCATCTCCGGCGAGGA
TCTGCGAGAGGGTCTCACGGCGGTCATCTCGGTCAAGATTCCCCAACCAC
AGTTCGAGGGGCAGACCAAGACCAAGCTGGGGAACTCGGAGGTTAAGGGG
TACGTGGAATCCCTCATGAACGAGAAACTGGCGGTCTTCCTGGAAGAGAA
CCCGAAGATCGCCAAAGACATCATCGGCAAATCCATCGAGGCGGCCCGTG
CCCGGGAAGCGGCCCGCAAGGCGCGGGAATTGACCCGGCGCAAGGGCGCC
CTGGACATCTCCAACCTTCCGGGCAAACTGGCCGACTGCCAGGAGCGGGA
TCCGGCCCTGTGCGAACTCTACCTGGTGGAGGGCGACTCCGCCGGCGGTT
CCGCCAAACAGGGGCGCGACCGGAAATTCCAGGCCATTCTGCCGCTGAAA
GGAAAGATCCTCAACGTGGAGAAGGCCCGGTTCGACAAGATGCTTTCCTC
CCAGGAGATCGGGACCCTTATCACGGCGCTCGGCACCGGTATCGGGAAAG
ACGACTTCGACATCGCCAAGCTCCGCTACCACCGGATCATCGTCATGACC
GACGCCGACGTGGACGGCTCCCACATCCTGACGCTGCTGCTCACCTTCTT
CTTCCGGCAGATGCCGGAGGTGGTGGAGCGGGGGCACCTCTACATCGCCC
AGCCCCCCCTCTATAAGGTGAAGCGAGGGCGCAAGGAGCTCTATCTCCGC
AATGAGGCGGCCATGCAGGCCTACCTCCTTGAGGAGGGGACCGAGGACAT
GCTCCTTTTTCTGGAGAGCGGCGAGAAGACCTACAGCGGCAAGCAGATCA
TCCCGATCCTCAAGCAGTTGGTGGAGTATCGGACCATCCTGGATAAGGTA
GTGCGCAAGGGGATCAACGAGGAGCTCATACGGGTATTCCTGCGGCTCGG
CGTCAAGGGGGGGATTGAGGACATGGAGCAGTTGGTGCCGTTCCTGACGA
ACATCTCCCGGGTCTATGACGGCGGCGATTTCAGCCCCTTGGACGACGGG
CGGGTCATCGTGCGGCTCGGCAACCTCCGGATCGCCCTGGATCAGCATAC
GCTCGACCTCATCGGTTCCTACGAGTACGGGCTCCTGGTGGAGAGCTACC
GAAAGGTCAGGGATATCTTCGGCGACGGCCGGGCCGTGGTCTCCAGCGAG
GGTAAGGAACTCTTCGCGACCACCATCGGGCTCGACCTCCTCTCCTTCTT
CATGGACAGCGCCAAGAAGGGGCTCTCCATCCAGCGCTACAAGGGTCTCG
GCGAGATGAACCCGGAGCAGCTCTGGGAAACCACCATGGAGCCCGTCAAC
CGGACCCTGCTCCAGGTGAAGATTGAGGACGCCATCGAGGCAGACACCAT
ATTCACCATCCTCATGGGGGACCAGGTGGAGCCCCGCCGGGACTTCATCG
AGCAGAACGCCCTGAACGTGTCGAATTTGGACATTTAG
>GSU2230 holB, DNA polymerase III, delta prime subunit
ATGCCTTTTTCCCGGGTCCTCGGCCAGGAAACCGCCGTGAATGTCCTGCA
ACGCGCGCTCCGTTCGGGCAAAACGGCCCACGCCTACCTTTTCGAGGGGA
TCGAGGGGTGCGGCAAGATGACCACCGCCCTCGCCTTCATCGAGGCAGCC
TTCTGCCGGCGGGATGACGGCTGCGGTTCATGCCCCTCCTGCCGGAAAAT
GGCCGGACTCCAGCATCCGGACCTGCACCGACTGGCTCCCGAGGGTGCAT
TCATCAAGATCGACCAGGTAAGGGAACTGCAGCGGGAGCTTTCCCTGCGT
CCGGTTGAGGCACCGATGAAGGCATGCATCATCGATGATGCCGACCGGCT
CAACCCGGCAGCGGCCAACGCGCTGCTCAAGACGCTGGAAGAACCGCCGG
GCAATGCACTTCTGATCCTGCTCACCACGAATCCGGCGGGAATTCTCCCC
ACGGTCCGTTCCCGCTGTCAGCTCCTGAGGTTTTCGCCGCTCCCCGAGCG
GGTGATCGAAGAATACCTGACGGACGCCGGCCGGGAACCGGCCGCAGCCC
GCCTGGCCGCATCCCTGGCCGGCGGCAGCCTTTCCCGGGCGCTGGAGATG
GAGGAAGGGAGCGCCGGGACAGCCCGGCAGGGACTGATCGAACGGCTTCG
GACCCTCACCCTGGAAGAGATCACCCCCCTCTTCGCGGCCGCCGAGGAAC
TGGCCGCGGACCGGGAACGCGCCGTGGAGGCCCTTGGCACCCTCACCTCC
CTGTTGCGTGATGTTCTCCTCATCCAGGGGGGGAGTAACGAGGTGGTCAA
CCGGGATCTCGTCGACCTTCTCGAAGAAGAAGCGTGCCGGATGTCGCCGG
AGCGGACCCTCACCCGCCTCGGCCACGTCATGGAGGCGCGCCAGGCGCTC
CAGCGCAATGCAAATCCCCGGCTCACCATGGACGTGCTCCTCATGCGCCT
GGCGGACCGGACGACACCGTAA
>GSU1838 hrpB, ATP-dependent helicase HrpB
ATGAACCGCCTTCCCGTTGACGACGTCATCCCCGACCTGCTGACGGCCCT
TGAGCAGAGGAACGCCGCAGTACTTCAGGCGCCGCCGGGGGCCGGGAAAA
CCACCCGCGTTCCCCTCGCGCTCCTTGACGCTCCCTGGCTGAACGGCAAA
CGGATTATCATGCTGGAACCGCGCCGGCTGGCCGCGACGAATGCTGCCCG
CTGGATGGCCCGCAGTCTGGGGGAGGAGGCGGGCGCCACAGTGGGGTACG
CCATCCGCTTCGACCGCCGGGTGTCTGCCCGAACCCGGGTGGAAGTGGTG
ACCGAAGGAATCCTCACCCGTCGACTCCAGTCCGATCCGCTCCTTGAGGG
GGTCGGTGCGGTGATCTTCGACGAGTTCCACGAGCGGAGCATCCATTCGG
ATCTGGCCCTCGCCCTCTGCCGCGATGTTCAGGCAGGGCTGCGGGAGGAC
CTGCGGATCATCGTCATGTCGGCAACCATGGCAGCGGCGCCGGTCGCGGC
CCTGCTCGGCGACGCACCGGTCATCACCAGCGAGGGGCGAAACTACCCCG
TTGCGCTGCGGCATATTCCGCCCAACGACCGGGAGAACCTCCCCTCGGCC
GTGGCGCGCGCCGTCCGAATTGCAGTGCGCGAGTGCGAAGGGGATATCCT
CGCGTTTCTCCCCGGCGTCGGAGAGATCAGGCGCTGTGGCCAACTGCTCG
CTGATGATCCGCCGTTGCATGCCCCGCTGGTGGTGCCCCTCTACGGCGAT
CTGCCGTTCGTGGAGCAGGAGCGGGCGATTCTGCCGGTCCCCGGCCGGCG
CAAGGTGGTGCTGGCAACAACCATTGCCGAAACGAGTCTCACCATCGAAG
GTGTCCGCGTGGTTGTGGACGGTGGCCAGACCCGGCGGCTGAGGTATGAC
CCGGCCTCGGGGCTGAACCGGCTGGTCACCGAGCGGGTTTCCGCCGCATC
GGCGACCCAACGGGCCGGTCGGGCCGGCCGCCTGGGACCGGGAACCTGCT
ACCGCCTCTGGCCAGAGCATGACCAGCAGGCGCTCCTGGCGGCAGATCCC
CCGGAAATCCTCATCGCCGATCTGGCTCCGCTGGCCCTTGACCTGGCACA
CTGGGGGGTAAGCGATCCTGCGTCCCTTGCCTGGCTCGATCCTCCTCCCC
GCGGGGCACTGGAGGAGGCGAGAAACCTTCTGAAGTCCCTCGATGCCCTT
GACGGCCAGGGGATGATAACCGAAACGGGACGGCGCATGGCGGAGTTGCC
GCTCCATCCTCGTCTGGCCCATATGCTGCTGCGCGCGACCGAGCGCGGCC
CGGCACCTCTAGCGTGCGACGTGGCCGCGCTGCTCACGGAGCGGGACATC
GTGCGTTCCGCCGGGACCGGTCAGGCCGCCGAACGCGCCGGCTGCGACAT
GCTCATCCGGGTAGAGGCCCTTGAACAGTGGCGGCAGGGAAGAGGGGGGA
GGGATCACCAGGTTGATTCTTCAGCCTGCCGGGCAGTGGACCGGGTGGCA
TCACACCTGCGGCGCCTGATTGCCCCGGATGGAAAGGGGCACGCGGTTGC
GGATCCGGTTCGGGAAACGGGGCTGCTGCTTTCGTGGGCATATCCTGACC
GGATCGCCCAGGCCCGTCCCGGGGGCGAACGGCGCTATCTTCTGGCCAAC
GGCAGAGGGGCCTTGTTGTCGGAACGGAGTTCCCTCCACGGGGAGCAGTT
GCTTGTGGCCTATCTGGTGGAGCGCGGCGAGCGGGGGGACGACCTGATTC
GCCAGGCGAGCGCCCTTGACCCGGCGCGGTTCCACGAAGAGTTCTCCGGC
GACATCTACCGGCGGCGCACGGTGGTTTGGGATGATCGGGAAGGGAGGGT
GAGCGCCCGGGATGAGGCCTGCTACGGTGCCATCGTTCTGGAGAGCCGTC
CCGTCTCCGCCACGGGCGATGAGGTCCGTGCCGCCTTGCTGGCGGGACTG
CGAGCCGGTCCGGGTATAACGGCCCTGGGATGGACGCCGTCCGCCTGCCA
GTTCCGGGCACGAGTACGGTTTCTCGGCCGGGTCTGCCCTGACGAAGGCT
GGCCCGATCTTTCCGATGAACGACTTCTGAAAACAATCGAGGTATGGCTC
GGCCCCTTCCTGGGCAAGGCCCGGAGCCTTGCCGACCTGGCGTCTATCGA
TCTTCTGACGCCGCTGAAAGCTCTGCTCTCCTGGGATCAGCTCCGTCGCC
TCGACGAGGGGGCACCCACTCACCTGACGGTGCCGAGCGGTTCGCGGATT
ACCCTGGCGTACGATGCGGATGGGGCTCCGACCTTGGCGGTGAAGCTACA
GGAAATGTTCGGGTGCGCCGACACCCCTGCCGTGGCCTGGGGGCGGGTCC
CGGTGGTGGTCCACCTGCTGTCCCCCGCCGGGCGTCCCCTGCAGGTCACG
TCCGATCTGCGCGGTTTCTGGAACGGGGCGTATCAGGAGGTCAAGAAAGA
GATGCGGGGACGCTACCCCAAGCATCCCTGGCCCGATGATCCCTGGAGCG
CGGTCCCGACCCGCAGGACCAAACGGGCGGGAGGAGGGTAA
>GSU2602 huP-1, DNA-binding protein HU
ATGACAAAAAGTGAACTGGTAGAAATGCTGGCGGAGAAAAACTCGTGGCT
CACCCGCAAGGACTCGGAGATGGTGGTCAACATCGTATTCGACAGTATCG
CCGACGCCCTCAAGAGTGGTGAGAAGGTCGAGATCCGCGGCTTCGGAAGC
TTCACCGTCCGTGAGCGCGGCGCCCGCGAGGCCCGCAACCCCAAGAGCGG
CGCCATCGTCAAGATCCCCGCCAAGAAGACCCCGTTCTTCAAGACCGGTA
AGGAACTCCGCGAGCGAGTAAACCACGAGAACGCCGATTAG
>GSU3132 huP-2, DNA-binding protein HU
ATGACCAAAGCTGAACTTGTGGATGCCGTAGCGAAATCTGCCAACCTGAC
CAAGGCGGCCGCAGACAAGGCCGTTGGCGCCGTTATCAGCGCCGTCAGCG
ACGCCCTTAAGAAGGGTGACAAAGTGACCCTGGTCGGTTTCGGTAGCTTC
GAGGTGTCCACCCGCAAGGCGCGCACCGGCCGTAACCCCCAGACCGGCAA
GGAGATCAAGATCGCTGCCGCCAAGGTTCCCAAGTTCCGTCCGGGCAAGG
CCCTCAAGGACGCGGTTGCCGGCAAGAAGAAGTAG
>GSU1521 ihfA-1, integration host factor, alpha subunit
ATGACGAAGGCCGATATTGTCGAGCAGATATACGAGAAGATTGGTTTCTC
CAAGAAAGAGTCCGCTGAACTGGTCGAACGCGTGTTCGGTCTGATCAAGG
AAACCCTTGAGCGTGGGGAAAAGATCAAGATCGCCGGCTTCGGCAATTTC
GTGGTCAAGGATAAGGCCGATCGTCGTGGCCGCAATCCGCAAACCGGTGA
CGAGATCATTATCTCTGCCCGTAAAATCCTTACCTTTAAGCCGAGCCAGG
TTCTCAAGTCCTCGATTAACACCTAG
>GSU2120 ihfA-2, integration host factor, alpha subunit
ATGACTAAGGCAGATATTGTTGAAAGAGTTTCCGACCGGTGTGGAATTTC
GAAGAAAGATTCCATTGAAATGGTCGAGTTGGTTTTCAGCATTCTGAAGA
ACACCCTTGAGATTGGAGAGGATATAAAGATATCCGGCTTCGGGAAATTT
GAAATTAAAAACAAGCACGCCCGCAAAGGCAGGAACCCTCAAACAGGTGA
TGCCATTACCATTGAGGCCAGAAGAATTCTAACGTTCAAACCGAGCACCA
TTCTGAAAAACAACATAAACTCTTAA
>GSU1746 ihfB, integration host factor, beta subunit
ATGAACAAATCCGAACTGATTGAGGCGTTGGCGGCGGAGAAGGGCCTTAC
CTACAAAAAGGCCGAAGAAGTCGTCAATATCGTATTCGATTCAATGAGCA
GTGCGATGATCCGCAATGAGCGAATCGAGATTCGCGGTTTCGGGAGTTTT
GTCGTCAAGGATTACAAGTCCTATACGGGGCGTAACCCCAAGACCGGCGA
ACCCATTGAGGTCAAACCCAAGAAACTTCCATTTTTCAAGGTCGGCAAGG
AGCTGAAGGAGCGCGTTGACGGCAAGTGA
>GSU0890 ligA, DNA ligase, NAD-dependent
ATGGACAAGCAGACCGCCGCGGACCGCGTTGCCGCACTCCGCACTGAACT
TGAGCGCCACAACCGCCTCTACTACGCGGAAGACCGCCCCGAGATCACCG
ACGCCGAATACGATCTCCTCTTCCGCGAACTGGTGGACCTGGAAACGCGG
TTCCCCGACCTGGCCGCTCCCGACTCCCCAACGCAACGGGTGGGCGGCGC
GCCCCTGGACAAGTTCGAGCAGGTCACCCACCGCATCCCCATGCTCTCCC
TGGAAAACGCCTTTACGGACGTCGAGATCGCTGACTTCGACGACCGGGTC
AAACGCTTCCTGGGGCTCCACGGCGACGTGGAAATCGATTACGTCTGCGA
ACCCAAGATGGATGGGCTTGCCGTGGAACTGGTCTACGAGCGCGGCATCC
TCACCGTCGGCTCCACCCGGGGCGACGGCGTGGTGGGGGAGAACGTCACC
CACAACCTGAAGACCGTCCGGGGCATCCCCCTCCGACTCCGGTGCGAGCA
GCCGCCGGAATTGCTGGAGGTGCGGGGCGAGGTTTACCTCCCCCTGGCCG
CGTTCCAGCGGCTGAACGCCCAGCGGGAGGAGGAGGGGGAGCCACCCTTT
GCCAACCCCCGTAACGCCGCGGCCGGCTCCATCCGCCAGCTGGACTCCCG
GATCACGGCCCGGCGCCCCCTGGCCATCTTCTGCTACGCGCCGGGCGAGG
TCCGGGGCGCCTCCTTCGCGGCACAGACTGAATTTCTCGACCGGATCGGC
GAATGGGGCCTGCCGGTCAATCCCCTGATCCGGCCGGTCAAGGGAGTGGC
GGAGATCCTCGCCTACTACCGGGAGATGACCGAACGCCGCGACTCGCTCC
CCTACGAGATCGACGGCGTGGTGGTCAAGGTGGATTCCTTTGCCCTCCAG
CGGGAGCTGGGAGAGAAGAGCCGCTCCCCCCGCTGGGCCGTGGCCGTCAA
GTTCCCGCCCCGGCAGGCGGTGACCGTGGTGGAGGACATCGTCCCCTCAG
TGGGGCGCACCGGGGTGATCACCCCCACGGCCAACCTCAGGCCCGTGGAG
GTCTCCGGCGTCACCGTCTCCCGCGCCACCCTCCACAACTGGGAGGAGAT
GGAGCGCAAGGACATCCGCATCGGCGACACCGTGGTGATCGAGCGGGCCG
GCGACGTGATCCCGGCCGTGGTCAAGGTCCTGACCGAAAAGCGTTCGGGC
