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

# Thermus thermophilus HB27, HB27

>TTC0206 hypothetical conserved protein
ATGGAGGCCGCCTTCCGCTACCGCATGGCCACCCGGCTCGCCCGCAGGCT
CAGGGAGGCCGGGCGCCCCCTTCCCCTCCCTGCCCTGGGGGAGGCCTTGG
GGCTTCGCGGCCCCGTGGAGCGGGTGGTGCGGCCCCTTCTGGACGGGAGG
TTCCTCCTGGAGGAGGGGGTGGGGCTTTGGGAGTGGCGCTACCCCTTTCC
CCTGGAGGGGGAGGCGGTGGTGGTCCTGGACCTGGAGACCACGGGGCTTG
CCCCGGGCCTGGACGAGGTGATTGAGGTGGGCCTCCTCCGCCTGGAGGGG
GGGAGGCGCCTCCCCTTCCAGAGCCTCGTCCGCCCTTCCCGCCCGCCGAG
CCCCTTCGTGGAGCGCCTCACCGGCATCCCCCGGGAGGCCCTGGAGGAGG
CCCCCTCCCTGGAGGAGGTTCTGGAGAAGGCCTACCCCCTCCTCGCCGAC
GCCACCTTGGTGATCCACAACGCCGCCTTTGACCTGGGCTTCCTCCGCCC
GGCCCTGGAGGGCCTGGGCTACCGCCTGGAAAACCCCGTGGTGGACTCCC
TGCGCTTGGCCAGACGGGGCTTACCAGGCCTTAGGCGCTACGGCCTGGAC
GCCCTCTCCGAGGTCCTGGAGCTTCCCCGAAGGACCTGCCACCGGGCCCT
CGAGGACGTGGAGCGCACCCTCGCCGTGGTGCACGAGGTGTACTATATGC
TTACGTCCGGCCGTCCCCGCACGCTTTGGGAACTCGGGAGGTAG
>TTC1199 putative methylated-DNA-protein-cysteine methyltransferase
GTGTGGGTCCCCACGCCCTTAGGTCCCCTGTGGCTGGAGGTCTCGCCCCT
GGGGGTGCGCCGCCTCGAGCCCGCCCTCTACCCCCGGGGCCCGGAGGCCG
AAGGGGCGCTGGCCCTCAAGGTGCGGGAGGCGGTCCAGGCCTACTTCGCC
GGGGAGCGGCCCGACTTCCTGGACCTCCCCCTGGACTACACCGGCCTCTC
CCCGGCCAGGCTCCGCCTCTACGAGCGGGTCCGCCTTGTGCCCTACGGGC
GGACCGTGAGCTACGGGGCCTTGGGCCGGGAGCTCGGCCTCTCCCCCAGG
GCGGTGGGGGCGGCCCTTAGGGCCTGCCCCTTTTTCCTCCTCGTCCCCGC
CCACCGGGTGATCCACGCCGACGGGCGGCTTGGGGGGTTTCAGGGGCAGG
AGGGGCTGAAGCTTTGGCTCCTCCGCTTTGAGGGGGCCCTTTAG
>TTC0922 hypothetical protein
GTGAGGCCCTTACGGCTTGAGCTGGAGGGGTTCGGCCCCTACCGGGAGCG
CCAGGCGGTGGACTTCTCCGACGTGGAGCTCTTCGCCATCACCGGCCCCA
CGGGGAGCGGGAAGAGCACCCTTTTGGACGCCATCGCCTTTGCCCTCTAC
GGCCAGGTGCCCCGGGTGGGGCGCCAGGTGGGCACCCTCAAGCACCCCGC
CGCGGCCAAGGCCTGGGTGAGCCTCACCTTCCGGGTAGGGGAGCGGGTCT
ACCGGGTGGAGCGGTCCCGGAGCGAGAAGCGGGGGGACGCCCGGGTCTAC
CTGCTGGAGGGGGGGGAGCGGCTTCTGGACCTGCCCACCCTCGAGGCGGT
CAACCGGGCCTTGGCCGACCTCGTGGGCCTGGACTACGAGGCCTTCACCC
GGGCCCTCCTCCTCCCCCAGGGGGAGTTTGACCGCTTCCTCAAGGGGGAG
CCGAAGGAAAGGCGCCAGCTCCTTCTGGAGCTCTTTGAGCTCTCCCGCCT
GGAGCGGGCCAGGCAGAAGGCGGCGGAGAGGCGGGGCCTCCTCCTGGAGG
AGAAGGGGAGGCTGGAGGGGGAGCTCAACGGGCTTTCCGCGGCCACCCCG
GAGGCGCTTGAGGAGCTGGAGCGGGCGCTTGCCGCCTCCCGCGCGGAGGC
CGCCCGCCTGGAGGAGGAGGCCAGGGGGGTGAGGAAGGCCCTGGCCGAGG
CGGAGGCCCTGCTTGAGGACCTGAGGCGGCGCCAGGCTTTGGCGGCCCGC
CTCGAGGCCTTAAAGGCCCGGGCGGAGGAGATGGCCCGGGTGGAGGAGCG
GCTTTCCCGGGCGGAGGAGGCGGAGCGGGCCCTGCCCCTTTGGCGGGACT
ACCAAAAGAAGCGGGCCGCCCTCCAGGCCACGGAAAAGGCCCTGGAGGAG
GCTGAGGGGAGGCTTCGGGCCCTGGAGGCGAGGCGCGAGGCCCTCGGCTT
CTCTCCGGAGGCCCTGGAGCGAGCCCAGGCGGCCTACGCCGAGGCCCAGG
ACCTAAAGGCCCTCGAGGCCCTCCTCGCCCGGGCGCCCGCAGGGAAGGCC
CCCGCCTCGGGTCCCGACCCCGCCACGGCCCAGGCGCGCCTGGAGGAGGT
CCTGAAGGCCCTGGAGGCCCTCGGGGCGGAGCTTTTGCGCCTGAGGGCCT
GGGCGGAGGCCTGGGAGGCCTTGAGGGCGAAGGAGGCCGCTTTGGCGGAG
GTGGGGGAGGCCCTTGCCCGCCTGGAGGCGGAGGGAAAGGAGGCGCGGGA
GGCCCGGGACGCCCTCGCCCTGAGGCTCAAGGAGGCGGAGGCCCACGCCC
TCTCCCAGGCCCTGAAGGCCCTGGAGGCCGAGCGGAAGGCCCTGGAGAAG
GCCCAGGAGGACCTGGACCGGAGGCGGGAGGCCCTCCTTCGGGAGGAGCG
GAGGCTCGGCCTCCTCGCCTACCACGACCTCTTGGAGCCGGGCAAGCCCT
GCCCCCTCTGCGGGGGGGTGGTCCACGCCCTCCCCCCCTTGCCCGAGGTC
CCCGACCTCGCCGGGGCGCGGCGGGCCCTGGAGGAGGAGGCCCAGGCCCT
CGCCCGGCGCCTCGCCCGCCTGGAGGCGGAGGCCGGGGACCTCGCCGCCC
GCCTCCGGGCCCTCGAGGTGGAGCCCCGGCCCGGGGATCCCGAGGCGCTC
AAAGGGGCCTTGGAGGCGGCCGAGGCCCGGCTTCAGGACCTCCGGGACCG
GTACCAGGCCCTCCGGGGGGAGGCCCGGGCCCTGGAGCGGGAGGTGGCGG
CCTTGCGGGCGCGGGAGGCCGAGGCCCGGGGCGGGGCCAGCCGGGAGGAC
CTGGCCTTGAGGCTGGAGGCGGCCGAGGCCCGGCGCCTTGCCCTGGAGGA
GGAGGCGGGGAGGCTCGCCGCTGGGCTTCGCCGCCACCTGGAGGCCAAGA
CGGGGGGCCTGGGGGTGGGGCCTTACCTGAGGCGCCTGAAGGAGGAGGTG
GAGCGGCTCAAGGGGCTTGCCGCCGAGGACGCCCGCCTTAGGGAGGAGGC
GGGGGCCCTCAGGGCGGAGCTTTCCGCCTTGAGGGCCCGCAAGGAGGAGC
AGGCCAAGGCCCTGGCCGAGGCGGAGGCGGCCACCCGGGGCCTCATGCCC
GAAGCGGAGGCCCAAGGCCTCGCCCTTTCCCCGGGGGAGCGGGAGGCGCT
TCGGGCGGAGCTCGAGGCCTTCCGCAAAGACCTCGCGGAGGCGGAGGCCG
CCTGGAGAAGCCTTCCCCCCCTTTCTGGGCCCGCCCCCACCCTGGAGGAG
GCCCAGGGGCGGGTGGAGGTCCTGAGGAAGGCGCTTGCCGAGCTGGAAGG
CCGTCTGGAGGAGAAGCGCAAGGAGGAAGGGGCCCTGGAAGACCGGGTGG
AAAGGCTCCGGAAGGACCTTGCCCGCCGCCGGGAGGTGGAGGGGGCGCTC
GCCCGCCTCGTGGCCGAGCTCGCCCTTTGGGAGAAGCTCGCCCTGGACCT
CCAGGCCCACAACTTCCCCGCCTACCTCCTCGGCCTCAAGCAGCGGAGCC
TGGTGGAGCGGGCGAGCGAACTTCTCTACACCCTCTCCGGGGGGCGGTAC
CGCTTCGCGGCCCAAGGGGACGAGTACCTGGTGGTGGACCTCTGGGCCGA
GGCCACCCCCCGCCAGGTCCGGACCCTCTCGGGCGGGGAGAGCTTCCTCG
CGAGCCTCGCCCTGGCCCTCGCCCTCTCGGAGGAGCTTTCCCGGGGCAAG
CTGGAGGCCCTCTTCCTGGACGAGGGCTTCGGCACCCTGGACCCCGAGGC
CCTGGAGCTGGTGGCGGGCATCCTGGAAAGCCTCCCCACCCGCGGGCGGC
TCGTGGGCGTGGTGACCCACGTGGAGCCTTTGGCCGAGCGCTTCCCCGCC
CGGCTTAGGGTCCGGAAGCACCCTTGGGGAAGCCGGGTGGAGTGGGCGTA
G
>TTC1075 excinuclease ABC subunit A
ATGGACCGCATCGTCATCCGGGGCGCTCGGGAGCACAACCTGAAGAACAT
CAGCCTGGAGCTTCCCCGGGGCAAGTTCATCGTCATCACCGGGGTTTCCG
GCTCGGGGAAAAGCACCTTGGCCTTTGACACCATCTACGCCGAGGGGCAG
AGGCGCTACGTGGAAAGCCTCTCCAGCTACGCCCGGCAGTTTCTGGGCGT
GATGGACAAGCCCGAGGTGGAGAGCATTGAGGGGCTTTCCCCGGCCATCT
CCATTGACCAGAAGACCACGAGCCACAACCCCCGCTCCACCGTGGGCACC
GTCACGGAGATCCACGACTACCTCCGCCTCCTCTTCGCCCGCGTGGGGCA
GGCCTTCTGCCCCGAGTGCGGCCGTCCCATTGAGAAGCAGTCGGCGAGCG
AGATCACCGACCGCCTCCTCAGGCGCCCCCCCGGCACCCGGGCCATCCTC
ATGGCCCCCCTGGTGCGGGGAAGGAAGGGGGAGTACAGGAAGCTCTTCCA
GCAGCTCCTGAAGGAAGGCTACGCCCGGGTGCGGGTGGACGGGGTCATCT
ACCTCCTGGAGGAGGCCCAAGGCCTCAGCCTGGAGAAGTACGAGAAGCAC
GACATTGACCTGGTGATTGACCGGGTGGTCCTGAAGGAGGAGGAGCGCCC
CCGCATCGCCGAGGCGGTGGAGCTCGCCCTGCTTCGGGGGGAAGGCCTTC
TTCGGGTCCTCTACCCGGACACCGGGGAAGAGGAGCTCTTCTCGGAGAAG
TTCGCCTGCCCCGAGCACGGCTCGGTCCTGGAGGAGCTGGAGCCCCGCAT
CTTCTCCTTCAACAGCCCCTACGGGGCCTGCCCCGCCTGCTCCGGCCTCG
GCTACCGCCAGGAGTTTGACCCCGAGCTCGTGGTGAACCCCGAGCTCTCC
CTGGCCGAGGGGGCCATCCTCCCCTGGTCCCGGGGGCGGGACACGGGGAG
GAGCTACCTCTGGGACCGCCTTAGGGCCTTGGCCGAGCACCTGGGCTTTG
ACCTCAAGACCCCCTTCAAGGACCTGCCGGAGGAGGCGAAGCGCGCCGTC
CTCTACGGCCTTCCCGAGCCCTTTGAGGTGGTCTTCCGCCGGGGCGGCAA
GGAGACCTTCCGGGTGGAGGTGCGGTACGAGGGGGTGATCCCCTGGCTGG
AGAAGCGCTACCAGGAGTCCGACTCCGAGGGGGTGCGGGAGGCCCTGGAG
GGCTTCATGTCCTTAAGGCCCTGCCCCGCCTGCGGGGGCACCCGGTACAA
GCGGGAGGTCCTCTCGGTGAAGGTGGCGGGGAGGAACATCGCCGAGGTCT
CCGCCCTCCCCGTGCGGGAGGCCTTGGCGTTCTTCCAGGGCCTGGAGAAG
ACCCTTCCCCCCTTCCAGGCCCAGATCGCCCGGCCCATCCTCAGGGAGAT
CGTGGAGCGGCTCGGCTTCCTGGTGGACGTGGGCCTGGACTACCTCACCC
TGGACCGGGCGGCCAACACCCTCTCCGGAGGCGAGGCCCAGAGGATCCGG
CTCGCGACCCAGGTGGGCTCGGGCCTCACCGGGGTCCTCTACGTGCTGGA
CGAGCCCAGCATCGGCCTCCACCCCCGGGACAACCAGCGCCTCATCCGCA
CCCTCAAAAGGCTCCGCGACCTGGGCAACACCCTCATCGTGGTGGAACAC
GACGAGGAGACCATGCGGGCCGCCGACTGGATCGTGGACATGGGTCCGGG
GGCGGGGATCCACGGGGGGGAGGTGGTGGCCCAGGGCACCCTGGAGGACA
TCCTCAAAAGCCCGCAAAGCCTCACCGGGGCCTACCTCAGGGGGGAGAAG
AGGATCCCCGTGCCCAAGGAGCGCCGCAAGGGGAACGGCAAGTGGCTCGT
CCTCAAGGGGGCGCGGGCGCACAACCTGAAGAACGTCACCTTGAGGATCC
CCCTGGGCCGCTTCGTGGCCATCACCGGCCCCTCGGGCTCGGGGAAGAGC
ACTCTCGTCCACGACGTCCTCTACGCCGCCCTGGCCCAAAGGCTCATGCG
GGCCAAGACGACCCCCGGCCCCTACGAGGCCCTGGAGGGGGTGGAGCACC
TGGACAAGGTCATTGAGATTGACCAGTCCCCCATCGGCCGCACCCCCCGG
TCCAACCCCGCCACCTACACCGGGGTCTTTGACGAGATCCGCGACCTCTT
CGCCAAGACCCCGGAGGCCAGGAAGCGGGGGTACGGCCCAGGCCGCTTCT
CCTTCAACGTCAAGGGCGGGCGGTGCGAGGCCTGCGGCGGGGACGGGACG
GTGAAGATTGAGATGCTCTTCCTCCCCGACCTCTACGTCCCCTGCGAGGT
CTGCAAGGGCAAGCGCTACAACAAGGAGACCCTGGAGGTCAAGCTCAGGG
GGAAGAGCATCGCCGACGTTCTGGACATGACGGTGGAGGAGGCCCTGGAC
TTCTTCCAGAACGTCCCCTCCATCGCCCGGAAGCTCCAGCTCATGGTGGA
CGTGGGCCTGGGGTACATGAAGCTGGGCCAGCCCTCCCCCACCCTCTCCG
GGGGGGAGGCCCAGAGGATCAAGCTCGCCACGGAGCTCGGCCGCAAGGCC
ACGGGCCGCACCCTCTACATCCTGGACGAGCCCACCACGGGCCTGCACTT
TGACGACGTGGCGAAGCTCCTCTCGGTCCTCCACCGGTTGGTGGACGCGG
GCAACACCGTGGTGGTCATTGAGCACAACCTGGACGTGGTGAAGACCGCG
GACTGGGTGATTGACCTGGGCCCCGAGGGCGGGGACCGGGGCGGGGAGAT
CGTGGCCGAGGGCACCCCCGAGGAGGTGGCCCTCACGGGGAGCCCCACGG
GGGCCTTCCTCGCCCGGATCCCCGAGATCGCCGCCCGGATCGGGGTGGCG
GCGGACTAA
>TTC0571 probable transposase
ATGGCGGCCCCACTTCGGATCCAGCTGACCCCTGAGGAGGACCGGCTCCT
CCTGGAGCTCTCCCTGGACCCAAGGACCCACAAGAAGACCCGCCTGTGGG
CCATGATGGTCCGCCTGGCGGCCGAGGGCTGGACCGCCCCAAAGATTGCC
CAGCACTTCCACAAGGACCGCACCACGGTCTACCTCGTCCTCAGGCGCTT
CGTGAGGGAGGGTCTCCAGGGCCTCGCCTACCGCAAACCCCCGGGAGCCC
CCAGGAAGTTCACCCCCGAGATGGCCGCCTTCGTGGAGGAAAGGCTGGCC
GAGGATAGGGTCTGGACCGCCCCGCAGCTTGCGGCAGCCCTAGCCGAGCG
CTTCGGGGTCCGCCTGGCCCCCAAGGTGGTGGCCCGGCACCTGAGGGCCA
TGGGGTACGTGTGGCGACGGACGCGGTACGTGCCTCTGGGAAAGCCCACG
GAGGAAGAGGTGAAGGCTTTCGCGGAGGAGGAAGGGGAAGCAAAAAGGGG
GCGGAGGAGGGGGTGA
>TTC0160 ADP-ribose pyrophosphatase
ATGGGAAGAGTCTATTATGGGGGCGTGGAACGCACCTACCTCTACCGGGG
CCGCATCCTGAACCTGGCCCTGGAAGGCCGTTACGAGATCGTGGAACACA
AGCCCGCCGTGGCGGTGATCGCCCTGCGGGAAGGGAGGATGCTCTTCGTG
CGCCAGATGCGCCCCGCCGTGGGCCTCGCCCCCCTGGAGATCCCGGCGGG
CCTCATAGAGCCCGGGGAGGACCCCTTGGAGGCGGCGAGGAGGGAGCTCG
CCGAGGAGACGGGCCTTAGCGGGGACCTCACCTACCTCTTCAGTTACTTC
GTCTCCCCCGGCTTCACCGACGAGAAGACCCACGTCTTCCTCGCGGAAAA
CCTAAAGGAGGTGGAGGCCCACCCCGACGAGGACGAGGCCATAGAGGTGG
TCTGGATGCGCCCGGAGGAGGCCCTAGAGAGGCACCAGAGGGGGGAGGTG
GAGTTCTCGGCCACGGGGCTCGTGGGGGTCCTCTACTACCATGCTTTTCT
CCGAGGTCGCTGA
>TTC1523 ATPase
ATGAGGGAAGTGGAACCCCTGGCCGAGCGCCTCAGGCCCCGAAGCTTAGA
CGAGGTCCTGGGCCAGCCCCACCTCACCGGCCCTAAAGGGCTTCTAAGGC
GGATGCTGGAGGCGGGGCGGCTCTCCTCCATGGTCCTCTTCGGCCCCCCG
GGCACGGGCAAGACCACCCTGGCCCGGCTCCTCGCCGAAGGGGTGGGGAG
GCCCTTCCTAAGGCTCTCCGCGGTGGAGGCAGGGCTTAAGGAGGTGCGCC
AGGCGGTGGAGGAGGCGAGGGCAAAGGGGGGCCTCGTCCTCTTCCTGGAC
GAGGTCCACCGCTTCAACAAGGCCCAGCAGGACGCCCTCCTCCCCCACCT
GGAGTCGGGCCTCCTCACCCTCATCGGGGCCACGGCGGAAAACCCCGCCT
TCGCCCTCGTCCCCGCCCTCCGCTCCCGCCTCCGCTTCTTCCCCTTGAGG
CCCCTGGAGGAGGCCGACCTCCTCGCCCTCCTCAGGCGGGCCCTGGAGGA
CCCAAGGGGCCTTCCCGGCACGCCCTACGAGGAGGAGGCCCTAAGGGTTC
TCGCCCAGGCGGCCGGGGGCGACGCCCGCTTCGCCCTGAACACCCTGGAG
CTCGCCGCAAGCTTCGGCCGGGTGGACCTCAAGAGCGTGCGGGAGGCCCT
GGGGGCGGAGCGCTTCGGCATGGACCGGGAAGGGGACCGGTTTTACGACC
TGGTCTCCGCCCTCCACAAGTCCCTGCGGGGAAGCCACGTGGACGCCGCC
CTCTACTACCTGGCGAGGCTCCTTCAGGGCGGGGCCGACCCCCGCTACCT
CGCCCGCAGGCTCATCCGGGTGGCGGTGGAGGACGTGGGCCTCGCCGACC
CCCTGGCCCTCCGCCTCGCCGTGGCCGCCAAGGAGGCCTACGAGGCCCTG
GGAAGCCCGGAAGGGGAGCTCGCCCTGGTGGAGGCCGCGGTCTACCTGGC
CCTGGCCCCCAAGAGCAACAGCCTCTACGCCGCCTGGAAAAAGGCCCAGG
AGGCGGCCAAGGCCCACCCCGAGGCCGAGGTCCCCCTGAACCTGAGAAAC
GCCCCCACCGGCCTCGCCCGCGCCCTGGGGCACGGGGAGGGGTACGCCTA
CTACCACGAGGACAAGGAGGGAAGCTTCGCCCAGAGGTACCTCCCCGAGG
GCCTGGAAGGCCTCACCCTCTTTGAGGCCACGGGGGAGGGGTGGGAGGAG
CGGGTGCGGGAAAGGCTTAAGGCGCTTCGGGAGCGGTTCCAAACCGCCAG
GCGGCGGAGAGGCTGA
>TTC0984 putative DNA binding protein
ATGGCTGCGAAGAAGACGGTGACCAAAGCGGATCTGGTGGACCAGGTGGC
CCAGGCCACCGGGCTCAAGAAGAAGGACGTGAAGGCCATGGTGGACGCCC
TGCTGGCCAAGGTGGAGGAGGCCTTGGCCAACGGGAGCAAGGTCCAGCTC
ACGGGCTTCGGCACCTTTGAGGTGCGCAAGCGCAAGGCCCGCACCGGGGT
GAAGCCGGGCACCAAGGAGAAGATCAAGATCCCCGCCACCCAGTATCCCG
CCTTCAAGCCCGGCAAGGCCCTGAAGGATAAGGTCAAGAAGTAA
>TTC0290 transposase
ATGGCGGCCCCACTTCGGATCCAGCTGACCCCTGAGGAGGACCGGCTCCT
CCTGGAGCTCTCCCTGGACCCAAGGACCCACAAGAAGACCCGCCTGTGGG
CCATGATGGTCCGCCTGGCGGCCGAGGGCTGGACCGCCCCAAAGATTGCC
CAGCACTTCCACAAGGACCGCACCACGGTCTACCTCGTCCTCAGGCGCTT
CTTGAGGGAGGGTCTCCAGGGCCTCGCCTACCGCAAACCCCCGGGAGCTC
CCAGGAAGTTCACCCCCGAGATGGCCGCCTTCGTGGAGGAAAGGCTGGCC
GAGGATAGGGTCTGGACCGCCCCGCAGCTTGCGGCAGCCCTAGCCGAGCG
CTTCGGGGTCCGCCTGGCCCCCAAGGTGGTGGCCCGGCACCTGAGGGCCA
TGGGGTACGTGTGGCAACGGACGCGGTACGTGCCTCCGGGAAAGCCCACG
GAGGAAGAGGTGAAGGCTTTCGCGGAGGAGGAAGAGGAAGCAAAAAGGGG
GCGGAGGAGGGGGTGA
>TTC0258 hypothetical conserved protein
ATGGCCGCCAGGATGAGGACGGGCACGGCGTACTTGAGGAGGAGGAGGAT
CAGGTCGGAGAGGGCGAGGAGGACCTTGCCCAGGAAGGTGAAGATCCACC
CCCCGAGCCAGAAGGCGAGGAGCACCCCCACGACCACCAAAAGCCCCAGC
ACCACCCACTCCAGGATGTCCCTCAGCGTGCGCTCCATGGCTCCAGCATA
CACTGGAAAGGTGGAACGCTACCGGCTGGAAGAGGGCATCGTGGTGGGCC
GAAAGCCCCTGCCCCAGGGGGACCTCCTCCTCCGCCTGGTGACGCCCAAG
GGGAGCCTCGAGGCGGTGGTCCGGAAGGGGCAGAGGCCCACGGGGCGTAC