AGCGAACGCCCCCTTCCCATCCCGGCCGTCTGCCCCGAGTGCGGCTCCGA
GGTGGTGAAGATCCCCGACGAGGTGGCGGTCCGCTGCATGGGGCTCTCCT
GCCCGGCCCAGATCCGTGAATCCATCATCCACTTCGCCTCCCGCGACGCC
ATGGACATGGAGGGGCTGGGCGAGAAATACATCGAACAGCTCCTGCGGCT
GGGCCTGGTAAAGAACGTGGCCGACCTCTACACCCTCACCAAAGACCAGT
TCATGCAGTTCGACCGGATGGGGGACAAGCTGGCCGAAAACCTCCTGAAC
GCCATCGAGGCCAGCAAGCAACGGGAGCTCTCCCGCTTCATCTTCGCCCT
GGGCATCCGCCACGTGGGGGAACACACGGCAAAACTCCTGGCCGGCGCCT
TCGGCAGCATCGAAAACCTGGAGCGGGCCACCGAGGAGGAACTCCTCTCC
ATCCGCGAGGTGGGCCCCCAGGTTGCCCGGAGCATCATCACCTTCTTCCG
CAACGAGGGGAACCGGGAGACCATCCGGCGGATGTTCAAGGCCGGGGTCC
GGCCCACGGCGGAGGAGAAAAAGGTGGGGGGCCGCTTCACCGGCAAGACC
TTCGTCTTCACCGGGGCGCTCACCCGCTTCAGCCGCCCTGAGGCCCAGAA
GATGGTAGAGAAGGAGGGGGGCCACGCGGCCGGGTCCGTCTCGAAAAAGA
CCGACTACGTGGTTGCCGGCGCCGAGGCCGGCAGCAAGCTGGACAAGGCC
CGCCAGCTGGGAGTCAGGGTGCTGACCGAGGATGAATTCCTGGCAATGCT
GGAGGAGGGATAG
>GSU0017 mfd, transcription-repair coupling factor
ATGACACAGACCGATACCGATCTCTTCAAACGCCTCACCGACCGCCTCAC
CCCCCCTGCCGCCCGGCTCACCCTTGCCGGGCTCAGGGGGTCGTCGCCAG
CCTATCTGCTGGCCCGGCTCATCGGGGAGGCGGGAGCTCCATTCCTCGTG
GTCGTCCCCGACGCCGAAGCCGCCGCCGAGCTCACCACGGAACTCCGGTT
CTTCACGGGAAGACCCGGCGACATCCTCCTGTTTCCCGCCTGGGACACCT
CGCCCTTTGAAAAGGCATCGCCCCATGCCGACGTGACGGCCCAGCGGCTG
GCAGTCCTGCGCCGGCTGGCGGACCGCAGGGCGGCTGCCGTGGTAACCAC
GCCGGAGGCTCTGCGCCAACGGGTAGTGCCGCGCTCCCTTCTGGACAGTG
CCTCACTCTACTTTCTGCCCGGCGAAGAGAGCGACCGGGACGATCTCCTG
TCACGGCTGGTGACCCTCGGCTACCTCAACGTGCCGCTGGTGGAGGACCG
GGGAACCTTTGCCGTGCGGGGCGGCATCGTCGACATCTTCCCGCCGGGTT
TCGATCTGCCGGTGCGGATCGAATTCTTCGGCGACTTCGTCGATACCATC
CGGAGCTTCGAACCGCTCTCCCAGCGCTCCCTCCAGCCCCTGGAAGAGTT
ACTGCTGCTCCCGTCGCGGGAGTTGCTCCTGACTGCCGATACCCTGCAGG
GGGCGGCGTCCCGCATCAAGACGCGCTGCGACGATCTGGAGATATCCCCC
TTGGTCCGCCGCGAGCTGCTGGAACAGCTCCAGAACGGCCTCTACCCGGC
AGGAGTCGAATGGCTCCTTCCCCTCTTTCACCAGAATCTGGAGACCCTGC
TTGACTACGCCGGCGACGCCGTGCGGGTCCTGGTCGATCCGGCAGCCCAG
GAAGAGGAGGGAGAACGACTCTCGCGGGAACTGGAGGAGGCTTCCGACCG
CGCCCGGGAGCGGGGCGAGCTCTTTCCCGCGCCGGAAAGCCTCTTCCTCG
CCCCGGCGGATACTGCGGCCGCCCTGGCTGCGGGGAGACTGGTGACCATC
CCCTTCCTGCACCTGAACGAGGGTGATTCCCCGGAGACCATCGACATTGC
CACCGAGACGAACGCCGACCTCAAGGTGGACATCTCGCCCGACAGCGAGG
GGGTCCTGCGGCCGCTGGCCGCTCGCCTGACCGGCTGGATCGAGGAGCGG
CAACGGGTGATCATAGCCTGCCACCAGCGCGGTCAGGCCCAGCGGCTGTA
TGAGTTACTGGCCCATTACCCGGTCCCCCTTACCGTCTCGGACCGCCCCT
TCCCGGCGGAACGGGAGCGGGACGACGGCAGGGTGGACATCGTAATCGGC
GAAATCTCTCGCGGGTTCAGGTTGCCGGAAGGACGGCTCGTGGTCATCGC
CGAAGAGGAAATCTTCGGCAAGCGGCAAAAACGGCGCGGCATCACCGAGT
TGCGCAAAAAGCAGATCATGACCTCCCTGGCGGAGCTGAAGCCGGGCGAT
CACATGGTTCACCTGGACCACGGGGTCGGCATTTACCGTGGACTCCAGCA
CCTTTCGCTCAGCGGCTGTGCCGGCGACTTCCTGCTGCTGGAGTATGCGG
GGGGGGACAAGCTCTACCTGCCGGTGGACCGGCTCAGCCTGGTGCAGCGC
TACGTGGGCTCCGAGGGGATCGAACCGCGGGTCGACCGGCTCGGCGGCAC
CTCATGGGAGAAGGCCAAGGGCAAGGCCCGCGCGGCAGTCCAGGAGATGG
CCGAAGAACTCTTGCGGATCTACGCGGCCCGCCAACTTCACGAGGGGCAC
CGGTTTTCCCCCCCCGACGATCTCTACCGGGAGTTCGAGGCCTCCTTCGC
CTACGAGGAGACCTCCGACCAGCTGGCTGCCATCGAAGACGTCATCGCCG
ACATGACCAGCAACCGGCCCATGGACCGGCTGGTCTGCGGCGACGTGGGC
TACGGCAAGACCGAAGTGGCCATGCGGGGAGCTTTCAAGGCGGTCATGGA
CGGCAAGCAGGTGGCGGTCCTGGTGCCGACCACAGTCCTGGCCCAGCAGC
ATTTGGAGACCTTCAGGGCGCGGCTTGGGGCCTACCCGGTCACCATTGAA
ATGGTTTCCCGCTTCAGGACTCCCAAGGAACAGAAGGACATCCTGGAGCG
GGTGAAAAAGGGGACCGTCGATGTCATCATCGGCACCCACCGACTCCTTC
AAAACGATGTGACGTTCAAGGACCTGGGGCTTCTCATCGTGGACGAGGAG
CAGCGCTTCGGGGTAACCCACAAGGAAAAGCTGAAAAAGTACAAGGCAGC
GGTGGACATCCTGACCCTCACCGCCACCCCCATTCCCCGCACTCTCTACA
TGTCGCTCATGGGTATCCGCGACCTCTCCATCATCGACACCCCGCCCGTG
GATCGGCTGGCAGTTAAGACCTTCGTGGCCCGTACCTCCGACGAGCTCAT
CCGCGAAGCGGTTCTGCGGGAGCTCCGAAGGGGAGGGCAGGTGTTCTTCG
TCCACAATCGGGTCCAGTCCATCGGAGCCTGGTACGAACACCTGCGCCGC
ATCGTGCCCGAGGCAAAGATCGCCGTGGGGCACGGCCAGATGGACGAAGG
CGAGCTGGAGAAGGTGATGCTTGGCTTCATGCACGGGGAAACGAACCTTC
TGCTCTGCACCACGATCATCGAGTCAGGCCTGGACATCCCCAGTGCCAAC
ACCCTCATCGTGGACCGGGCTGACACCTTCGGACTGGCCCAGCTTTACCA
GTTGCGGGGAAGGGTAGGGCGCTCCCGGCAGCGGGCCTACGCCTATCTCC
TCATACCCGGCGAAGGCGCCATCTCGTCCGATGCCCGGGAGCGGCTGCGG
ATCATCCAAGAACTGAACGAGCTGGGGGCCGGCTTCCGCCTGGCCACCCA
CGACCTGGAGATCAGGGGCGCCGGCGATCTCCTGGGGGCCAAGCAGTCGG
GCAACATTGCCGCCGTCGGCTTCGACCTCTACACAGAACTCCTAGAAGAG
GCGGTCCAGAAACTCAAGGGCGAGGAGCCGGTAGAGCGGGTGGAGCCGGA
GATCAACCTGCGGGTGCCGGCCTTCATCCCCGAGGACTATGTGCGCGAAC
CGAATCAGCGCCTCGTCATCTACAAGAAGCTGACCCAGGCCACGGCCGAA
GAGGAGGTGGGCGAGGTCATGGAAGAACTGGTGGACCGGTTCGGCACGCT
GCCGCTGGCGGCCTCCTACCTGCTGGACGTGATGAAGCTGCGGATCATGC
TCAAGCACTTCCTGGTCCGGATGGCGGAGTTTGACGGCAAACGGCTCTGT
CTCTCATTTCACGAGAAAACTCCGGTTTCGCCCGACACCATTATCGGTCT
CATTAAAGCAAACCCAAAACGGTACCAGTTCACCCCGGACTTCCGTCTCG
TGGCGGAACTGGCCGACACCAGCTTCGAGGGGGTCCTGGCCGAAGCCAGA
AATCTCTTGAAAAGGCTGGGGTGA
>GSU2001 mutL, DNA mismatch repair protein MutL
ATGCCACACCGGATCAGGATACTGCCCGAGATACTCACCAACAAGATCGC
TGCCGGCGAGGTGGTGGAACGCCCCGCATCGGTGGTGAAGGAACTGGTGG
AGAACGCCCTGGATGCCGGCTGCGGCGAGATAATCGTAGAGATCGAGGGG
GGAGGGCGGCGCCTCATCCGGATCACCGACGACGGCTGCGGCATGTCGCG
GGAAGACGCCCTCATGGCCCTTGAGCGTCACGCCACCAGCAAGATCGCCA
CGGACGACGACCTGTTCTCCCTGGCCACGCTCGGCTTCCGCGGAGAGGCG
CTCCCCTCCGTGGCCTCGGTCTCCCGCTTCACCCTCGCCACCCGCGAGCG
GGGGAGCATCGAAGGAACCGAGATTTACGCCGAAGGGGGAAAGATCCGCG
AGGTGAAGGCCTGCGGCATGGCCGAGGGGACCGTGGTCTCGGTCCGCAAT
CTCTTCTTCAATACTCCGGCCCGTCTCAAGTTCATGAAGAGTGTTGAGAC
CGAGGGGGGCCACGTGGCAGACCTGGTCACCCGGCTGGCCCTTTCCCGCC
CGGAGGTTCGCTTCACCTGCGTGAGCGACGGCAAGACCCTGTTCCGGGCC
CTGGACGGCACCCTGCTGGACCGGGTGGCCGCACTTCTGGGCAAGACCGT
TGCCTCAGCCCTCCACCCCGTGGATCTGGCCACCGAGGGGGTGCGGGTGA
CCGGACTCGTGGCTCGCCCCGATGTGAGCCGTTCCGCGGCATCGCACCTC
TACACCTACATCAATGGTCGTTTCATCCGCGACCGCGTCGTGCAGCACGC
CATACTCCAGGCCTATCGCAACTTCCTGGAGCGGGGGCGCTACCCGGTGG
TGGTTCTCTTTATCGAGGTTTCTCCCGGCGAAGTAGACGTGAACGTCCAT
CCTACCAAGCACGAGGTCCGCTTCAGGCAGCAGGGGATCGTGCACGATGT
GATCCAGGGGGCCGTGGAGGAGACGCTCCGGCTCACGCCCTGGATTCGCC
GCTCCGAGTCACCCGTTGCTGCGCCGCTGGCGGTGCCCCGGCCGCAACAA
TACGTTCAGGGCACGGGTGCTCGTCAGGTGGAAGAAGTGCGGGAGCTTCT
GGAAAACTACCGTCCCGCCGTGGCTCCCCATCGGCCGCTCTTCGCGCCAC
AACCCGCACCGCAGCCGGATCGGGAGCCGCCTTTGCCCGATTCTGGCAGC
CGGATGCTGGACGACACGGCCGTGCGTCGTCACGGGGGCTATTTCTCTTC
CCTTGCCGTCATCGGCCAGTACAACGCATCCTACATCCTGTGCCAGGATG
GCTCTGATCTGGTCATCATCGACCAGCATGCGGCCCACGAGCGGGTCGCC
TTCGAGCGCCTCAAGACGCAGTTCGCTGCCGGCCGGGTCGAGGGGCAGGG
GCTTCTTTTCCCCGAGACCGTGGAGCTGTCTCACCGGGAATCGGCGGTGG
TGCGGGAACACGGCGGCGAACTGGGCCGGCTCGGTTTCGATCTAGAGGAT
TTCGGGGGTACTACCTGGATCGTAAAGGGGATTCCGCGCCTGCTGGCAGG
CACCGACTACCTGCGCCTGCTACGCGACACCCTTGAGGAGCTCCAGTCCC
TCGGAGCCAGCCGCAGCATCGCCGATGCCGTGGAGGATATCCTGACCCGC
GTCGCCTGCCACAGCGTTGTGCGGGGCGAGCACCCCCTGACCACCGGCGA
GATTGAGGCCCTCTTCGCCCATATGGACGCCACCGACTTTTCCACCAATT
GCCCCCATGGCAGGCCCGTCCTCCAGCGACTTACGCTGGGGGAGGTGGAG
AAGATGTTCAAGAGAGTGTGA
>GSU0997 mutM, formamidopyrimidine-DNA glycosylase
ATGCCGGAGTTGCCGGAAGTGGAGACAACCCTGCGGGGGATCGCGCCCCA
TGTGACCGGGCGGCGGGTGACGGCGGTCACGGCCCGGGCAGCCAAGCTGC
GGTTGCCGATTCCCCCCGAGTTGGGCGAGCGGCTCACCGGCAGGGTCATC
GAACGGGTGGAGCGCCGGGCCAAGTATCTCCTCTTGCGCTGCGGCGACGG
CACGGCCATTATCCACCTGGGGATGACCGGCACGCTCCGGGTCGCTCCGG
CAGGCAGTCCGCCGGGAAAGTACGACCACCTGGACCTGGTCCTGGACGAC
GGCCGCACCCTCCGCTTCAGGGATCCGCGCAAATTCGGGCTCGTCCTCTG
GACCGGCAGCGATCCCCTTGCCCACCCGCTACTGGCACAACTGGGGCCGG
AGCCTTTCCCGCCCCTGTTCAACGGGAGCTATCTCTTCTCGCGCAGCCGG
AAGCGGAATGCCGCCATCAAGCTTCTGCTCATGGACAACCGGATCGTGGT
CGGCGTGGGGAACATCTACGCCAATGAGGCCCTGTTCCGGGCGCGCATCC
ATCCCGAACGCGCCGCGGGGTCACTCTCTGAGGAAGACTGCGCCACGTTG
GCAACCGCCGTCGGGGATGTGCTGCGCGACGCCATTGCCGAAGGAGATAC
AACCCTCCACGAATTCATCGCGACCGAGGTTCCTTCGGGGTATTTCCGCA
TCAATCCGGCCGTCTACGGACAGACCGGCAAACCGTGCACGGTCTGCGGC
ACGCCCATCGCCCGGATCCGGCTCGGCAACCGCTCAACCTGGTTCTGCCC
CGTCTGCCAGAAATGA
>GSU0870 mutT, mutator mutT protein
ATGTACCCGCTCCTCGTCACCGCCGCCATTATCGAGCACAACGGCCTGAT
TCTCCTGACCCGGCGGAAGCCCGATGCGCCCTATCCCTTGCTCTGGGAAT
TCCCGGGAGGGAAGGTGGAACCCGAAGAGCATCCCGAGGCGTGCATCGTC
AGGGAGGTGCTGGAGGAGCTTGCCATGGAGGTGGCGGTTGAGGGGATCTA
CGACGTAATCTACTACCGTTATCCCGAACGGGCCGTGATAGTGCTGGCCT
ACCGCTGCACCTGGACCGGCGGCGAGCTGCAGGAACGCGACGTGGCCGGA
CACCGGTGGGTCGCCCCGGCGGAGGTGCCCGCCTTCGACCTTCTTCCCGC
GGATATTCCGCTCGCGGCCAGGATAGCACGGGAATTCGGCAATGCAGGTT
CTTCTCGCCTATAA
>GSU0529 nfo, endonuclease IV
ATGAACGACTATCTCGGCGCGCACATGTCCATCGCCGGCGGGATTCACAA
GGCTCCGGCGCGGGGAAACCGGGTCGGGTGCGGCGTGATCCAGGTCTTCA
CCCAGAACTCCAACCAGTGGCGGGGGAAGATGCCCACCGAGGGGGAGGCG
GCTCTGTTCCGTGAACAGTGGGAAGCCGCGGGCCTCCACGAAATCATCGC
CCATGACATCTACCTCATCAACCTGGCGGCCCCGCCGGGCGAGACACGGG
ACAAGAGCCTCGCGGCCTTCCGGGAGGAGATGGAGCGCTGTACCCGCCTC
GGTATCGGCACTATCGTGATGCATCCCGGTGCCCACCTGGGCGACGGAGA
AGAGACCGGCATCCGGCGGATCTGTGAGGCCTTCAACCGCCTGATCCCCG
CGGTTCCCGAGTTCACCGGCGTGATCCTGCTGGAGACCACCGCAGGCCAA
GGCACCAGCCTGGGTCATACCTTCGAGCAGTTGGCCGCCATTATCGCCGG
GACCGCGTTTCCCGACCGCTTCGCGGTCTGCTTCGACACCTGCCACACCT
TTGCCGCCGGATACGACTTCACCACCGGAGAGGGGTACCGGCGCGTCTTC
GCCGAGTTCGACCGGCTGATCGGCCTGGACCGGCTCCGGTGCTTCCACCT
GAACGATTCCCGGAAGGGGCTCAACTCCCGGGTGGACCGGCACGAGCATA
TCGGCCGGGGAACGCTGGGGCTGGAGCCGTTCCGGTTCCTCATGAACGAT
GACCGCTTCACGACGGTGCCCAAGATTCTCGAAACGCCAAAGGGAGATGA
CGACGAGTTTGATATCATGAACCTGAACACGCTCCGGAGACTCGTCCGCC
GGCGCACAACAAAGGAAAGAACCGAGCCATGCCCGAGTTGA
>GSU0541 polA, DNA polymerase I
ATGGCGACCGACACGCTGTTTCTCATCGACGGCTCCTCGTACATCTACCG
GGCCTACTTCGCCATCAGGCATCTGTCGTCGCCCGCGGGTTTCCCCACCA
ATGCGCTCTACGGCTTCACCCAGATGCTCCTCAAGGTCATCAAGGATCAC
CATCCCGGCCGCTTGGCCGTGGTCTTCGACAAGGGGCGCACCACCTTCCG
CACCGAGATCTACCCCGATTACAAGGCGAACCGGGCCGCCATGCCCGATG
ATCTGGTTCCCCAGATCGGACCCATCAAGGAGATGGTCCGGGCCTTCAGC
ATCCCGGTTCTGGAGTTGGAGGGCTACGAGGCCGACGACATCATCGGCAC
CATTGCCCGGCGGTGCGAGGAGCAGGGTTTGGAGGCCGTGGTCGTCACCG
GCGACAAGGATCTGATGCAGATCGTGAGCGACCGCATCCGGCTGCTCGAC
ACCATGAAGGACCGGGTGTCCGGCATCCCCGAGGTGGTGGAGCGCTTCGG
CGTCGGCCCCGGGCAGGTCATCGACATACTGGGCCTGGCGGGCGACACCT
CCGACAACATCCCCGGCGTCCCCGGCATCGGCGAAAAGACCGCCACCAAG
CTGATCCAGGAGTTTGGCTCTCTGGACGCCCTGCTGGAGCGGGCCGGCGA
GGTTAAGGGAAAGACCGGCGAGCGCCTGCGCGAGTTCGCGGAGCAGGCCC
GGCTTTCCCGGCGTCTCGCCACCATTGTCCGCGACGTGCCCCTGGACTTC
GACCTCGACGCCTTTGCCGTGGCCCCCGCCGACAATCGCCGATTGGCCGA
ACTCTTCAAGGAATATGGGTTCACGACCCTCATGAAGGAGCTGACCAGCG
AGGCCACCCTGACCACCGAGCACTACCGCACCATTTTCGCGGAGGCCGAT
TTCCGGGCCCTGCTCGCCGACCTGGCCGGGGCCGGGGTCTTTTCGGTGGA
CCTGGAAACCACGAGCCTCAATCCTCTTGAGGCGGACATCGTGGGCATCT
CCCTGTCGTTCCGGGATCACGAAGCCTGCTACATCCCGGTGGGGCACGCC
TATGACGGCGCCCCGGCCCAGCTCGACCGCACCCTGGTGCTGGAGGGGCT
GCGGCCGCTCCTCACCGACCCCGCGGTGCGCAAGGTGGGGCAGAACCTCA
AGTACGACTACCAGGTGCTGCGCCGTCACGGCATCGTCATGGCCGGGGTC
TGGTGCGATACCATGGTCGCCTCCTATCTGATCAACCCGGTCCGGTCGGG
CCACGGCCTGGACTCCCTGGCGGTGGAGCACCTGGACCACCGGATGATCT
CCTACGAGGAGGTGGCCGGGAAGGGAAAGGACCAGCTGAACTTTGCCCGG
GTGCCGGTGGAAAAGGCGTCCACCTATTCCTGCGAGGATGCCGACGCCGC
CTGGCTCCTGCACCGGCTGTTCCTGCCCCGGGTGGCCGAGGCCGGCATGG
AGCGCCTGTTCTTCGATCTGGAGATGCCGCTCGTACCGATCCTGGCCGAG
ATGGAAACGGCCGGGGTCAAGCTGGACCTGGCGCTGCTGGGGGAACTCTC
CGCCGGGCTCGGCAGCCAGTTGACGGCTCTGGAGGAGCAGGTCATGGCGC
TCGCGCCCGAGCCGTTCAACCTCAACTCGCCCAAGCAGCTGGGAGAGGTG
CTGTTCGAGAAAATGAAGCTCCCAGCCGGGAAAAAGACCAAGACCAAAAC
CGGCTGGTCCACCAACGTGGAGGAGCTGGAACGGCTGGCCGAGGCCGGGC
ACGAGATCGCCGCGGCCATCCTCCGGTACCGGGGGCTCGCCAAGCTCAAG
TCCACCTACACCGATGCCCTGCCCAGGCTGGTGCACCCGGCCAGCGGGAG
GGTGCACACCTCCTACAACCAGACCGTCACCAACACCGGGCGGCTCTCGT
CCTCGGAGCCCAACCTGCAGAACATCCCGGTCCGCACCGACGAGGGGCGG
AAGATCCGGCGCGCCTTCATCGCGGAGGAGGGCCACCTGATCCTCTCGGC
CGACTACTCCCAGATCGAGCTGCGGGTCCTGGCCCATCTCTCGGAGGACC
GGGTCTTCTGCGACGCCTTTGCCCGGGACGAGGACATCCACACCCGGACC
GCGGCCGAGGTGTTCGGCCTCTTCCCGGAGATGGTGACGCCCGAGATGAG
GCGCCAGGCCAAGGCCATCAACTTCGGGGTCATCTACGGACAGGGGGCCT
TCAGTCTGGCCAAGCAACTGGGGATCACCACCAAGGTGGCCAAGGAGTTC
ATCGACAACTACTTCGCCCGCCATCCTGGCGCCCGGGCCTTCCTGGACGG
CTGCGTGGCCGAGGCCGAGGCCAGGGGCTACGTGACCACCCTCATGGGGC
GGCGGCTCCCCATTCCGGACATCGCCAGCAGCAACGGCAACATCCGGGCC
TTTGCCCAGCGCAACGCCGTCAACTACCCCATTCAGGGCTCGGCCGCGGA
CATCATCAAGGCGGCCATGGTGCGGGTCACGGAGCGGATGCGGCGAGAGG
GGCTCACCAGTCGCCTGATCATGCAGGTCCACGACGAACTGGTCTTCGAG
GTGCCGGAGGGCGAACGGACCGCCATGGAGCGGCTCGTGCAACACGAGAT
GGAGCATGCTGCCCCCCTCCGGGTGCCGCTGCGGGCGGACGTGAACGTGG
GGCGTAACTGGAGCGAGGCCCACTGA
>GSU0128 priA, primosomal protein n`
ATGTCATCATTCCCCGTGAACGAACGGCAGACCGTCATTGTCCACGTGGC
GGTTCCGCTTCCGCTCGATGCCCCCTTTTCCTACCGCGTGCCCGCTCCGC
TGGCTCCGGCGGCTGCGGTGGGGCGGCGGCTCCTCGTCCCCTTCGGCCGA
CGGAAAGTGACCGGCTACGTGCTGGAGGTTGCCGATGACGACGGACGGGA
GCTGCGCGACGTTCTTGAGTTCCTGGACGATGGCCCCCTCTTCACACCCG
GCGAACTGGCTCTGTACCGCTGGGCTTCTTCCTATTATCTCCACCCCCTC
GGCGAGGTGATCAAGGCGGCGCTCCCGGCGGGGATCAACGTCCAGAGTCG
CCGCGGCGCGGGCCTGGACGAGGGAGAGCTCACCGGTGGCCGCTCGGTGA
AGACCGAACGGGTCTATCGCGCCGTTGCCGAGGTGCCGGATACTGTCCCT
CCGCCGGGCAAGGCCTCGGAGCTGCTGGCGCACCTGGCGGAGCGGGAGGA
GGAATCGGCGTCGGAGCTGCGGCGTCTCTTCGGTGAATGTTCAGTTCAGC
TCAGGCGGCTGCGGGAGCTGGGATTCGTGGAGATGGCTGAGCGGGAAATC
TACCGGGACCCGTTCCGGATGGAAGCCGTTGGTCACGACCGTCCCCTTGA
GCTCAACGAGCGGCAGTCCGCTGCCCTGGTCCGGCTGCGGGCGGCCCTGG
ACGCTGGACGGTTCACCCCTTTCCTGCTCCGGGGCGTCACCGGCAGCGGC
AAGACGGAAGTCTATCTCCAGGCCATCGCCCATTGTCTCGAACAGGGAAG
GAGCGCCTTGGTCCTGGTCCCCGAGATCGCCCTCACTCCCCAGCTGGTAA
GCCGGTTCCGCCGGCGGTTCCGGTGCGGGGTGGCAGTGCTCCACAGCGGT
CTCTCCGATGGAGAGCGCTTCGATGAATGGCGCCGGATCCGCCGGGGTGA
GGCGGCCATCGTCATCGGTGCCCGCTCGGCGATTTTCGCTCCTCTGGCCG
ATCTGGGCATGATCGTGGTGGACGAGGAACACGAAGGTTCTTACAAGCAG
GGGGAGGGGTTCCGCTACAACGCCCGCGACATGGCCCTGGTACGGGGCAA
GATGGCCGGGGCTTGCGTGGTCCTCGGCACCGCTACGCCCCAGGTCACTA
CCTGGTATGCGGTTGCCGGCGGCAAGCTCGAATGCCTCGATCTCCCCGAA
CGGGTGAACGGCCTTCCCCTGCCGTCGGCAGAGATCATCGACGTCCGGGG
TGCCAGGGGACATGTCCTCCATCCACGCCTCGCCGCGGAGGTGGAGGCGA
ACCTGGCGCGCGGCGAGCAAACCCTCCTCTTCCTCAACCGCCGCGGCTTC
TCCACCTGGCTCACCTGCGAAGAATGCGGCCACGTGCTCCGCTGCCCGAA
TTGCCAGGTAACCCTCACCTACCACCAGGGCAGGAACCGGCACATCTGCC
ACTACTGCGATTATGCCGTTCCGGCCCCGTCCATGTGTCCGGGGTGCGGC
TGCGGACGGATCATCCACCTGGGGCTCGGCACCGAACAGGTGGAAGCGTA
CGTGCGGGAGCACTTTCCCCATGCCCGGGTGGACCGGATGGACCGGGACA
CCACTGCCCGCAGGGGGGGGCACGCCCGGATCCTGCGCAAGGTGGCGGAG
CGACAGACCGACATCCTCATCGGCACCCAGATGGTGGCCAAAGGGCATGA
CTTCCCGGGGATCACCCTGGTGGGGATACTGTCGGTGGAATCGACCCTCA
ATATCCCCGATTACCGGAGTGCCGAGCGGACGTTCCAGCTGGTGACCCAA
CTCATCGGACGGGCAGGACGGGGGGATGATCCGGGCCGGGTGCTGATCCA
GAGCCTCAATCCCGATCACTACGCCCTGGCCCACGCCGTGGCCGGCGATA
TGGACGGTTTTTACGGGGCAGAACTGGCGTTCCGCCAGGAGACCGGCTAC
CCCCCCTTTGCCCATCTGGCGGCCCTCTGTCTGAGCGGCACCGCCGCATC
GGCCGTGGAGCGGACAAGTGAGCTCCTGGCGGCGCGGCTGCGCGAATTGC
GCCGGGATGGGGGCGGGCGGGTCGAGATTCTGGGGCCCGCGCCCGCGCCC
CTGGCCAAGCTTCGCGGCCGTTTCCGCCGGCAGATCCTTCTGAAGGCCGC
AGGCCGGACTGCCCTCCATCGCCTCGTCTGTCGGGCGCGCGAGAGCTTCC
AGCCTCAGGCTGGCGTGAGGCTCCTGGTTGACATCGACCCCGTGGATCTC
ATGTAA
>GSU0386 radC, DNA repair protein RadC
ATGGCAGGCGGCATCAAGGCGTGGCCCGAGGACGAGCGGCCACGGGAAAA
GCTCTTGCGGCGGGGAGCTCCGGTCCTATCGGACGCGGAACTGCTGGCCC
TCATCATCCGGACCGGTGACTCGGTGACCGGACGGAGCGCCATCGACCTG
GGGCGGGCGCTCCTTCAGGAGTGCGGCGACCTCCGCACTCTTGCCGGAGC
CACCGTCAGCGAGCTCTGCGCGGTGAAGGGCATGGGGACGGCAAAGGCAA
CCTCCATCAAGGCGGCCCTGGAAATGGCCTCTCGCATCAATTCCGAGCGG
CTCATGATCTGCAGCGAACGGTTCACCTCTCCCGAACAGGTCTACAATCA
CTACCACTATGCCTTCCGGGACCGACGCAAGGAATACTTCATGGCCCTGC
TGCTGGACGGAAAGAACCGGATCATGCGCGAGATCCAGGTTTCGGAAGGC
TCCCTCAACCAGAGCATCGTTCATCCCCGCGAGGTCTTCAACCCGGCCGT
CCGGGAGTCCGCGGCCGCGGTCATCCTTGTCCACAACCACCCCACCGGTG
ATCCGGCCCCGAGCCGCGAAGACCTTGAAATCACCCGCCGCCTGCGGGAA
GCGGGTGACATCATGGGCATCAGGGTCCTGGACCACATCATCATCGGTGA
CGGTCGCTTCACCAGCTTTGTCTCGGCTGGATTACTCTAG
>GSU0145 recA, recA protein
GTGACCCAAGAACGCGAAAAGGCGATAGAGCTTGCGCTCAGCCAGATAGA
AAAGCAGTTCGGCAAGGGGGCGATCATGCGCCTCGGGGCGGATGAGGCCC
TCCCCGATGTGGCCGCCATCCCCACCGGTTCCCTCTCCCTCGACCTGGCC
CTCGGCGTCGGCGGCGTCCCCCGCGGGCGGATTATCGAGATCTACGGACC
CGAGTCGTCGGGCAAGACGACGCTCGCCCTGCACATCGCGGCCGAGGCCC
AGAAAATGGGCGGCATCGCTGCCTTCGTCGACGCCGAGCACGCGCTCGAT
ATCGGCTATGCCCGCAAACTCGGCGTCAAGACGGACGACCTGCTCGTCTC
CCAGCCCGACACCGGGGAGCAAGCCTTGGAAATTGCCGAGATGCTCGTCA
GAAGCGGCGCTGTGGACGTCCTCGTCATCGACTCGGTGGCGGCACTGGTT
CCCAAGGCCGAGATCGAAGGGGAGATGGGCGACTCCCACATGGGGCTCCA
GGCCCGGCTCATGTCTCAGGCCCTGCGCAAGCTCACCGGCATAATCTCCA
AGTCCAACTGCTGCGTCATCTTCATCAACCAGATCCGGATGAAGATCGGC
GTCATGTTCGGCAACCCCGAAACCACCACCGGCGGCAACGCCCTCAAGTT
TTACGCCTCGGTACGTCTCGATATCCGCAAGATCGCATCCCTCAAGCAAG
GGCAGGACGTCATCGGCTCCCGCACCAAGGTGAAGGTGGTCAAGAACAAG
GTGGCTCCCCCCTTCAAAGAGGTGGAGTTCGACATTTACTACGGTGAGGG
CATTTCCCGCGAGGGCGACATCCTCGACCTGGCCGTGGAGAAGGGGATCG
TGGACAAGAGCGGCGCCTGGTTCTCCTACGGCGGAGACCGGATTGGCCAG
GGGCGCGAAAATTCCCGCCTTTTCCTCAAGGAGCGGCCAGAACTGGTGAA
CGAGATCGAAGGGAAGGTTTACGACGTGGCCGGCATTCCCCGCAAAGGGG
CGAAGGAAGCGGCATAG
>GSU1534 recB, exodeoxyribonuclease V, beta subunit
GTGACTTCCCTGCGACCCCATGACAATCTGACCGTGGAACTGTCCGGCCA
CAACCTGGTGGAAGCCAGCGCCGGCACGGGCAAGACCTTTGCCATAGCCT
GCCTCTACCTGCGCCTGGTGGTGGAAGGGGAGGGGCTGCTCCCCGATAAC
ATCCTGGTGGTGACCTTTACCGAGGCGGCCACCAAGGAGCTGCGCGCCCG
CATCCGCCAGCGGCTGCGCCAGGCCCGCGACCGGTTCGCCGGTGGGGGCG
CGCCGGACGAGTTCCTCGACCGGCTGGCCCTGGGTGAGCGCTGGCCGGGG
CACGCCACAGCCCTGGCCCGGATAGACAGCGCCCTCCAGACCTTCGACTG
CGCCGCCATCTCCACCATCCACGGCTTCTGCCTCCGGGCGCTCCAGGAAA
ACGCCTTCGAGAGCGGTTCCCTGTTCGACACCGAACTGGCGGCGGACCAG
GAACCGCTCCTGCGCCAGGTGGCGGACGATTTCTGGCGCCACCACTTCTT
CGGCGCTGACGCGCCGCTGCTCCCCCTGGCCCTGGGCCGGCGCTGGTCCC
CGGAGGAACTGGCGGCATTCCTGCGGAACATTGCCGGCAAGCCCCACCTG
GCCGTGGAGCCGGTCTGGCATTCCGGTGAAGCGGACCGCGTGGCCGGGGA
GATCCGGGACGCCTTTGCCGCGCTCTCGTCCCTCTGGCGGACGCAACGGG