GGGGAGGCTCTCCCTCTTCCACCACGTGCGCTTCCAGCTCTACGCCAAGG
GGGAGGGCCTGCCCACCCTGACCCAGGCGGAGCTTTTGGGCAGGCTCCAC
GGCCTGGAGGCGCCCCGCCGCTTCCTCCTCGCCGCCTTCCTCGCCGAGCT
CGCCTACCGCCTGGCCTCCCCCGAGGCCGCCCCCAGGATCTACCCCCTTC
TGGTCTCGGGCCTCCGGGGGATCGCCAAGCACGAGGACCCCCTCCTTCCC
CTGGTCTGGGCGGGCTGGCGGGTGGCCAAGGCGGGGGGGATCGGGCCCAG
CCTGGAAGGGGAGGGCCTCCGCCTGAAGGGGGGGAGGCTCGGGGAGGAGG
GGGTCTACCTGGGGCGGGAGGGGGTGGAGGCCCTAAAGGCCACGCTCCGC
CTCCCCGGGGCCCAGGCCCTTCCCCACCTGGAAGGGGCCCCCTTAAACCG
GCTCTTCCTGGCGCTCAAGGCCCACGCGGAGGAGGCCCTGGGGCCCTTGC
GCTCGGCCGAGGCTATAGGGGTTTGA
>TTC1931 DNA topoisomerase I
ATGCCCAAGAGCGCCAAGCGCCGCGCGAGCCAGCCCACCGGCGCGGAGAC
CCTGGTGGTGGTGGAGTCCCCGGCCAAGGCCCGGAGCATCCAAAAGATGC
TGGGGCCGGGCTACGAGGTCCGGGCGAGCCTAGGGCACGTGGTGGACCTC
CCCGAGCGGAGCCTGGGGGTGGACGTGGAGCGGGACTTCGCCCCCACCTA
CGAGGTGAAGAAGGACAAGAAGCCCGTGGTGGAGGAGCTGAAGCGGGCGG
CGGAGGGCAAGCGCCTGCTCATCGCCACCGACCCCGACCGGGAGGGAGAG
GCCATCGGCTGGCACGTGGCCCGCCTCCTGGGGCGGGACCCCAAGGAGCC
CCTCCGGGTGGAGTTCCACGAGATCACCCCCAGGGTGGTCCGCCAGGCGG
TGGAGGCCCCGCGGCCCATTGACCAGAACCTGGTGGACGCCCAGCAGGCC
CGGCGCGTCCTGGACCGCCTCCTCGGGTACAACCTCTCCCCCCTCCTCTC
CCTGGAATTCCGCAAGCGGGCCCTCTCGGCCGGCCGGGTGCAGAGCGTGG
CCCTGAGGCTCGTGGTGGAGCGGGAGGAGGCCATTGAGGCCTTCCGGCCC
GAGGAGTACTGGGTCCTCCGGGGCGTCTTCGCCGTGGAGGGCGGGGAGGC
CCCCCTGGTGGCCACGCTCCACGAGGTGGAGGGGAAGCGCCTCTGGACGG
GGCAGGGGGAGAAGGAGGGCCGGCTCCACCTCGCCTCGGAGGCCGAGGCC
CATGCCCTGGCCGAGGCCCTGCGGAAGGGGAGCTACCGGGTGGCCCAGGT
GGAGGTGCGGGAGCGGCGCAAGGCCCCCCCGCCCCCCTTCACCACCTCCA
CCCTCCAGCAGGCCGCCTCGAGCCGCTTGGGCTACACCGCCGCCCGCACC
ATGCGCATCGCCCAGCGCCTCTACGAGGGGGTGGACCTGCCGGAGGGGAC
CGTGGGCCTCATCACCTACATGCGCACGGACTCGGTGCGGGTGGCCCCCG
AGGCGGTGGCGGCGGCCCGGGAGGTGATCGGGAAGGCCTTCGGCCCGGAG
TACCTGCCGGAGGCCCCGCGGGCCTATAAGAACCGCAGGGAAGGGGTCCA
GGACGCCCACGAGGCCATCCGCCCCACCGACCCCCAAAGGACCCCGGAAA
GCGTCCGCCCCTACCTGTCCGAGGAGGAGTACCGCCTCTACGAGCTCATC
TGGCGCCGCTTCCTGGCGAGCCAGATGCGGGACGCCCTCTACGAGCAGAC
GGCGGTCACCCTGGCCGACCTCGAGGGCCGCTACGCCTTCCGCGCCTCGG
GCTCGGTGTTGCGCTTTGAGGGGTACCTCCGGGCCTGGGGGCGGGACGCC
GAGGAGGAGGAGGAGCCCCCCGTCCCCGCGGTGCCCGAGGGGGTTCCCGC
CCGGCTTGAGGAGGTCCTGGAGGAGCGGCGCTTCACCGAGCCCCCGCCCC
GCTACACCGACGCCAGCCTGGTGAAGACCATGGAGGAGCTGGGGATCGGC
CGCCCTTCCACCTACGCCCCTACCCTCGAGACCCTGGAAAAGCGGGGGTA
CGTGGCCCGAAAAGGGCGGACCCTTTTCCCCACCCCCCTGGGCCGCCAGG
TCACCGCCTACCTGCGGGAAAGGTTCCCCCAGGTGGTGGCCTACGAGTTC
ACCGCCCGGATGGAGGAGCGGCTGGACGAGGTGGAGGAGGGGCGCGTCCC
CTGGCCCAAGGTGGTCTGGGAGTTCTATGAACCCTTTTTGGGGGAGCTCG
CCCAGGTGCCCAAGAAGACCTGCCCCGAGTGCGGCAGGCCCTTGGAGCTC
AAGGTGAGCCGCTACGGCCAGTTCCTGGGGTGCACGGGCTACCCGGAGTG
CACCTACACCGAGCCCCTGGAAAGGCGGGAGGCGGAGCCCATCGGGGAGG
CCTGCCCCAAGTGCGGCCGCCCCCTCCTCAGGAAGGAGGGCCGCTACGGC
GCCTTCATCGCCTGCTCCGGCTACCCCGAGTGCGACTACACCCGGGACGA
CGGGACCCCCACGGGCCACACCTGCCCCAAGTGCGGGGGCCGGGTTCTGG
AAAAGCGAAGCCGGAAGGGCAGGCCCTACTACAAGTGCGAGAACAACGCT
TGCGACTTTCTCTCCTTCTACCCCCTCCTGGAGGAGGCCTGCCCCGCCTG
CGGCTGGCCTTTGGTGAAGAAGGGGGAGAAGGCGCTCTGCCTCAACCCCG
CCTGCCCGGAGCACGAGCCGAGCCTCCTTCCCGCCCCCAAGGAGGCCAAG
AAAGGGCGGTCCCGGGGGAAGGGCAAGCCCCCCCTCGCCCCCCCTAAGGA
CTGGGAGGAGCTCGTCCCCTTCCTCCCCGGGCTTTCCCCCGAGGAGCGCC
GGGCGGTGGAGGCCCTGGCCCGGGGGGAGGCCCTGGCCGAGGAGGAGGCG
CGGCTCGCCCGGCGGGCCCTCTTCAAGCTCCGCATGCGCAAGGGCAAGGC
CCGGAAGGAGCCGGTCCGGGCGTGA
>TTC0638 probable ATP-dependent DNA helicase
GTGAAGCTCTACGTGGCCTCAGCGGGCACGGGGAAGACCCATACCCTGGT
GGAGGAGCTTTTGGCCCTGGTGAAGGGGGGTGTGCCCCTGCGGCGCATCG
CCGCCGTCACCTTCACCCGCAAGGCGGCGGAGGAGCTTCGGGCCCGGGCG
AGGAAGGGGGTGGAGGCCCTGGCCCGGGAGGAGCCGGGCCTTGGCGGGGC
GGTCCGGGAGGTCCACGGGGCGGTCTTCGGCACCATCCACGGCTTCATGG
CGGAGGCCTTGCGCCACGCGGCCCCCTTCCTCTCCCTGGACCCGGACTTC
GCCGTGGTGGACGAGCTCCTCGCCGAGGCCCTCTTCCTGGAGGAGGCGCG
AAGCCTCCTCTACCTCCTGGGGGAGGACCCGGGGCTTGAGGCCTTCCTCC
GCCGCCTCTACCAGGGGCGGACCCTGGCCGAGGCGTTTAGGCCCCTGGAG
GGGGCGGAGGGGCTTGTGCGCCTCTTCGCGGAGGCCCTGGCCCGGTACCG
CCGCCGAGCCCAGGAGGTCCTGGGCCCGGGGGACCTCGAGGCCCTCGCCC
TCCGCCTCCTCCGCCACCCCCAGGCCCTCGCCCGGGTGGTGGAGCGCTTT
CCCCACGTCCTCGTGGACGAGTACCAGGACACGAGCCCCCTCCAGGGGCG
CTTCTTCCGGGCCCTGGAGGAGGCGGGGGCCCGGGTGGTGGCCGTGGGGG
ACCCGAAGCAGTCCATCTACCTCTTCCGCAACGCCCGGCTGGAGGTCTTC
CGCGAGGCCCTGGGGCGGGCGGAGGAAGTCTTGGTCCTGGACGAGACCCG
CCGCCACGCCCGGAGGGTGGCCGCTTTCCTGAACCGCTTCGTGGCCCTCT
TCCCCGAGGGGGAGCGGGTGGCGGTGCGCCCCACCAGGGAAGCCGAGGGC
CGGGTGGAGGTCCACTGGGTGGAGGGGGGGGCGGGGCTTGAGGAGCGGAG
GCGGTTTGAGGCCGACCTCCTCGCCCGCCGCCTCCTCGCCCTAAAGGCGG
AGGGCTACGCCTTCGGGGAGATGGCCGTCTTGGTGCGGAGCCGCGCGAGC
CTTCCCCTTTTGGAGCGGGCCTTCCGCGCCCGGGGCGTGCCTTACGTCCT
TCGCCGGGGGCAGAGCTTCTTCAACCGCCTCGAGGTCCGGGACCTTTACC
ACGCCCTGCGGCTCGCCCTCCTCGAGGGGCCCCCGGGGCCCGAGGAGCGC
CGCTCCCTCCTCGCCTTTCTGCGAAGCCCCTTCGTGGGGCTCAACCTTGG
GGAGGTGGAGGAGGCCCTCCTCCGGGAAGACCCGCTTCCTTACCTCCCCC
AGGCGGTGCGGGACCGGGTGGCCTGGCTGAGGGGCCTCGCCGGGAAGCGG
CCCCTCGAGGCCCTCAAGGCCCTGGTGCGGGACGAGGTCTTTCTTTCCCG
GCTTTCCCCCCGGGCCCGGGCCAACCTGGACGCCCTCCTCCTCCTCGCGG
GCCTGGAGCGCTTCCCCGACCTGGAGGCCCTCCTGGAGTGGCTCAGGCTC
CGGGCCCTGGACCCCGAGGCGAGCGAGCTTCCCGAGGGTGGGGAAGGGGT
GGCCCTCCTCACGGTCCACGCCGCCAAGGGGCTGGAGTGGCCGGTGGTGG
TCGTCTACGACGTGGCCCGAGGGGAGCCAGGCCCGGCCTCCCCCGTCCTC
GTGGGGCCTGAGGGGGAGGTGGCCGTGGCGGGGACGCGGGCCCACCGGGA
CCTCGCCCAAAGGCTTGCTCAGGCCCAGAGGGAGGAGGCGGTCCGCCTCC
TCTACGTGGCCCTCTCCCGGGCCCGGGACGTCCTCCTCGTCACCGGAAGC
CGCTCGGGCCGGGAAAGCCCCTGGGCCCAGGCCCTGGAAAGGCTCGGCCT
GGGCCCGGAAAGCCAGGACCCCCTGGTGGCGCGCCACCCTGTGCCCCAGG
GCTGGAGGCCGCCCCGTCCTGCGCCCGCCGCGAGGCGGGAGGGGCCTCCA
GCCCCCTACGCCGAGCACCTCCTTCCCCCAAGGCCCCTCCCCCTCGTCCA
CTCCCCGAGCGCCCACCTGAAGGCGGAGCCCAAGCCCCTCGCCGAGGCCT
TGGAGGGGGAGGCCGTCTCCGGGTTCGCCCGCGCCCTCGGCACCCTGGTC
CACTACGCCCTCGCCCGGGACCTGGACCCGGAGGACGGGAGGGCCATGCG
GGCCCTCCTCCACCAGGAGGTGGCCTTTCCCTTCGCCGAGGGGGAGAAGG
AGCGGCTTTTGGCCGAGGTCCGGGCCCTGCTTCGGCGCTACCGGGGGATG
CTGGGGCGGGAGCTTCCCGCTTTGGAGGAGCGGGCGGAGGATTACCGGGA
GCTTCCCCTCGTCCTCCCCCTCAAGGGGACGGTCTGGCACGGGGTGCTGG
ACCGGGTCTACCGGGTGGGGGACCGCTGGTACCTGGACGACTACAAGACG
GACCGGGAGGTCCGGCCCGAGGCCTACCGCCTCCAGCTCGCCCTCTACCG
GCGGGCCCTCCTCGAGGCCTGGGGGGTGAGGGCCGAGGCCCGGCTCGTCT
ACCTGCGCGCCGGGCGGGTCCACGCCTTCGGCGAGGCGGAGCTTGAGGAG
GCCTTGGCGGCCCTCCCCTCATAG
>TTC0732 NAD-dependent DNA ligase
ATGACCCTGGAAGAGGCGAGGAAGCGGGTAAACGAGTTACGGGACCTTAT
CCGCTACCACAACTACCGCTACTACGTCCTGGCGGACCCGGAGATCTCCG
ACGCCGAGTACGACCGGCTTCTTAGGGAGCTCAAGGAGCTTGAGGAGCGC
TTCCCCGAGCTCAAAAGCCCGGACTCCCCCACGGAGCAAGTGGGGGCGAG
GCCTTTGGAGGCCACCTTCCGCCCCGTCCGCCACCCCACCCGCATGTACT
CCTTGGACAATGCCTTTAACTTTGACGAGCTCAAGGCCTTTGAGGAACGG
ATAGAACGGGCCCTGGGGCGGGAGGGCCCCTTCGCCTACACCGTGGAGCA
CAAGGTGGACGGGCTTTCCGTGAACCTCTACTACGAGGACGGGGTCCTGG
TCTACGGGGCCACCCGGGGGGACGGGGAGGTGGGGGAGGAGGTGACCCAG
AACCTCCTCACCATCCCCACCATCCCGAGGAGGCTCAAGGGGGTGCCGGA
GCGCCTCGAGGTCCGGGGCGAGGTCTACATGCCCGTAGAGGCCTTCCTCC
GGCTCAACGAGGAGCTGGAGGAGCGGGGGGAGAGGATCTTCAAAAACCCC
AGGAACGCGGCGGCGGGTTCCTTAAGGCAAAAAGACCCCCGCATCACCGC
CAAGCGGGGCCTCCGGGCCACCTTCTACGCCTTAGGGCTTGGGCTGGAGG
AGGTGGAGAGGGAAGGGGTGGCGACCCAGTTTGCCCTCCTCCACTGGCTC
AAGGAAAAAGGCTTCCCCGTGGAGCACGGCTACGCCCGGGCCGTGGGGGC
GGAAGGGGTGGAGGCGGTCTACCAGGACTGGCTCAAGAAGCGGCGGGCGC
TTCCCTTTGAGGCGGACGGGGTGGTGGTGAAGCTGGACGAGCTTGCCCTT
TGGCGGGAGCTCGGCTACACCGCCCGCGCCCCCCGGTTCGCCATCGCCTA
CAAGTTCCCCGCCGAGGAGAAGGAGACCCGGCTTTTGGACGTGGTCTTCC
AGGTGGGGCGCACCGGGCGGGTGACCCCCGTGGGGATCCTGGAGCCCGTC
TTCCTAGAGGGCAGCGAGGTCTCCCGGGTCACCCTGCACAACGAGAGCTA
CATAGAGGAGCTGGACATCCGCATCGGGGACTGGGTTTTGGTGCACAAGG
CGGGAGGGGTCATCCCCGAGGTCCTCCGGGTCCTCAAGGAGAGGCGCACG
GGGGAGGAAAGGCCCATTCGCTGGCCCGAGACCTGCCCCGAGTGCGGCCA
CCGCCTCCTCAAGGAGGGGAAGGTCCACCGGTGCCCCAACCCCTTGTGCC
CCGCCAAGCGCTTTGAGGCCATCCGCCACTTCGCCTCCCGCAAGGCCATG
GACATCCAGGGTCTGGGGGAGAAGCTCATTGAGAGGCTTTTGGAGAAGGG
CCTGGTCAAGGACGTGGCCGACCTCTACCGCTTGAGAAAGGAAGACCTGG
TGGGCCTGGAGCGCATGGGGGAGAAGAGCGCCCAAAACCTCCTCCGCCAG
ATAGAGGAGAGCAAGCGCCGGGGCCTGGAGCGCCTCCTCTACGCCTTGGG
GCTTCCCGGGGTGGGGGAGGTCTTGGCCCGGAACCTGGCGGCCCGCTTCG
GGAACATGGACCGCCTCCTCGAGGCCAGCCTGGAGGAGCTCTTGGAGGTG
GAGGAGGTGGGGGAGCTCACGGCGAGGGCCATCTTGGAGACCTTAAAAGA
CCCCGCCTTCCGCGACCTGGTGCGAAGGCTCAAGGAGGCGGGGGTGGAGA
TGGAGGCCAAGGAGAAGGGCGGGGAGGCCCTTAAAGGGCTCACCTTCGTG
ATCACGGGGGAGCTTTCCCGCCCCCGGGAAGAGGTGAAGGCCCTCCTAAG
GCGCCTCGGGGCCAAGGTGACGGACTCCGTGAGCCGGAAGACGAGCTACC
TCGTGGTGGGGGAGAACCCGGGGAGCAAGCTGGAGAAGGCCAGGGCCCTC
GGGGTCCCCACCCTCACGGAGGAGGAGCTCTACCGCCTCCTGGAGGCGCG
GACGGGGAAGAAGGCGGAGGAGCTCGTCTAA
>TTC0664 hypothetical conserved protein
GTGCCGAGATGGGGTGCCCGGAACGGAACCCCCGGAAAGGGGCGTCCCAC
GCCTGGGGAGCAGAACATTCAGGCGGAACACCTGGAACGCCTCAGGACAG
AACACCCGGAACACTCCGGGGCGGAACGACCGAAACAGAAACAGATTGCG
CGACCCTCGAGGGGCTCCTCAGGAAGAGAGGGCGTTTTTGCCGTCCCTGA
CGGCACTTCCCTATCTTCGCGAAAGATTTGTTTCGCACACGAATACCCCT
CACTATCCTCCCACGGGTTTCTGTGGTATCCTACGGGCATGCAAGAAGAG
GTCCTGACCGTGGCTGAGGTGGCCAAGCTCCTCCGGGTTAGCCGCAAGAC
GGTGGAAAAGCTCATCTACGCCAAGAAGCTCCACGCAGTGAAGGTGGGCC
GGGTTTGGCGCATCCCTCGGGCCGCCGTGGAGGCGTTCTTGGAGGGGAAG
GAGTACCGTGAACCTTAG
>TTC0982 endonuclease V
GTGCGCCCGCCCCCCTTCCCCAAGCCCGCCCACCCCGAGGAGGCCCTGGC
CCTGCAGCGGGCCCTGGCGAAAAAGGTGCGGCTTGCGGGAAGCCTAGAGG
GGGTGCGGCGGATCGCCGCCCTGGACGCCTCCCACAAGCGGGGCCGGCCC
CTCGTGGCCGTGGCCCTCCTCTACGACCTGGAAAAAGGCCCCCTCCACGT
GGCCACCGCCCTCCTCCCCGAGGAGGCCCTCTTCCCCTACGTCCCCGGCC
TCCTCTCCTTCCGCGAGGCCCCGGCCTACCTGGAGGCCCTCGCCGCCCTT
CCCGAGGCCCCGGAGGCCCTCCTGGTGGACGGCCAGGGGGTGGCCCACCC
CCGGGGCCTGGGGATCGCGAGCCACCTGGGGGTCCACCTGGACCTTCCCA
GCGTGGGCGTGGCCAAGCGGCTCCTCTACGGCAGGCCCGAAGCCCCCTTA
CCCGAGGAAAAGGGGGCGGCGGTGCGCCTCCTCGCCCCGGACGGCCGCCC
GCTGGGCTACGTCTACCGGAGCCGCACGGGGGTGAAGCCCCTCTACGTCT
CCCCCGGGCACCGGGTGGGCCTCGAGGAGGCCCTCCGCTTCGTGCGCCGC
CTGCCCACCCGCTTCCGCCTCCCCGAGCCCCTCCGCCTCGCCCACCTGGA
GGCGGGCCGGGCCCTCAAGGCCTTAGACTAG
>TTC1531 excinuclease ABC subunit B
GTGAGGATGACCTTCCGTTACCGGGGGCCAGCGCCCAAGGGGGACCAGCC
CAAGGCCATCGCCGGGCTCGTGGAGGCCTTGAGGGACGGGGAGCGCTTCG
TCACCCTCCTCGGGGCCACGGGCACGGGAAAGACGGTGACCATGGCCAAG
GTCATTGAGGCCCTGGGAAGGCCCGCCTTGGTCCTCGCCCCCAACAAGAT
CCTCGCGGCCCAGCTTGCGGCGGAGTTCAGGGAGCTCTTCCCGGAGAACG
CCGTGGAGTACTTCATCAGCTACTACGACTACTACCAGCCCGAGGCCTAC
GTCCCGGGGAAGGACCTTTACATAGAGAAGGACGCCTCCATCAACCCCGA
GATTGAGCGCTTAAGGCACTCCACCACCCGAAGCCTCCTCACGCGGCGGG
ACGTGATCGTGGTGGCCTCGGTTTCCGCCATCTACGGCCTCGGGGACCCG
AGGGAGTACAGGGCCAGGAACCTGGTGGTGGAAAGGGGCAAGCCCTACCC
CAGGGAGGCCCTTTTGGAGCGCCTCCTGGAACTCGGCTACCAGCGGAACG
ACATAGACCTTTCCCCGGGGCGCTTCCGGGCGAGGGGGGAGGTGTTGGAG
ATCTTCCCCGCCTACGAGACCGAGCCCATCCGGGTGGAGCTCTTTGGCGA
CGAGGTGGAGCGCATCCTCCAGGTCCACCCCGTCACCGGGGAGCGGCTTC
GGGAGCTTCCCGGGTTTGTCCTCTTCCCCGCCACCCACTACCTCTCCCCG
GAGGGGTTAGAGGAGATCCTGAAGGAGATTGAGAAGGAGCTCTGGGAGAG
GGTCCGCTACTTTGAGGAAAGGGGGGAGGTCCTTTACGCAGAGCGCCTCA
AGGAGCGCACCCTCTACGACCTGGAGATGCTAAGGGTCATGGGCACCTGC
CCTGGGGTGGAGAACTACGCCCGCTACTTCACGGGGAAGGCCCCGGGGGA
GCCCCCTTACACCCTCCTGGACTACTTCCCCGAGGACTTCCTGGTCTTCC
TGGACGAGTCCCACGTGACCGTGCCCCAGCTCATGGGGATGTACCGGGGG
GACTACGCCCGCAAGAAGACCCTGGTGGACTACGGCTTCCGCCTGCCCTC
GGCGTTGGACAACCGCCCCCTTCGCTTTGAGGAGTTTTTGGAGAGGGTTT
CCCAGGTGGTCTTCGTCTCCGCCACCCCGGGGCCCTTTGAGCTAGCGCAT
TCGGGGCGGGTGGTGGAGCAGATCATCCGGCCCACGGGGCTATTGGACCC
CCTGGTGCGGGTCAAGCCCACGGAGAACCAGATCCTGGACCTCATGGAGG
GGATCCGGGAGAGGGCGGCAAGGGGCGAGCGCACCCTGGTCACGGTCCTC
ACCGTGCGCATGGCCGAGGAGCTCACGAGCTTTTTGGTGGAGCACGGGAT
CCGGGCCCGCTACCTCCACCACGAGCTGGACGCCTTTGAGCGCCAGGCCC
TGATCCGGGACCTGAGGCTTGGCCACTACGACTGCCTCGTGGGGATCAAC
CTCCTAAGGGAGGGCCTGGACATCCCCGAGGTCTCCCTGGTGGCCATCCT
GGACGCGGACAAGGAGGGCTTCCTTAGAAGCGAGCGCAGCCTCATCCAGA
CCATCGGCCGGGCGGCGAGGAACGCCAGGGGCGAGGTCTGGCTCTACGCC
GACCGGGTCTCCGAGGCCATGCAGAGGGCCATAGAGGAGACGAACCGGAG
AAGGGCCCTCCAGGAGGCCTACAACCTTGAGCACGGCATCACCCCGGAGA
CGGTGCGGAAGGAGGTTAGGGCCGTCATCCGCCCCGAGGGCTACGAGGAG
GCCCCCCTCGAGGCCGACCTCTCCGGGGAGGACCTGAGGGAGAGGATCGC
CGAGCTGGAGCTTGCCATGTGGCAGGCGGCGGAGGCTTTGGACTTTGAGC
GGGCGGCGAGGCTTAGGGACGAGATCCGGGCCCTCGAGGCCCGCCTCCAG
GGCGTGAAGACCCCCGAGCCCGTCCCCGGGGGGCGGCGGAGGCGGAAGCG
GAGGTGA
>TTC1584 putative CoA pyrophosphatase/phosphohydrolase
GTGGCCGTGCCCCTTCTGGGGGAGCACCTCCTTTTCACCTTAAGGAGCCC
CCGCCTCCCCACCCACGCCGGCCAGGTGAGCTTCCCCGGGGGGGTGGTGG
AGCCCGGGGAAGGGGTGGTGGAGGCGGCCCTGAGGGAGGCCGAGGAGGAG
GTGGGGCTAAAGGGGGTGGAGCCTTTGGGCTTCCTCTCCCCCACCTACTC
CCCCCAGGGCTTCCTGGTCCAGCCCGTGGTGGTCTTCCGGGAAGACCTGC
CCCCCCTGAAGCCCAACCCCGAGGAGGTGGCCCAGATCCTCCTCGCCCCC
CTGGAGGAGCTCCTCGCGGTGGAGCCCTGGAACGAGGTGCGCCGGGGCCG
CACCGTCTGGCACTTCCCCTGGCGGGGGGTGGACATCTGGGGGGTGACGG
GGAATATCCTCAAGGAGTTCCTGGAGGTGTGGCGTGAGGCGCATCGGGAT
CCTTCTCGCGGACCTCTTTGA
>TTC0445 hypothetical protein
GTGAAGGCCAAGCCTAAGGCCACGCGCAAGCGTACCTCGCAGAAGAGGGC
GAAAGCCTTCACCGGAGTCCAGGCTCTTCTCGTCTTCCCTTCCGGAGAAG
ACCACAAGGCCACCCTGGACCTCATGCGCCGCTTCTCCGCTGGGGTGCGC
TACGCCTACAACCGCTTGCTTGAGGGATGGAGCCGGGAAGCCCTCAAGCG
GGAAAATGGACCCCTCTGCACCTTCTTCCGCCTCAACACCCGCTACGCCG
ACGACGCGGTGATGAAGGCCCAGGCCATCCTGGACTCCGCCCGGGAGAGA
GGAGAAGACCCCCGGAAGGTCGTCTTCGGGGGAAGGAAGCTCTTTGAGAC
CCTGAAGCGGGGACACCTCTCCGGCAAGCCCCTGAAGGAACTCAAGCGGG
AGTGGAAGGAGAAGCGCCAGGGCCTCCTCTACTCCCGTGGGGACAAGACC
AAGGGGGGCAACCTCAACCTGAGGCTCCTCGTCAAGGAAGGAGCCCTGTG
GCTCCGGATCAACCTCGGAGATGGGAGCTACGCTTGGGCTTTGGTCAAGA
CGGGCCACCCGAACCTGAACGCCCTCCTCCAGAGGGCGTACGCCTCCCTC
CCCTACAACGTGGAGCTCTCCCTCAAGGAGGGCAAGGTCCACGCCACCTT
CACCTGGGAGGAGGAGCCCACACCCCTCGTGGCCACGAAGGAGAACGGAG
TCCTGGGCATAGACGTCAACTCAGACCCCTACCACCTCGCCTTAGCCCTC
GTTTCCCCTGACGGGAACCTGAGGCGCCACCTCACCCTCTCCCTGGAGGA
GGTGGACCGCGCTCCGAACAAAGGAGCCAAGGAGCTCGTCCTCTGGAAGA
TCGCCCACCAGGTGGTCTCCCTGGCGGAGCAGCACGGCGTGGCCGTCGCC
ACGGAGCGCCTGAGGTACCTGAGGAAGTCCAGGAGGGGTGATGGTTCGGG
AAGGGCCTTCCGCAGGAAGCAGCACCGCTTTGCCTACGCCTCCCTCCTCC
GGAAGGTCCACTCCTTGGCCGGGAAGAGGGGTGTCCAGGTGGTGGAGGTC
AACCCCCAGGACACCTCCACCATCGGCATGCTCAAGTACGCCCCGCAGCT
TTCCCTGTCCAAGGACGTGGCCGCCGCTTACGTCATCGGGAGAAGGGCCT
TAGGGTTCAAGGAGAAGCTCCCCAAAGGCTACGGGAAGCTTCTCCGGGAC
GAACGCTTCAGGGACCACGTCCAGGGCTTCTACGCCTCCAGGGTGCAGGA
ACTCCGTGCGAAGGGAAGCGCGGAGTCCAACCGCTACCTCAGGCGCAGGC
TTTCTCAAGAGCTTGAGAGGGCGAAGCGCCACCTCTCCTTGCTTTCAAGC
CTTCAGGGCTCGCCGGGGAGCCAAGAGGGGTCAACCAACGGAAGGAACCC
CATTGGCGTTAATCCCTGGCAGGTCCTGAGGGCAGGCACTTTCCTTCCCC
TCCTCGGGCGCGAGGTGCCGAGGGACCTCTCTCCCCTCAAGCCCATCCTC
TTCGGGGGATCGTGGGAGGGGTGGAGGGGAGGCTTAGGTCCTCATCCTGG
TGGAGGGCCGGAGTGCGCTAATGTGCGCTCTACTTGA
>TTC1942 primosomal protein N'
GTGGCCCTTCCCCTGCCGCTTCCGCCCATGAGCTACCTCCCTCCCTTGGG
GCAGGAGGGAGAGGAGGCCTTGGGGCGGCGGGTGGCCGTTCCTTTTCGGG
GGGAGGTCCAGGTGGGGGTGGTGGTGGGGGAAGGGGGGCGGCCCTCCCTG
AACCTCCGCCACGCCATCGCCTACCTGGACCCCGCCCCCTACCTGCGCCC
GGAGGAGATCCTCTTTTTGGAAGAGGCGGCCCGCTACCTTTTCGCCCCCC
TGGGCCAGGTCCTGGCGGACTTCCTCCCCCCCTTTCCCCCCTTGCGCCAC
CGGGTCCGCCTCTACCCGGGGGCGGACCCGAAGGTCCTGCCCCCGGGGCT
CGGGGCCTTGGTGGACTGGCGGGAGGCCCGGGGCTTTGACCCCAAGCTTT
TGGACCTCCTGCGGGAGGCGGGGATGCTGGAGGAGGAGCTCGCCTTCCGG
GAGGCGCGGGGGGTGCTGGTGCCCCTGAAGCCCGCCCACCCCGATCCCCA
GCTGGACCGCGTCCTTCAGGTCCTGCGGGAGCTGGGCTTTGCCGAAAGCC
AGGCGGCCCTGGCCCGGGCGGCGGGGGTGGGGGTGGGCCGGGTGCGCCGC
CTCGTCCAGGAGGGGTACATCGGCACCGCGTCCCCCGAGGAGGCCGCCCC
GCCCCCGGCGGACGGGGTGGACGTGGCGCCCCTCCACCTCCCCGAGAGGC
CCGAGCGGGTCAACGGCGGGAGGTTTCTGGAACGCGTTCGGGTGCTCAAG
GGGCTTTTGGGGGAGGGGGACCACCTGGTCCTCTTCCCCGAGGTGAGCCT
CTTGGAGCGGTTTCTCGCCCACTTCCCCGGGGCCACGCCCTACCACGGGG
GGCTTTCCGGCCCGGTCCGGGAGCGGTTTTTCCGGAGGCCGCGCGGCGTG
GTCTTCGCCACCTACGGCGGGCTCCTCCTCCCCTTCACCCCCCGCTCTTT
GGTGGTGGTGGAGGAGGGGAGCGAGAGCTACAAGCTTCCCTCGGGGAGCC
GGGCCTTCGTCCCCCCGCTTGCGGAGCTTAGGGCCCGGCTCCTCGGGGTG
CCCCTCACCTACCTCTCCCTGGTGCCCGCGGTGGAGGTTTTGGAGCGAAA
AGGCTTCGCCCTGCCCGTGCCCAAGCCCCGCCTTCTCCTCTTGGACCTCC
GGCGGGAGCGGGGCTTTCCCGTCACGGGGCGGGCCCTCGCCCTCCTCCGC
CAGGTGGAGGAGCGGGGGCGGCAGGCCGTGGTCCTCTCCGCCCGCAAGGG
GTACAGCGCCCTCCTCCTCTGCCAGGACTGCGGCTTCCGGCCCATGTGCC
CCGACTGCGCCTTGCCCCTGCGGTACCACCGGGAGGGGAAGGGGGCGCTC
GTCTGCCACCAGTGCGGCCACCGCGAGGACCCGCCCCTCCTCTGCCCCCG
GTGCGGCTCCCCCCTCCTCGCCCCCAAGGGGCCCGGGGTGGACTGGATCC
GGGAGGCCCTGGCGGAGAGGCTTTCCCTTCCCGTCTACCGCTACGCCGGC
GACGGGAAGGACGACCTCACCCCCCTCCTCGAGGGCCGGCCGGGGGTGGT
GGTGGGGACCACGGCCCTCCTCAGGGGGCCTAGGCTTCCCGACCTCGCCC
TCGTCCTCCTCCCTTTGGCGGACGGCTTCCTCCTGGAGTCGGACTTCCGG
GCGGCGGAGCGGTACCACCGCCTTCTCTGGGCCCTCACGGAGCTCAGGCC
CGGGCGGAGGCCCCTCCTCGTCCTCCAGACCTTCACCCCCGAGCACCCCG
TGCACCGGGCCCTCGAGGCGGGGGAGGTGGAGGCCTACCTGTGGCAGGAG
AAGGCCCTGCGGGAGGCCCTCAACTACCCGCCGCGGGTGCGCATGGTAAA
GCTGGAGGTGCGCCACCGAAAGGAAGAGCGGGCCCGGGAAAAGGCCTTCG
CCCTCCTGGAGGCCTTGCGGGCCGAGGCGGAGGAGGGGGAGGTCCTGGGC
CCCGCCCCCGCTCCCGTGCCCCGGGTGAAGGGGCATTACGTCTTCCACCT
CCTCCTCCGGGGGAGCACGGAGCGGCTCGCCCGCCTCCTCGGCCTCCTGG
ACCGGCGGCAGTTCAGGCTGGACCCCGACCCCTTCCACTTCGTGGGGCTT
TTGGAGGACTAG
>TTC1519 bis(5'-nucleosyl)-tetraphosphatase(asymmetrical)
ATGGAGCTAGGGGCCGGGGGCGTGGTCTTCAACGCCAAACGGGAGGTCCT
CCTCCTTCGCGACCGCATGGGCTTCTGGGTCTTCCCCAAGGGCCACCCGG
AGCCGGGGGAGAGCCTGGAGGAGGCGGCGGTGCGGGAGGTCTGGGAGGAG
ACGGGGGTCCGGGCCGAGGTCCTCCTTCCCCTCTACCCCACCCGCTACGT
CAACCCCAAGGGGGTAGAGCGGGAGGTGCACTGGTTCCTCATGCGGGGGG
AGAGGGCGCCCCGCCTGGAGGAGGGCATGACCGGAGCGGGGTGGTTTTCC
CCCGAGGAGGCCCGCGCCCTCCTCGCCTTCCCCGAGGACCTGGGGCTTTT
GGAGGTGGCCCTTGAGCGTCTACCGCTTTGA
>TTC1170 hypothetical protein
TTGGGGTGTACCCACGCCGGTCAGCGAAGCTCAGGGGGCGTGTACCTGAA
CGAGGAGGGGCGGAGGCGGCTCATCCAGCTCTTTGAGGAGCGCTTGTTGG
AGGGGGTGAGCCATCCTCTGGGGTTCCGCAAGCCCCTGGGGGAGACGATT
GAGGTGCAGGCCCAGCGGCTGAAGGCGGCCCTTCTGGGGCGGGGGGAGTA
CACTCCCTTTTACCTATGGCGGTAG
>TTC0577 probable transposase
GTGGCGACGGACGCGGTACGTGCCTCTGGGAAAGCCCACGGAGGAAGAGG
TGAAGGCTTTCGCGGAGGAGGAAGAGGAAGCAAAAAGGGGGCGGAGGAGG
GGGTGATGGAGGTAGGGTACCTGGATGAGAGCGGGTTTTCCCTGACCCTT
CCCCCTACCTACGCCTGGGGTCGGAGGGGGGAGGCCAAGGGGGTGCCCCG
GGCCTGGGGTTCCCGGGGGCGGGTGAACGTGGTGGGGCACTTGGTGCGGG
GACGGGAGGGGGAGCGGCTTTTCTTTGCCCTTTTGGAGGGGCCGGTGCGG
TGGGAGGTGGTGCGGGGGTATCTGGACCGGGTGGCCGAAGGTTTGGCCAA
GCCCCTGAAGGTGTTCATGGACAACGCGCCCTTCCACCGGTCCCGGGAGG
CGGAGGGGAGGAAGGAGGCGTGGCGGGAACGGGGGCTTATGGTGGCCTAC
CTGCCGCGGTACAGCCCGCATCTGAACCCCATGGAGAGCGTCTGGCGGCG
GGTGAAGGGGTTTTTGATGCCGAGGCGGCACTACGGGAGCGTGGAGGAGC
TTAAGGAGGCGGTGGCGCAGGCCCTGAAAGCCCTGGGGGGTGTGGAGTTG
AAAATCTTGGGGGAGGGCACTTAA
>TTC1432 transposase
ATGCACGACTTTAGCATTGACCGGAGCTGGCTGGATGCAGTCGTCAGGGA
AGCCGTCAAGCAAGCGCTGGAAACGGTGATGGAGTTGGAACGCGAGGTTT
TCCTAGCGGAGTGGGGCGGAAAGAAGAACGGGTACTACGAGCGTGGCTTG
GTCACCAAACACGGTCCGGTGCGCCTGCGGGTGCCCAGGGAGCGGGATGG
CCGCTTCCACACCGCTCTGTTCGCTCCCTACCGACGCCGGATGGAGGACC
TTGAGGCTTTTGCCCTGGCCATGTACGCCGCCGGCATCTCCACGCGAAAG
GTGGGCGAGGTCCTTGGGTATCTGCTGGGTGGGACCTACAGCGCCAGCAC
CATCAGTCGCATTGCAGAGGGAGTGCTACCCAGGCTGGAGGCTTTCAGGA
AGCGCCCTCTTAAGCCGCGCTACGCCTTCGTCTACCTGGACGCTTTATTC
GTCAAGGTGTTCCAGGAAAACGAAGGTGTAGCCACCGAGGCCGCCTACCT
GGCCCTGGGCATCACCGAGGAAGGTTACCGGGAAGTTCTTGGATTTTGGC
TTTTGCCCACGGAGTCAAGCACGGGCTGGGGCGACCTGCTCCTTGAGCTC
AAGGAGCGAGGGCTCGAAGAGGTGCTGCTTTTCATCACCGATGAACTGCC
GGGAGTCGAGACCGCGATCAAGCGCGTCTACCCCAAAGCCCACTGGCAGC
TCTGCACCGTGCACAAGCTGCGTTCCACCCTGCGGCGGGTGCGCAGGAAG
GATCAGGATGCGGTGCTTCGGGACCTCTCGTCCATCGTCCGGGCGTCCGA
TCGGAACGAAGCCTTAAAGGCGCTGAACAGCTTCAGGGGTCGCTGGGCCG
ATAAGTACCCTCAGGTGGTGGCAAGTTGGATTCAGCACTCTGCGGCTTTG
CTGCGCTTCTTGGACTACCCTAAGGCTCTGCAGCCGGTGATCAAGAGCGC
CAACCTGCTTGAGCGAATGATCAAGGAGGTTAAGCGCACCACCAAGACCC
GGGACAACACCTTTCCCACACCCGATGCCGTACTCAAGGTGATCTACTTC
GTGGCCGAGCGATACGAGGCGCAGTTTCAGACGAGAAAGCTCCAGGGCTT
CCAGCAGGCAGAGGATGAGATCCGTGCTATCTTCAATCTCAGATACCCCC
AGGCTTAG
>TTC1876 DNA integration/recombination/invertion protein
ATGAGTAAGAGGCGCGGCAAAGGGGGCGGAAGCGTCTTCTACCACGAGGG
CAAGGGCAAGTGGGTGGCCCAGCTCACCTGGATAGACCCCGCCACGGGCC
GGAAGGTCAAGCGGGAGAAGCATTGCGAAACCCGCAAGGAGGCCGAAAGG
GCCCTGGCGGATATGGTGGCCGCCCAGGCCAAAGGGCTTCTCACCGACCC
CTCCAGGCTCACCACGCGGGACTTCGCCCTGGACTACCTGAAGCGCCTGG
AGCGGGAGGGGCTTAGGCCGAACTCCATCCGCCTGGCCCAGGAGGAACTG
GCCCACGCCCTCCCCTCCCTCAAGGATCCCAAGGCCCACGACCCCCTGGG
CCGCATGCGGCTCCAGGAGGTGAAGCCGGTCCATGTGCGGGCCGCCGTGG
ACCGGGTGGCGGAAGCGGGCTACGCCCCCCGCACGGTAAACCGGGTGCTC
ATGCGGCTCAAGGCCCTCTTCCGGGAAGCCTTACGGCTGGAGCTTGTGGC
CCGGAACCCCGCCGAAGCCGTGAGGTTGCGCCTTCCCAAGGGGGAGAAGA
CGGCCCGGGCCCTGGAGCCCCAGGAGGTGGCCCGGCTCCTGGAGGCCGCC
GAAGCCTCCCGGTCCAAGGACATGGCCCTTCTCCTCCGGCTCATGCTGGA
AACCGGGCTCCGCCGGGGCGAAGCCCTGGCCCTGCAATGGCGGGACATAG
ACCTGGAGGCTGGGGAGCTTACCGTGTGGCGGTCCTGGACAAAAGCGAGG
GGCAAGGGGGCCTTCTCCGAGCCCAAGACCCCCACGGCCAAGCGCAAGGT
GCCCTTGCCCCGTGGCCTCCTCCTTCGCCTGAAGGCCCGGAGGGAGGAGC
TTCTGGAAAGGCTCACCCCGGAGGAGGTGGACGGGCTCTTCCTGGTGGGC
GGGGTGAAGCCCGTGGACCCGGACGCGTTCAACCACTACCTGCGCCGCCT
GGCGGAAAGGGCGGGCCTTGGGCGGGTGAGGGTGCACGACCTTCGCCACA
CCTGGGCCACCCTGGCCCTCTCCCGGGGCGTGCCCCTGGAGGTGGTGAGT
GAGCGGCTTGGCCACGCCAGCCCCACCATCACCCTGAATGTGTACCGCCA
CCTTCTGGAGGAGGAGCGCCGGGGGTGGGTGCTGGACCTGGAAGAACTCC
TCTACCCCGCCCCCCGCGCCCAAGCCTGA
>TTC0690 DNA polymerase I
ATGGAGGCGATGCTTCCGCTCTTTGAATCCAAAGGCCGGGTCCTCCTGGT
GGACGGCCACCACCTGGCCTACCGCACCTTCTTCGCCCTGAAGGGCCTCA
CCACGAGCCGGGGCGAACCGGTGCAGGCGGTCTACGGCTTCGCCAAGAGC
CTCCTCAAGGCCCTGAAGGAGGACGGGTACAAGTCCGTCTTCGTGGTCTT
TGACGCCAAGGCCCCCTCCTTCCGCCACGAGGCCTACGAGGCCTACAAGG
CGGGGAGGGCCCCGACCCCCGAGGACTTCCCCCGGCAGCTCGCCCTCATC
AAGGAGCTGGTGGACCTCCTGGGGTTTACTCGCCTCGAGGTCCCCGGCTA
CGAGGCGGACGACGTCCTCGCCACCCTGGCCAAGAAGGCGGAAAAGGAGG
GGTACGAGGTGCGCATCCTCACCGCCGACCGGGACCTCTACCAGCTCGTC
TCCGACCGCGTCGCCGTCCTCCACCCCGAGGGCCACCTCATCACCCCGGA
GTGGCTTTGGGAGAAGTACGGCCTCAGGCCGGAGCAGTGGGTGGACTTCC
GCGCCCTCGTGGGGGACCCCTCCGACAACCTCCCCGGGGTCAAGGGCATC
GGGGAGAAGACCGCCCTCAAGCTCCTCAAGGAGTGGGGAAGCCTGGAAAG
CCTCCTCAAGAACCTGGACCGGGTGAAGCCGGAAAACGTCCGGGAGAAGA
TCAAGGCCCACCTGGAAGACCTCAGGCTCTCCTTGGAGCTCTCCCGGGTG
CGCGCCGACCTCCCCCTGGAGGTGGACCTCGCCCAGGGGCGGGAGCCCGA
CCGGGAGGGGCTTAGGGCCTTCCTGGAGAGGCTGGAGTTCGGCAGCCTCC
TCCACGAGTTCGGCCTCCTGGAGGCCCCCACCCCCCTGGAGGAGGCCCCC
TGGCCCCCGCCGGAAGGGGCCTTCGTGGGCTTCGTCCTCTCCCGCCCCGA
GCCCATGTGGGCGGAGCTTAAAGCCCTGGCCGCCTGCAGGGACGGCCGGG
TGCACCGGGCAGAGGACCCCTTGGCGGGACTTGGGGACCTCGAGGAGGTC
CGGGGCCTCCTCGCCAAGGACCTCGCCGTCTTGGCCTTGAGGGAGGGGCT
GGATCTGGCCCCAGGGGACGACCCCATGCTCCTCGCCTACCTCCTGGACC
CCTCCAACACCACCCCCGAGGGGGTGGCGCGGCGCTACGGGGGGGAGTGG
ACGGAAGACGCCGCCCACCGGGCCCTCCTCTCGGAGAGGCTCCATCGGAA
CCTCCTTAAGCGCCTCGAGGGGGAGGAGAAGCTCCTTTGGCTCTACCACG
AGGTGGAAAAGCCCCTCTCCCGGGTCCTGGCCCACATGGAGGCCACCGGG
GTACGGCTGGACGTGGCCTACTTGCAGGCCCTTTCCCTGGAGCTTGCGGA
GGAGATCCGCCGCCTCGAGGAGGAGGTCTTCCGCTTGGCGGGCCACCCCT
TCAACCTCAACTCCCGGGACCAGCTGGAAAGGGTGCTCTTTGACGAGCTT
AGGCTTCCCGCCTTGGGGAAGACGCAAAAGACGGGCAAGCGCTCCACCAG
CGCCGCGGTGCTGGAGGCCCTACGGGAGGCCCACCCCATCGTGGAGAAGA
TCCTCCAGCACCGGGAGCTCACCAAGCTCAAGAACACCTACGTGGACCCC
CTCCCAAGCCTCGTCCACCCGAGGACGGGCCGCCTCCACACCCGCTTCAA
CCAGACGGCCACGGCCACGGGGAGGCTTAGTAGCTCCGACCCCAACCTGC
AGAACATCCCCGTCCGCACCCCCTTGGGCCAGAGGATCCGCCGGGCCTTC
GTGGCCGAGGCGGGTTGGGCGTTGGTGGCCCTGGACTATAGCCAGATAGA
GCTCCGCGTCCTCGCCCACCTCTCCGGGGACGAAAACCTGATCAGGGTCT
TCCAGGAGGGGAAGGACATCCACACCCAGACCGCAAGCTGGATGTTCGGC
GTCCCCCCGGAGGCCGTGGACCCCCTGATGCGCCGGGCGGCCAAGACGGT
GAACTTCGGCGTCCTCTACGGCATGTCCGCCCATAGGCTCTCCCAGGAGC
TTGCCATCCCCTACGAGGAGGCGGTGGCCTTTATAGAGCGCTACTTCCAA
AGCTTCCCCAAGGTGCGGGCCTGGATAGAAAAGACCCTGGAGGAGGGGAG
GAAGCGGGGCTACGTGGAAACCCTCTTCGGAAGAAGGCGCTACGTGCCCG
ACCTCAACGCCCGGGTGAAGAGCGTCAGGGAGGCCGCGGAGCGCATGGCC
TTCAACATGCCCGTCCAGGGCACCGCCGCCGACCTCATGAAGCTCGCCAT
GGTGAAGCTCTTCCCCCGCCTCCGGGAGATGGGGGCCCGCATGCTCCTCC
AGGTCCACGACGAGCTCCTCCTGGAGGCCCCCCAAGCGCGGGCCGAGGAG
GTGGCGGCTTTGGCCAAGGAGGCCATGGAGAAGGCCTATCCCCTCGCCGT
GCCCCTGGAGGTGGAGGTGGGGATCGGGGAGGACTGGCTTTCCGCCAAGG
GCTAA
>TTC1609 DNA polymerase III, beta chain
ATGAACATAACGGTTCCCAAGAAACTCCTCTCGGACCAGCTTTCCCTCCT
GGAGCGCATCGTCCCCTCTAGAAGCGCCAACCCCCTCTACACCTACCTGG