CGGAGATTGCCGCCATCCTGGCCGCCGATCCCGGGCTGAGCCGCTCCAGG
AGCAACTACCACCCGGACCTGGTGCCGGGACTTCTGGTCGCCATGGACGG
CTACGCGGCCGGAGCGGACCCCTACGCGCTCTTTGCCGGGTTCGACAAAT
TCACCACCGGGTTCCTGGCCGGGCAGCGGCTCAAAAAGGCCGACCCGCCC
CGGCACGACTGCTTCGATCTCTGCGACCGCCTGGCACGGCTCACCTCCCA
GCGGCTCCTGCTTCTGAAGGCCGAGTTCGCGGCCCGGGGCCGGGAGCGGC
TGGCCGCGCTCAAGGCGCAGCGCAACGTCCGGGGATATGATGACCTGCTC
ACGGACCTCCACGCCGCCCTTGGCGGGCCCGGCGGCGCGGCCCTGGCCGA
CCGGCTGCGTGAGCGCTACCGGGCCGCCCTCATCGACGAGTTCCAGGACA
CGGACCAGGTCCAGTACCGGATCTTCCGGGCGGTCTTCAGCGGCGGCGCA
GTGCCCCTGTTTCTGATCGGCGACCCCAAGCAGGCCATCTACAGCTTCCG
GGGGGCCGACGTTTTCGCCTACCTGGAGGCCCGGCAGGAGATCCCGGCGG
AGCGGCGCTTCACCATGGACCGCAACTGGCGCTCCACGCCGGAGATGGTC
GAAGCGGTGAGTTCCCTGTTCCGCCTGGGGGGGGAGCACCCCTTCCTGGC
CGGCGACATCGCCTTTCCCCCGGTCACGGCGGCCCGGCGGCAGGGATGTT
CCTTCGGCGACCGCGATCCGGCACCGCTCCAGCTCTGGTTCTTCCGCCGG
GGCGAGAGCGACCGCGACTGCATCAACCTGGGTACGGGCCGGCAGCGGAT
CGTCACCGCCGTTGCCGACGAGATCTCCGGGCTCCTGGCCGACGGCCGCG
CCGGCACGGCCTGCCTGGAGGACGAGGACGGGCGGATGCAGCCCCTCACC
CCCGGCGACGTGGCCGTCATCGTCCGGTCCCACTTCGAGGCGGGCCTGGT
CCAGCAGGCCCTGCGGGAGCGGGGCATCCCCTCCGTGGTCCAGAGTGCCG
ACAGCCTGTTCGAGACCCGCGAGGCCGGCGAGGTCTGGACCGTGATGGGG
GCCGTGGCCGAGCCGGGGAACGAGGGGCGGGTCAGGGCGGCCCTGGTCAC
GGCGCTCTTCGGGCTCAACGGCAACGACCTGGCGCTTCTCATGGAGCAGG
AGGCGGCCTGGGAAGCGCGGATCGCCGCCTTCCGCGACTACCGCGACCTC
TGGCGCGAGCAGGGCTTCATGACCATGTTCCGCGCCCTCCTGGACCGGGA
GGGGGTGAGGGAGCGGTGCCTTCCCCTGCCCGACGGGGAACGGCGGCTCA
CCAACCTGCGCCACTGCGCCGAGGTGCTCCACCAGGCGGCCGTTGAGCGG
CGTCTCGGCCCCGATGCCCTGACGGCGTGGTTCGGGGAGCGGGTGAGCGT
GCCCCCGCCCGGGGAGGATTACCAGATCCGGCTCGAATCGGACGACCGGG
CGGTCCGCATCGTCACGGTCCACGTCAGCAAGGGGCTGGAGTATCCCGTG
GTCTTTGCCCCCTTCATGTGGGGCGGGTTGCGGGATGACGGGGACCTGAC
CCTCTGTCACGAGGAGGGCTACCGGCTGGTGGCGGATTTCGGCACCGACC
GCCGGGACGAGCGGCAGCGCCGGGCCCGCACCGAGGCCCTGGCCGAGAAT
CTCCGCCTCCTCTACGTGGCCCTCACCAGGGCCCGCTGCCGCGCCTACCT
GGTCTGGGGTAAGTTCCGCGGCGCCGAGACATCGGCTCCGGGCTGGCTCC
TCCACGGCAGCCGGCCCGACGGGGGAGGCGACCCGGTGGCGCTCCTGGAA
GGGACCCTGAAGAAGGCGACCGACCAGACCCTGCTGGAGCGGCTCGACCA
CCTGGCAACGGCAAGCGGCGGAGGCATTGCCGTGACCGAAGACCCGTGCC
CGGACCGGCTGCCCCGCTTCCGGCCGGCCATGGGTGAGGCGCCGCTGGTC
TGCCGGGACTTCAGGGGCGACATCGACGCGGGCTGGCGGGTGGCCAGCTT
CACCTCCTTTGCCTCGGGGCACCGGGAACCCGCCGAGTTGCCGGACCGGG
ACCAGACCCCGCCGGAGCTTCCGCCCGACGCGGCCAGCGACACGGCAGCC
CCGCCCGAGGGCTCCATGTTCGCCTTTCCCCGGGGGCCCCGGGCCGGCAT
CTTCCTGCACGGCCTCTTCGAGCAGCTCGATTTTGCCGTTGCCGGCGACG
ATACGGTGCGGGACCTGGTCCGGCGCGAACTGGAGCGCAACGGCCATGGC
GCCCAGTGGCTCGATCCGGTGAGCCGCATGGTCGGCAACGTCCTGAATGT
TCCTCTGGGCGGGGAGGGGAATTCTTTCCGTCTGGCCGACCTGGCCCCCG
GCAGCTGGCTGGCGGAGCTGGAGTTCTATTTCCCGCTCCGGTTCGTGCGG
GACGCCCAAGTGGCAACCATCCTGGCCGGGGCCGGGGTGCTCCCCCAGGG
GGCCGACCTGGGGGCGGTGGCGCGCCGGATCGCCTTCGGCGAGGCCCGGG
GCATGGTGCGCGGCTTCGTTGACCTGGTGTTCCGCCACAGTGGCCGCTAC
TACCTGATCGACTGGAAATCGAACCACCTGGGGAACCGGGCCGAGGATTA
CGGCCCCGAGCGCCTCTGCCGGGAGATGGAGCGCTCCCTCTATCCGCTCC
AGTACCTGCTCTACACCGTGGCCCTCAACCGCTTCCTGGAGCGCCGTCTG
CCCGGCTATCGCTACGAGGAGCACTTCGGCGGAGTGTTCTACCTGTTCCT
GCGGGGGATCGATCCCGAACGCCCCGCCCTGGGGGTCTATCATGACCTGC
CGCGGCCCGACCTAGTGCGGGCATTGACCGACTGCCTCGCCGGGCGGGAA
GGAGGAGCGCCGTGA
>GSU1533 recC, exodeoxyribonuclease V, gamma subunit
TTGCCCCTGACCATCTACACGAGCAACCGGATGGAGGCCCTGGTCGAGCA
GCTTTGCGCCGTGGTCGAGCCCCCCCTGTCGTCACCCTTTGTTCCCGAGA
CCATCGTGGTGCAGAGCCGGGGCATGGAACGGTGGCTCGCCATGGAGCTG
GCAAAGCGCCTGGGGATCTGGGCGAACGGCTCCTATCCCTTTCCCAATGC
CTTTGTCTGGTCGCTCTTCCGGGCGGCGCTGCCCCATCTGCCGGACCAGT
CCCCCTTTGACCCCGCCATCCTGACTTGGCGGATCATGGACCTGCTGCCG
CGCCTGCTCCCGGAACCGGCCTTCGGCCAGTTGCGGGGGTATCTGGCCGG
GGAGGACCGGGAACTGCGGCTCTACCAGCTTGCGGCCAGGATCGCCGACA
CCTTTGACCAGTACACCGTGTTCCGGGGCGACCTGCTGGCGACCTGGGAA
ACGGGGCGGGACCAGCAGTGGCAGGCCCGGCTCTGGCGCGCATTGACCGC
GGACAGCCCCGGTACCCACCGGGGGGCCGTGCGCGACGCATTTCTGAAAC
AGCTGGCCGGGGGGCGTCTCCCTGCCGGCGTCTGCCCCGAACGGGTGTCG
GTCTTCGGCATCTCGTACCTTCCGCCGTTCCACCTGGAGATCTTCACCTC
CCTGGCCCGGCTCTGCCCGGTGAACCTGTTCGTCCTGAGCCCCTGCCGGG
AATACTGGGGGGATATCGTCTCGCCCGGCGCCCGGGCGCGGATGACCCCG
GAGCGCCGGCAGCAGGCCGTGGAGGGGCATCCGCTGCTTGCCTCCCTGGG
CAAGCCGGGGCGCGATTTCTCGTCCCTCATCCTGGCCTGCGACGACTTGT
CGGGCGGCGAGCGCGACCTCTATGCCGACGCCCCCGGCGAAACGCTCCTG
GCAGCGGTGCAGAACGGCATCCTTACCCTGGACGAGGCCGACGGCACTCC
GCGCCTGGTCCGGGTGGACCCCGGCGACCGCTCGATCGGGATTCATTCCT
GTCACGGCCCCATGCGCGAGGCGGAGGTGCTCCACGACGTCCTGCTGGCC
ATGTTCGAGGACCTGCCCGGCCTCACGCCCCGGGATATCCTCGTGATGAC
GCCGGACATCGAGACCTATGCCCCCTATGTTGCCGCGGTGTTCGGCGGCG
GTCAGGACCAGCGGCGGCGCATCCCGTTTTCCATTGCCGACCGGAGCATC
AGGAGTGCGGGGGGAGCGGCCGACGCCTTCCTGGCCATCCTCGATCTCCC
CCTGGGCCGCTTCCCGGCGACCGGTGTGCTGGACATCCTGGAGACCGGCG
CGGTCCACCGCCGTTTCGGCATCGACGAGGCCGGTCTCGAACAGATCCGC
TCCTGGGTTGAGGCCACCCGCATCCGTTGGGGCATGGACGAGAACGAGCG
CCGGGCTGCCGGGCTGCCTGCCTACCGGGAGAACAGCTGGCAGGCGGGGC
TCGACCGGCTGCTGCTGGGGGTGGCCATGCCCGACGAGGAAGGGGCCATG
TTCGGCGGCATCCTCCCCCACGATGCCATGGAAGGGGACGGGCCGGTGCT
CCTGGGGCGCTTCATCCGCTTCGTGGAGGCCCTGGAGCGGGTGCGGCAGG
ATCTGGCGCGCCCCCGCTCCCTTGAGGGGTGGACAGCGACCCTGCGCGGC
ATCCTGGCCGACTTCTTCAATCCCGATGACGCCACCGCCTTCGAACGTGC
CGCCTTGGGCAGGATCGTGGACGGCCTCGGCGAACTCGGCGCGGGCTCCG
GCTTCACGGACGAGGTGGGGCGGTCCGTGATCAGGGCCTGGCTCGGCGAA
CGGCTCGACAGGCCCGACCAGGGGCTCGGCTTCATGACCGGCGGGGTCAC
CTTCTGCGCCATGCTCCCCATGCGGAGCATCCCTTTCCGGGTGATCTGCC
TGCTGGGGGTGAACGACGACTCCTTCCCCCGCCGGGACCGCGCCGCCGGC
TTCGACCTGATGGCCGCAGACCGCCGTCCCGGCGACCGGTCCCTGCGGGA
GGAGGACCGCTACCTCTTTCTGGAAGCCCTCCTCTCGGCCCGGGAGCGCC
TGGTGATCAGCTACACCGGTCAGAGCGTCCGGGATAACGCCGAGCTTCCC
CCGTCGGTGCTGGTGAGCGAGTTCCTCGACTACCTGGGATCGCGCTTCAC
GGACGGCACCGACCGGTTCCCGGCCTCCCTGGTGACACGGCACCGGCTCC
AGCCCTTCAGCCCCGCCTACTTCACCGGTGACGGCGGGCTGTTCAGTTAC
GCGGCCGAAGAGTGTCGCGCCCTGTCCCGTCGCGGCAGGGACGACGCACC
GCGCCCCTTCCTGGAGCACCCCCTGGCCGAGTCCGGTCCGGCGTCGGCCG
ACGAAACGGAGATCCTGCCCCTGGCGCAGCTCATCTCCTTTTTCGAGCAC
CCGGTGCGCTACCTCATGCGTCACCGGCTCGGCATCCGCCTGGAGGAGAG
CCGCTCCCCCCTGGAGGACCGGGAGCCCTTTGCCCTGGACTCTCTGGATG
CCTTCCTGCTGGAACAGGAGATCCTGGACCACATTCTGGCGGGCGGCGAC
CCGGCCGACCTCCTCCCCGTGGCCCGGGCCCGGGGCGGCCTGCCCCCGGC
GCGCCAGGGAGAGCTGGCCTTTGCGGGGCTCACCGCCCGGGTGCGGGACC
TGGCCGACCGGGTCCGGCCGGCAACCAACGGCCAGCCCCCCCTCGAACCC
CTGACCGTGGACCTGCGGGTGGGTGAGCGGCGGCTCGTGGGCGAGCTGGG
TTCCCTCTGGCCCGCCGGCCTTATCCGCTGGCGCTGTGCCAGGCTGTCCG
GCCGCGACCACATCCGGCTCTGGATTGAGCACCTGGTTTTCAATGCCCTG
GCATTGCCCGCCACCGGGGCGGCAAGCAGGCTCCTGGCCGCTGACGGCGA
CCTGGCGCTCCGTCCCGTGGCCGATCCCCTTGCGCACCTGGAGGCTCTGG
TGTCGTACTACGGGCAGGGGAGCCGGGAGCCGCTGCGGTTCTTCCCGCGC
AGCTCCCTGGCCTTTGCCCGCACGGGCGAGATGGCGGCGGCCCGCACCAC
CTGGGGGGGAGACTTCTACCCAGAGGGGGACGATCCCTACTATGCGCTCT
GCTTCGGCACTGCCGATCCCCTGGACGACGCCTTCCGCGAGACGTCCGTC
GCAATCCTGACCCCCCTGCTGGCCCACCGGGAGGACGAGCGGTGA
>GSU1535 recD, exodeoxyribonuclease V, alpha subunit
GTGAGTGCCGACGACCTGCAATTCCGCGACATCGACGCCTGTTTTGCCGA
CTTCCTCTGCCGCCTGGCCGGGGGCCGGAACGACGATCTCCATCGGGCCG
CCATGCACGCCAGCGCCGCCGTAGGGGCCGGCCACGTCTGCCTGCACCTG
GACGAGGCCTTTGGCAGCAATGGAGCGGCCCTGGCCGTCACCCTCAGGGC
CCTGCCGGTGGTGGGCCCGCCCGGTGGCCGCACCCCCCTGATCCTTGACG
AAAAGAACCGCCTCTACCTTTATCGATACTGGAACTATGAATATCTAGTT
GCTGAATTCATAAAGCAAAAATCCGCAGAGCTCCGTCCCGTTTCCCTGCC
GCTCCTGCGGGCGGGTATTGACCGGATCTTCGGGCCGAAGGGGGACGATG
CCGTGGACTGGCAGCGGGTGGCTGCCGCGGCCGCGGTGCGGAGCGGCTTT
TGCGTCATCTCCGGGGGGCCGGGTACCGGCAAGACCTCCACCGTGGTTTC
GATCCTGGCCCTGCTCCTGGAGCAGGCCGGCGAGGAGGGGGCGGGCATTG
CCCTGGCAGCGCCCACGGGAAAGGCCGCGGCGCGGCTCGGCGACTCCATC
CGCGACGCCCGTCAGCGCCTGGCAGCGGTGACCCCCGTGGCGGAACGGAT
TCCCGGCCAGGTCTCCACCATCCACCGGCTGCTGGGGGTGATTCCCGGCT
CGGTCCGTTTCCGTCATGACCGGCACAATCCGCTGCCCCACCGGGTAGTG
GTGGTGGACGAGGCCTCCATGGTGCCGCTGCCTCTCATGGCCCGGCTGGT
GGAGGCCCTGGCGCCGTCGGCTCGGCTCATCCTCCTGGGGGACCGGGACC
AGCTCGCCTCGGTGGAGGCCGGGGCCGTGCTGGGCGACATCTGCGACACC
GGGCGGGCGCACCGGTTCTCGGCCCCGTTCCGGGAGTTCATCCGTGATGC
CGCGAGTGAGGAGATCGAGGGAGAAGCCGGGGACGACGGGAACGACCAGC
CGGGTACGCCGGCCGACTCCCTGGTGATCCTGCGCAGGAACTACCGCTTC
GGTGCGGCCAGCGCCATTGGCGCGGCCAGTGCGGCCGTGAACGAGGGCGA
CGGGGACCGGCTCATGGCGCTTGTGTCAGGAGAAGGGATGGACGGAGGCG
TGGCGCTCCGGCCCGTGCCGCCGGCGGAGCGGCTTGCCGGGGCCCTGGCT
GAGAGCGTTGTTGCGGGGTACGGCGAGTATCTGGGGCAGGCGGACCCGGA
ACAGGCCCTGGCCTGCTTCGACCGCTTCCGGGTCCTTTGTGCCGTTCGGC
AGGGGGAGTACGGGGTGCAGGGGCTCAACCGGGCCATCGAGCGGGTCCTG
GCACGGCAGGGGCTCATCGATGCCGACCGCGTCTGGTATCCGGGGCGGCC
GGTCATGGTGACGGTGAACGACTACGGGCTGGGGCTTTTCAACGGCGACA
TCGGCCTGGCGGTTGCCGATCCCGCCTTCAGCGGCGGCCTGGCCGTCTGC
TTTCCCGCACCAGGCGGCGGAGTCAGAAAGATTTCCCCGGCCCGGCTGCC
CGCCCACGAAACGGTTTTCGCCATGACGGTCCACAAGAGCCAGGGGTCCG
AGTTCGACCGGATTCTGCTGGTGCTCCCCCCCTTCGACAGTCCCGTGCTC
ACGCGGGAACTGGTCTACACGGGACTCACCCGCGCCCGGACCGGTGCGGT
CATCTGGGCGGACGAGGAGATCCTGCGGTCCGCTGCGGCGCGGAGGAGCG