GGCTTTACGCCGAGGAAGGGGCCTTGATCCTCTTCGGGACCAACGGGGAG
GTGGACCTCGAGGTCCGCCTCCCCGCCGAGGCCCAAAGCCTTCCCCGGGT
GCTCGTCCCCGCCCAGCCCTTCTTCCAGCTGGTGCGGAGCCTTCCTGGGG
ACCTCGTGGCCCTCGGCCTCGCCTCGGAGCCGGGCCAGGGGGGGCAGCTG
GAGCTCTCCTCCGGGCGCTTCCGCACCCGGCTCAGCCTGGCCCCTGCCGA
GGGCTACCCCGAGCTTCTGGTGCCCGAGGGGGAGGACAAGGGGGCCTTCC
CCCTGCGGACGCGGATGCCCTCCGGGGAGCTCGTCAAGGCCTTGACCCAC
GTGCGCTACGCCGCGAGCAACGAGGAGTACCGGGCCATCTTCCGCGGGGT
GCAGCTGGAGTTCTCCCCCCAGGGCTTCCGGGCGGTGGCCTCCGACGGGT
ACCGCCTCGCCCTCTACGACCTGCCCCTGCCCCAAGGGTTCCAGGCCAAG
GCCGTGGTCCCCGCCCGGAGCGTGGACGAGATGGTGCGGGTCCTGAAGGG
GGCGGACGGGGCCGAGGCCGACCTCGCCCTGGGCGAGGGGGTGTTGGCCC
TGGCCCTCGAGGGCGGAAGCGGGGTCCGGATGGCCCTCCGCCTCATGGAA
GGGGAGTTCCCCGACTACCAGAGGGTCATCCCCCAGGAGTTCGCCCTCAG
GGTCCAGGTGGAGGGGGAGGCCCTCAGGGAGGCGGTGCGCCGGGTGAGCG
TCCTCTCCGACCGGCAGAACCACCGGGTGGACCTCCTTTTGGAGGAGGGC
CGGATCCTCCTTTCCGCCGAGGGGGACTACGGCAAGGGGCAGGAGGAGGT
GCCCGCCCAGGTGGAGGGGCCGGGCATGGCCGTGGCCTACAACGCCCGCT
ACCTCCTCGAGGCCCTCGCCCCCGTGGGGGACCGGGCCCACCTGGGCATC
TCCGGGCCCACGAGTCCGAGCCTCATCTGGGGGGACGGGGAGGGGTACCG
GGCGGTGGTGGTGCCCCTCAGGGTCTAG
>TTC0366 uracil-DNA glycosylase
ATGACCCTGGAACTGCTTCAGGCCCAGGCGCAAAACTGCACCGCCTGCCG
CCTCGCGGAGGGCCGGACCCGGGTGGTCTTCGGGGAGGGAAACCCGGACG
CAAAGCTCATGATCGTGGGGGAAGGCCCCGGGGAGGAGGAGGACAAGACG
GGCCGCCCCTTCGTGGGCAAGGCGGGGCAGCTTCTAAACCGCATCCTGGA
GGCGGCGGGGATCCCCAGGGAGGAGGTCTACATCACCAACATCGTCAAGT
GCCGCCCCCCGCAAAACCGCGCCCCCCTTCCCGACGAGGCCAAGATCTGC
ACGGACAAGTGGCTCCTCAAGCAGATTGAGCTCATCGCCCCCCAGATCAT
CGTCCCCTTGGGGGCGGTGGCCGCCGAGTTCTTCCTGGGGGAGAAGGTCT
CCATCACCAAGGTCCGGGGGAAGTGGTACGAGTGGCACGGGATCAAGGTC
TTCCCCATGTTCCACCCCGCCTACCTCCTCAGGAACCCGAGCCGGGCCCC
GGGAAGCCCCAAGCACCTCACCTGGCTGGACATCCAAGAGGTCAAGCGGG
CCCTGGACGCCCTCCCTCCCAAGGAGCGGCGCCCGGTGAAGGCAGTGAGC
CAGGAGCCCCTCTTCTAA
>TTC1859 bis(5'-nucleosyl)-tetraphosphatase(asymmetrical)
TTGCGCAGGAAGCGAAAGGGGCAAAGGCCCACCCGGCGCGTGGTCTCCGC
GGGGGGGGTGGTCCTCAAGGGGGATCCTCCCGAGGTCCTGGTGGTGTCCT
TGAGGGGTGGCCGGGTCGTCACCCTCCCCAAGGGCCAGGTGGAGCCCGGG
GAACGCTACCCGGAGACCGCCGTGCGGGAGGTGCGGGAGGAGACCGGAGT
GGAGGCCTCGGTCCTCGCCCCTTTGGGGCGGGTGCGCTACTACTTCACCG
TCCACGAGCCCGAGGGCCCGGTGACGGTGAGCAAAGAGGTCCACTACTTC
CTCATGCGCCACCTGGGGGGCACCCCCAGGCCCCAGCTCACCGAGGTGGA
GAACGCCTTTTTCCTCCCGGCGAGCGAGGCGCTGGAGCGCCTCTCCTACC
CCAACGAGCGGGAGATGCTAAAGCGCGCCCTCCTCCGCCTCCGGGCCCGG
GCCAAGAAGGGCTAG
>TTC1806 DNA polymerase III alpha subunit
ATGGGCCGCAAACTCCGCTTCGCCCACCTCCACCAGCACACCCAGTTCTC
CCTCCTGGACGGGGCGGCGAAGCTTTCCGACCTCCTCAAGTGGGTCAAGG
AGACGACCCCAGAGGACCCCGCCTTGGCCATGACCGACCACGGCAACCTC
TTCGGGGCCGTGGAGTTCTACAAGAAGGCCACCGAAATGGGCATCAAGCC
CATCCTGGGCTACGAGGCCTACGTGGCGGCGGAAAGCCGCTTTGACCGCA
AGCGGGGAAAGGGCCTAGACGGGGGCTACTTCCACCTCACCCTCCTCGCC
AAGGACTTCACGGGGTACCAGAACCTGGTGCGCCTGGCGAGCCGGGCTTA
CCTGGAGGGGTTTTACGAAAAGCCCCGGATTGACCGGGAGATCCTGCGCG
AGCACGCCGAGGGCCTCATCGCCCTCTCGGGGTGCCTCGGGGCGGAGATC
CCCCAGTTCATCCTCCAGGACCGTCTGGACCTGGCCGAGGCCCGGCTCAA
CGAGTACCTCTCCATCTTCAAGGACCGCTTCTTCATTGAGATCCAGAACC
ACGGCCTCCCCGAGCAGAAAAAGGTCAACGAGGTCCTCAAGGAGTTCGCC
CGGAAGTACGGCCTGGGGATGGTGGCCACCAACGACGGCCATTACGTGAG
GAAGGAGGACGCCCGCGCCCACGAGGTCCTCCTCGCCATCCAGTCCAAGA
GCACCCTGGACGACCCCGGGCGCTGGCGCTTCCCCTGCGACGAGTTTTAC
GTGAAGACCCCCGAGGAGATGCGGGCCATGTTCCCCGAGGAGGAGTGGGG
GGACGAGCCCTTTGACAACACCGTGGAGATCGCCCGCATGTGCAACGTGG
AGCTGCCCATCGGGGACAAGATGGTCTACCGCATCCCCCGCTTCCCCCTC
CCCGAGGGGCGGACCGAGGCCCAGTACCTCATGGAGCTCACCTTCAAGGG
GCTCCTCCGCCGCTACCCGGACCGGATCACCGAGGGCTTCTACCGGGAGG
TCTTCCGCCTTCTGGGGAAGCTTCCCCCCCACGGGGACGGGGAGGCCTTG
GCCGAGGCCTTGGCCCAGGTGGAGCGGGAGGCTTGGGAGAGGCTCATGAA
GAGCCTCCCCCCTTTGGCCGGGGTCAAGGAGTGGACGGCGGAGGCCATTT
TCCACCGGGCCCTTTACGAGCTTTCCGTGATAGAGCGCATGGGGTTTCCC
GGCTACTTCCTCATCGTCCAGGACTACATCAACTGGGCCCGGAGAAACGG
CGTCTCCGTGGGGCCCGGCAGGGGGAGCGCCGCCGGGAGCCTGGTGGCCT
ACGCCGTGGGGATCACCAACATTGACCCCCTCCGCTTCGGCCTCCTCTTT
GAGCGCTTCCTGAACCCCGAGAGGGTCTCCATGCCCGACATTGACACGGA
CTTCTCCGACCGGGAGCGGGACCGGGTGATCCAGTACGTGCGGGAGCGCT
ACGGCGAGGACAAGGTGGCCCAGATCGGCACCCTGGGAAGCCTCGCCTCC
AAGGCCGCCCTCAAGGACGTGGCCCGGGTCTACGGCATCCCCCACAAGAA
GGCGGAGGAATTGGCCAAGCTCATCCCGGTGCAGTTCGGGAAGCCCAAGC
CCCTGCAGGAGGCCATCCAGGTGGTGCCGGAGCTTAGGGCGGAGATGGAG
AAGGACCCCAAGGTGCGGGAGGTCCTCGAGGTGGCCATGCGCCTGGAGGG
CCTGAACCGCCACGCCTCCGTCCACGCCGCCGGGGTGGTGATCGCCGCCG
AGCCCCTCACGGACCTCGTCCCCCTCATGCGCGACCAGGAAGGGCGGCCC
GTCACCCAGTACGACATGGGGGCGGTGGAGGCCTTGGGCCTTTTGAAGAT
GGACTTTTTGGGCCTCCGCACCCTCACCTTCCTGGACGAGGTCAAGCGCA
TCGTCAAGGCGTCCCAGGGGGTGGAGCTGGACTACGATGCCCTCCCCCTG
GACGACCCCAAGACCTTCGCCCTCCTCTCCCGGGGGGAGACCAAGGGGGT
CTTCCAGCTGGAGTCGGGGGGGATGACCGCCACGCTCCGCGGCCTCAAGC
CGCGGCGCTTTGAGGACCTGATCGCCATCCTCTCCCTCTACCGCCCCGGG
CCCATGGAGCACATCCCCACCTACATCCGCCGCCACCACGGGCTGGAGCC
CGTGAGCTACAGCGAGTTTCCCCACGCCGAGAAGTACCTAAAGCCCATCC
TGGACGAGACCTACGGCATCCCCGTCTACCAGGAGCAGATCATGCAGATC
GCCTCGGCCGTGGCGGGGTACTCCCTGGGCGAGGCGGACCTCCTCCGGCG
GTGTTTGGCGGAGGGAAGTCTGGTCCTGGATGCGGCTACGGGTCAGAGGG
TGCCCATAGAGAAGGTGCGGCCCGGCATGGAGGTCTTCTCCCTCGGCCCC
GATTACCGCCTCTACCGGGTCCCGGTGCTGGAGGTTCTGGAAAGCGGCGT
CCGGGAGGTGGTGCGGCTCAGGACCCGGAGCGGCCGCACCCTAGTCCTCA
CCCCTGACCACCCTCTCCTGACCCCGGAAGGGTGGAAGCCCCTTTGCGAC
CTGCCCCTGGGTACGCCCATCGCTGTACCTGCCGAACTTCCTGTGGCCGG
ACATCTCGCCCCACCCGAAGAACGGGTTACCCTCTTGGCCTTGCTGCTAG
GGGACGGTAACACGAAGCTCTCCGGCCGCAGGGGGACGAGGCCGAACGCC
TTCTTCTACTCCAAGGACCCCGAGCTCCTGGCCGCCTATCGGCGGTGCGC
CGAGGCTTTGGGGGCCAAGGTCAAAGCCTACGTCCACCCCACCACGGGGG
TGGTGACCTTAGCCACCCTGGCCCCGAGGCCCGGGGCCCAGGATCCGGTG
AAGCGCCTGGTGGTGGAGGCCGGGATGGTGGCCAAGGCAGAGGAGAAGCG
GGTACCCGAGGAGGTGTTCCGCTACCGCAGGGAGGCCTTGGCCCTCTTCC
TTGGCCGCCTTTTCAGCACCGATGGCTCCGTGGAGAAAAAGCGCATCTCG
TACAGCTCGGCCAGCCTAGGTTTGGCGCAGGACGTGGCCCACCTCCTCCT
CCGCCTGGGAATCACGAGCCAACTGCGCTCCAGGGGACCTCGAGCCCACG
AGGTTCTGATCTCGGGCCGGGAGGATATCCTTCGCTTTGCTGAGCTCATC
GGCCCCTATCTCTTGGGGGCTAAGCGCGAACGGTTGGCTGCCTTGGAGGC
TGAAGCCAGAAGACGCCTTCCTGGCCAGGGCTGGCACCTTCGCCTCGTGC
TTCCTGCGGTGGCCTACCGCGTCTCGGAGGCCAAGAGAAGGAGCGGGTTT
TCCTGGAGTGAGGCGGGGAGAAGGGTCGCCGTAGCGGGGAGCTGCCTCTC
CAGCGGTCTTAACCTCAAGCTTCCCCGCCGCTACCTCTCCCGCCACCGCC
TCTCCCTCCTGGGGGAGGCCTTTGCCGACCCGGGCCTCGAGGCCTTGGCA
GAAGGTCAGGTTCTGTGGGACCCCATCGTGGCGGTAGAGCCTGCGGGAAA
GGCCCGCACCTTTGATCTCCGGGTGCCCCCCTTCGCCAACTTCGTGTCCG
AGGACCTTGTGGTCCACAACTCCATGGGCAAGAAGAAGGTGGAGGAGATG
AAGTCCCACCGGGAGCGCTTCGTCCAGGGGGCCAAGGAAAGGGGCGTGCC
CGAGGAGGAGGCCAACCGCCTCTTTGACATGCTGGAGGCCTTCGCCAACT
ACGGCTTCAACAAATGCCTCCCCGCCCGGGCCCGGGTGGTGGACTGGTGC
ACCGGGAGGGTGGTGCGCGTGGGGGAGATCGTCCGGGGCGAGGCGAAGGG
GGTCTGGGTGGTTTCCCTGGACGAGGCCCGCCTCCGCCTGGTGCCGCGGC
CCGTGGTGGCCGCTTTCCCGAGCGGAAAGGCCCAGGTCTACGCCCTCCGC
ACCGCCACGGGCCGGGTCTTGGAGGCCACGGCCAACCACCCCGTCTACAC
CCCGGAGGGGTGGCGGCCTTTGGGGACCTTGGCGCCTGGGGATTACGTGG
CCCTGCCCCGCCACCTCTCCTATCGGCCTTCCCTCCACCTGGAGGGCCAC
GAGCTGGACCTTTTGGGCTTCGCCCTGGCCGAAGGCCATCTCCGTCACCC
TTCCGGCGTTTACCTCTATACCTCCTCCGAGGAGGAGCTCGCCGCCATGG
AGGAGGCTTTGCGGGCCTTCCCCAACACCCGCATCCGGGTGGTCTGGCGC
CGGGGGGTGGCCCACGTTTACGTAGGCCGCGTGGACCGGAGGCAAGAGGC
GGGCGCGGTGGCCTTCCTGAGGCGGATGGGGCTTCTCGGGCTTGACGCGA
AGACGAAGCGCCTTCCCGAGGCGGTCTTCGGCCTACCTCCCGAGGAGGTG
GCCCGCTTTTTGGGGCGGCTTTGGACCGGGGACGGCGGGGTGGACCCGAA
GGGGAGGCTCATCCACTACGCCACCGCCTCCAAGGAGCTCGCCTGGGGAG
TGCAGCACCTCCTCCTGCGCCTGGGGCTCCAGTCCCGCCTGGTGGAAAAA
CGCTTTTCCGGGGGGTACAAGGGGTATGCCGTTTACCTCCTGGGGGGGCT
GGAGGCGGCCCGCCGCTTCGCCGAAACGGTGGGCCCCTACCTTGTGGGCA
AGCGGCGGCAAGACCTCGAGGCCCTTCTCGCCTCCTGGGAAAAGGCGGGC
CGGAGCACTGGAGATGTCCTCCCCCTCGCCTTCCTGGAGGAGGTGAGGGC
GGCGGTGGCCGAGGTGGCCCAAGGGCAGGTGGCGGACCTTCTCCGGGAAG
CGGGCTTGGCCGAAGGGCTCCTCTGCCTCGGCAGGGGGCGGCGGGGGCTT
TCCCGGGCCACGGTGGGGCGGCTTGCCGCCCTAACGGGGAGCCTGGCCCT
TCTCCGCCTGGCCGAGGCCGAGGTGTATTGGGACCGGGTGGAGGCCGTGG
AGCCCTTGGGGGAGGAGGAGGTCTTTGACCTCACCGTGGAGGGGACCCAC
ACCTTTGTCGCCGAGGACGTCATCGTCCACAACTCCCACGCTGCCGCCTA
CAGCCTCCTCTCCTACCAGACCGCCTACGTGAAGGCCCACTACCCCGTGG
AGTTCATGGCCGCCCTCCTCTCCGTGGAGCGGCACGACTCCGACAAGGTG
GCCGAGTACATCCGCGACGCCCGGGCCATGGGCATAGAGGTCCTTCCCCC
GGACGTCAACCGCTCCGGGTTTGACTTCCTGGTCCAGGGCCGGCAGATCC
TCTTCGGCCTCTCCGCGGTGAAGAACGTGGGCGAGGCGGCGGCGGAGGCC
ATTCTCCGGGAGCGGGAGCGGGGCGGCCCCTACCGGAGCCTCGGCGACTT
CCTCAAGCGGCTGGACGAGAAGGTGCTCAACAAGCGGACCCTGGAGTTCC
TCATCAAGGCGGGCGCCCTGGACGGCTTCGGGGAAAGGGCGCGGCTCCTC
GCCTCCCTGGAAGGGCTCCTCAAGTGGGCGGCCGAGAACCGGGAGAAGGC
CCGCTCGGGCATGATGGGCCTCTTCAGCGAAGTGGAGGAGCCGCCTTTGG
CCGAGGCCGCCCCCCTGGACGAGATCACCCGGCTCCGCTACGAGAAGGAG
GCCCTGGGGATCTACGTCTCCGGCCACCCCATCTTGCGGTACCCCGGGCT
CCGGGAGACGGCCACCTGCACCCTGGAGGAGCTTCCCCACCTGGCCCGGG
ACCTGCCGCCCCGGTCTAGGGTCCTCCTTGCCGGGATGGTGGAGGAGGTG
GTGCGCAAGCCCACAAAGAGCGGCGGGATGATGGCCCGCTTCGTCCTCTC
CGACGAGACGGGGGCGCTTGAGGCGGTGGCCTTCGGCCGGGCCTACGACC
AGGTCTCCCCGAGGCTCAAGGAGGACACCCCCGTGCTCGTCCTCGCCGAG
GTGGAGCGGGAGGAGGGGGGCGTGCGGGTGCTGGCCCAGGCCGTTTGGAC
CTATGAGGAGCTGGAGCAGGTCCCCCGGGCCCTCGAGGTGGAGGTGGAGG
CCTCCCTCCTGGACGACCGGGGGGTGGCCCACCTGAAAAGCCTCCTGGAC
GAGCACGCGGGGACCCTCCCCCTGTACGTCCGGGTCCAGGGCGCCTTCGG
CGAGGCCCTCCTCGCCCTGAGGGAGGTGCGGGTGGGGGAGGAGGCCTTGG
GGGCCCTCGAGGCCGCGGGGTTCCGGGCCTACCTCCTGCCCGACCGGGAG
GTCCTCCTCCAGGGCGGCCAGGCGGGGGAGGCCCAGGAGGCGGTGCCCTT
CTAG
>TTC1788 ribonuclease HII
ATGGCCGAAGGGCCCTTGGAAGCCCCCTTTTGGCGCAAAGGCCTCCTCGT
GGCTGGCCTGGACGAGGCGGGGAGGGGGGCCTGGGCGGGGCCCATCGTGG
TGGGGGTGGTGGTCCTGCCCCCGGGGGAGTACCCCTTCCGGGACTCCAAG
CTCCTCTCCCCAAGGGCGAGGGAGCGCCTGGCGGAGAAGGTCAAGGAGGT
GGCCCTGGCCTTTGCCCTGGGGGTGGCGGAGGCGGCGGAGGTGGACCGCC
TTGGGGTCCTCAAGGCCACCCTCCTCGCGGCGGAGAGGGCCCTCCTCTCC
CTCCCCCTCGCCCCGGAGGCCCTCGTCACCGACTACCTCCCCCTTCCCAC
CCCCCTTCCCCTCCTCTCCCCGCCCAAGGCGGACGAGAAAAGCCCCACGG
TGGCCGCGGCGAGCATCCTGGCCAAGGTCCACCGGGACCGGATCATGGCC
GAGCTGGACCGCCTCTACCCGGGCTACGGCTTCGCCCGGCACAAGGGCTA
CGGCACCCCGGAGCACCAGGAGGCCCTCCTCGCCTTAGGGCCTAGCCCCG
TCCACCGGAAGCGCTTCGCCCCCGTGGCCCAGGCTCCCTTAAGGTTTCCT
GAAGCCCCTTAG
>TTC1161 putative DNA repair and genetic recombination protein
ATGGGGGGGATGCTCCGCCGCCTCGAGGTCCAAAACCTCGCCGTCATCCG
CGAGGCCGCCTTGGACTTCGCCCCCGGCCTCAACGTCCTCACCGGGGAGA
CGGGCGCGGGGAAAAGCCTCCTCGTGGACGCCCTCGCCCTCCTCCTCGGG
GGGCGGGCGGAGGGGCTTATCGGGCCCTACGGGGAAAGCCTCCTCGTGAC
CGCCTTCTTTGAGGGCCCCCCCGGGGAGGCGGTCCTCTCCCGCCGCGTGG
GGGCCCGCTCCACCCCCAGGGTGGACGGGGAGGTGGTCACCCTGAAGGAG
CTCCAGGCGGAAGCGGAAAGGCGCCTCTCCCTCCACGCCCAGCACACCGC
CTTGGCCCTCCTCTCCCCCAGGCGCCAGCGGGAGGCCCTGGACGCCCTCC
TCCCCGAGGGCCTCCTCGCCGCCTACCAGGAGGCCTACGCCCGGCGCGAG
GCCCTCCTGAAGGAGAAGGCGGCCCTGGAGGAAAGCCTAAAGGCCCGGGC
GGAGCGGGAGGACCTCCTCCGCTACCAGATCCGGGAGATTGAGGAGGCCC
GGGTGCGGCCCGGGGAGGAGGAGGAGCTTTTGGCCCTGGCGGAGCGCCTC
CGCCACCTGGAGACCATCCGGGAAAGGCTCGCCCGGGCCCTCGCCCTCCT
CACGGAGCGGGAAGCCCAGGACCTCCTGGCCCTGGCGGCGAAGGAGGTGC
GGGCGGCGGCCCGGCACGACCCGGCCCTCGAGGCCCTGGCCGAGGAGCTT
TCGGGGGCGGCCGAGGCGGTCCGGGCCGTGGCCCGGGAGCTGGAGGACCA
CCTGGAGGGCCTGGACCTGGACCCCGAGGAGCTGGACCGGGTGGAGGCCC
GCCTCAGCCTCCTGGAGCGCCTGAAGCGGAAGTACGGCCCCACCTTAGCG
GACGTCCTGGCCCACGCCCAAAAGGCCCGGGAGGAGCTCGCCCGGATGGA
AGGGGGGGAGGAGCGGCTTTCGGAGGTGGAGCGCCTCCTCAAGGCCCTCC
ACGAGGAGGTAGAGGCCCGGGGGCAGGCCCTGAGGCGGGCCCGGGAGGAG
GCGGCGCGAAGGCTTACGGAGGGGATGGTGCGGGAGCTTCCCGCCCTGGG
CCTCGCCGGGGCCCGCTTCGCGGTGGTCCTGGAGCCCCTCCCCGAGCCCG
GCCCCCAGGGCCTCGAGGCGGTGGCCTTCCGGGTGGCCCCGAACCCCAAC
CTGCCCCCGGCCCCCCTCGAGGCCCTAAGCGGCGGGGAGCTCTCCCGCGT
GGCCCTGGCCCTCGCCCTCCTCACGGGGACCGAGGCGCCCACCGTGGTCT
TTGACGAGGTGGACGCCGGGGTGGGCGGGGAAACCGCCTGGCGGCTCGCC
GAAAGGCTCAAGCGCCTGGCCGAGAGGCGGCAGGTCCTGGTGGTGACCCA
CCTGCCCCAGGTGGCCGCCGTGGCCCAGCGCCACTTCCGGGTGACCAAGA
CCCCCGAGGGCGTGCGGGTGGAGCCCTTGGCGGGCGAGGCCCGGGTGCAG
GAGATCGCCCGCCTCCTCTCCGGAGCCTACACCCAGGCGGCTTTGGCCCA
CGCCCGGGAGCTTCTGGAGGCCCAGGGCGCCCTTTAG
>TTC0572 probable transposase
GTGGCGACGGACGCGGTACGTGCCTCTGGGAAAGCCCACGGAGGAAGAGG