AACGGCGGTCGGGCCTGCGGGAAGCGTTGTGGGGATGA
>GSU0002 recF, recF protein
ATGCACCTGAACGCAATTGCCATCAGCGCCTTCCGCAATATCGATCATGT
GGAAATCTCATTCGATCGGCGGTTCAACGTCCTGCACGGCGCCAATGGAC
AGGGAAAAACGTCGGTGTTGGAGGCCATTTACCTCCTGGGGACCATGAAA
TCGTTCCGGATGGCCAAGGCCCATGATCTCATCGCCTGGAACGCCCCCCA
CTCACTGGTACGTGGCGATATCGACAAGGCGGGGGTCAGACGTGAGATAG
CCCTCTATCTCGGCCGCGAGGGCCGTAAGGCCCGCATTGACCGGAAACCG
GTCACCAAGCTTGCGGATTTTTTCGGCGCCGTGAACGCCGTGGTATTTTC
TCCAGAGGAGATAGGCATGGCCCGCGGAGGGCCAGAACTCAGACGCCGCT
ACCTGGACCGGGCCATCTTCAACGGCGACTTGGGGTACCTGCTCCTCCAC
CATGAGTACCATCGGCTGCTCAAGCAGCGTAATGCTCTGCTGAGGCGGGG
CGAACGGGATGGATTGGAGGTCTGGACAATCCAGCTGGCCGAGGCCGGCG
CCCGGCTCATGGTAAAGCGAAGGGCCTACCTTTCTCAGATAGAGCCGCTG
GTACGGCAGTTTTACCGGGATATTGCCGGTGCGGGCCAGGAGGTGGGACT
TGCCTATCGCTGCCACGGACTGGCATCCGCCGAGGGCGAACGCGATTGTG
CAGCGGCCCTCCGGGAGCTCATGGCAGCCCATGAGGCCGAGGAACTGCGC
CGGGGGGCCACTGGCGTAGGCCCCCACCGGGATGACGTGGATTTCATCCT
GAACGGTCGGGTCATCCGCCACCACGGCTCCCAAGGGGAGCAGCGGAGCT
TTGTCCTGGCCGTAAAAATGGCCGAGATCGAGTACCTGGAGCGGCTCAAC
GGTGCGCCGCCGGTGCTTCTGCTGGACGACATCTCATCGGAACTGGATCC
CGAGCGCAACGCGAACCTGATGACCTTTCTCCGGGGAAAACGGATGCAGG
TCTTCATAACCACCACCGATGTATCAACCCTCCGTCTGGAGGGGATCGAC
ACCCACGCGTCGTTTCGCGTTTCACGTGGAACGGTGACGCCTGTATAG
>GSU1326 recG, ATP-dependent DNA helicase RecG
GTGAGCCTCCGGCAGGCCATTGCGCGCAAGAACCTTGAGACCCCCATGCA
GTTCATCAAGGGGGTGGGGCCGAAGATGGCCGAGATCCTGGCGCGGAAGG
GGATCGTCACCGTGGAGGATGCGCTCTACCTGCTCCCGAACCGCTACGAG
GACCGCCGCCAAGTGGTGCCCATGAACCGGCTCCGCCCCGGTGAGACCTG
CGTGTTTGCAGGGGAGGTGGTGTCGGCCGACGTGGTGACCACCAAGGGGG
GGCGCCGCTTCTTCGAGGTGATGGCGCGGGATGCGAGCGGTGTCATGTCC
TTCAAGTGGTTCAACTACCATGCGGCCTTCATGCGCAAGGCCTGGCAGCC
GGGCCGGCGGGGAATCTTCACCGGCCAGGTGACCCAGTACGGTCTCCAGC
GTGAGGTACATCATCCGGACGTTGACTGGCTGGCCGAGGGGGAGACGGTG
GAGGCGGCCATGGCGCGGGACCCGGTGGGATTCGGCCGGCTGGTGCCGGT
CTATCCGCTCACCGAGGGGCTGAACCAGAAGGCGCTGCGCAAGGTCATGA
AGGAGGTGGTGGACCGCTTCGCCCCCTGCGTGGAGAGCGCCCTGCCGGCC
CGGGTGATCCGTGAGCGGGCGCTGCTGCCCCTGGCCGAGGCCCTGGGAGC
GGTCCATTTCCCGGCTGCCGACGCCGATCCGCGTGCCCTGGAGGAGGGGC
GGGACCCGGCCCACCGGACCCTGGTTTTCGACGAATTCTTCTTCCTGGAG
CTGGGGCTGGCGCTCAAGCGGCGGGGAGTGACCCTGGAACCGGGAATCGC
GTTTTCCGTGAACCACACATACACCAAGCCGCTCCTGAAGCTGCTTCCCT
TTGCCCTGACAGAGGCCCAGCGCCGGGTCCTGGCCGAGATCAAGGCCGAC
ATGATGGCGCCCCACCCCATGCACCGGCTGGTGCAGGGGGACGTGGGCTG
CGGCAAGACCCTGGTGGCGCTCCTGGCGGCGCTGGTGGCGGTGGAGAACG
GCTACCAGGTGGCCATCATGGCTCCCACCGAGATCCTGGCCGAGCAGCAC
TACCTGAACATCCACCGCTGGTGCGAGCAGTTGGGGGTGACCGTGGCGCT
CCTCACGTCGTCCCTGAAGGGAAAGGCCAAGGCCGGAGCCCTGGAGCGGG
TGGCGCGGGGCGAGGTGCAGATCGTGATCGGCACCCACGCAGTGATCCAG
GACAAGGTGGAGTTCCACCGGCTGGGGCTCGGCATCGTGGACGAGCAGCA
CCGTTTCGGCGTGCTCCAGCGGGGGCTCCTGCGCAAGAAGGGGGAAAACC
CGGACATCCTCGTGATGACCGCCACCCCGATCCCGCGCACCCTGGCCATG
ACCGTGTTCGGCGACCTGTCCCTGTCGGTCATCGACGAGCTCCCGCCGGG
CCGCACCCCGGTGGAGACGAAGATCTGCACCGATTCCCGCCGCCGGCAGG
TCTACGGCATCATCCGCGACGAAGTGGCCGCGGGGCACCAGGCCTACGTC
ATCTACCCCCTGGTGGAGGAGTCGGAGAAGAGCGAGCTCAAGGCGGCCAC
CCAGATGGCCGAACACCTGGCCAATGACGTGTTCCCGGATCTGCGCCTCG
GTGTTCTCCACGGCCGGATGAAGCCCGAGGAGAAGGAGGCGGTGATGCGC
TCCTTCAAGGGACGGGAGATCGACATCCTGGTTTCCACCACGGTCATCGA
GGTGGGGATTGACGTGCCCAACGCCACGGTGATGGTGATCGAGCACGCGG
AGCGGTTCGGCCTTTCCCAGCTCCACCAGCTGCGGGGGAGGGTGGGGCGC
GGCAGTGCCACGTCCCGCTGCATCCTCATGGCGTCGGACCGGTTGTCCGA
TGACGGGGTCAAGCGGCTGCGGGTGATGGAATCGACCACCGACGGCTTCA
GGATCGCCGAGGCTGATCTGGAGATCAGGGGGCCGGGCGATTTCCTCGGC
ACCCGCCAGGCGGGCATCCCCGATTTTCGCGTGGCCAACATCCTGCGGGA
CGGCCGCATCCTGGAAGAGGCCCGGGCCGAGGCTTTCGATCTGGCGGAGC
GGGACCCTGAGTTGCGGGCCCCCGGCCACGAACCGCTCCGGGAGGAGCTG
GCGCGGCGCTGGGGCGGCCGGCTGGAACTGGCCGGGGTGGCCTGA
>GSU2614 recJ, single-stranded-DNA-specific exonuclease RecJ
ATGCACGCGGGCAACGAAAAAGTCTGGACCATACGGGAGCCGGACCGGGA
TGTGGTGGTCCGGCTCTCCCGGGATCTCTCCCTTGATCCTCTCCTGGCCC
GGCTGCTGGCCAACCGGGGGGTGACCGACGGAATCGACGGGCGGCGCTTT
CTCGGTGCGACCCTGGCCGACCTCCGCGACCCGCTGCTGCTGCGCGGCAT
GGATGCCGCGGTGGAGCGCCTCTGCGCTGCCCTGCGCAACGGTGAGCAGG
TCTGCGTGTACGGCGACTACGATGTGGACGGCGTGACCGGCACCGCCCTC
CTGGTGAGTTTTTTCCGGGAGGTGGGATTTACCTGCCGCTATCATATCCC
CAAACGGCTCAGCGACGGCTACGGCCTCTCCGAGGACGGCATCCGCGCCG
TTGCGGAAAGGGGCGCGCGGGTGATCGTCACGGTCGATTGCGGCATCGGC
TCCGTGGCAGAGGCCGATTTATGCGCCTCCCTCGGCGTTGATCTCATCAT
CACCGACCACCACAGCCCGGGTCCCGAGCTGCCCCGGGCCCTGGCAGTCA
TCAATCCCCGGCAGCCCGGCTGTTCCTATCCCTTCAAGTCCCTGGCCGGC
GTCGGCGTCGCATTCAACCTCCTGATCGCCCTCCGGGGCCGGTTGCGGGA
GCAGGGGTGTTTCACTGCCGGTCCCGAGCCCAATCTCCGCCAGTATCTGG
ACCTCGTGGCCCTGGGAACCATCGCCGATGTGGTACCCTTGGTGGAGGAG
AACCGGATCTTTGTTACGTACGGGTTGAAGGAAATGTCCGCCACGAGCCG
TGTGGGGGTGACTGCCCTCAAGGATGTGGCGGGAGTGGCCGGCCGGGTCG
GTTGCGGCGCCGTGGGCTTCCGTCTGGCCCCGCGCCTGAATGCCGCCGGT
CGCCTGGAGGATGCCTCACTCGGCGTGGAGCTGCTCCTTACCGGCGACCG
GAGCAGGGCGGCCACCCTTGCGGCGGAGCTCGACCGGAGCAACGGGGAGC
GGCAGGCCCTGGAGCGCTCCATCCTCGACGAGGCAACCGCCATGGTGCGG
GCAAACCCTGCCATGGCCAGCAAGAGGAGCATCGTCCTCGCCTCAGACGC
CTGGCATCCCGGCGTGGTGGGCATCGTGGCATCCCGGCTGGTGGACAGGT
TTCATCGGCCCACCATTCTCATCGCCCTGCAGGACGGCACGGGACGCGGC
TCCGGGCGAAGCGTGCCCGCGCTCCATCTGCTGGATGCCCTGTCGGCGTG
CGGCGAGCACCTGGAGAAGTTCGGCGGGCACCGGCAGGCGGCGGGCCTCT
CCATTGACGAGGAAACCCTCCAGGCCTTCGTGGATCGGTTTGAAGACGTC
TGTGCCGGACTGCTGGGTCCCGACGACCTGAAGCCGGTGGTGGCCGCTGA
CGCCGAGCTTGCCGCCGACGAGGTGACCCCGGCGCTCGTGGACCTGATCG
AGGCCCTGGAGCCGTTCGGCATGGGGAATCCGGAGCCGCTGTTCCTGCTG
CGCGGCGCCACGATCTGTGGCCGGCGGGTCGCCGGCGGGCATCACCTGCA
ACTGCGGCTGGACCTGGGGGGGCGCCAGGTGGATGCCGTCGGTTTCAACC
TCGCCGCCAGGGACGGTGCGCCCGGCGAGCGGGTGGACATTCTCTTTACG
GCTGGCTGGAACAGCTGGAACGGCCGGCGAAAATTCCAGCTCACTCTGAA
GGATCTGAAACGATCGGGAGATGACCGTGCTTCGTGA
>GSU2064 recN, DNA repair protein RecN
GTGCTGACCGATCTCTCCATCAGGAACCTCGCCATCATCGATTCCCTTCA
TGTTTCCTTCGACCGGGGGCTCACCGTCCTTACGGGCGAGACCGGCGCGG
GCAAATCGATCATCATCGATGCCGTGAACCTTATTATGGGGGGGCGCGCC
TCGGCTGAGCTGGTCCGGACCGGCGAGGAAGAGGCAACGGTAGAAGCTCT
TTTTTCCCTGCCGACCGATGCGCCACTCGGGCAGCGGCTGGCGGCGATGG
GACTCGATTGCGACGGCGAGCTGCTGGTGAAGCGGGTCGTGTCACGGTCG
GGACGCAATCGGGTCTTCATCGGCGGCGGTCTCTCCACCCTGGCAATGCT
GTCGGATATCTCCCGCGAACTCGTCAATATTTACGGCCAGCACGAGTCCC
AGACCCTGCTGCGGCCCGAGAACCACCTGAGGCTGCTGGACGGCTTCGCC
GGCCTCGATTCCCTGCGGGCCGACTATGCGGCCATCTTCGACCGGTACCG
GGAGACCGAAGCCCGGCTCAGGGAGCTGGACGAGGGTGAGCGGGAGGCTG
CCCGGCGCCTGGACCTCTTGAGCTTCCAGGTGGAGGAGATCCACGCCGCA
GCCCTGGCGCCGGGCGAGGAAGAGGCCCTGGCCGGGGAGCGGGAACTGCT
CGTCAATGCCGAGCGGCTCAGCCGGGGGAGCGAAGAGGCCTATGAAGCCC
TGTACGGCGACGAGTCTTCGGTTCTGCACCTGCTTGCCCGAGTGAAGGGT
AGGGTTGCCGAAATATCCGGGGTTGATGCCTCACTGGCCCCGCTGTTGGA
CGTTGTGGAATCGGCGGCGGCTCAACTGGAGGATGCGGCCCTGACCCTGC
GGGGCTACGGTGCGCGCATCGAGGCCGACCCGGCCCGACTGGAGGCGGTG
GACGAGCGGCTCGATCTGATCCGGCGCCTGAAGAAGAAATACGCCCCCAC
CGTGGAAGAGATCATCGCCTATGGCGAGGAAGCGGCCCGGGAGATGGAAC
TGCTTCTCAACCGCGACCGGACCCGCAGCGATCTCGACCGGGAGCTGGAA
ACCCTGGCCGGCCGGGTGAGGGAAACGGGGCATGGTCTCTCGGCAAAGCG
GCACGAAGCGGCAAAGCGGCTCAAGGCCGCCATGGAGCGGGAGATCCACG
AGCTTGCAATGAAGCACGCCCTGTTCGACGTGGCGTTCGAGGAACTGCCC
GAACCGCGCCAGACGGGGCTCGACAGCGTAACCTTCCTGTTTTCCCCGAA
TCCGGGGGAAGAACCGAAACCCCTGGCGCGGATTGCCTCCGGTGGGGAGC
TTTCGCGACTCATGCTGGCCCTCAAGCAGGTCCACCCCGAGAGCGACGTG
CCGACCCTCATTTTCGACGAGGTGGATACCGGCATTGGCGGCGCCACATC
GGCCCTGGTGGGGGAGAAGCTCAAGCGGGTAAGCCGTGCCCAGCAGGTCC
TCTGCATCACCCATCACCCCCAGGTTGCCGCCTTTGCCGATCGGCACTAC
AAGGTGGAAAAGCGGGTTGAAGGCGGACGGACCGCCACGGCGGTCACCCC
TCTCGAAGGGGAGGACCGGGTCGCGGAAATGGCACGAATGCTCGGCGGAG
TGACCATCACCGGCACCACCCTCGATCATGCCCGGGAGATGATCGAGGGC
GCCCGCAGGGCTGCTGTCGGGGGCTGA
>GSU0577 recO, DNA repair protein RecO
ATGCATCCCATCCGCTGCGAAGCCGTTGTGCTCGCCACCATGGACTACCG
GGAGAGCGACCGGATCGTCACCCTGTTCACGCTCTGCCACGGCAAGGTGC
GCGGCCTGGCCCGGGGCGCCCGCAAGAGCATGCGGCGCTTCGGGGGCGCC
CTGGAGCCCTTTGCCCGCCTGAGCGTGGAGTTGGTCGTCCGGGAGGGGCT
CTCGTCCCTGCGCGGCGTGGACATTGTGACCGTCTATCCCCGCATCCGGC
AGGACCTGGCCGCCATCGGCCACGGCGGGTATGCCGTGGAGCTGGTCGAC
CGCCTCCTGCCCGACGGGGCGTCGGTTCCCCGGCTGTTCCGGCTCCTCGT
TTCTTACCTGGAGCACCTGGACCAGGGGGGCGCCTCTCCCTCGGATCGGC
GCTTCTTTGAAGCCAATCTGCTGAATATCCTCGGCTACCGCCTTTCCCTC
GATGCCTGTGCCGCCTGCGGCGTTGAGTTCCCCGCCGATGCGGCTCGGCG
CGCCGGTGCGGCGGGCACGGTGCTCTGCACTGGTTGCGGCCGCTACGGTG
CGCCGCTGTCGGCGGAGACCGTCCGTCTCCTGCACCGGTGCCTGGGTACC
GGGCGGTTCGGCGCCATTGTCTTCCCCCCCGAGCCCCTCGGGGAAGCGGG
GCCACTCCTGGATGGCGCCATCGGGGCCCATCTCGCCCGTCCTCTCAATT
CCCTCGCCTTTCTGCGCCAGTTGACCCCGTGA
>GSU0898 recQ, ATP-dependent DNA helicase RecQ
GTGGGGCACGAAACCCTCGCCGTCCTCCGCACGGTCTTCGGGTACCGGTC
CTTCCGCCCGTTCCAGGAGGAGATCGTTGACCGGGTGGCGCGCGGGGGCG
ATACGTTCGTCCTGATGCCCACCGGCGGCGGCAAGTCCCTCTGTTACCAG
ATACCCTCCCTGGTACGGCCCGGCGTGGGGATCGTGATTTCCCCCCTCAT
TTCCCTCATGAAGGACCAGGTGGATGCCCTGCGCGAGAACGGCGTGGCAG
CGGCCTGCTACAACTCGACCCTGGGCGAGCGGGAGTCGCGCCGGGTGCTC