TGAAGGCTTTCGCGGAGGAGGAAGGGGAAGCAAAAAGGGGGCGGAGGAGG
GGGTGATGGAGGTAGGGTACCTGGATGAGAGCGGGTTTTCCCTGACCCTT
CCCCCTACCTACGCCTGGGGTCGGAGGGGGGAGGCCAAGGGGGTGCCCCG
GGCCTGGGGTTCCCGGGGGCGGGTGAACGTGGTGGGGCACTTGGTGCGGG
GACGGGAGGGGGAGCGGCTTTTCTTTGCCCTTTTGGAGGGGCCGGTGCGG
TGGGAGGTGGTGCGGGGGTATCTGGACCGGGTGGCCGAAGGTTTGGCCAA
GCCCCTGAAGGTGTTCATGGACAACGCGCCCTTCCACCGGTCCCGGGAGG
TGGAGGGGAGGAAGGAGGCGTGGCGGGAACGGGGGCTTATGGTGGCTTAC
CTGCCGCGGTACAGCCCGCATCTGAACCCCATGGAGAGCGTCTGGCGGCG
GGTGAAGGGGTTTTTGATGCCGAGGCGGCACTACGGGAGCGTGGAGGAGC
TTAAGGAGGCGGTGGCGCAGGCCCTGAAAGCCCTGGGGGGTGTGGAGTTG
AAAATCTTGGGGGAGGGCACTTAG
>TTC1005 serine protease-like protein
GTGAGCCTGGTGGGCAAAACCCTCTCGGGCCGCTACCGGGTGGTGCGGCC
CCTGGCCCGCGGGGCCCTGGCCCGGGTCTACCTGGCCTTTGACCCCTTCG
GCACCCCCTACGCCCTCAAGCTCTTCCCCCCGAAGGCCCGCCCCCGCCGG
GACCGGGAGCTTTGGGTGGGGCGAAGGCTCGCCCACCCCAACCTCAACCC
CGTCCTCGAGGCCCTGGACCTGGAGGAAGGCCCCGCCCTCCTCCTGGCCT
ACGCCCCGGGGGAGGAGCTCGGCCGCTGGATGGGGAAAAGCCCCGCGTTT
TCCCAGGCGATGCGGGTCTTCCACCAGCTCCTCCTCGCCCTCGCCCACAT
GCACGAAAAGGGCCTGGTCCACCGGGACGTGAAGCCCGAGAACATCCTGG
TGAACGCCGGGGAGGCCCGCCTCCTGGACTTTGACCTCTCGGGCCCCGCC
CAGGAGCGCTTCCAAAAACCCCTTCTCCTGGGCACCCCCGCCTACCTCGC
CCCCGAGCTCCTCCGGGGCCTGCCCTCGGGCCCCGAGGCCGACGTCTACG
CCGCCGGGATCATCCTCTACTGGATGCTCACCGGGGAGCACCCCTTCGCC
GACCCCTCGGGCCGGGTCTCCCTGGACCCCGACCGGGGACCCCATCCGCC
CGTGGCCGGGCTCGGCGAGGAGGCCGCCCTTTACCTGGAACGCCTCCTCG
CCCCCGACCCCAAGGCGCGCTTCCCCACGGCCCAGGAGGCCCTGAAGGCC
TTCCCCTTTTAG
>TTC0005 hypothetical conserved protein
GTGGGCGCCTTGAGGGGAAGGTGGGCCGAGGAGGAGGCCCTTCGCTTCCT
CCTGGGGAAGGGCTACCGCCTCCTTTGGAGGAACCGCCGCACTCCCTTCG
GCGAGGTGGACCTCTTCCTGGAAAAGGACGGGGTTTACGTGGTGGTGGAG
GTGAAGCAGCGGGCTTCCGCCCGCTTCGGCGCTCCCCTGGAGGCCATTAC
CCCGGGGAAGGTGAGGAGGCTTCTCCAAAGCGCCCGCTTCCTCCTCGGAC
GGGACGACCTCCCGGTGCGCCTCGAGGCCGTCCTCGTCCACGGCACCCCA
AAGGACTTCCGCCTGGAGCACCTTGTGCTGGAGCTCTAA
>TTC1588 DNA polymerase III holoenzyme tau subunit
GTGAGCGCCCTCTACCGCCGCTTCCGCCCCCTCACCTTCCAGGAGGTGGT
GGGGCAGGAGCACGTGAAGGAGCCCCTCCTCAAGGCCATCCGGGAGGGGA
GGCTCGCCCAGGCCTACCTCTTCTCCGGGCCCAGGGGCGTGGGCAAGACC
ACCACGGCGAGGCTCCTCGCCATGGCGGTGGGGTGCCAGGGGGAAGACCC
CCCTTGCGGGGTCTGCCCCCACTGCCAGGCGGTGCAGAGGGGCGCCCACC
CGGACGTGGTGGAGATTGACGCCGCCAGCAACAACTCCGTGGAGGACGTG
CGGGAGCTGAGGGAAAGGATCCACCTCGCCCCCCTTTCTGCCCCCAGGAA
GGTCTTCATCCTGGACGAGGCCCACATGCTCTCCAAAAGCGCCTTCAACG
CCCTCCTCAAGACCCTGGAGGAGCCCCCGCCCCACGTCCTCTTCGTCTTC
GCCACCACCGAGCCCGAGAGGATGCCCCCCACCATCCTCTCCCGCACCCA
GCACTTCCGCTTCCGCCGCCTCACGGAGGAGGAGATCGCCTTTAAGCTCC
GGCGCATCCTGGAGGCCGTGGGGCGGGAGGCGGAGGAGGAGGCCCTCCTC
CTCCTCGCCCGCCTGGCGGACGGGGCCCTTAGGGACGCGGAAAGCCTCCT
GGAGCGCTTCCTCCTCCTGGAAGGCCCCCTCACCCGGAAGGAGGTGGAGC
GCGCCCTAGGCCTCCCCCCCAGGGAGGCCCTGGCCGAGATCGCCGCCTCC
CTCGCGAGGGGGAAAACGGCGGAGGCCCTGGGCCTCGCCCGGCGCCTCTA
CGGGGAAGGGTACGCCCCGAGGAGCCTGGTCTCGGGCCTTTTGGAGGTGT
TCCGGGAAGGCCTCTACGCCGCCTTCGGCCTCGCGGGAACCCCCCTTCCC
GCCCCGCCCCAGGCCCTGATCGCCGCCATGACCGCCCTGGACGAGGCCAT
GGAGCGCCTCGCCCGCCGCTCCGACGCCTTAAGCCTGGAGGTGGCCCTCC
TGGAGGCGGGAAGGGCCCTGGCCGCCGAGGCCCTGCCCCAGCCCACGGGC
GCTCCCCCCCCAGAGGTCGGCCCCAAGCCGGAAAGCCCCCCGGCCCCGGA
ACCCCCAAGGCCCGAGGAGGCGCCCGACCTGCGGGAGCGGTGGCGGGCCT
TCCTCGAGGCCCTCAGGCCCACCCTACGGGCCTTCGTGCGGGAGGCCCGC
CCGGAGGTCCGGGAAGGCCAGCTCTGCCTCGCTTTCCCCGAGGACAAGGC
CTTCCACTACCGCAAGGCCTCGGAACAGAAGGCGAGGCTCCTCCCCCTGG
CCCAGGCCCATTTCGGGGTGGAGGAGGTCGTTCTCGTCCTGGAGGGAGAA
AAAAAAAGCCTGAGCCCAAGGCCCCGCCCGGCCCCACCTCCTGAAGCGCC
CGCACCCCCGGGCCCTCCCGAGGAGGAGGTAGAGGCGGAGGAAGCGGCGG
AGGAGGCCCCGGAGGAGGCCTTGAGGCGGGTGGTCCGCCTCCTGGGGGGG
CGGGTGCTCTGGGTGCGGCGGCCCAGGACCCGGGAGGCGCCGGAGGAGGA
ACCCCTGAGCCAAGACGAGATAGGGGGTACTGGTATATAA
>TTC0533 transcription-repair coupling factor
ATGGAAATCGCGCTAGAGAGGATCTACGGCCACCGCCTGGCGCTCCCGCA
GGTGGGGGCGGCTCTGCTTTTCGCCCAGGAGGCCCCCCCGGCCCTCCTCC
TCGTCCCCGAGGCGCGGCTTAGGCGCTACCGGGACCTCTCCGCCTTCGGG
GCCAAGGTCTACGTGAACCCCGGCCTCGAGGCCCTGGAGGAAAAAGCCCT
CTTCGTCCTCTCCTACGAGGAGGCCCTAAGCCCCTTCCCCGAGGACCCCG
AGGCCTGGCGGCTTCTTCTGGAGGTGGGCCGCGCTTACCCCCGGGAGGCC
CTCCTCTCCCGCCTCCTCAAGCTGGGCTACGCCCGGGACGAGGACTACCG
CGTCCTGGGGGAGGTGGTGGAGCTCGGCGAGGTGCGCCTGGAGTTCTTCG
GGGACGAGCTGGAAAGGCTTGTGGTCCGGGGGGAGGAAAGGCGGCGCCAC
GTCCTCCTGCCCAAGCCGGGGAAGGCGGAGGGCTTCACCTCCAAGAAGGT
CCTCCACTTCCCCGGCCCCGTCTACCTGGACACCCCCGCCCTCGCCCCCA
AGGCCCTTTGGCCCCTCCTTGCGGGAAGGCCTTGGGTGGCCCTGGGCGGC
GGGGTGGAGCTCCCCCCCTTGGAGCTCGGGGCGAGGCCCCTCCCCCCTTA
CCGGGGAAGCCTTAAGGCCCTGGAGAAGGACCTCGCCCGCTGGCTTGCCG
AGGGGAAGCGGGTCCACCTCTTCGTGGGCCACGCCCGCACCCTGGAGTAC
CTCAAAAGGCGCCTCCAGGCCTTCTCGCCCCTCATCCTGGACCGCTTCCC
CGGCCCCAAGGGGCGGCTTGCCCTCCTCCCCGGGGACTTTGAGGGCGGGG
CGGAGTGGGGGGAGTGGGTTCTCCTCACCGAGGCCCTGGTCTTCGCCACC
GGGGGGGTGCGGGCCAGGGTCCGGGTAGGGGAGGGGCTCAGCGACCCCGG
GGCCCTTTCCCCAGGGGACTACCTCATCCACCCGGAGCACGGCGTCGGGC
AGTACCTGGGCCTCGAGACCCGGGAGGTCCTGGGGGTCAAGCGGGACTAC
CTGGTCCTGCGCTACAAGGGGGAAGGGAAGCTCTACCTCCCCGTGGAGCA
GCTTCCCCTCCTCAAGCGCCACCCCGGGACCACCGACGACCCCCCGGAGC
TTTCCTCCCTGGGCAAAAACGAGTGGCAGCGGGCCAAGGAGAAGGCCAGG
AAGGACGTGGAGGAGCTGGCCGGGCGCCTCCTCGTCCTCCAGGCCAAGCG
CAAGGCCACCCCGGGCCGGGCCTTCCCCCCCTTGCCCGAGTGGGACCCTC
TGGTGGAGAAGGGGTTCCCCTACGAGCTCACCCCCGACCAGAAGCGGGCC
CTGGAGGAGGTCCTCCGCGACCTGGAAAGCCCCCACCCCATGGACCGCCT
GGTCTCGGGGGACGTGGGCTTCGGCAAGACGGAGGTGGCCCTGAGGGCCG
CCCACCGGGTGGTGGGGCACGGGGCCCAGGTGGCCTTTTTGGTCCCCACC
ACCCTCCTCGCCGAGCAGCACGGGAAGACCTTTAGGGAGCGCTTCCAGGG
GCTTCCCGTGAGGGTGGCGGTCCTCTCCCGCTTCACCCCGCCTAAGGAGG
AGGAGGCCATCCTAAAAGGCCTCGCCGAGGGCACGGTGGACATCGTCATC
GGCACCCACCGCCTCCTCCAGGAGGACGTGCGCTTCAGAGACCTCGGCCT
CCTCATCGTGGACGAGGAGCACCGCTTCGGCGTGGCCCAAAAGGAGAGGA
TCCGGGAGCTCAAGGCGGAGGTGGATACCCTTTACCTCTCCGCCACCCCC
ATCCCCCGAACCCTCTACTCCGCCCTGGTGGGCCTCAAAGACCTTTCCAG
CATCCAGACCCCGCCCCCGGGGCGCAAGCCCATCAAGACCTTCCTCGCGC
CCTTTGACCCCCTCTTGGTGCGGGAGGCCATCCTCTTTGAGCTGGAGCGC
GGGGGCAAGGTCTTCTACGTCCACGACCGGGTGGCCTCCATAGAGGCCAG
GCGGCGCTTTCTGGAAAGCCTCGTCCCCGAGGCCCGCATCGGGGTGGTTC
ACGGCCAGATGCCCGAAAGCCTCATTGAGGAGACCATGCTCCTCTTCGCC
GAAGGGGCGTACGACGTCCTCCTCGCCACCACCATCATTGAGGCGGGCCT
GGACGTGCCCGAGGCGAACACCATCCTCATTGAGCGGGCGGACCGCCTGG
GCCTCGCCACCTTGTACCAGCTCCGGGGCCGGGTGGGGCGGAGGGAGGAG
GAGGCCTACGCCTACCTCTTCCACCCGCCCCGCCTCACCGAGGCCGCGGA
GAAGCGCCTCGCCGCCATCGCCGACCTCTCCGATCTGGGCTCGGGCCACC
TCCTGGCCGAAAGGGACATGGAGATCCGGGGCGTGGGGAACCTTTTGGGG
CCGGAGCAGCACGGGCACATCCGGGCGCTTTCCCTCGAGGTCTACACCGA
GCTTCTGGAAGAGGCCATCCGCAAGCTCAAGGGGGAGGTCAAGGAGGAGC
GGCGGCACGTGACCCTGGACCTCGCCCTCTCCGCCCGCCTGCCCGCGGAG
TACGTGGGGAGCCTCGAGGCGAGGAGCCGCTACTACAGCCGCTTTGCCGA
GGCGAAAAGCCTCGCCGAGCTTTCCCGCCTGGTGCGGGAGCTCAAAGAGC
GCTACGGGCCCCTTCCTGAGGAGGCGGAGAACTTCGTGGCCCTCGCCCGG
CTCCGCCTGGTGGCGGAGAGGAAGGGGGTGGTGTCCATCACGGAGGGCCT
CACCCACCTGGAGGTGGTCTTCCCCCGCTACCCCTTGGACTACGACGCCC
GCGGCCTCAAAGGGCTTCCCTACCGGGTGGAGCTTACGCAGTACCCGCCC
GGGTTCCGCCTGGAGAAGAAGGGCCTGAGGCCCCGGGACTACCCCGAGGC
CCTGATGGAGGTGCTCTACCTCTTCGCCGACCTCTAA
>TTC1741 single-strand DNA binding protein (SSB)
ATGGCTCGAGGCCTGAACCGCGTTTTCCTCATCGGCGCCCTCGCCACCCG
GCCGGACATGCGCTACACCCCGGCGGGGCTCGCCATTTTGGACCTGACCC
TCGCCGGTCAGGACCTGCTCCTTTCCGATAACGGGGGGGAGCGGGAGGTG
TCCTGGTACCACCGGGTGAGGCTCTTAGGCCGCCAGGCGGAGATGTGGGG
CGACCTCTTGGACCAAGGGCAGCTCGTCTTCGTGGAGGGCCGCCTGGAGT
ACCGCCAGTGGGAAAGGGAGGGGGAGAAGCGGAGCGAGCTCCAGATCCGG
GCCGACTTCCTGGACCCCCTGGACGACCGGGGGAAGGAGCGGGCGGAGGA
CAGCCGGGGCCAGCCCAGGCTCCGCGCCGCCCTGAACCAGGTCTTCCTCA
TGGGCAACCTGACCCGGGACCCGGAACTCCGCTACACCCCCCAGGGCACC
GCGGTGGCCCGGCTGGGCCTGGCGGTGAACGAGCGCCGCCAGGGGGCGGA
GGAGCGCACCCACTTCGTGGAGGTTCAGGCCTGGCGCGACCTGGCGGAGT
GGGCCGCCGAGCTGAGGAAGGGCGACGGCCTTTTCGTGATCGGCAGGTTG
GTGAACGACTCCTGGACCAGCTCCAGCGGCGAGCGGCGCTTCCAGACCCG
TGTGGAGGCCCTCAGGCTGGAGCGCCCCACCCGTGGACCTGCCCAGGCCG
GCGGAAGCAGGTCCCGCGAAGTCCAGACGGGTGGGGTGGACATTGACGAA
GGCTTGGAAGACTTTCCGCCGGAGGAGGATTTGCCGTTTTGA
>TTC0665 transposase
ATGAGAAGACGCGGCAAAGGGGGTGGAAGCGTCTTCTATCACGAGGGCAA
GGGGAAGTGGGTGGCCCAGCTCACCTGGATAGACCCCGCCACGGGCCGGA
AGGTCAAGCGGGAGAAGCATTGCGAAACCCGCAAGGAGGCCGAAAGGGCC
CTGGCGGATATGGTGGCCGCCCAGGCCAAAGGGCTCCTCACCGACCCCTC
CAGGCTCACCACGCGGGACTTCGCCCTGGACTACCTGAAGCGCCTGGAGC
GGGAGGGGCTTAGGCCGAACTCCATCCGCCTGGCCCGGGAGGAACTGGCC
CACGCCCTCCCCTCCCTCAAGGACCCCAAGGCCCACGACCCCCTGGGCCG
CATGCGGCTCCAGGAGGTGAAGCCGGTCCATGTGCGGGCCGCCGTAGACC
GGGTGGCGGAAGCGGGCTACGCCCCCCGCACCGTAAACCGGGTGCTCATG
CGGCTCAAGGCCCTCTTCCGGGAAGCCCTACGGCTGGAACTGGTGGCCAG
AAACCCCGCCGAAGCCGTGAGGCTGCGCCTTCCCAAGGGGGAGAAGACGG
CCCGGGCCCTGGAGCCCCACGAGGTGGCCCGGCTTCTGGAAGCCGCCGAA
GCCTCCCGGTCCAAGGACATGGCCCTCCTCCTCCGGCTCATGCTGGAAAC
CGGGCTCCGCCGGGGGGAAGCCCTGGCCCTGCAATGGCGGGACATAGACC
TGGAGGCCGGGGAGCTGACCGTGTGGCGGTCCTGGACCAAAGCGGGGGGC
AAAGGGGTGTTTTCCGAGCCCAAGACCCCCACGGCCAAGCGCAAGGTGCC
CTTGCCCCGTGGCCTCCTCCTTCGCCTGAAGGCCCGGAGGGAGGAGCTTC
TGGAGAGGCTCACCCCGGAGGAGGTGGACGGGCTCTTCCTGGTGGGCGGG
GTGAAGCCCGTGGACCCGGACGCGTTCAACCACTACCTGCGCCGCCTGGC
GGAAAAGGCGGGCCTTGGGCGGGTGAGGGTGCACGACCTTCGCCACACCT
GGGCCACCCTGGCCCTCTCCCGGGGTGTGCCCCTGGAGGTGGTGAGTGAG
CGGCTGGGCCACGCCAGCCCCACCATCACCCTGAATGTGTACCGCCACCT
TCTGGAGGAGGAGCGCCGGGGGTGGGTGCTGGACCTGGAAGAACTCCTCT
ACCCCGCCCCCCGCGCCCAAGCCTGA
>TTC1892 endonuclease III
GTGGGGGGCGTGGCGTGCCCTAAGGAAGGGCCAAAGGAGAAGAAGGCCCG
GGCCCGGGAGGTCTTAAAGGCCCTCAAGGCCGCCTACCCCGGGGCCCGTA
CGGAGCTTAGGCACGAGAACCCCTTTCAGCTCCTCGTGGCCACGGTCCTC
TCCGCCCAGGCCACCGATAAAAGCGTGAACGAGGCCACCCCGGCCCTCTT
CGCCCGCTTTCCCGACGCCAAGGCCCTGGCGGAGGCCACCCCCGAGGAGG
TGGAGCCCTACATCCGCCGCATCGGGCTTTACCGCACCAAGGCGAAGAAC
CTCGTGGCCCTGGCGAGGAGGCTCGTGGAGGAGTACGGGGGAGAGGTGCC
CAAGGAGAAGGAGGCCCTCATGCGCCTTCCCGGGGTGGGCTGGAAGACGG
CCACCGTGGTGCTGGGGGCGGCCTTTGGGGTGCCGGGGATCGCCGTGGAC
ACCCACGTGGCCCGCCTCGCCCGGAGGCTCTGCTTCTCCGAGGCCAAGGC
CCCGGAGAGGATCGGGAAGGACCTCGAGGCCCTCTTCCCCAAGGAGGACT
GGGTCTTCGTCCACCACGCCCTCGTCCTCCACGGCCGCTACGTCTGCACC
GCAAGGAGGCCCCGCTGCGGAGCCTGCGTCCTTGCGCCCTACTGCCCGAG
CCGCGAGGCCTGA
>TTC1509 putative DNA polymerase III subunit
ATGGCTCTACACCCGGCTCACCCTGGGGCAATAATCGGGCACGAGGCCGT
TCTCGCCCTCCTTCCCCGCCTCACCGCCCAGACCCTGCTCTTCTCCGGCC
CCGAGGGGGTGGGGCGGCGCACCGTGGCCCGCTGGTACGCCTGGGGGCTC
AACCGCGGCTTCCCCCCGCCCTCCCTGGGGGAGCACCCGGACGTCCTCGA
GGTGGGGCCCAAGGCCCGGGACCTCCGGGGCCGGGCCGAGGTGCGGCTGG
AGGAGGTGGCGCCCCTCTTGGAGTGGTGCTCCAGCCACCCCCGGGAGCGG
GTGAAGGTGGCCATCCTGGACTCGGCCCACCTCCTCACCGAGGCCGCGGC
CAACGCCCTCCTCAAGCTCCTGGAGGAGCCCCCTTCCTACGCCCGCATCG
TCCTCATCGCCCCAAGCCGCGCCACCCTCCTCCCCACCCTGGCCTCCCGG
GCCACGGAGGTGGCCTTCGCCCCCGTGCCCGAGGAGGCCCTGCGCGCCCT
TACCCAGGACCCGGGGCTCCTCCGCTACGCCGCCGGGGCCCCGGGCCGCC
TCCTTAGGGCCCTCCAGGACCCGGAGGGGTACCGGGCCCGCATGGCCAGG
GCGCAAAGGGTCCTGAAAGCCCCGCCCCTGGAGCGCCTCGCCCTGCTTCG
GGAGCTTTTGGCCGAGGAGGAGGGGGTCCACGCCCTCCACGCCGTCCTGA
AGCGCCCGGAGCACCTCCTTGCCCTGGAGCGGGCGCGGGAGGCCCTGGAG
GGGTACGTGAGCCCCGAGCTGGTCCTCGCCCGGCTGGCCTTAGACTTAGA
GACATGA
>TTC1535 A/G-specific adenine DNA glycosylase
GTGGAGGCCTGGCAGAAAGCCCTCCTCGCCTGGTACCGGGAAAACGCCCG
CCCCCTCCCCTGGCGGGGGGAGAAGGACCCTTACCGCGTCCTGGTCTCCG
AGGTCCTCCTGCAGCAGACCCGGGTGGAGCAGGCCGCTCTCTACTACCGC
CGCTTCCTGGAGCGCTTTCCCACCCTGAAGGCCCTGGCCGCGGCCTCCCT
GGAAGAGGTCCTTAGGGTCTGGCAGGGGGCGGGCTACTACCGGCGGGCGG
AACACCTCCACCGCCTGGCCCGAAGCGTGGAGGAGCTCCCCCCGAGCTTC
GCCGAGCTTCGGAAGCTCCCCGGCCTCGGGCCTTACACTGCGGCGGCGGT
GGCCTCCATCGCCTTCGGGGAACGGGTGGCGGCGGTGGACGGGAACGTCC
GGAGGGTCCTCTCCCGCCTCTTCGCCCGGGAAAGCCCCAAGGAGAAGGAG
CTTTTCGCCCTCGCCCAGGGCCTCCTCCCCGAGGGCGTGGACCCGGGGGT
GTGGAACCAGGCCCTCATGGAGCTCGGGGCCACGGTCTGCCTGCCGAAAA
GGCCCCGCTGCGGGACCTGTCCCCTAGGGGCCTTCTGCCGGGGGAAGGAG
GCCCCCGGGCGCTACCCCGCGCCCAGGAAGCGCTGGGCGAAGGAGGAGCG
CCTCGTCGCCCTCGTCCTCCTCGGGCGGAAGGGGGTGCACCTGGAAAGGC
TCGAGGGCCGCTTCCAGGGCCTCTACGGCGTCCCCCTCTTTCCCCCTGAG
GAGCTTCCCGGGCGGGAGGCGGCCTTCGGGGTGAGGTCTAGGCCCCTAGG
CGAGGTGCGCCACGCCCTCACCCACCGGAGGCTTCTCGTGGAGGTGCGGG
GGGCCCTTTGGGAAGGGGAGGGGGAGGACCCCTGGAGGAGGCCCCTACCC
AAGCTCATGGAGAAGGTGCTCCGCAAGGCGCTGCCCCTCCTCGCTCATGC
GGGCGTAGTCCCCCTCCCGGACGCATAG
>TTC1654 DNA-3-methyladenine glycosylase II
TTGTTTGAGCACCCCGTCCTCGCCGCCTTTTACCGGCGGCACGGCCCCGC
CCCCTTCGCCCCCAACCCCTTTCCCCAAAGGCCCCCCTTCCGCGTGCTCG
CGGAGAGCGTGGTGGCCCAGCAGCTCTCCACCCGGGCGGCCGCCCGCCTC
GCCGAGCGCCTCTTCCGCCTCGTCCCCCCCACGCCAAAGGCCTTCCTCGA
GGCCCCCTTGGACCTCCTGCGGCAGGCGGGCCTCTCCCGGGCCAAGGCCT
TGGCCCTGAAAGACCTCGCGGCCAAGGCCGAGGAAGGGCTTCTGGACGGG
CTTGACCGCCTGGAGGACGAGGCGGTGGTGGAGCGCCTCACCCGCGTCCG
GGGGGTGGGGCTTTGGACCGCGGAGATGTTTTTGATGTTCGGCCTGGGAA
GGCCCGACGTCTGGCCGGTGCGGGACCTGGGGCTTCGCCGGGCCGCGGCG
CGCCTTTTCGGCGTGGCCCCCGAGGCCCTTCCCGCCTTCGGCGAGGCCTT
CCGCCCCTACCGGAGCCACCTCGCGTGGTACCTATGGCGAAGCCTGTCCT
CCCCCTAA
>TTC1174 conserved hypothetical protein
GTGAAGGCCAAGCCTAAGGCCACGCGCAAGCGTACCTCGCAGAAGAGGGC
GAAAGCCTTCACCGGAGCCCACGCCCTCCTCGTCTTCCCTTCCGGAGAAG
ACCACAAGGCCACCCTGGACCTCATGCGCCGCTTCTCCGCCGCCGTGCGC
TACGCCTATAACCGCTTGCTTGAGGGATGGAGCCGGGAAGCCCTCAAGCG
GGAAAATGGCCCCCTCCGCATCTTCTTCGGCCTCAACACCCGCTACGCCG
ACGACGCGGTGATGAAGGCCCAGGCCCTCCTGGACTCCGCCCAGGAGAGA
GGAGAAGACCCCCGGAAGGTCGTCTTCGGGGGAAGGAGGCTCTTTGAGAC
CCTGAAGCGGGGACACCTCTCCGGCAAGCCCCTGAAGGAACTCAAGCGGG
AGTGGAAGGAGAAGCGCCAGGGCCTCCTCTACTCCCGTGGGGACAAGACC
AAGGGGGGCAACCTCAACCTGAGGCTCTTCGTCAAGGACGGAGCCCTGTG
GCTCCGGATCAACCTCGGAGACGGAGGCTACGCCCACGCCCTGATCCAAA
CGAAGCACCCCAACCTGAGCACCCTCCTCCAGAGGGCGTACGCCTCCCTC
CCCTACAACGTGGAGCTCTCCCTCAAGGACGGCAAGGTCTACGCCACCTT
CACCTGGGAGGAGGAGCCCGCGCCCCTCGTGGCCACGAAGGAGAACGGGG
TCCTCGCCCTGGACGTGAACTCGGACCCCTACCACCTCGCCTTAGCCCTC
GTCTCCCCTGACGGGAACCTGAGGCGCCACCTCACCCTCTCCCTGGAGGA
GGTGGACCGCGCTCCGAACAAAGGAGCCAAGGAGCTCGTCCTGTGGAAGA
TCGCCCACGAGGTGGTCTCCCTGGCCCTGGAACACGGCGTGGCTGTCGCC
ACGGAACGCCTGAGGTACCTGAGGAAGTCCAGGAGGGGTGATGGTTCGGG
AAGGGCCTTCCGCAGGAAGCAGCACCGCTTCGCCTACGCTTCCCTCCTCC
GGAAGGTCCACTCCTTGGCCGGGAAGAGGGGTGTCCAGGTGGTGGAGGTC
AACCCCCAGGACACCTCCACCATCGGCATGCTCAAGTACGCCCCGCAGCT
TTCCCTGTCCAAGGACGTGGCCGCCGCGTACGTGATCGGGAGAAGGGCCT
TGGGGTTTGCAGAGAAGCTTCCCAGGGGGTACGGGAGGCTCCTAAGGGAC
AAAACCTTCTTAGCTCAGGCCCAGGAGTTCTACCAGGCCAGGGTCAGGGA
GCTCCATGCGCAGAAGAAAGCCGAACACGACCGTTCCCGCAGGAACAGGC
TGTCCCGTGAGCTCAAGAGGGCTCACGGGGCCCTGTCCTTGCTTTCAAGC
CTTCAGGGCTCGTCAGGGAGCCAGAGAGAGGTCACCGACGGAAGGAACTC
TCCTGGCGTTAATCCCTGGAGGGTCCTGAGGGTAGGCACCTTCCTTCCCC
TCCTCGGGCGCGAGGTGCCGAGGGACCTCTCTCCCCTCAAGCCCATCCTC
TTCGGGGGATCGTGGGAGGGGTGGAGGGGAGGCTTAGGTCCTCATCCTGG
TGGGGGGCCGGAGTGCGCTAATGTGCGCTCTACTTGA
>TTC0784 uracil-DNA glycosylase
ATGGACAGGGAAGCCTTCGTCCAAACCCTGACCGCCTGCCGCCTCTGCCC
CAGGCTCGTGGCCTGGCGGGAGGAGGTCGTGGGGAGAAAGCGGGCCTTCC
GGGGCGAGCCCTACTGGGCGAGGCCGGTTCCGGGCTTTGGCGACCCCGAG
GCCAGGATCCTCCTCTTCGGCCTCGCCCCCGGGGCCCACGGCTCCAACCG
CACGGGCCGCCCCTTCACCGGGGACGCCTCCGGGGCCTTCCTCTACCCCC
TGCTCCACGAGGCGGGCCTCTCCAGCAAGCCGGAAAGCCTTCCCGGGGAC
GACCTCAGGCTCTACGGGGTCTACCTCACCGCGGCGGTGCGCTGCGCCCC
GCCCAAGAACAAGCCCACCCCCGAGGAGCTCCGCGCCTGCGCCCGCTGGA
CGGAGGTGGAGCTCGGCCTCCTCCCCGAGGTGCGGGTCTACGTGGCCCTG
GGGAGGATCGCCCTCGAGGCCCTCCTCGCCCACTTCGGCCTGAGGAAGAG
CGCCCACCCCTTCCGCCACGGGGCCCACTACCCCCTTCCCGGGGGAAGGC
ACCTCCTCGCGAGCTACCACGTCTCCCGGCAGAACACCCAGACGGGCAGG
CTCACCCGGGAGATGTTCCTGGAGGTCCTGATGGAGGCTAAACGCCTCGC
CGGGCTTTGA
>TTC0896 DNA primase
ATGGACGCGGGCCAGGCGGTGGAGCTGATCAAGTCCCGCCTCTCCTTGCG
GGAGGTGGTCTCCCGCTACGTGGCCCTGAAGCCGGCGGGCCGCGGCCGCT
GGAAGGGCCTCTGCCCCTTCCACCAGGAGAAGACCCCCTCTTTCTACGTG
GACGAGGAGAAGGGCCTCTTCTACTGCTTCGGGTGCAAGGCCGGGGGCGA
CCTCTTCGCCTTCGTCCAAAGGGCGGAGGGGCTGGACTTCCCCGAGGCCC
TGGAAAGGCTCGCGGAGGAGGCGGGGGTGGAGCTTCCCCGGCGGAAGGCC
CCGGAAAGGCGCCGGGAGCTCCTCGAGGTCCTGGCCCTGGCCCAGACCTA
CTTCCTGGAGCACCTCCACGCCCACCCCGAGGCCCTGGCCTACCTGAGGA
AGCGGGGCCTCACGGAGGAGAGCGTGGCCCGCTTCGGCCTGGGCTACGCC
CCGCCCAAGGGGGACGGGCTCGTGGCCTTCCTCGCCCGGCACGGGGTGGC
CCCGGAGGAGGGCGTGCGGGCCGGGGTGCTGGCGGAGCGGCAGGGGCGCT
TCGTGGACCGCCTCCGCCACCGCATCACCTTCCCCATCAAGGACGCCTTC
GGGCGCGTCGTGGCCTTCACCGGGAGGGCCCTGGGGGAGGACGGGCCCAA
GTACCTGAACACCCCCGAAACCCCCCTTTTCCGCAAGCAGGAGGTCCTCT
TCGCCTACCCCGAGGCCCGGCCCGCCTTGAGGGAGGGCCGGGCCATCGTG
GTGGAGGGGCTCTTTGACGCCATCGCCCTCCACCAGCTGGGCTTCCCGGA
GACGGTGGCCGTGCTGGGCTCGGGCCTCTCCGAGGGACAGGCCCTCCTCC
TCAAGAAGGCGGGGGTCCTGGAGGTCTACCTGGCCTTTGACGCCGACGAG
GCCGGGCAGAAGGCCACCTTGCAGAGCCTGAACCTGGAGCTCGCCCCCAG
GTTCCTCTTCTACGCCGTCCGCCTCCCCGCCAAGGACCCGGGGGAGCTCC
TCCTCCACCCCGAGGGAAGGGCCCTCTTCCAGAAGGCCCTGGAGGAGGCC
CTCCCCGAGGTGGCCTTCCGCTTTGAGGAGGCGAGCCGGGGGCTGGACCT
CTCCCGGCCCGAGCACAAGCGGAAGGTCCTCGAGGCCCTCACCCCCAGGA
TGCTCACCCCGGAGCCCTTTGATCCCGTGGCCGAGCGGCTCAAGGCCCTG
GTGGTGGAGCGCCTGGGCCTTTCCCCCAAGAGCCTCGAGGACTACCTGGC
GAGCCTTAGGACCCGGGGGCGGCCCGCCCCTCCCCCACCGCCCCCACCCC
TCACCCCCGGCAACAAGACCCTCCTTCTGGAGCTGGACGCCATCGCCCTC
CTCCTCTCCGCCCCGGAGGAGCGCTTCCTGGAGCTTGTGGACTACGTGGA
GACCCAGGTCTGGCCCCCGGAGGGTTCCTTCCTCGGGGAGTTCCTGGCCC
TGGCCCGGAAGGAGCCCCGGCGGGACCACCTCCGCCGCACCCTAAGCCAG
CGGGAGGAAGGAGGAAGGCTCTTTGAGCGCCTGCTCCTCGCGCCCCGGGG
GGAGGATCCCAGGCTCCAGGAGAAGCTGGACCACACCCTGGCCCGCCTGC
GGGAAGCCTACCTCCAGGAGCGGCTCGCCAAGGTCAAGGCGGCCCTCGCC
CAAAACCCCGACCCCCCCACCCTGGAGCGCCTCCTTAAGGAGTACCAGGA
GATCCGGGTGGCCATAGAGGCGGAGCGCCGCCTCTACAAGCGGCGCCCCC
CTCCTTCGGGCTGGTCCACCTAG
>TTC0482 endonuclease IV
ATGCCGCGCTACGGGTTCCACCTTTCCATCGCCGGGAAAAAGGGCGTGGC
CGGGGCGGTGGAGGAGGCCACCGCCCTCGGCCTCACCGCTTTCCAGATCT
TCGCCAAAAGCCCGCGGAGCTGGCGCCCAAGGGCCCTCTCCCCGGCCGAG
GTGGAGGCCTTCCGCGCCTTAAGGGAGGCCTCCGGGGGCCTCCCCGCCGT
GATCCACGCCTCCTACCTGGTCAACCTGGGGGCGGAGGGGGAGCTTTGGG
AGAAGAGCGTGGCGAGCCTGGCGGACGACCTGGAGAAGGCCGCCCTCCTC
GGGGTGGAGTACGTGGTCGTCCACCCCGGCTCGGGCCGCCCCGAGCGGGT
CAAGGAAGGGGCCCTCAAGGCCCTGCGCCTCGCCGGCGTCCGCTCCCGCC
CCGTCCTCCTCGTGGAGAACACCGCCGGGGGCGGGGAGAAGGTGGGGGCG
CGGTTTGAGGAGCTCGCCTGGCTCGTGGCGGACACCCCCCTCCAGGTCTG
CCTGGACACCTGCCACGCCTACGCCGCCGGGTACGACGTGGCCGAGGACC
CCTTGGGGGTCCTGGACGCCCTGGACCGGGCCGTGGGCCTGGAGCGGGTG
CCCGTGGTCCACCTCAACGACTCCGTGGGCGGCCTCGGAAGCCGCGTGGA
CCACCACGCCCACCTCCTCCAGGGAAAGATCGGGGAGGGGCTCAAGCGCG
TCTTCTTGGACCCGAGGCTCAAGGACCGGGTCTTCATCCTGGAAACCCCC
AGGGGACCGGAGGAGGACGCCTGGAACCTCCGGGTCCTCAGGGCCTGGCT
CGAGGAGGCCTAA
>TTC0610 DNA integration/recombination/invertion protein
ATGTATAATGCCCCCATGCCGGAAGGCCCCACAGCCCACGTAATCTGGAA
AACCATCGGCCTCAAACGGCCCGAGAAGGCCCTTTGGCCCCTCGCCCCCT
ACGCCGAGTACCTCCTCCTGGAGCGGGGCTACTCCCCAAGAGGGGTGCGC
CGCTACCTCCAGGACCTCGCCTTCTGGTTCCGCTTCCTCGAGGCGGAGGG
CCTCCCCCCAAGCCCCGAGGCGGTGCGGGCCCTCCTCCTTAGGGAGCGCT
GGGCCCCAAGGCGCGTCCAGGGGTTCTTGGCCGCCCTAAGGAGCTACTAC
CGCTACCTGCGGGAGGTGAAGGGCGAGGCGGCCTCGGACCCCACGGAGGG
GATCGGCCGGCCCAAGGCCGGGAGGCGGCTTCCCCTGCACCCGGGCCCCG
AGGAGCTCAAGCGCTTCCTCGAGGCCTTCCGCGAGGAGAAGGAGGCGGCC
CTCCTCGAGGCCCTGGCCCGCTTCCTCTACGGCACGGGCCTCCGCATCTC
CGAGGCCCTCTCCCTGAAGGGGCGGAACGTGGTCCTCGAGGGAGGAAGCC
CCGTGGCGGTGCGGGTGGTGGGCAAGGGGAACAAGGAAAGGCTCGTGCCG
CTCTCCAAGACGGCCCGGGAGGTCCTGGAGGCCTTGGGACGGTTGCAGGG
GAACGTGAACATATTCACTTTCTCGCAGGGGCGGCGCAAAGGCCATGTCC
CCTCGGCCCGCTGGGTGGAGGCCAAGTTCCGGGAGGCCGCCCTCAGGGCG
GGCCTGGACCCCAGGCGCTTCACCCCCCACAAGCTCCGCCACGCCTACGC
CACCCTCCTCGTGGAGCGGGGCGTGGAGCTGGACGCGGTAAAGGACCTCC
TGGGGCACGAGTCCATCGCCACCACCCAGATCTACCTCCACGCCTCCCGG
GAGCGCCTTCGGGAGGCGGCCTCGAGGCTCCCCGAGCTCTGA
>TTC1222 DNA gyrase subunit B
TTGTGGTATACTGAAGGGGTGAACTACGACGCTTCTGCCATTCGGGTGCT
CAAGGGCCTGGAGGGGGTCCGCCACCGCCCGGCCATGTACATCGGCGGCA
CGGGGGTGGAAGGGTACCACCACCTCTTCAAGGAGATCCTGGACAACGCC
GTGGACGAGGCCCTGGCGGGCTACGCCACGGAGATCCTGGTACGCCTCAA
CGAGGACGGCTCCCTCACCGTGGAGGACAACGGCCGCGGCATCCCCGTGG
ACCTCATGCCCGAGGAGGGAAAGCCCGCCGTGGAGGTCATCTACACCACC
CTCCACTCGGGGGGCAAGTTTGAGCAGGGCGCCTACAAGGTCTCCGGGGG
GCTCCACGGGGTGGGGGCGAGCGTGGTGAACGCCCTTTCCGAGTGGACCG
TGGTGGAGGTCTTCCGGGAGGGGAAGCACCACCGGATCGCCTTCAGCCGG
GGCGAGGTCACGGAGCCCCTCCGGGTGGTGGGCGAGGCCCCCAGGGGGAA
GACCGGGACCCGGGTCACCTTCAAGCCCGACCCCGAGATCTTCGGGAACC
TCCGCTTTGACCCGAGCAAGATCCGGGCCCGCCTCCGGGAGGTGGCCTAC
CTGGTGGCCGGGCTCAAGCTCGTCTTCCAGGACCGCCAGCACGGCAGGGA
GGAGGTCTTCCTGGACAAGGGGGGCGTGGCCTCCTTCGCCAAGGCCTTGG
CCGAGGGGGAGGACCTCCTCTACGAGAAGCCCTTCCTCATCCGGGGCACC
CACGGGGAGGTGGAGGTGGAGGTGGGCTTCCTCCACACCCAGGGGTACAA
CGCCGAGATCCTCACCTACGCCAACATGATCCCCACCCGGGACGGGGGTA
CCCACCTCACCGCCTTCAAGTCCGCCTACAGCCGCGCCCTGAACCAGTAC
GCCAAGAAGGCGGGCCTCAACAAGGAAAAAGGCCCCCAGCCCACGGGGGA
CGACCTCCTGGAGGGGCTCTACGCCGTGGTCTCGGTGAAGCTCCCCAACC
CCCAGTTTGAGGGGCAGACCAAGGGGAAGCTCCTAAACCCCGAGGCCGGG
ACCGCCGTGGGCCAGGTGGTTTACGAGCGGCTTCTGGAGATCCTGGAGGA
GAACCCCCGCATCGCCAAGGCCGTCTACGAGAAGGCCCTGAGGGCCGCCC
AGGCCCGGGAGGCGGCGAGGAAGGCGAGGGAGCTCGTCCGCAGGCAGAAC
CCCCTGGAGTCCGACGAGCTTCCCGGAAAGCTCGCCGACTGCCAGACGGA
AAACCCCGAGGAGGCGGAGCTTTTCATCGTGGAGGGGGACTCGGCAGGGG
GGAGCGCCAAGCAGGGCCGGGACCGCCGCTTCCAGGCCATCCTGCCCCTC
CGGGGGAAGATCCTCAACGTGGAGAAGGCGGGGCTCTCCAAGGCCCTGAA
GAACGCCGAGGTGCGGGCCATGGTCTCGGCCATCGGCGTGGGCATCGGGG
GGGATGGGGAGGCCCACTTTGACCTCGAGGGCCTCCGCTACCACAAGATC
ATCATCATGACCGACGCCGACGTGGACGGAAGCCACATCCGCACCCTCCT
CCTCACCTTCTTCTACCGCTACATGCGCCCCCTCATTGAACGGGGCCACG
TCTACATCGCCCAGCCCCCCCTCTACCGCCTCCAGGTGGGGAAGAAGGTG
GAGTACCTCTACTCCGACGAGGAGCTCCAGGCCCGGCTCAAGGAGCTGGA
AGGCAAGTCCTACGAGGTCCAGCGCTTCAAGGGCCTGGGGGAGATGAACC
CGGAGCAGCTCTGGGAGACCACCATGAACCCGGAGAAGCGGGTCCTCAAG
CGGGTGGAGCTCCAGGACGCCCTCGAGGCCAGCGAGCTCTTTGAGAAGCT
CATGGGCCAGGAGGTGGCCCCGAGGCGCGAGTTCATCGAGGAGCACGCCC
GCTACGCCGAGCTGGACATCTAA
>TTC0041 methyltransferase
ATGAGGTCCTTTCCAAAGGCTAAAGAGGCCTTCTCAGGGGGGGAAGAGGT
CTCCTTTGGAGTTCACCGCCTCCACGTGGGGGACGCCCGGGAGGTGCTGG
CCTCCCTCCCCGAGGCCTCGGTCCACCTGGTGGTGACCTCCCCGCCCTAC
TGGACCCTGAAGCGCTACGAGGACACCCCCGGCCAGCTCGGCCACATAGA
GGACTACGAGGCCTTTCTGGACGAGCTGGACCGGGTGTGGCGGGAGGTCT
TCCGCCTCCTCGTGCCCGGCGGAAGGCTCGTCATCGTGGTGGGGGACGTG
GCCGTGGCGAGGCGCCGCTTTGGGCGCCACCTCGTCTTCCCCCTCCACGC
CGACATCCAGGTGCGCTGCCGCAAGCTCGGGTTTGACAACCTCAACCCCA
TCATCTGGCACAAGCACACCAACGCCAGCCTCGAGGTGGAGGGGCGGGGC
GTCTTCCTGGGCAAGCCCTACGAGCCCGGGGCCATCATCAAGACGGAGAT
TGAGTACATCCTCATGCAAAGGAAGCCCGGGGGGTACCGCAAGCCCACCC
AAGAGCAGCGGGAGAAGAGCCGCCTTCCCAAGGAGGACTTTCACCGCTTC
TTCCGGCAGATCTGGGACGACATCCCCGGGGAGAGCACCAAGGACCACCC
CGCCCCCTTCCCCCTGGAGCTCGCCGAGCGCCTGGTGCGGATGTTCAGCT
TCGTGGGGGACGTGGTCTTAGACCCCTTCGCCGGGACCGGGACCACCCTC
ATCGCCGCGGCGAGGTGGGGGAGGAGGGCTTTGGGCGTGGAGCTCGTGCC
GCGGTACGCTCAGCTGGCCAAAGAGCGCTTTGCCAAGGAAGTTCCTGGGT
TTTCCCTGGAGGTCTTGGATGGAGCCGTCCATCCTCGAGGTCTTGGATGG
AGCCGTCCATCCTCGCCGTTAGGTTGA
>TTC0990 DNA gyrase subunit A
ATGGCCCAGGTACTGCCTGTAGAAATCACCGAGGAGCTCAAGCAGAGCTT
CATCAACTACGCCATGTCCGTCATCGTGGACCGGGCCCTGCCCGACGTGC
GGGACGGGCTCAAGCCGGTCCAGAGGCGGATCCTCTTCGGCGCCTACCAG
GAAGGGGTCCTGCCGGGGCGCAAGCACGTGAAGAGCGCCAAGATCGTGGG
CGAGGTCATGGGCAAGTACCACCCCCACGGGGACGCCGCCATCTACGACG
CCCTGGTGCGCATGGCCCAGCCCTGGAACCTCCGCTACCCCCTCATTGAC
GGCCAGGGGAACTTCGGCTCCATAGACGGCGACCCCCCGGCGGCCCAGCG
CTACACCGAGGCCAGGCTTTCCCCCATCGGGGCGGAGATGCTTTTGGACA
TTGACAAGGACACGGTGGACTTCCGCCCCAACTACGACGGCTCCCTCAAG
GAGCCCGAGGTCCTGCCCGCCGCCATCCCCAACCTCCTGGTGAACGGGGC
GAGCGGCATCGCCGTGGGCATGGCCACGAGCCTCCCGCCCCACAACCTCT
CCGAGGTGGTGGACGCCCTGGTGGCCATGATCGAAAACCCCGCCATCACC
CTGGAAGAGGTCATGCGCCACCTCCCCGGCCCCGACTTCCCCACCGGGGG
GAAGCTCTCCAAGAAGGGCATCAAGGAGGCCTACGCCACCGGGCGGGGAA
GCCTCAAGGTGCGGGCCAAGGTGCGGGTGGAGGAGAAGGGGCAGAGGCCC
GTCCTGGTGGTGACGGAGATCCCCTACCAGGTGAACAAGGCGAGCCTCAT
CGCCCAGATCGCCGCCCTGGTCAAGGCCAAGAAGATTGAGGACATCGTGG
GCCTCCGGGACGAGTCCGACCGGCAGGGCCTGAGGATCGCCATTGAGCTC
AAGCGGGGCGCCAACCCCCAGGTGGTCCTGAACCAGCTCTACAAGCACAC
CGCCCTCCAGACCTCCTTCACGGTGAACCTCCTCGCCATCGTGGACGGGG
AGCCCAAGGTCCTCTCCCTCCTGGACCTGATGCGCCACTACCTGGACCAC
CGCAAGGAGGTGGTGCGCCGCCGGAGCCTCTTTGAGCTCAGGAAGGCGGA
GGAGCGGGCCCACGTCCTGGAAGGGCTCCTCATCGCCCTGGACCACATTG
ACGAGGTCATCGCCCTGATCCGCGGCTCCGAGGACGCCCCCAAGGCCCGC