GCCCGGCTCCACGGCGGCGAGCTGGACCTTCTCTACGTGGCCCCGGAACG
GCTCATGACCGATGCCTTTCTGGAGCGGCTACGGGAGATACCCATCGCGC
TCTTCGCCATTGATGAGGCCCACTGCGTCTCCCAGTGGGGGCACGATTTC
CGTCCTGAGTACGTGGAGCTGGGACGGTTGCGGGGGCTGTTCCCGACCGT
GCCGATGATCGCCCTGACCGCCACCGCCGACGCCCAGACCCGAGGCGACA
TCGTGACGCGGCTGGGGCTTCGGGACGCCGAGATGTTCGTGACCGGCTTC
GACCGGCCCAATATCCGCTACAGCGTTCTGGAAAAGCAGAAGCCGTTCCG
ACAACTGGAGGAGTTCCTGGCGACGCGCCCCCGGGAGGCGGGCATTGTCT
ACTGCCTTTCCCGCAAGCGGGTGGAAGAAGTGGCGGAGAAGCTCCGGGCG
GCCGGGGTGGAGGCGGGGGCCTATCACGCCGGGCTTGCCGACGCGGAACG
GAGCCGGGTCCAGGAGGCGTTCCTGCGGGACGACATCCGGGTGGTGGTGG
CCACGGTGGCCTTCGGCATGGGGATCGACAAGCCCAACGTCCGGTTTGTA
GTCCACTACGACCTGCCCAAGAACATCGAGAGTTACTACCAGGAAACCGG
GCGGGCCGGCCGCGACGGTCTCCCGGCCGAGGCGCTGCTCCTCTTCGGCT
ACGGCGACATCCCGGTCTCCCGCTCCCTCATCGAGTCGGGCGGGAACCCC
GAGCAGGTGCGGATCGAGCTGCACAAGCTGAACGCGATGGTGGGGTTCGC
CGAGGCACTCGTCTGCCGGCGCCGGGCACTGCTCGGCTACTTCGGCGAGC
GGCTGGAGGAACCTTGTGGCAACTGCGACCTCTGTCTGGCTCCGCCCGAA
ACCTTCGATGCCACCGAAGAGGCCCGCAAGGCCCTTTCCTGCGTCTACCG
GGTGGGGCAGCGCTTCGGCGTGGGGCACGTGATCGATGTCCTGCGCGGTT
CGCGGAGTGAACGCATCCTGGCCCTGGGCCACGACCGGCTCTCGACCTAC
GGCATCGGCGCCAGCCTGGCGGCCGAGGCCTGGGGGAGCATCATCCGCCA
GCTCATCCACCGGGGATACCTGGAGCAGGACCTGGCCAACTACTCGGTGC
TGAAGCTGACCCCTGCGGCCCGGCCGCTGCTGCGGGGCGAGGAGAGCCTG
GTCCTGGCGAAGCCGCGGCTGCGGATGGCCGCTCCGAAAAAGGAAAAGGC
CCCCCGCCGGCCGGGAGCCGCCACGCCGGCGGAGCGGGACGAGGAGCTCT
TCCAGGAGCTGCGGGCGCTCCGCAAACGGTTGGCGGATGACCAGCAGGTT
CCTCCGTATATCATCTTCAGCGATGCGACCCTGGCCGAGATGGCGTCGCT
GCGGCCGACCACGCCGGAAGAACTTTTGCGGGTGAACGGGGTGGGCGAGC
GGAAGCTCGGCCGCTACGGCGCCCCGTTCCTGGAGGCGATCCGGAGCCAT
GGCGCCGGTTGA
>GSU0096 recR, recombination protein RecR
ATGGTACATTTTTCAGACTCATTGTCACGGTTGCTCGCGGAACTGCAAAA
GCTGCCGGGAGTTGGCGAGAAAACCGCCCTGCGCCTCGCCTTTCATCTTT
TGAAATCCCCCGACAACGCCGCTGCCCTGGCTGACAGTCTTCGGGACGTC
ATGTCCCGGGTGCGGTTCTGTTCCGTCTGTTTCGGCATTACCGAGGACGA
TCCCTGCCGGTTTTGCTCCGATGCCCGAGATGACGGTGCCATCTGCGTCG
TCGAGGAACCCCAGGACCTTCTGGCCGTTGAGCGGACCCGAGCCTTCAGG
GGGCGTTATCATGTGCTCCAGGGGGCGCTGTCCCCGCTCAACGGTGTTAC
CCCCGACCGGCTCCGCGTTGCGGAGCTCATGAAGCGGCTGGAGGGGGGAG
GGGTTCGGGAAGTGGTTATTGCCACCAACTTCACCGTGGAGGGCGAAGCA
ACCGCGCTCTATCTGGCCAGGATGATCAAGCCCCTGGGGGTCAGGGTGAC
ACGACTCGCCCACGGGATACCGCTCGGCAGCGATCTGGAGTTCGTGGATG
CGGCCACGGTGCAGCGGGCGCTGGAAGGACGGAGCGAGCTGTAA
>GSU0522 rhlB, ATP-dependent RNA helicase RhlB
ATGAAATTTGCCGACTTGAACCTGCCCGAGCAGGTCATGCAGGGGGTGGC
AGACGCAGGCTTCAGCGACTGCACCCCCATTCAGGAAAAAACGTTGCCCC
TCTCGCTGGGGGGAAAAGATGTGGCCGGACAGGCCCAGACCGGCACCGGC
AAGACCGCGGCCTTCCTGATCAGCCTCTTCACGAAGCTTCTCCGCTCCGG
ACGGGGAGGCGAGCGCCGCCATCCCCGCGCCATCATCCTTGCCCCCACCC
GCGAGCTGGTGGTCCAGATCGAGAAGGACGCCCAGGTGCTCGGCGCCCAC
TGCGGGTTCACCATCCAGGCCATCTACGGCGGTGTGGACTACATGAAGCA
GAAAAACGCCCTCAAGGAGGGGGCCGATGTGGTGGTCGGCACGCCGGGGC
GGCTCATCGATTACCTGAAGCAGAAGGTCTACTCGCTCAAAGAGATCGAG
ATGCTGGTCATCGACGAGGCGGACCGGATGTTCGACATGGGCTTCATCGC
CGACCTCCGCTTCATCCTCCGGCGCCTTCCCCCCTACGACAAGAGGCAGA
ACCTGATGTTCTCCGCCACCTTGAACCAGCGGGTGATGGAGCTGGCCTAC
GAGTTCATGAACGTCCCTGAGAAGGTGGCGGTCACCCCCGAACAGATGAC
CGCCGAGCGGGTGGAGCAGGTCCTCTACCATGTGGGCCGGAAGGAGAAGT
TTCCGCTGCTGCTGGGCCTCTTGCGCAAGGAGGGGATGGAGCGGACCATG
ATCTTCGTCAACACCAAGCGTGAGGCGGAGTTCCTGGATGAGCGGCTCAA
TGCCAACGACTTCCCCTGCCGGGTCATCTCCGGCGACGTGGAGCAGCGCA
AGCGGCTCAAAATCCTGGAGGACTTCAAGAGCGGCAAGCTCCCGATAATG
ATCGCCACCGACGTGGCTTCGCGGGGGCTCCACATCGATGGGGTCTCCCA
CGTCATCAACTATGACCTCCCCCAGGACGCCGAGGACTACGTCCACCGCA
TCGGCCGCACGGCCCGGGCAGGTGCCGAGGGTAAGGCCATCTCCATGGCC
GACGAGGACGGAGCGTTTCACCTTGAGGCGATCCACGAGTACATCAAGGA
CAAGATCCCGGTGGAGTGGGCCGAGGATGATCTCTTCGTGCACGACTTCA
AGCGGGTGAAGCCGCGGCCCAAGGGACAGGAGACCCGTGCCAAGGGTCCC
ACCCGTCACGGCAGGAAGCACCCGGAGGCCGAGAAGAAGGAGCCGGAAGG
GGAGAAGAAGAAACGGAGCCGGCCCCGCCGCAAAAAGAATCCGGCGGCCG
GCGAGGGGGGCACGCCTCCGGCCGCGGAGTAG
>GSU0491 rhlE-1, ATP-dependent RNA helicase RhlE
ATGACCTTTGCTGAACTGAAACTTGCCCCGCACATTCTCAAAGCCGTAGC
CGCCTGTGGTTACACAGAGCCGACGCCGGTCCAGGCTGCCGCAGTTCCCC
GCGCACTGGAGAACGTGGACCTGCTTGCCACCGCCCAGACCGGTACCGGC
AAAACCGCCGCATTCGTCCTCCCGGCCCTGCAACGGCTGAGTTCTCCGCC
TCAGGGCCCCGGGCGCGGGCCGCGTGTGCTCGTGCTCACTCCTACCCGTG
AGCTGGCCCAGCAGGTTACCGACGCAGTGCGGACGTACGGGGCATTCATG
CGGGTACGCAGTGGCGCCATCCTCGGCGGCATGCCCTACCACGCACAGCT
CCGCCTTCTCTCCGCGCCCGTTGATTTCATCGTGGCCACGCCGGGTCGGC
TGGTAGACCTGCTCGACCGGAGGAGTCTCGATCTTTCCCGTCTCGAATTG
CTGGTCCTCGACGAAGCGGACCGGATGCTCGACATGGGGTTCAGCGACGA
CGTGGACCGCATCGCCGCCGCATCCCCCGCCACGCGTCAGACCCTGCTGT
TTACGGCAACCATGGACAGCGCCATGGCCAGACTGGCGGGCCGGCTCCTG
CGTGAGCCGGAGCGGATCGACATCGCCGGCACCAAAACTACCCATGAGCA
CATTGAACAGCGCCTTCACGTGGCAGATGACCTGCACCACAAGAACCGGC
TGCTGCGGCACCTGATTACCGACGAAAGCCTGCGCAGGGCAATTATCTTT
TCGGCGACCAAGCGTGATGCCGAAAACCTGGCACTGGAACTCAAGGCCCA
GGGCCATTCGGCAGCAGCACTCCATGGCGACATGCCCCAGAACGCCCGGA
ATCGAACCATTGCCGCCATGAAGCAAGGACGGATCAGGCTTCTCGTAGCC
ACCGACGTGGCAGCCCGGGGGCTGGATGTTACCGGCATCAGCCATGTCAT
CAACTTCGACCTGCCCAAGTTCGCCGAGGATTACGTCCATCGCATCGGCC
GCACCGGCCGGGCAGGCGCCTCGGGAATCGCCATCTCCTTCGCCTCGCTC
AACGAGGTCAATTACCTGGCCCGCATTGAGCGTTACATCGGCCAGACACT
CCCCGAACACCACATCCCTGGGCTGGAACCCTCGCGCCCGCTTCGCCGCG
TATCAGCGGGATCAGGCCGTAAACCGGGAATGGGAGCCGGTCCCGCCCGG
AAGGGCTCCTCGAACCGCCCCTCCGGCGCCGCGCCCGGCCGGTCCGGTAA
ATCGTCGGACCGTACATCCTGGGGGAGCAGACGGTCAAAAGATCCGGTTG
TGGAATACCGGACAGGGAGGCACGGAGCAGGACAACCCCGTAGATCATCA
TAA
>GSU0914 rhlE-2, ATP-dependent RNA helicase RhlE
ATGGATTTCAAATCGTTCGGTTTTCATCCGGCCGTGGCCACGGGAATCGC
GGCGGCCGGCTACGAAACCCCCACACCGATCCAGGCCCAGGCCATCCCCG
CGGTCATGGCGGGGCGCGACGTCATGGGGTTGGCCCAGACCGGCACCGGC
AAGACAGCGGCCTTTGCCCTGCCGATCCTGCATCGCCTGCAACAGGGCGA
GCGTGGCCGCGTCCGTGCCCTGGTCATCGCCCCCACCCGCGAGCTTGCGG
AGCAGATCAACGACAGCTTCGTCACCCTGGGGCGGCAGACCCGCCTGCGG
AGCGTGACGGTCTACGGCGGGGTAGGGGTGAATCCCCAGGTGCAGAAGCT
CAAGGCCGGCGCCGAAGTGGTCGTGGCCTGCCCGGGTCGGCTCCTGGACC
ACATCGCCCAGGGGACCATCGACCTGTCGCGCCTGGAGGTGCTCGTCCTG
GACGAGGCGGACCAGATGTTCGACATGGGCTTTCTGCCCGACATCCGACG
GGTGCTCAAGCATCTTCCCCCCCGGCGGCAGACGCTGCTCTTCTCGGCCA
CCATGCCCATCGACATCCGCACGCTGGCCCAGGATATTCTGGTGGACCCG
GTGACGGTGCAGGTGGGGACCGTGGCCCCGGCGGTCACCGTCGCCCACGC
CCTCTACCCGGTGGAACAGCACCTGAAGACCCCGCTTCTGCTGGAGCTTC
TTCGCCACACGGACACTGAGTCGGTGCTGATTTTCACGCGCACCAAGCAC
CGGGCCAAGCGCCTGGGTGAACAGTTGGAGAAGGCCGGCTACCGGGCGGC
CTCGCTTCAGGGGAATCTCTCCCAGAACCGGCGGCAGGCTGCCCTTGATG
GCTTCCGTGACGGCACGTTCCAGATCCTGGTGGCCACCGATATCGCGGCC
CGCGGCATCGACGTGAGCCAGGTGTCCCACGTGATCAACTATGACATCCC
CGACACGGCAGAGGCGTACATCCACCGTATCGGCCGCACCGGCCGCGCGG
CCCGCAGCGGAGACGCCTTCACCCTGGTGACCTCTGACGACGGAGCCATG
GTTCGTGCCATCGAACGGAGCCTCGGTGCCCCCATCGAGCGCCGCACCGT
GCAGGGCTTTGACTACTCGGTGCCGGCGCCGAAAAAGGATGTGGAGTTTG
CCCGTCCGCCCCGTGAGCCGCGCCAGGCCCGACCCCACGCAAACCAGCCG
AAGAAAGGGGGCGCAGCGGCATCCCCCTCGGCGTCTGGACGGCCGTCCCA
TCCCAAGGACTCGGGCCGGCGGCAGCCGGGCCAAGGAGCTCCCGCGTCGG
GTCCGTCGCGGCAACGGCCCGGAAGCCCCCGGCGGCCCCGCTGA
>GSU2071 rnhA, ribonuclease HI
ATGTCGGCAGAAGTTGAGGTGTTCTGCGACGGCGCCTGTAGTGGTAACCC
CGGAGTGGGGGGATACGGCGCGATCCTGCGTTACGGCAGCGCGGAAAAGG
AGCTTTCGGGCGCCGATGGCGATACAACCAACAACCGGATGGAGCTTACC
GCTGCCATCAGGGCGCTGGAAGCCCTCAGCCGTCCCTGTGCCGTGACGAT
CACCACCGATTCCCAATATCTGGTGAAGGGGATGACTGAATGGCTTTCCG
GTTGGGTGCGTCGGGGATGGGTGAACAGCAAGAAGGAACCGGTCCTGAAC
CGTGATCTCTGGGAGCGGCTCAGGGAGCTGACCGGGAAGCATCAGGTCAG
GTGGGTCTGGGTACGAGGCCACAACGGACACCCGGAGAACGAGCGGTGCG
ATGCCCTGGCGCGCCGTGCCATCGATGCGTACCGGAACGAACGCCGGTAG
>GSU0649 rnhB, ribonuclease HII
GTGTCGTTAACCCTGTTCGATCATGAGCCGCAGCCGGCGGTCTGGGATTT
CGAGAGCCGGGCTGCTCGCCGCGGCTATCGCACCATTGCGGGCATTGATG
AGGCAGGGCGCGGTCCCCTTGCCGGACCCGTAGTGGCGGCGGCCGTCATC
CTTCCCTTCGGCACCGACCTGCCGGGCGTCGACGATTCCAAAAAGCTCAC
CCCAGCACGACGAGATGACCTGTTTACCCTCATCCAAGGCACCGCCCTTG
CTATCGGTGTCGGTGTGGCGGACCACAAGGTCATTGACCGGATCAATATC
CTTCAGGCCACTCTCGCAGCCATGCGCGAAGCCGTGGAATGTCTGACCGA
TCCGCCCGACTACCTTCTGGTGGACGGGATTTCCCCCGTCCCTCTTCCCG
TGGCTCAGCAAACCATCAAAAAAGGCGACAGTGCGAGCATTTCCATTGCC
GCAGCTTCTATCATTGCCAAGGTCACCCGCGACCGGCTGATGGCGGAGTA
CGATCAACTCTACCCCGGGTATGGCTTTGCCGAGCACAAGGGGTACGGGA
GCGCCTCCCATATGGCAGCTATTGCCGCACTGGGGCCTTCGCCCATTCAC
CGCACAACCTTCCGCGGGGTCAGGGAGCACCTGGGAGAAAGTCGGTGCCG
GTAG
>GSU1076 ruvA, Holliday junction DNA helicase RuvA
ATGATCGCCCTTCTCACCGGCAGGCTCGCCCATAAATCCCCCGATGCCAT
CATTATCGATGTGAACGGTGTCGGCTACCGGGTCCAGATTCCTTTCTCAA
CCTACTACGAGCTTCCCGAGGAGGGGAAGACAGTTTCCCTTTCGATACAT
ACCCATGTGAAGGAAGACTCCATTAGCCTCTTCGGCTTCCGAACCCTTGC
CGAGAAGGAGTTCTTTCAGCTGCTCATCTCGGTTTCCGGCATCGGCCCCA
AGATGGCCCGCGACATCCTGTCCAACATCCAGCCGGAGGAACTGGCCGCC
GCCATTGTGCAGGGGAATCTCGTGAGGCTCTCATCCATACCCGGCATCGG
CAAAAAGACCGCCGAGCGGCTGGTGCTGGAACTCAAGGAAAAGGTCCGGA
AAATGGATGTGGCGCCGTCGGCCCAGGAGGCGCCCTCCAGCGAAGCCCCC
GCCGAGGTGGCTGACGACGTGGCCTCGGCCCTTGTGAACCTCGGCTATAA
GGAGGCGGTGGTCCGGAAGGTGTTGGCCGAGATGAGCATCGAGCCCGATG
CCTCCACGGAGGCGGTGCTTCGGCAGGCCCTCAAGGTGTTGATGAAATAG
>GSU1077 ruvB, Holliday junction DNA helicase RuvB
ATGACGACTCGAACGATAAGCCCTGAGAAGACCGACGACGACTACGTCGA
ATCATCCCTGCGCCCCCGCGCCCTGGAAGATTACATTGGCCAGGAGAAGG
CCAAGGGGAACCTGCGGGTCTTCATCGACGCGGCCCGAAAGCGCGGCGAG
GCCCTGGATCACGTGCTGCTCTATGGTCCGCCGGGACTGGGGAAGACCAC
GCTTGCCAACATCATTGCCTGCGAGATGGGGGTAAACATCAAGTCCACGT
CGGGTCCAGTCATCGAGCGTCCGGGCGATCTGGCGGCAATCCTCACCAAC
CTGGAGCCCCACGACGTCCTCTTCATCGATGAGATCCACCGCCTCTCCCA
TGTGGTGGAGGAGATACTCTATCCGGCCATGGAGGATTTCCAGCTCGACA
TCATCATCGGTCAAGGCCCAAGTGCCCGCACCATCAAGCTGGATCTTCCC
CGGTTCACCCTCGTGGGGGCCACCACCCGCGCCGGCCTTCTCTCGTCGCC
ACTGCGGGATCGCTTTGGAGTCATCTCGCGCCTGGAGTTCTACACCGATG
CAGAGCTTTCCACCATCGTCACCAGGTCGGCGCATATCCTCGATATCCAG
ATCGAGCCTGACGGTGCCCGGGAGCTGGCACGCCGCAGCCGGGGAACACC
CCGGATCGCCAACCGTCTCCTGCGTCGGGTCAGGGACTTTGCCCAGGTCC
GGGCCGATGGCGTCATCTCCGCTCAGGTGGTGGACGAATCCCTCAAGCTC
CTGGAGATCGACGAAAAGGGGTTCGATCAGATGGACCGCACCATCATGCT
GACGATCATCGACAAGTTCGGCGGCGGGCCCGTGGGGCTCGACACCATAG
CCGCGGCCATCGGCGAGGAACGCGATACCATCGAGGATGTCTACGAGCCG
TTCCTGATCCAGCACGGTTTCATTAACCGCACCCCCCGGGGCCGCGTGGC
CACGAAGTCCGCCTATGAGCACTTCGGCCGCATTGCGCCCGCGCCCGGGC
AAGGCGCGCTCTTCTAG
>GSU1075 ruvC, crossover junction endodeoxyribonuclease RuvC
ATGAGAGTTCTCGGCATCGACCCCGGTTCACGCATCACCGGCTACGGCAT
TATCGAGAAGATCGGCAACCGTCTCGTGCACGTGGACAACGGCGCCATTC
ATACCGATAGCCACAGGGAGTTCGCGCTCCGACTCCACAAAATCTACGAG
GGGCTGAGCCGCGTCATCGAAGAGTACCGCCCTGATGCGATGGCTGTAGA
GCAGGTGTTCCTCGCCCATAACGCCCAGAGCGCCCTGAAGCTGGGCCAGG
CCCGCGGGGCTGCCATCGTGGCCGGAGTAAGCGCGGGATTGCCGGTCAGC
GAGTATACGGCCATGCAGGTAAAGCAGGCGGTGGTCGGCTATGGCCACGC
CCGCAAGGAGCAGGTGCAGCAGATGGTCAAATCGCTCCTCAATCTCCCCG
AGATCGCCCAGGCCGATGCCTCCGATGCCTTGGCCGTAGCGGTCTGCCAC
GCCAATTCAGCAGTGATGAAATCCGTGCTCCGGAGCATCCGATGA
>GSU2151 ssb-1, single-strand binding protein
ATGGCAAGTCTGAATCGCGTGGAACTCATCGGCAACCTGGGACGTGACCC
TGAAATCAGGTACACACCAGGAGGCACCGCTGTCGCAAGTTTTTCACTCG
CGACCAGTGAGAAGGTCAAGAACAAGAGCGGCGAATGGGAAACCCGCACC
GAGTGGCACAACATCGTCCTCTACGCACGTCTCGCAGAAGTAGCTGGCGA
GTATTTGTCGAAAGGGAAAAGTGTCTACCTCGACGGTAAACTCAAGACCC
GCAAATGGCAAGATCGGGACGGTAAAGATCGCTACACAACCGAGATCATC
GGCGACAAGCTTCTTATGCTTGGTAGTAAAAATGGCAGCATTCCTGACGG
GAGTGACGACCAGCCATCAAACAGCCAGGCACATGAGGACATTCCGCACG
ATGACACCGATCCGTTCTAG
>GSU3117 ssb-2, single-strand binding protein
ATGGCAAGTCTCAACAAAGTGATGCTCATCGGCAATCTCGGGAAGGATCC
CGAGGTTCGCTACACGCCTGCCGGCACGGCAGTTGCCAGCTTCTCCCTTG
CCACCACCGAAAAATTCAAGAACAGGAACGGCGAATTCGAGGAAAAGACC
GAATGGCACAACGTGGTCCTCTGGGGCCGCCAGGCCGAAATCGCCGGTGA
ATACCTGGCCAAGGGGCGGACCGTTTTCATCGAGGGGCGGCTCCAGACCC
GCAAGTGGCAGGACAAGGACGGCCGCGACCGCTGGACCACCGAGGTGGTG
GGCGAGCGGATGCAGATGCTCGGCGGCAAGGGCGAGGGGGGCGGCGGACG
CGCAGGCGGACGCGGCGGCCAGGAGAGCGGCTTCGGCGGCCCCTCCTATG
ACGAGCCGGCGTTCAACCCGGACGACGATATTCCGTTTTAG
>GSU0567 tag, DNA-3-methyladenine glycosylase I
ATGATCCAACGATGCGAATGGTGCGGCACCGATCCCCTCTACGTGGCCTA
CCACGACGGGGAATGGGGCGTGCCCGCCCACGATGACCGGCACCTCTTCG
AGATGCTGATCCTGGAGGGGGCCCAGGCGGGGCTTTCATGGCTGACGATC
CTGCGCAAGCGCGAGGCGTACCGCCGGGCATTCGCCGGGTTCGACGCGGA
AACGGTGGCCGCCTGGTCCGAGGCCGACGTGGCGCGGCTGCTGGCCGATC
CGGGGATCGTGCGCAACCGGCTCAAGATCGAGTCGACCATCAGGAATGCC
CGGGGCGTGCTGAAGATCCGGGAGGAGTTCGGCTCTCTCGATGCCTACCT
GTGGCGGTTCGTGGACCATGCGCCCCGGCACAATGCCTGGCGCAGCCTGA
CCGATATCCCGGCCCGGACGGAGCAGTCCGATGCCATGAGCAAGGACCTG
AAGCGGCGGGGCTTCAATTTCGTGGGGTCGACCATTTGCTACGCGTTCAT
GCAGGCGGTGGGGATGGTGAACGACCATGTGGTCCACTGCTTTCGGCACG
ACGAGATCAGGCGGAGCGGGGGATGA
>GSU2549 topA, DNA topoisomerase I
ATGTCCCAACATCTCGTCATAGTAGAATCTCCTGCCAAGGCTAAGACCAT
AGAGAAGTTCCTCGGCCCGGACTACAAGGTGCTCGCATCCTACGGCCATG
TGCGCGCCCTGCCGAGCAAGCAGGGCTCCGTGGACGTGGAGCACGACTTC
GAGCCCCGCTACGCCGTCCTGCCCGAGAGCAAACGGCACATCGACGCCAT
CAAGAAGGAGTTGAAGGCGAGCGATTCGCTCCTGCTGGCCACCGACCCCG
ACCGGGAAGGGGAGGCCATCTCCTGGCACCTGCTGGCGGCCCTGGGCGTG
AAGCCCGAGAAACCGCCGGTACCGGTCAGGCGGGTGGTGTTCCACGAGAT
CACCAAGGACGCCATAGTCCATGCCGTGGAGAATCCCCGCGATATCTCAC
AGGATCTGGTGGACGCCCAGCAGGCTCGCTCAATTCTCGATTATCTCGTG
GGTTTCAATCTCTCCCCCTTCCTCTGGAAGAAGATTCGTTACGGCCTTTC
CGCCGGCCGGGTCCAGTCGGTGGCCCTGCGGCTCATCTGCGAGCGGGAGA
AGGAGATCCAGGCGTTCCAGTCCCAGGAATACTGGACCATCGGCGCGGAG
CTGGCCAAGGAGGGGGGGCAGAAGTGCACCGCCAATCTGGTCGAAGCCGA
GGGGAAGAAGCTCGACAAGTTCGACATCCCCGATCAGGCTGCGGCCGACC
GGCTCGTGAAGGCCCTGGAGAACGCCACCTTCACTGTGGACAAGGTGACG
AAGAGCGAGCGCAAGCGGACGCCGGCGCCGCCGTTTACCACATCGACCCT
CCAGCAGGAGGCTGCCCGCAAACTGGGCTTTTCGGCCAAAAAGACCATGG
CCACGGCCCAAAAGCTCTACGAAGGGGTCGCCATCGACGAAGGGCTCGTG
GGTCTCATCACTTACATGCGTACCGACAGCGTGGTGCTGTCGAACCAGGC
ACTGCAGGAGGCCCACCAGGTCATCACTTCCCTGTACGGTCCCGAATACG
CCCTTGCCAAGCCCCGCTTCTACAAAAACAAGGCTAAGAACGCCCAGGAG
GCCCACGAGGCGGTCCGCCCCACCTCCATCGCCCGCACCCCGGCGGAGCT
GAAAAAGTACCTCTCCTCCGACCAGTTCAAGCTGTACGACCTGATCTGGA
AGCGGACCGTGGCCTGCCAGATGGCCGAGGCGCTCCTGGACCAAACCTCC
GTCGATATCGGCGCGGGCAAGGGCTACCGCTTCCGGGCCGCCGGCACCGT
GATCCGCTTTCCCGGATTTATGAAGCTGTACATCGAAGGGGTGGACGATC
AGGCCGAAGAGAAGGAGGGGACCCTCCCTCCCCTCACCGAAGGGGAACTC
CTGAAGCTCCTGAAGCTCCTCCCGGAGCAGCACTTCACCCAGCCGCCCCC
CCGGTACACCGAGGCGAGCCTGGTGAAGACGCTGGAAGAGTACGGCATCG
GGCGCCCCTCAACCTATGCCTCCATCATGAACACGCTCCTGGAGCGCAAG
TACGCCCGCCTCGACAGCAAGCGCTTCATCCCCGAGGATGTGGGGATGGT
GGTCAACGATCTTCTGACCAACCATTTCACCACGTACGTGGACTACAACT
TCACCGCCACCCTTGAGGAAGAGCTCGACCAGGTCTCCCGGGGGGAAAAG
CGGTGGAAGCCGCTGCTGCGCGAGTTCTGGGAGCCCTTCCAGGGACTGCT
CAAACAGAAAGAGGGCGAGGTCAGCAAGGCGGACCTCACCACCGAGGCCA
CGGACGAGGCATGCCCCGAATGCGGAAAACCCCTGGTGGTGAAGCTCGGC
AAGCGCGGCAAGTTCATTGCCTGCTCCGGTTACAAGGAAGGGTGCACCTA
TACCCGCAACATCGACCAGGGTGAGGGAAGAGAGCAGGCGGAGCCGGTCC
TGTCCGAGGAAAAGTGCGACAAATGCGGCAGCCCCATGCTCATCAAGGAC
GGGCGCTTCGGCAAGTACCTGGCCTGCTCGGCCTATCCCGCCTGCAAGAA
CATCCAGCCCCTGGTGAAGCCCAAGGGGACCGGCCATACCTGCCCCGAAT
GCAAGGAAGGGGAGCTGACCGAGAAAAAGTCCCGCTACGGCAAGATGTTC
TACTCCTGCAACCGCTATCCCCAGTGCAAGTTCGCCCTCTGGGACCCGCC
CCAGCCGGGGCCGTGCCCCAAGTGCGGCTTCCCGCTGCTGGTGAAGAAGG
TCTACAAGCGGGAAGGGGAGTTCCTCAAGTGTCCCAAGGAAGGATGCGAC
TACCGGACCGAAGGGAAAAAGTAA
>GSU3325 uvrA, excinuclease ABC, A subunit
ATGGCACACGACACCATCATCGTCAAAGGCGCGTGCGAACATAACCTCAA
GTGCATCGACGTGGAGATCCCTCGGGACAAGCTCGTCGTCATCACCGGCA
TTTCCGGGTCGGGAAAATCGACCCTGGCCTTCGATACCATCTATGCCGAA
GGGCAGCGCCGCTACGTGGAATCCCTCTCGGCCTATGCCCGCCAGTTTCT
GGAGCAGATGGAGAAGCCCGACGTGGAATCCATTGAGGGGCTTTCCCCTG
CCATCTCCATCGAACAGAAGACCACCAGCCGCAACCCCCGCTCCACCGTG
GGAACCGTCACCGAGATCTACGACTACCTTCGGCTCCTCTTCGCCCGCGT
CGGCCACCCCCACTGCTATGAATGCGGCAAACCGATCACCTCCCAGACTG
TCTCCCAGATGGTGGACCAGATCATGGCCTTGCCCGCCGGAACCAGGCTT
CAGCTTCTCTCGCCCATGGTCCGGGGTCGCAAGGGGGAGTACCGCAAGGA
ACTGGCCCAGTTGCGCAAGGACGGCTTCGCCCGGGTCATCGTGGATGGCG
TGCAGCATGAGCTGGCCGAGGAGATTCACCTCGACAAAAACAAGAAACAC
GATATCGATATCGTGGTGGATCGACTCATTATCAAGGAGGGAATCGAGCG
GCGCCTGGCCGACTCCCTGGAAACGGCCCTGAACCACGCGGAAGGGGTGG
TAAAGGTCCAGGTCGTGGACGGCGACACCATCCTTTTCTCCGAGGCACTG
GCCTGCATCGACTGCGGCATCTCCTACCCCGAGATGACCCCCCGGATGTT
CTCATTCAACAACCCCTACGGCGCCTGCCCCGACTGCACCGGCCTCGGCA
CGCGGATGTACTTCGACGAGGAACTGGTCGTGCCGAACCCGGAACTCTCC
ATCCGCGAAGGAGCCATCGCCCCATGGGAGAAACGGCTCTCGGCCTGGTA
CCACATGACTCTGGACGCCCTGGCCAAGGCCTTTGACTTCGACATCCGGA
CCCCCTTCAAAGAGCTCTCTCCCCGGGTGCGCGAGGTGATCCTGCGCGGA
TCCAAAGGCGAAAAAGTTGAGTTCTGGTGGGAAGAGGACGGTGGGCGGCG
TCACACCTACACCAAGGAATTCGAAGGGGTCATCCCCAATCTGGAGCGGC
GCTACCGGGAAAGCGACTCGGAGCAGGTGCGGGAAGAGCTGGAGCGCTAC
ATGAACGTAATGCCCTGCCCCACCTGCCAGGGGGCGCGCCTGAAGCGCGA
GGCCCTTCACGTGAAGGTGGCGGAGCGGGACATCCGTCAGGTAACCGCTC
TCTCCATCAAGGACGCCTTGGAGTTTTTCGCCTCCCTCACGCTCACCCCG
AAAGAGGAGGAGATCGCCCGCCGCATCCTGAAAGAAATCAGGGAGCGGCT
CCACTTCCTAGTTAACGTGGGACTCGACTACCTGTCCCTGGACCGGACCT
CGGGCACCCTCTCCGGCGGTGAAGGGCAGCGGATCCGGCTCGCCACCCAG
ATCGGCTCCAGCCTCGTGGGGGTTCTCTACATCCTGGACGAGCCCTCCAT
CGGCCTGCACCAGCGGGACAACGGCCGACTGTTGCAGACCCTCAAGCACC
TGCGCGACATCGGCAACACGGTGCTGGTGGTGGAGCACGACGAGGAGACG
ATCCTGGAGGCGGACCACGTGCTCGACATGGGGCCCGGCGCCGGTGAGCA
CGGGGGCCGCGTGGTGGCCCAGGGAACCCCGGCGGAGATCATGGCGAACC
CCGAGTCCCTCACGGGCCGCTATCTCTCAGGAGAGCTCACCATCGCCGTG
CCTAAAAAGCGGCGCAAGCCCAAGCGCTTCATCACCGTGGAGGGAGCCGC
GGAAAACAACCTGAAGGATGTCACCGTCGACATCCCCCTCGGTGTCATGA
CCTGCGTCACCGGGGTGTCCGGGTCGGGCAAATCGACACTCGTGATCGAC
ACCCTCTACAAAGTCCTGGGCCAGCGGCTCTACCGGAGCCGGGAGCGGGC
CGGCGCAGTACGCGACATCCGGGGACTGGAACAACTGGACAAGGTCATCA
ACATCGACCAGTCGCCCATCGGCCGCACGCCGCGCTCGAACCCCGCCACC
TACACCGGGGTCTTCGCCGATATCCGGGATCTCTTCGCCCAACTCCCCGA
ATCCAAGGTGCGGGGCTATAAGCCGGGGCGCTACTCGTTCAACGTGAAGG
GGGGACGGTGCGAGGCCTGCGCCGGGGACGGGATCATCAAGATCGAGATG