ATCGCCCTCATGGAACGCTTCGGCCTCTCCGAGGCCCAGGCCCAGGCCAT
CCTGGACATGCGCCTCCAGCGCCTCGTGGCCCTGGAACGGGAGAAGCTTT
TGGAGGAGTACCGGGGGCTCATGGAGGAGATCGCCCGCCTGAAGGCGATC
CTCGAGGACGAGGCCCGCCTCCTCGCCGAGGTCAAGGCCGACCTCCTCCG
GGTCAAGGAGAAGTACGGAGACGCGCGGCGCACCCTCATCACCGAGTTTG
AGGAGACCTTCAACCCCGAGGACCTGATTGAGGACGAGCCCATGGTCATC
ACCCTCACGGCCCAGGGCTTCCTCAAGCGCCTCCCCCTGGAGAGCTACCG
GGCCCAGGGCCGGGGGGGGAAGGGCCTTTTGGCGGGCAGGACCAAGGAGG
AAGACGAGGCCACCCACGTCTTCGTAGCCGACGCCCACGACGACCTCCTC
CTCTTCACGAACCGGGGCCGGGTCTACCGCCTCAAGGTCTACGAGCTTCC
CGAGATGGGCCGCCAGGCCCGGGGCGTCCACGTGAAAAGCCTCCTCCCCC
TCGCCGAGGACGAGGAGGTGGCGGCCCTCCTCTCCGTGCGGGGCCTGGAC
CAGGAAGGCCACCTGGTCTTCGCCACCGAGCGGGGCCTCGTCAAGCGCAC
CGCCCTCAAGGAGTACCAGAACCTGGGCCAGGCGGGCCTCATCGCCATAA
GGCTCCAGGAGGGGGACCGCCTGGTGGGGGTCGCCCTCTCCGATCCCGAG
GACGAGGCCATCCTGGCCACCCAAGAGGGCCAGGCCATCCGCTTCCCCCT
GGAGGAGGTGCGGGCCACGGGCCGGGACACCCAAGGGGTGATCGGCGTCC
GCTTCAAGAAGCCCGAGGACCGCGTGGTCTCCCTGGTGGTGGTGAAGCCC
GGGGAAATGGTGGACCTCCTCTCCGTGAGCACCCGGGGCTACGGCAAGCG
CACCCCCCTTTCCGAGTACCCCCTCCAGGGCCGGGGCGGGATGGGGGTCA
TCACCTACGCCGTCTCCACCAAGGTGGGGAGGCTCGCCGCCCTGCTCAAG
GTCCGGGGCGGGGAGGACCTCCTGGTCCTCTCCCGTAGGGGCCTCGCCAT
CCGCACCCCCGTGGCCGAGATCCGGCAGTACTCCCGGGCCACCGCCGGCG
TCAGGGTGATGAACCTCCCGGAGGACGACGAGGTGGCGAGCGCCTTCGTG
GTGGAGGAGGAAAAGTGA
>TTC1720 hypothetical conserved protein
ATGCTCGGTGGTACGAGGGGTGGTCCTGTGCCCTGGCGCCTGAAGGAGGT
GATCCCCGAGGCCCTGAAGCGGGCCGGGGGCAAGGAGCGGCTCAGGCGGG
GCCTCGTCCTCGCCGCCTGGCGGGAGGTGGCGGGAAAGGACCTCGCCCGC
TTCACCGAGGCGGTGGCCCTGGAGGAGGGCGTCCTCGTGGTCCACGTGCC
CGACCCCGTGGTGGCCCACCAGCTCACCTACACCCGCCTCGCCCTCCTCC
GCCGCTACGAGGAGCGCTTCCCCGGGGCGGTGCGGGAGATCCGGTTCCAG
GTGGGCCCCCTCGAGGCGGAAGGGGCGGAGGCCCCCCCGCCCTCAGACCC
CGGCCGCCTGCGGGAGGCGGGCCGCAAGGCCCTGGCCCTGGCGGAAAAGG
CCCCTCCGGAGCTCCGGGAGCGGGTGGCCCGGGCCGCCCTGGCCCTCTTC
CAGAGGCAGCGGGGCGACCCCTGCCCCGTCTGCCAGACCCCGAGCGAGAC
CCATCCCTGCCCCACCTGCCGCCGCCACCTGGAAGACCCCGGGGTGCGGC
GGGCGGCGGAGCGGCTCATGCGGGGCCAGGAGGCGGGCCTCGAGGGGGAC
GCCCTCCGGGCCGCCCGCCACCTGGCCCGGGAAAACCTCCTCGCCCAGAT
GCGGGACCTCTACCCCGAGGCCCTGCGGAGCGAGGAGTTCCGCCCCCTCC
TCGCCGACCTGGCCCGCCGCTACCGCAACCTTTTTCCCCAGGAGCCCCTG
CCCGAAGGGGTGCGGAGCCTGCTCAAGGAGGGGTGA
>TTC0985 hypothetical protein
ATGCGCGTCGGCTTGGTCCACGGCTTCCTCTCCCGCCGCTACCTGGACTT
CTGGCGGGCCTACCTCGAGGCCCTGGGCGTGGAGGTGGTGGAGGCCGCGC
CGCCTCCCTCCGACCTCCCCTTCTGCCTTCCCGTGCAGCGCCTCCTCGCC
CAGGTGGAGGCCCTGAAGGAAGCGGGGGTGGACTACCTTCTCCTTCCCGA
CCTGCAGGGCGGGGTGGAGTCGGAGCGGGGCGGAGGGCAGTGCCCCTGGC
TTTTGGACCTGGAGGCCGCCCTCCTCCGCTACTTCCCCGGCCTGCCCCCG
GTGCTCAAGGTCCCGGCGGAGCTCTCCGAGCGGGTTTTGGGCCGGGCGGG
AGAGGTGGGCCAGCTCCTCGTCCGCAACCCCATGCTCGTGGGCCGGGCCT
TGGACCGTACCCGGAGGCTCCTCAAGCCCCCCCCGCCCCTCCCCACGCCC
CAGGGGAGCGTGGGGGTCGTGGCCCAGCCCTACCTCCTGGAGGAGCCCGC
CTTCCGCCGGGAGGTGGAGGCGGCCCTGAGGGCCCACGGCCTCGAGGCCT
ACTTCCCCGACCTCCCCCCCGAGCGGCTTCGGGAGGAGGCGGACCGGCTT
CTCCCCGTGGACCTGCCCACGGACCGGGAGCTCGTGGGGGCGATCCACTA
CCTGGGGCGGCTCGGCCGGGTCAAGGGCCTCGCCCTGGTGGTCTCCTACG
CCTGCCCCCCCATCCCGGGCCTCATGCGCAAGGCGGCCCGGCGCCTGGGC
AAGCCCTACCGCCTCCTCACCCTGGGGGAGGACTGGCAGGAGCCCCTCGC
CGCCCTCAAGGCGGAGATGGAAAAGGGCAACCGGGGGGGCTAG
>TTC1169 probable DNA-binding protein
ATGACCTTCGCCGGCATTGACGTCAGCAAACCCCACCTGGACCTGGCCCT
CGTCTCCAACTCCCCCAAACCCACCCGCCTCCGCTTCCCCAACACCCCTG
AAGGCCGTAAAGCCCTCCTCGCCGCTCTCGCCCACCTCCGCCCCGCCTGG
GTCGCCCTGGAGCCCACCGGCGCTTACCACCTCCCCCTCCTCAAGCTCCT
GGCAGAAAACCGCCTCCAGGTGGCCCTGGTCAACCCCTACCACCTGGCCG
CCTTCCGCAAGGCCAAGGGAGAACGCCAAAAGACCGACCGCCACGACGCC
CTCCTCCTCGCCCGTTACGCTCAGGTCTACCACGGGGAGCTCCGGGCCTA
CACCCTCCCCCCAGAAGCCCTCCGGGAGCTCAAAGCCCTGGTGGGCTACC
GGGAGGACTTGGCCGGGCGGGAAAGGGCCATCCTCAACCAGATGGAGGCG
GTGGAGTGGGCGGGAAGCGGTGAAGTCCTCGCCCTCCTCCAGAAGGAGCT
GGCCTGCGTGAAGGGGCTTCTTGGGGAGGTGGAGGCCAGGATCCAGGCCC
TCCTCGCCACCCTCCCGGAGGCGGAGGCCCTGATGGCCCTGCCCGGGGTG
GGGCCCCAGGTGGCGGCGGCGGTGCTGGCCCTCCTGCCCCCAGAGCTCTG
GGGCCGGGCAAAGAGGGCGGCCTCCTACGCGGGGCTGACCCCCGAGCGGG
AGGAGTCGGGAAAGCGCGTGGAGAGGAGTCGGCTCTCCAAGAAAGGACCC
CCCCTCCTGCGGCGAAAGCTCTACATGGGCGCCCTGGTGGCAGTGCGCCA
TGACCCGGAAATGCGGGCCTTCTACCACCGCCTGCTCTCGCGGGGAAAGA
GAAAGAAGCAGGCGTTGGTGGCCGTGGCCCACAAGCTCCTCAGGCGGATG
ATGGGCAGGCTCAGGGAGTACTACGCAACCCAGCTAGATCAAGGGGTCGC
TTGA
>TTC1157 putative methyltransferase
TTGTGGCTTGAGGCCACCACCCACCCGGGTCTGGAGGACCTCCTCCTGGA
GGAGCTTTCCGCCCTCTACCCTGGCGAAGGGGCGGAGGTGGACGCCCGGA
AGGGCCGGGTCCGCATCCCCAGGGCCTGGGTGGGGGAGGAGGCCTTGGGG
CTTCGCCTCGCCCACCACCTCGTCCTCTTCCGCGCCCGGCTTCTTCTTTC
CCGGGAGGACCCCTTGGGGGCCCTGGAGCGGGCCGCCTTGGCCCTTCCCT
GGCCCGAGCTTGAGGGGGCGGGAAGCTTCCGCGTGGAGGCCCGGAGGGAG
GGGGAACACCCCTTCACGAGCCCCGAGGTGGAGAGGCGGGTAGGGGAGGC
CCTCCACCGGGCTTACGGCGTGCCCGTGGACCTGAAGCGCCCGGCCGTGC
GGGTCCGGGTGGACGTCCGCGGGGAGGAGGCCTTCCTCGGGGTCCAGCTC
ACGGAAAGGCCCCTCTCCCGCCGCTTCCCCAAGGCGGCCCTCCGGGGAAG
CCTCACCCCCGTCCTCGCCCAGGCCCTCCTCCGCCTCGCGGACGCCCGCC
CCGGGATGCGCGTCCTGGACCCCTTCACGGGCTCGGGGACCATCGCCCTC
GAGGCGGCGAGCACCCTGGGGCCCACGAGCCCCGTCTACGCCGGGGACCT
GGACGAGAAGAGGCTCGGGCTCGCCCGGGAGGCGGCCCTGGCCTCGGGGC
TTTCCTGGATCCGCTTCCTTCGGGCCGACGCCCGCCACCTCCCCCGCTTC
TTCCCCGAGGTGGACCGGATCCTCGCCAACCCGCCCCACGGCCTCCGCCT
GGGCCGGAAGGAGGGGCTTTTCCACCTCTACTGGGACTTCCTCCGCGGGG
CCTTGGCCCTCCTCCCTCCCGGGGGAAGGGTCGCCCTCCTCACCCTGCGC
CCCGCCCTCCTCAAGCGGGCCCTGCCCCCGGGCTTCGCCCTCCGCCACGC
CCGGGTGGTGGAGCAGGGGGGCGTCTACCCCCGGGTCTTCGTCCTAGAGA
AGCTCTAG
>TTC1191 ribonuclease H
GTGAACCCCTCCCCCAGGAAACGCGTGGCCCTCTTCACCGACGGGGCCTG
CCTGGGCAACCCCGGGCCCGGGGGGTGGGCGGCCCTCCTCCGCTTCAACG
CCCACGAGAAGCTCCTCTCCGGGGGAGAGGCCTGCACCACCAACAACCGC
ATGGAGCTCAAGGCGGCCATAGAGGGCCTAAAGGCCCTCAAGGAGCCTTG
CGAGGTGGACCTCTACACCGACAGCCACTACCTCAAGAAGGCCTTCACCG
AGGGCTGGCTGGAAGGCTGGCGGAAAAGGGGCTGGCGGACGGCGGAGGGC
AAGCCCGTGAAAAACCGCGACCTCTGGGAGGCCCTCCTCCTCGCCATGGC
CCCCCACCGGGTGCGCTTCCACTTCGTGAAGGGGCACACGGGCCACCCGG
AGAACGAACGGGTGGACCGGGAGGCGAGGCGCCAGGCCCAGTCCCAGGCC
AAGACGCCCTGCCCGCCCCAGGCCCCCACGCTTTTCCACGAAGAGGCATA
A
>TTC0959 DNA mismatch repair enzyme (predicted ATPase)
GTGATCCGCCCCCTCCCTCCGGAGCTTAGGGGCCTCCTCGCCCGGGGCGA
GGTGCTCCTTACGGTGAAGGACGCCGTGCGGGAGCTTCTGGAAAACGCCC
TGGACGCTGGGGCCAGGAGGGTGCGGGTGGAGCTTTGGGGCGGTGGGCTT
AAGCGGCTTGTGGTGGAGGACGACGGGGAGGGGATCCCCCTGGAAGACCT
CCCCCTCGCCGTGGAGCCCTACGCCACGAGCAAGCTCCAGGACCTTGAGG
GCATCCGCACCCTGGGCTTCCGCGGCCAGGCCCTCTACGCCCTGAGGCAG
GCGGCCAGGCTCAGGATCCGCTCCCGGCCTCGAGGGCAGCTCGGCGGCGG
GCTCCTCCTCGCGGAAGGGGAGCGGGTGGAGGTGCGCCCCGTCCCCGCCC
CCCCGGGGACCCGGGTGGAGGTGGAGGGGCTTTTCCTCGGGGAGGGGCGG
GACCCCAAGGGGGAGGTCCGGGGGGTCTTGGAGCTCCTAAAGCGCTACCT
CCTCCACCACCCCCGCCTCGCCCTGGCCCTTTTCGCGGAGGGGGAGGCCC
GGCTCCTCTTCCCGGGGGCGGGGCTTGAGGAGGCGGCCCGCCTCGCCTTC
GGCCGCCTCCTGGCCAAGCGGCTCCTTCCCCTGGCCTACGGGGCGGGGGG
CCTCGAGGTCCAGGGCCTCGTCTCCCGGCCGGAGGTGAGCCGCACCCGGC
CGGACCGGCTCTTCCTCGCGGTGAACGGGAGGCCGGTGGCCTTCCCCGAG
GGGCTTCTCCGGCGGGTGCGCCGCGCCTACCGGGAGCTTCTGCCGGAGGG
GCACTACCCCGTGGGCGTCCTGAACCTCTTCCTCCCCCAGGAGGCCTTTC
GCCTGCGCCTGGACGCGAGGAAGGAGGAGGTGGTCCTTTCCGAGGAGGCG
GAGGCCCTGGTGGAGGAGGCCCTCCTCGCCCTCTTCCGGCGGGAGAACCT
GGCCCGGGCCCTCCCCGAGCCCAAGCCCCTCCAGCCCTTAAGCCCCCCCA
CGGCCTCGGGCCTGCCCCGCCTCCGCTTCCTCGCCCAGTTCCGGGAGAGC
TACCTCCTCGCCGAGGCGGGGGACACCCTCTACGTGGTGGACCAGCACGC
CGCCCACGAGCGCATCCTCTACGAGGACCTCCTCAAGCGGGTCGCCGAGG
GGCCGAAGCCCCTCCCCCGGCCCCTCCTCGTCCTCTTGGCCCCCGAGGAG
GAGGCCCTCTTGGAGGCGGGGCAGGAGGCTTTGGCGGCGCTTTTCCGCTG
GGAGCCCTTCGGCCCCGGGAGGGTGCGGCTCCTTATGGCCCCCGCCTTCC
TCCACCCCTACCCCCTGCTCCTCCCCGAGGTCTTCAAGGAGGCCTTGCGC
GGGGAGGGGAGAAGCCTCAAGGCCCTCCTCGCCCGCCTCGCCTGCCTCCC
CGCCGTCAAAGCGGGCCACCCCCTGGGAGAGGCCCAAGGCCAGGCCCTCC
TGGACGCCCTCCTCACCTGCGAGACCCCCTGGGCCTGCCCCCACGGAAGG
CCCGTCCTCCTCGCCCTCAAGGAGGAGGACCTTATCCGCCGCTTCGGACG
CCGCTCGGGGGCTCGGGGAGGAGGAGAAGCCCGTCCTCGTCCGCAAGAAG
AAAGCTTCCCGGAAGCACCTCTACCCCGAGAACCTTAA
>TTC0918 protein kinase-like protein
TTGACTAGGAGGGACTTCCGGCTGGAGATGCTTTTGGGCCTGGGCCAGAC
GGCCCAGGTCCACCTGGCCCGGGCCCCCGACGGGACGCGGGTGGCCCTGA
AGATCCCGAAGAAGGAGGTCCGCCAAGACCCTAGGCTTGCGGAGCGGTTC
GCCCGGGAGGTGTCCTTCAGCCTCTCCCTCCGCCATCCCCACCTGGTCCG
GGGCCTGGCGGGGGTGCCCTTCGGGGAGGGGGCCTTCCTCGCCCTGGAGT
ACTTTCCCGAAGGGACCCTGGAGGACCGCCTCCGCCAAGGCCCCCTGCCC
TGGGAGGAGGCGGTAAAGGCCCTCCTCCACGTGGGGGAGGCCCTGGGCTT
TCTCCACGAACGCGGGCTCCTCCACCAGGACGTCAAGCCCTCCAACGTCT
TCGTGGGCCAAGGGGTCTACAAGCTCGGCGACCTCGGCACCCTGCGCCGG
GTGGACGACCCAAGCGCGGAGTACGCCGGAAGCCCCCACTACCTCGCCCC
CGAGCTCTTCCTGGGGGCGAGGCCAAGCCCGGCCTCGGACGCCTACGCCT
TCGGGGTCCTGGCCTACGAGGTCCTCACCGGCAGGCGGCCCTTCCAAGGG
GAGGACCTGGAGGCCCTGAGGATGGCCCACCTCCTCACCCCCCCGCCCCG
GACCCCCCTCCCCCCTCCTTTGGACCGGGCCCTGAGGCGGCTCCTCGCCA
AGCGCCCTGAGGACCGGCTCGGCCTTCAGGCGTTTCTCCGCGTCCTCGCT
GAGGCCTCGAGGCCGAGCCCTTCGCGGAGGTAA
>TTC0559 methyltransferase
GTGGGGTTTGCGAAGCCTCCTTGGGGCGGTAAGCTAAAGGGCGTGGTGCG
GATCCTGGGCGGCAAGGCCCGGGGCGTGGCCTTGAAGGTGCCCGCCTCGG
CCCGTCCCTCCCCGGTGCGGCTGAGGAAGGCCCTCTTTGACTACCTCCGC
CTCCGCTACCCGCGGCGGGGGCGCTTCCTGGACCTCTTCGCGGGGAGCGG
GGCCGTGGGCCTCGAGGCCGCCAGCGAGGGTTGGGAGGCGGTGCTGGTGG
AGAAGGACCCCGAGGCGGTCCGGCTCCTCAAGGAGAACGTGCGCCGCACG
GGCCTCGGGGCCCGGGTGGTGGCCCTCCCGGTGGAGGTCTTCCTCCCCGA
GGCCAAGGCCCAGGGGGAGCGGTTCACCGTGGCCTTCATGGCCCCGCCGT
ACGCCATGGACCTCGCCGCCCTCTTCGGCGAGCTTCTCGCAAGCGGCCTG
GTGGAGGCGGGGGGGCTTTACGTCCTCCAGCACCCCAAGGACCTCTACCT
CCCCTTAGGGGAGCGGCGGGTCTACGGGGAGAACGCCCTCACCCTGGTGG
AGGTCTAG
>TTC0461 DNA polymerase III epsilon chain-like protein
ATGAACGCCCTCCGCTTCCTCGGCGCCCTCCTCCTCGGCCTCCTCCTGGT
GGCGGGAAGCCTCGCCCTCGGCCTCTTCCTCCTCCTGGAGGGCAACCCCG
AGGCCCAGGCCGCCCTCTGGGAAGCGGTGCGGGCCCGGCCCATGGTGCCC
CTCTTCACGGGCCTCCTCCTCCTGGGGGCGCTCTCCCTCCTCCTCTACCC
GCCCTTCCTGGGCTACCTGGCCCTGACCCGGGCCTTGGGGCAGGAAAGCG
AGGTGCTCCTCGCCCACCCCGGGCACCGCCTCACCCCCCGGGGGCCCTGG
GAACTGCGCCACCTGGCCCGGCTCATCAACCGGCTGGCGGAGGAAAAGGA
GAGGCTGGAGCAAAGGCTTGAGGAGGAGGCGGCCCAGGCCAAGGACCTGG
TGGAGGCGGAGCGGGAGCGCCTCGCCCGGGTCCTGGCCCAGCTCCCCCAG
GGGGTGGTGCTCTCGGACGAGCGGGGGCTCGTCCTCCTCTACAACCCCAA
GGCCCGGGCCCTTCTGGGGGAGGGGCTCGGGGTGGGGAAAAGCCTCTTCG
GCCTCCTGGACCGGTCCCTCCTCCTCCACGCCCAGTCCCTGCCCCAGGCC
GCCTTCCTGGTCCAGGGCCCCAAGGGGCCTTTGCGCCTGAAGGCGCGGGC
TTTGGAGGAGGGGTTTCTCCTTCTCCTGGAGGAGGCCCTCCCCGAGGGAC
CGAGCCGGGAGCGGCTCCACCGCCTCAAGGACAAGGCGGCGGGGGTCCGG
GCCCTGGTGGAGGTGCTGGAAAGGGAGACCACCGGGGAGGCGAAGCGGCT
TCTCCAGGTGGCCCGGGAGGCCCTGGACGAGATCCAAGGCCTCCTCCAGG
ACCTCGCCCCAAGCCCCCACGAGGAGGTGCTGGCCCAAGACCTCCTCCGC
CTTTTGGCGGGCCGCCTGGAGGCGCGGCTCGCCCTCACCCCCGGGTGGGC
CCTGGACCCGGAGGCGGAAGGGCTTCTCGTCCAGGCGGACACCTTCGCCC
TGGCGGAGGGGCTCGCCAAGACCTTGGAGGGCACGGAGGAGGTCTTCCTC
CGGGGAGAGGCCGAGGGGGAGGGGCTCTTCCGGCTCACCGTCCTCCTTCC
CCGGGAAGCCCCCAGGCCCCACCCCCTCCTCGCCGAGGCCGCCGAGGCCA
CGGGAAGCCTTTGGCGGGAGGGAAGCCGGCTCGTCCTCCTCCTCCCCGCC
CGCAAAGCGCCCCCCGAGGCCTTAAAAGAAGCCCCCGCCCCCAGGGCCCT
GGTCTACGACCTCACCCTCCTCCAGGTGCCGCCGGGCCTCGAGGACGTCC
CCCTGGACCAGCTCCTCTACACCGCCTTTGACCTGGAAACCACGGGCCTG
GACCCCGAGCAAGACGCCGTGGTGGCCCTCGCCGGGGTCCACGTCCTGGG
CCGGAGGGTCCTGCGGCAGGAGGTGTTTGAGGCCCTGGTGAACCCGGGGC
GCCCCATCTCCCCCGCGGCCACGGCGGTCCACGGCCTCACGGCGGAGATG
CTCCGGGACAAGCCCCCCCTGGAGGCGGTCCTCCCCGCCTTCCGCGCCTT
CGTCCAGGACACGGTGCTCGTGGCCCACAACGGGGCCTTTGACCTGGCCT
TCCTGCGCCGGGCGGGCCTGGACCAGCCCCCCCTCCTGGACACCCTCCTC
CTCGCCCAGCTCCTCTTCCCCGACCTCAAGGACTACCGCCTCGAGGCCCT
GGCCCACCGCTTCGGCGTCCCCGCCACCGGGCGGCACACCGCCCTGGGCG
ACGCCCTGATGACGGCGGAGGTCTTCGTGAGGATGCAGCCCCTCCTCTTT
GAGCGGGGGCTTAAGCGGCTATGGGACGTGGTGGAGGCCTGCCGCCGCCT
CCCCTTGGCCCGGCTCAGGTACTGA
>TTC1895 heat resistant RNA dependent ATPase
GTGGGCCCGGAAAGGCAGAGCATGGAGTTTAAAGACTTTCCCCTGAAGCC
AGAGATCCTGGAAGCCCTCCACGGGCGCGGCCTCACCACCCCCACCCCCA
TCCAGGCGGCGGCGCTCCCCTTGGCCCTGGAGGGCAAGGACCTCATCGGC
CAGGCCCGCACGGGCACCGGCAAGACCCTGGCCTTCGCCCTGCCCATCGC
CGAAAGGCTTGCGCCAAGCCAGGAGAGGGGGCGGAAGCCCCGGGCCCTCG
TCCTCACCCCCACGCGGGAGCTCGCCCTCCAGGTGGCCTCCGAGCTCACC