CACTTTCTCCCCGATGTCTACGTCCAGTGTGAGGTCTGCAAGGGAGCCCG
CTATAACCGCGAGACCCTGGAGGTTACCTACAAGGGGAAATCCATCGCGC
AGGTCCTGGACATGACCGTTTCGGAGGCCCTGCGCTTCCTGGAGAACATC
CCGAAGGTCAAGGCAAAGCTCCAGACCCTGGAGGAGGTGGGGCTCGGCTA
CATCCGCCTGGGCCAATCGGCCACGACCCTATCCGGCGGCGAGGCCCAGC
GGGTGAAACTGGCCAAGGAACTGGCGCGCCGGGCCACCGGCCGAACCATC
TACATCCTCGACGAGCCCACCACCGGCCTTCACTTCCACGACATCGCCAA
GCTCCTGGAGGTGCTAAGAAAACTGGTGGAGGGGGGAAATACCATCGTCA
TCATCGAGCACAACCTGGACGTCATCAAGACCGCCGATTACATCATCGAC
CTGGGCCCCGAAGGGGGCGACCGGGGCGGCGAGGTGATCGCCACCGGCAC
ACCTGAGGAGGTGGCCAAGGTGACACGGTCCTACACGGGACAGTATTTGC
GGAAGATGCTGTGA
>GSU3262 uvrB, excinuclease ABC, B subunit
ATGGAACGCTTCAGACTGGCTAGCGATTACGAGCCCCGCGGCGACCAGCC
CCGGGCCATTGCCGAACTCTCGGAAGGGATTGTCAGGGGCGACCGGGATC
AGGTGCTCCTGGGGGTCACCGGCAGCGGCAAAACGTTTACCATGGCCAAC
GTCATCGCCGCCGTGAACCGCCCCGCCTTGGTCCTGGCCCCCAACAAGAC
CCTGGCGGCCCAGCTCTATGGCGAATTCCGGGAACTATTTCCGGACAATG
CCGTGGAATATTTCGTCTCATACTACGACTACTACCAGCCGGAAGCCTAC
ATCCCCACCACCGACACCTTCATCGAGAAGGATTCCTCCATCAACGACGA
GATCGACAAGTTGCGCCATGCGGCCACGCGGAGCCTGCTGACCCGGCGCG
ACGTGATCATCGTTGCCTCGGTGTCATGCATATACGGCATCGGCTCCCCG
GCCGAGTACCAGGCCATGCACATCTTCTTTCACCAGGGGGACGAGTACGG
CCGGGACGAACTGCTGCGGAAGCTGGTCGACATCCAGTATGAACGGAATG
ATCTGGACTTCCACCGGGGGACCTTCCGGGTGCGGGGGGACATCGTGGAG
ATATTCCCGGCCCACGAGGGGGAGCGGGCCTACCGGATCGAGTTCTTCGG
CGACACGGTGGACGCGATCAGCGAAATCGATCCCTTGCGAGGCGTGGTGG
TCCAGCGCCTGACCAAGTGCGCCGTCTATCCGGCTTCCCATTACGTGGCG
ACGCGCGAGACCCTGGACCGGGCCATGGAGGAGATCCGCACCGACCTGCG
GGAGCGACTCCAGTGGTTCCGGGAGCGGAACATGCTCGTGGAGGCCCAGC
GGCTGGAACAGCGAACAATGTTCGACCTGGAGATGATGGAGGAGATGGGA
TTCTGCCAGGGGATCGAGAACTATTCCCGCTACTTCGACGGCCGGACGCC
GGGGGAGCCCCCCTACACCCTGCTCGACTACTTCCCCCGTGACTTCATCC
TCTTCGTGGACGAATCCCACATTACCGTCTCCCAGGTAGGGGGGATGTAC
CGGGGGGACCGGAGCAGGAAAGAAACTTTGGTGAACTACGGCTTCCGCCT
ACCGGCGGCCCTGGACAACCGGCCCCTCACCTTCGGGGAGTTCACCGAAC
GGCTCAACCAGAGCGTCTACGTCTCGGCCACCCCGGCCGACTACGAGCTG
CAGCAGAGCGGCGGCGTGGTGGTGGAACAGGTGATCAGGCCCACGGGCCT
CCTGGACCCGGTCATCGAGGTCCGTCCTGCCACGGAGCAGGTGGACGATC
TCCTGCACGAGGTCCGGGAGACCACGGCCCGGGGCGAACGGGTGCTCGTA
ACCACCCTCACCAAGCGGATGGCCGAGGACCTGACCGATTACTACCGGGA
CCTGGGGGTGCGGGTCAGATACCTCCATTCCGACATAGACACTATCCAGC
GGATGCAGATCATCCGTGATCTGCGCATGGGGGAGTTCGATGTCCTGGTC
GGCATCAACCTCCTGCGGGAAGGGCTCGACATTCCCGAAGTGTCGCTGGT
GGCGATTCTCGACGCCGACAAGGAGGGGTTCCTCCGCTCCGCCCGTTCCC
TCATCCAGACCTGTGGCCGGGCCGCTCGCAACGTGAACGGCAGGGTCATC
ATGTACGCCGATACCGTAACCGGCTCCATGCAGAGCTGCCTCGACGAAAC
CGCCCGGCGTCGTGCTCTTCAGGAGGCCTTCAACACCGAACACGGCATCA
CGCCCCAGACCGTGAAAAAGGGGCTGCGGACCATCCTGGAGTCCATCGAG
GAGCGTGATTACTACACCGTCGCCGCCGTTGCCGAGACTCGGGAAGAGTA
CATCTCTGCCGACGAGATACCGAAAAGGGTGAAGAAGCTCCGCAAGGAGA
TGCTCGACGCGGCAAAGAAGCTGGAGTTCGAACGGGCGGCCGATCTCAGG
GATCAGATCAAAAAACTGGAAGAAATGGAGCTGCGGCTGCGCTGA
>GSU3279 uvrC, excinuclease ABC, C subunit
ATGTTCGACACCAAGCGACTGACAACCCTCCCCGATGCACCGGGTGTCTA
CCTCATGAAGGGGAACGGCGGGGACATTCTTTACGTGGGAAAGGCCAAGA
GCCTCCGTAAACGGGTCCGCTCCTATTTCAGCAAGGGGGGAGAGTCACGC
TACCATATCCGGTTCCTGGTGGGCCGGGTCGCCGACATCGACGTAATCGT
CACCGACACAGAGAAGGAAGCCCTCCTCCTCGAGAACACCCTTATCAAGG
AACATCGCCCCCGGTACAATCTGGACCTGCGGGACGACAAAACCTACTTT
TCCCTCCGACTCGACATGAACGAGGAGTTTCCCCGCCTGACCATCGTGAG
ACGGCCGGGCAGGGACGGAGCCCGCTACTTCGGCCCCTATTCCTCTGCTT
CTGCCGCGCGGGAGGTCCTCAAGCAGCTGTACAAGCTCTTCCCGCTCCGC
CACTACCCGCTGGAGAGCTGCCGCCGTCGCAGACGCCCCTGCCTCTTTTA
CCAGCTCAGGCAGTGCGCCGCCCCCTGTCACGGGCTCATCTCGGGCGAAG
ATTACCAATCACTGGCAGAAGGCGCGGCCTTGTTCCTTGCAGGAAAAAAC
AGCGACCTAACCCGCCTCTACAGGCAGCGCATGGCCGCAGCAGCAGCGGA
TGAACGGTATGAGGACGCCGCCCGCTACAGGGACTTGATCCGCGCCATTG
AGGTCACCGTAGAGAAGCAGAAGATGGTAGCCGGCGACGGCGACACGGAC
GTAGTCGGATTCTTTCGCGACGCCACAGACCTTTCCGTCTCGATCCTCTT
CTACCGCGGCGGCCGCCTCATGGGGAGCCGCAACTACCTCCTGGACTGGG
AAATGGATGACGCCGAAGGGCTCTCGTCGTTCCTGTCCGGCTACTACAAC
AGGGATGTCGTCATCCCCGATGAAATCCTCATCCCCTTCACCGTGGACGA
CACGGACCCCCTCGGCGAACTGCTAACGGAACGGCGAGGGAAAAAGACCG
TTCTCCGCCACCCCGTGCGAGGGACCAAGGCAGAACTGGTCAGGCTGGCG
GCGAGAAACGCCGAGGCGTACCTGCATGAAAAGCGGGAAAAGGACTCCGG
CATGGAGCAGGTCCTCGGAGAGCTCAAGGAGAAGCTCCACCTGACCAATC
TCCCCCGACGAATCGAATGCTACGACATCTCCACCATCCAGGGACGCTAT
TCCGTGGGAAGCAGGGTCCGGTTTCAAAATGGCGCTCCGGACAAGGCGGG
GTACCGCCGCTACCGGATACGGACCGTTCCCGGCACCGACGACTTCGCCA
TGATGCACGAAGTTCTGTCCCGGCGCTTCAGGGACGGACACGGCGGGGAC
GGTCGGCCGGACCTCATTGTGATTGACGGGGGAATGGGGCAGTTGAATGT
GCTGACCGCAATCCTGGAGGAGCTGGGGCTTCACGGCATTGACGCCGTCT
CCTTGGCAAAAAGCAGGGTAGAGCGAAATATGTCCGATAATGAGGTGGTC
CGGAGCGACGAACGGGTCTTTCTCCCCGGCCGCCGCAACCCGGTGGTGCT
CCGGCAGAACGGTGCACCGCTTCTGCTCCTGGCACGAATCCGGGACGAAG
CTCATCGCTTTGCCATAACCTATCACCAGAAGCTGCGCGGTAAAGGATCG
ATCCGATCGAGCCTGGAAGGCATTCCCGGCATCGGTGAAAAGCGCAAGCG
TGAACTGCTGAAACGTTTCGGCAGCATCAGGGCACTGCGCCAGGCGGACC
GAGAACAGCTTGCCGCCGTCCCCTCCGTCTCCCCCGCCTTGGCGGATGCC
ATCTGGAAGGCCCTTCACGGCGAAGAGCCCGAGGCGCCATGA
>GSU1819 xerD, integrase/recombinase XerD
ATGAATCAGCATCTGGATCTTTTTCTCGGCTATCTGGTGGTCGAGAAGGG
GCTTGCCCGCAATTCGGTGGAGTCCTATGCCAGGGACCTGAGCCGTTATC
TGGGGTATGTCGAGCAGCACGCGGGAGGTGATCCTGCCGCAATCCGCCCC
CTCCATGTTGCGGATTTCCTGGCGCACCTCAAGGAGTCGGGACTCGGCGC
CAGAAGCCGTGCCCGCGCCCTGTCCGCAGTACGGATGTTTCACCGTTTCC
TGCTGGTGGAAGGGTATGCCGAAACCAATCCCACCAGCATTATTGAAGCG
CCCCGCGTTCTCGCCAAGCTGCCCCAGGTCCTGACCGGCCGGGAGGTGGA
GATGCTTCTGGCCGCGCCGGCCGGTGATGCCCCCATCGAGGTGCGTGACC
GGGCCATGCTGGAGCTTCTCTATGCAACGGGTCTCCGGGTTTCCGAACTG
GTGGGGCTGCGCACGAGGGATGTGAATACCTCAGCCGGTTACCTAATGAC
CGTGGGCAAGGGGGAAAAAGAGCGGCTGGTCCCCATGGGCGAATCAGCCT
GTGCAGCCGTAGTGCTCTATCTTTCCTCGGCTAGGATTCAACTGGGTCGG
GGCGGGGAGAGTCCCTTTCTTTTCCTGAGCAGGCTCGGTGAACGGATGAC
TCGCCAGGCCTTTTGGAATATAATAAAAAAGCGCTCAAGGCAGGCCGGCA
TTCTGAAGGGAATTTCGCCCCACACGCTCAGGCATTCGTTCGCCACCCAT
CTGCTCGAAAACGGGGCGGACCTACGGAGCGTGCAGGCCATGCTCGGCCA
TGCGGATCTCTCAACAACCCAGATTTATACGCATGTTACCCGTGAACGGC
TGAAGCGTCTGCACGAACAATTCCACCCGCGCGGCTGA
>GSU1767 xseA, exodeoxyribonuclease VII, large subunit
GTGGATATCTTTTCTGAAAAACGAATCCTGACCGTGTCCCAGCTCACCTC
GCTGATTCGCGGGGTGCTTGAGGAAAACTTCGAGCACGTGTGGGTGGAAG
GGGAGGTGTCGAACCTGGCCACGCCGGCCTCCGGCCACCTCTACTTCACG
CTGAAGGACGGAGCGGCCCAGATCCGTTGCGTCATGTTCAGGGCATCATC
CAGGGCACTGAAATTTCGTCCCCGCGACGGGATGGGCCTCATCGTCCGCG
GGAGAGTCACGGTGTACGATCAGCGGGGTGAGTACCAACTGCTGGTGGAA
TACCTCGAGCCCCGCGGGATCGGAGCCTTGCAACTGGCCTTCATTCAGCT
GAAGGAGCAATTGGCCCGGGAAGGGCTGTTCGCTGACGAGCACAAGAAAC
CTATTCCACCGTTGCCTCAGAAGATTGGAGTGGTCACCTCGGCCACGGGG
GCGGCAATTCACGACATCCTTACCGTGCTGAACCGCCGCTTCGCCAACGT
GGAGATCCTCATCCGGCCGGTAAAAGTCCAGGGTGAGGGGGCTGCGGAGG
AAATCGCCGCGGCGATTGACGACTTCAACCGCTACGGCGTCATCGACGTG
ATGATCGTCGGGCGGGGGGGCGGATCGCTCGAGGATCTATGGGCATTCAA
CGAGGAAATGGTTGCTCGGGCAATCCATCGTTCGCGCATCCCGGTGATTT
CTGCTGTTGGGCACGAAGTGGACTTCACCATTGCTGATTTTGTTGCCGAC
CTGCGGGCTCCTACGCCGTCGGCAGCGGCCGAACTGGTGGTGAAGAGCAA
AGAGGAACTAGCCGCCCGTCTTGAATTTCTCAGGCATCGGCTGGTTCAGG
GGGGACGGCAGGTCCTGGCCGAGAGGAGGGGCGAGCTCGACAGTCTCAAC
CGTTCCCTTCGTGATCCGTCCATGCTGGTGGGGCACCTGTCACAGCGGGT
CGATGACCTCTCGGCCCGGTTGGAGCGAGGGACAGCGAACAGTGTCCGAC
GTCATCGCGGTAGCCTTGATCTGCTGACCACCAATTTGCGCCTTACCAAT
CCCGCCGTCAGGCTCGAGCGAGCCAGGGAAAGGGTCATAGCCCTTGCCGG
GCGCAACGAGACGCTGCTCCGCCGTTTCCTGGACCACCTCAGAGAGAAAA
CGCTCGTGGCCGCAGCGCGGCTCGATACGCTTTCGCCGCTGGCCACCATG
GCCCGGGGATACAGCATCGTGCTGAAGCTTCCCGAGCGGTGTCTCGTTAC
CGACAGCGCCCGACTCGCGCCGGGAGACCGGGTGGAGTTGTGCCTTCGTC
GCGGCCGGGCCGGCTGTTGCGTGGAATCCAGCAGCGACACGTGA
>GSU1766 xseB, exodeoxyribonuclease VII, small subunit
ATGGCTGTTGAAAAATTTGAAACCGCACTGAAAAAGCTGGAAGACGTGGT
CAGAAAGCTGGAGGGGGGAGATCTTTCCCTCGACGATTCGCTCAAGGCCT
TTGAAGAGGGGGTCAAGATGGCCTCTTTCTGCACAAAGAAACTGGACGAG
GCGGAGAAAAAGGTCGAACTCCTTCTCAAAAAGAAGGACGGCACGTTCGT
GCGCGAAGACTTCCGGCTGGATGACGAATAG
>GSU1539 xth, exodeoxyribonuclease III
ATGAAACTCGTATCCTTCAACGTCAATGGCCTGCGCTCCCGTCTCCATCA
ACTCGAAGAACTGGTCCGGACCCATCGGCCCGACATCATCGGCCTCCAGG
AAACCAAGGTGCAGGATGCCGACTTCCCCCTGGCCGCCGTGCAGGCCCTG
GGCTATCACGTGATCTACCACGGCCAGAAGACCCACCACGGCGTGGCGCT
CCTCTCCCTCCAGCCGCCCCGCGACGTCCGGCTCGGCCTCCCCGGCGACG
GCGACGAGGCCCAGAAGCGCTTCATCGGCGCCACCTTCGACCTCCCCGCC
GGGCCGCCCCTGAGGGTCATCAACGGCTACTTCCCCCAGGGCGAAAGCCG
CGACCACCCGGTCAAGTTCCCGGCCAAGGAACGCTTCTACGCCGACGTGC
TCGCCTACCTGAAATCCTCCTGCGACCCCGACGCCCCCCTGGCGGTCATG
GGAGACTTCAACATCGCCCCCGTGGACCCGGACATCGGCATCGGCGCCGA
CAACGCCAAGCGCTGGCTCCGCACCGGCAAGACCAGCTTCCTCCCCGAAG
AGCGGGCCTGGTTCGCCGCCCTGCGCGACTGGGGGCTGCACGACAGCTAC
CGTGAACTCTACCCCGACATCGACGACCGCTTCAGCTGGTTCGACTACCG
CAGCCGCGGCTTCGAGTCCGAGCCCAAGCGGGGCCTGCGCATCGACCACA
TCCTCCTCACCCGTCCGCTCCAGCAAGCCTGCCGCGCCGCCGGCATCGAC
TACGACATCCGCGCCATGGAAAAGCCGTCCGACCACTGCCCCGTGTGGGT
GGAGGTGGATGTGTGA