GCCGTGGCTCCCCACCTGAAGGTGGTGGCCGTCTACGGGGGCACCGGGTA
CGGCAAGCAGAAGGAGGCCCTCCTCCGGGGGGCGGACGCGGTGGTGGCCA
CCCCGGGGCGGGCCCTGGACTACCTGCGGCAGGGGGTCTTGGACCTCTCC
CGGGTGGAGGTCGCCGTCTTGGACGAGGCGGACGAGATGCTCTCCATGGG
CTTTGAGGAGGAGGTGGAGGCCCTCCTTTCCGCCACGCCCCCTTCCCGCC
AGACCCTCCTCTTCTCCGCCACCCTCCCCTCCTGGGCGAAAAGGCTCGCC
GAGCGCTACATGAAAAACCCCGTCCTCATCAACGTCATCAAGGACGAGCC
CGTCACCTACGAGGAGGAAGCGGTCCCGGCCCCGGTGCGGGGGCGGCTTG
AGGTCCTCTCCGACCTTCTTTACGTGGCCTCCCCCGACCGGGCCATGGTC
TTCACCCGGACCAAGGCAGAGACGGAGGAAATCGCCCAAGGCCTTTTGCG
CTTGGGCCACCCGGCCCAGGCCCTCCACGGGGACCTCTCCCAGGGCGAGC
GGGAACGGGTCCTGGGGGCCTTCCGCCAAGGGGAGGTTCGGGTCCTGGTG
GCCACGGACGTGGCCGCCCGCGGCCTGGACATCCCCCAGGTGGACCTGGT
GGTGCACTACCGCCTGCCCGACCGGGCGGAGGCCTACCAGCACCGCTCGG
GCCGCACGGGCCGGGCGGGCCGGGGAGGGCGGGTCGTCCTCCTCTACGGG
CCCAGGGAGCGCCGGGACGTGGAGGCCTTGGAGCGGGCGGTGGGGCGCCG
CTTCAAGCGGGTGAACCCCCCTACCCCGGAGGAGGTCCTCGAGGCCAAGT
GGCGCCACCTTTTGGCCCGCCTCGCCCGGGTGCCGGAGAAGGACTACCGC
CTTTATCAGGACTTCGCGGGCCGCCTCTTCGCCGAGGGCCGGGTGGAGGT
GGTGGCCGCCCTCCTCGCCCTCCTCCTGGGCGGGGCGCCCGCGGAGCGGA
GCCTCCTCACCGGGGAGGAGGGGTGGCGCACCTACAAGGCCACGGGGCCG
AGGCTCTCCCTGCCCCGGCTCGTGGCCCTCTTGAAGGGGCAGGGCCTCGA
GGTGGGCAAGGTGGCCGAGGCCGAGGGGGGCTTCTACGTGGACCTCCGCC
CCGAGGCCCGGCCGGAGGTGGCCGGCCTCCGGCTGGAGCCTGCCAGGAGG
GTGGAGGGCCTCTTGGAGATCCCTTCCCGCACGAGGCGCCCGGCCAGGGC
GTAG
>TTC1880 hypothetical protein
ATGAAACAAGCAGGGTATACTTCACTACCCGAGGGTTTCCGATACCGTTT
GGAACTTAGGCTATATGTGACACCTAGGGGGCTTAAGGATCAACCCATTC
ATCGGTGGTTCTGGTTCCCACACAGCTTCTCGCCACAGTTACTGGACGAA
ATTTTGAGTGTTTATCCGCTGCCCCCTGGGGGACGGCTTCTTGATCCCTT
TGTGGGCGCAGGGACCGCTGTTCTACGTGCGCTTCAGCTAGGTCATGCTG
CGGTGGGTGTGGACCTCTCACCGCTTAGTCTGTTTGTGAGTAGAGTAAAG
GTTACCACTTCTTCGTTGGAGAAAAATAGCCTCAACGAGTTTCTTCGTTT
TGTTTCCTCGTATCGGCCCGCAAAGGATCTACCTTCTTTGCCGCGTCGTT
TGCATCAGGCTTTCACTACGCAAGAGTTATCTCACCTTTGGGGGTTGCGC
CAGCAAATTGAGCAACTTCCCCAACCTTACGCCGACTTTTTCCTACTAGT
TCTCCTACGAACTCAACAGCGGGTTAGCCGTGCAGTGCCGGATGGAGGAT
GGTTTCGCTGGGTTTCAAAGCCGGACCAGAGCCAGAAAATCGCCTTCTGG
TTTGTAGATCAGGCCAAGCAGCACGTTGCAGATGTGCCGCATCCCACTCT
CGAATGGCCATCAGCATCACTTATTCCTGACGATGCTCGTTTCTTGAGGC
GCCTTGAGGGAACTTTTGATCTTGTCTTCACTTCACCTCCGTACCCTAAT
CGGCATGATTACTCGCGAATCTTCCACGTAGAACTTCTAACTCTTGGGCT
GGATGAAGGGGAAGTGGAGCGTTTTAGGCATACGTCCTTTCGTTCGCACG
TAGAAGCTTCCGCGCCGAGGGTTGAACTCTCGGGTTACTCCCCCCCACCC
GTACTCCAGGATGTTCTTTCCAGGCTACCTAAAAGCTTGGATTCACGGGT
CCACGCCATGCTAAGGGGATACTTTGAGGACCTCTACCTAAGCTTAAGAG
CTTTGCGGATTCATCTCGAAAAGGGAGCGATATGTGCCTTTGTAGTTGGC
AACGTTCGACACGCAGGAATCATGGTGCCTGTGGATGAGATACTTGCCCA
AATAGGCGAACAAGCAGGTTATTCCTTTATGGAAGCTTGGGTAGTGCGGC
TTCGTGGTAACAGCGCTCAGCAAATGGGCCGCTTTGGTCGGGAACCTGCT
CGGGAAAGTGTTGTATTTCTTCGCCGAATGTGA
>TTC0289 transposase
GTGGCAACGGACGCGGTACGTGCCTCCGGGAAAGCCCACGGAGGAAGAGG
TGAAGGCTTTCGCGGAGGAGGAAGAGGAAGCAAAAAGGGGGCGGAGGAGG
GGGTGATGGAGGTAGGGTACCTGGATGAGAGCGGGTTTTCCCTGACCCTT
CCCCCTACCTACGCCTGGGGTCGGAGGGGGGAGGCCAAGGGGGTGCCCCG
GGCCTGGGGTTCCCGGGGGCGGGTGAACGTGGTGGGGCACTTGGTGCGGG
GACGGGAGGGGGAGCGGCTTTTCTTTGCCCTTTTGGAGGGGCCGGTGCGG
TGGGAGGTGGTGCGGGGGTATCTGGACCGGGTGGCCGAAGGTTTGGCCAA
GCCCCTGAAGGTGTTCATGGACAACGTGCCCTTCCACCGGTCCCGGGAGG
TGGAGGGGAGGAAGGAGGCGTGGCGGGAACGGGGGCTTATGGTGGCCTAC
CTGCCGCGGTACAGCCCGCATCTGAACCCCATGGAGAGCGTCTGGCGGCG
GGTGAAGGGGTTTTTGATGCCGAGGCGGCACTACGGGAGCGTGGAGGAGC
TTAAGGAGGCGGTGGCGCAGGCCCTGAAAGCCCTGGGGGGTGTGGAGTTG
AAAATCTTGGGGGAGGGCACTTAG
>TTC1230 serine/threonine protein kinase
ATGGCCCTGCTCCTCGCCGCCCTCCTCGTCCTCCTCACGGCCCTCCTGGC
CGTCCGCCTCCCGGCCTGGGCCTCGGCCCTCCTCCTTGGTCTTCTCGCCG
GGAGCGGGTACGCCCTGGGGGTCCGCTCGGAGGCCTTGCCCGCCGGGGCG
CTTCTCTTGCTCGGGGCCCTCGCCGCCCCCCGCCTCTACTTGGGCCCGAG
GCGGCGGAAGCGGCCCGAGCGGCGGCCCCCAGGCCCGAAGCGCCCCGCCG
CGGCGGGGACCACGGCCGAGCGGGAGGCCCTCTCCCAGCGGTACGAGATC
CTGGAGAAGGTGGGCCTCGGGGGGATGGCCACCGTCTACAAGGCCAAGGA
CCGGAAGACGGGCCGCTTGGTGGCCCTGAAGGTTCCCCAGGAGCGCTTCC
TCGGGGACCCCAGGTTTGTGCGCCGCTTCCACCGGGAGGCCGAGGTCCTT
ACCCGCATGGACCACCCCAACATCGTCAAGGTCTACGACCACGGCCAGGT
GGAGGGCGTCCACTACATCGCCATGGAGTTTCTGGACGGGGAGGGGCTGG
ACAAGCTCATAGAGGAAAGGCGCCTCTCCCTTAGGCAGGCGGCGGCCATC
CTGGCCCGGGTGGCGGACGCCCTGAAGCACATCCACGCCCAGGGGATCGT
CCACCGGGACATCAAGCCGGGGAACATCATGGTCCTCAAGGGGGCCTTGA
GGGAGGACGGGGTGGACCCCAGAGGGGTGCGCCTCATGGACTTCGGCATC
GCCGCGGGCCGGGTCCTCACCCGCCTCACCATCACCGGGGCCCGGATCGG
CACCCCCGTGTACATGAGCCCGGAGCAGGCCAAGGGGCAGAAGCTGGACC
ACCGCTCGGACATCTACTCCCTGGGGATCGTCCTCTACGAGGCCCTCACC
GGCCAGCCCCCCTTCACCGGGGGGTACGAGACGGTGATCCATCAGCAGAT
CTTCCAGATGCCCACGCCCCCCAAGCAGCTCAGGCCCGAGATCCCCCAGG
CCCTTTCCGACCTGGTCCTCAGGATGCTGGAGAAGGACCCCGCCAAGCGG
CCGGGCCTGGACGAGGTGGTGCGGGTCCTCGAGGGCCCCTGGGAGGAGGA
ACGGGAGCTTCCCGAGGCCCAGTACCTCCTGGTGGCCGTGGAGGCGAAGA
AGGGAGCGGTGCGCCTCTTGGACCTGGAGGGCACCCCGGCCCGCCTCCTC
TCCGGGGTGGGGTCGGGGGCGGGGCAGTTCCCCTCGCCTCCCTTGGCCGT
GGCCGCCGATCCCGAGGGGGGGATCTGGGTCGCCGTCTTCCAGCACGGGG
AGAGGCTCGTCCACCGCCTCTCCCCCCAAGGGGAGGTCCTCCTCTCCACC
GGGCCCTACGGGATGAAGCCGGGGGAGTTCCTCCTCCCCGTGGGGCTCGC
CGTCCTCGAGGACCAGGTCTTCGTCTTGGACGGGGAGACGGCCACGGTGA
GCCGGCTGGACCTCGCGGGGCGGTACCAGGGCCGCTTCGGGGGCCAGGGG
CTTGGGCGGGGCACTTTCCAAGACCCCAAGGCCCTGGTGGCGGCCGAGGG
GCACCTCTTCGTCCTGGACTACGGCAACCGGCAGGTGCAGCGCCTCACCC
CGGAGGGGGGGTACCTCTCCCGCTACGCCTTCCGCCGCTCCCGCGAGGAC
GGGGCCCTTAGGCTCCTCGGGGGGGTGGGGGTGGGGGAGGGCAGGCTCTA
CCTTTACGACGTGGAGGCGGTCAAGGTCCGGGTGCTGGACCTCTCGGGGC
GGCTTCTCGCCTCCTACCCCCTGCCCCTTCTGGAGGGGGAGGACCGGATG
AGCCTCGTGGAGCTCCTTCCCGTGGGCCGGGTCCTTTACGCCGCCCGCCG
GGGCTCTAGCCGCATCCACCGGATCTCCCTGGACACCGGGGAGGCCCTTC
CGCCCTTGGAGGTCTACGCGCCCGTGCGGGGCCTGGCCCTTTGGAGGCGG
ACGCCGTGA
>TTC1182 excinuclease ABC subunit C
CTGGGCGCGGAGGGCCTCCAAGGGGAGGGTGAGGTCCCGCCCCAGGGCGC
GGGCGTTCCAGGCCAGGTCCAGGTGGGCGTCCACCAGGAAGCGAGGCACG
GGGAAAGTCTACAATGGGGGCGTGCGGGCCCAAGACCTCCCTCCCCTTCC
CGAGACCCCCGGGGTCTACCTGTGGAAGCGGGGGGAGGAGGTGCTCTACG
TGGGCAAGGCCAAGAGCCTCCGCGCCCGGGTGAAAAGCTACTTCCACGCC
GAGGGCAAGGCGAGGCGCATCGCCGAGGAGGCACAGGCCTGGACTTCATC
GCCACCCGGGACGAGGTGGAGGCCCTCCTCCTCGAGGCCAACCTCATCAA
GGCCCACCGCCCCCTCTACAACGTCCTCCTCAAGGACGACAAGCACTACC
CCTTCCTCAAGCTCACCAACGAGCCCTTCCCCACCCTCCTCGTGGTGCGC
CGGGTGGAGGAGGACGGGGCCAAGTACTACGGGCCCTTCCCCGAGGCGGG
GGCGCTTCGCCGCATCAAGACCCTCATAGACCGCCTCTTCCCCTTGCGCA
AGAACTCGGGCTACCCCATGAAAAGGAGGCGCTACCCCTGCCTGAACTAC
AGCATGGGCCGCTGCCTCGCCCCTTGCGTGGGGAAGGCGGACCCAGAGGC
CTACCAGGAGGTGGTGCGCCAGGTGGAGGCGGTCCTCGAGGGCCGGGTGG
ACGGGCTCCTTCAGGAGCTCGAGGCCAAGATGCGGGAGGCGGCGAGAAGG
CTTGAGTTTGAGCGGGCGGCGGAGATCCGCGACCAGATGGAGGCCCTAAG
GGCCTTCTTCTCCACGGACCAGCAGGCCTTTGACCCGGAGATGGGGGACC
TGGACTTTCTGGGGATGGCCCGCTCCGGGGCCCTCGCCGTGGTGCAGCTC
TACCAGGTGCGCTCCGGGCGGATCCTCGGCCGCATCAGCCGCGTGGTGGA
GAAGGAGGAGGCCACGGACGAGGAAATCCTCTGGGCCTTCCTCCGGGACC
ACTACCTGGAGGCCTCCCCCCTCCCCCCCCTCGTCCTCCTCCCCTTCCCC
CTGGAGGACCTGGAAAGCCTCGCCGAGCTCCTCAAGCGCCGCGCGGGGCG
GAAGGTGGAGCTTAGGGTGCCGAAGAAGGGGGAGAAGGCGCGGCTCTTGG
AACTCGCCGAAAGGAACGCCCGCCTCGCCCTGGAGACCGAGCTCAAGCTC
CGGGAAAGGCGGGGGGAGCACCCCGCCCTCAAGGCCCTCCAGGACCTCCT
GGGGCTTCCCGCCCGCCCCTGGCGCCTCGAGGGCTACGACATAAGCCACC
TCCAGGGCCAGGCCCGGGTCTTCTCCATCGCCGTCTTTGAGGGGGGAAGG
CCCAAGCGGCAGGAGTACCGCAGGATGCGCCTCAAGGCGGGGAACGACGA
CTACGCCGCCATGGAGGAAGGGGTCTTCCGCCGCTACACGGGAAGCCTCA
AGGACCTTCCCCTCCCCGACCTCCTCCTCATTGACGGGGGAGTGGGCCAG
GTGCGGGCGGCGGCAAGGGCCTTGGAAAAGGCGGGCCTCAGGCTTCCCCT
GGTGGGCCTCGCCAAGGGGGAGGAGGTCCTGGTCACGCCGGAAGGGCGGG
AGCTCCGCCTCCCCCTCACCCACCCGGCCCTGCAGCTTCTCATCCACCTC
CGGGACGAGGCCCACCAAAACGGCCTCCGCTACCACCGGAAGCGGCGGAG
CGAGGAGCTTTTCCGGGTCCTCCAGGGGATCCCCGGGATCGGGGAGAAAA
GGAGGCGGCTCCTCTTGGAGCGCTACGGGGGGCTAAGGGCCCTCAAGGAG
GCCCCCCTGGAGGAGCTCGCCCGGCTTCCCGGGATGAGCCTCGAGGCCGC
CCGGGCCCTCAAGGCGGCCCTGGCCGAGGAGGAGCCCGCCTGA
>TTC0176 hypothetical protein
ATGGGAAAAAAGAAGGGAACGCATCTTACGGCGCCTAGGCAGGAGGTCCT
AGGCATTCCTGAGCCGATCTGGCGGGAGCTTTGGGAAGAGGTGGAGCGGG
CGCGGGCGCTTTACCAGGAAATGCAGGTGGCCCCTTCCCGCGAGCTGGAG
CGGGAACTCTTTGGCGCCTTGACCCACCTGGTGGGCCACGTGAGCGCCAT
GTGGGAAGAGGCCGAGTTTTTGGAGGAGGACGCATGA
>TTC1478 yqgf-Family protein
ATGCGGGTGGGCGCGCTTGATGTGGGGGAGGCCCGGATCGGCCTCGCCGT
GGGGGAGGAGGGGGTGCCCCTGGCCTCGGGCCGGGGGTACCTGGTGCGCA
AGACCCTGGAGGAGGACGTGGAGGCCCTCCTGGACTTCGTGCGGCGGGAG
GGTTTGGGAAAGCTCGTGGTGGGCCTCCCCTTGCGCACCGACCTCAAGGA
GAGCGCCCAGGCGGGGAAGGTCCTCCCCCTGGTGGAGGCCTTGAGGGCCA
GGGGGGTGGAGGTGGAGTTATGGGACGAGCGCTTCACCACCAAGCTCGCC
CAGGAACGCCTCAAGCACGCCCCCAAGCGGCTTCGCCGGGACAAGGGGAA
GCTGGACGAGCTCGCGGCCGTGGTGCTTCTGGAGGACTACCTTGCCCGAG
GGATCTAG
>TTC0578 probable transposase
ATGGCGGCCCCACTTCGGATCCAGCTGACCCCTGAGGAGGACCGGCTCCT
CCTGGAGCTCTCCCTGGACCCAAGGACCCACAAGAAGACCCGCCTGTGGG
CCATGATGGTCCGCCTGGCGGCCGAGGGCTGGACCGCCCCAAAGATCGCC
CAGCACTTCCACAAGGACCGCACCACGGTCTACCTTGTCCTCCGGCGCTT
CGTGAGGGAGGGTCTCCAGGGCCTCGCCTACCGCAAACCCCCGGGAGCCC
CCAGGAAGTTCACCCCCGAGATGGCCGCCTTCGTGGAGGAAAGGCTGGCC
GAGGATAGGGTCTGGACCGCCCCGCAGCTTGCGGCAGCCCTAGCCGAGCG
CTTCGGGGTCCGCCTGGCCCCCAAGGTGGTGGCCCGGCACCTGAGGGCCA
TGGGGTACGTGTGGCGACGGACGCGGTACGTGCCTCTGGGAAAGCCCACG
GAGGAAGAGGTGAAGGCTTTCGCGGAGGAGGAAGAGGAAGCAAAAAGGGG
GCGGAGGAGGGGGTGA
>TTC1220 modification methylase
ATGCTCTTTCCTCCTTCCCTACCCCCTACGGCCTCCGGGCGAAGCCTGGG
CCGAGTAGAAACCCCACCCGGGCTAGTGCGCTTCATGGTGGGGCTCGCCG
AGGCCCCGAAAGGGGGGAGGGTCCTGGAGCCCGCCTGCGCGGACGGGCCC
TTCCTCCGGGCCTTCCGGGAGGCCCACGGCACCGGCTACCGCTTCGTGGG
GGTGGAGATAGACCCAAACGCCCTGGACCTTCCCCCTTGGGCGGAAGGGG
TGGTGGCGGACTTCCTCCTCTGGGAGCCCGGGGAAGCCTTTGACCTCATC
TTGGGCAACCCGCCCTACGGGGCCCTCGGGGCGGGGGCGAGGCTTCCCGC
CCCCTTGCGGGCGGCCTACCGCCGGCGCTTTTCCACCTGGCGGGGGCGGT
ACAACCTCTACGGGGCCTTCCTGGAAAAGGGGGTGCGCCTCCTCCGCGAG
GGCGGGACGCTTTGCTTCGTGGTCCCGGCGGGCTGGATGGTGCTGGAGGA
GTTCGCCTTCCTACGCGCCTTTTTGGCCCGGGAGGGCGCCCTCGAGGTTT
ACTACCTGGGCCGGGCCTTCCCCGGCCTCAAGGTGCGGGCCACCGTCCTC
CGCTTTCGGAAGGGGGGAAGGGGCCTCTGGCTCTACGACGCGGAGGGCAA
GCCGCCGGAACCCCTCCTGGAGGACCCCTTATGGCAGGGGAAGATGGTGC
GCTTCCCCCACCCCGAGGCCCTGGCCCTGGAGCGGGAGGGCCTCCCCATG
GGCCGCCTCTTCCGCCTCCACTTCGCCGCCCGAAGCCCTGAGGTCCGGGC
CCACCCCTTGACGCAAAAGGCGCCCGGGCCCGGGCTGGTCCCCGTCCTCA
CCGGGCGCAACCTCCTCCCGGGGCGCATCGACTACGAGACCCCCTACTCC
GGCCTCTACTTCCCCCAGGCCGAGGTCCATCGGCTGAAGCCCTTCTACGC
CTTCCCCCGCCTGGTGGTGGGGCACACCCGGCACTACCGGGTGGTGGCGG
CCTGGGACGGGCGGGCCTACCCCTGGCGGGAGGAGTTCCACCTTCTGCCC
AAGGAGGGGGTGCGGGTGGACTGGGAGGGGGTGGTGGCCTACCTCAACGG
CCCCTTGGCCCAGGCCTACTACCGAGGGCTTTACCGGGAGGTGGTCCCCC
ACCTCACCCGGGCCATGCTGGAGCGGTTCCCCCTGCCCAAGGACCTCGTC
CTCACCGGCCCGTGA
>TTC1602 comE, competence protein/comEA-related protein
GTGCGGGTGGAGGCCCTGGGAAAGGTCGCCCCTTTGCCCCAGGCGCAAAC
CCCCGTGAGCCTGAACGAGGCGAGCCTGGAAGAGCTCATGGCCCTGCCCG
GCATCGGCCCCGTCCTGGCCCGGCGCATCGTGGAGGGCAGGCCCTACGCC
CGGGTGGAGGACCTCCTCAAGGTGAAAGGGATCGGCCCCGCCACCCTGGA
GCGCCTCCGCCCCTACCTCCGGCCATGA
>TTC1608 dnaA, chromosomal replication initiator protein dnaA
ATGGGGGACCGGGACGACGGAGGGGGAAGGTTGTCGCACGAGGCCGTCTG
GCAACACGTTCTGGAGCACATCCGCCGCAGCATCACCGAGGTGGAGTTCC
ACACCTGGTTTGAAAGGATCCGCCCCTTGGGGATCCGGGACGGGGTGCTG
GAGCTCGCCGTGCCCACCTCCTTTGCCCTGGACTGGATCCGGCGCCACTA
CGCCGGCCTCATCCAGGAGGCCCTCGGCCTCCTCGGGGCCCAGGCGCCCC
GGTTTGAGCTCCGGGTGGTGCCCGGGGTCGTGGTCCAGGAGGACATCTTC
CAGGCCGCCCCCGCCGAGGCCCCCCGGCCCAAGCTCAACCCGAAGTACAC
CTTTGAGAACTTCGTGGTGGGGCCCAACAACTCCATGGCCCACGCCGCCG
CCGTGGCTGTGGCCGAGTCCCCCGGCCGGGCTTACAACCCCCTCTTCATC
TACGGAGGCGTGGGCCTGGGGAAGACCCACCTGATGCACGCCGTGGGCCA
CTCCGTGGCCAAGCGCTTCCCCCACCTGAAGATTGAGTACGTTTCCACGG
AAACTTTCACCAACGAGCTCATCAACGCCATCCGCGAGGACCGGATGACG
GAGTTCCGGGAGCGGTACCGCTCCGTGGACCTCCTGCTGGTGGACGACGT
CCAGTTCATCGCCGGAAAGGAGCGCACCCAGGAGGAGTTTTTCCACACCT
TCAACGCCCTTTACGAGGCCCATAAGCAGATCATCCTCTCCTCCGACCGG
CCGCCCAAGGACATCCTCACCCTGGAGGCGCGCCTGCGGAGCCGCTTTGA
GTGGGGCTTGATCACCGACATCCAGCCCCCCGACCTGGAAACCCGGATCG
CCATCCTGAAGATGAACGCCGAGCAGCGGGGCCTGAGGATCCCCGAGGAC
GCCCTGGAGTACATCGCCCGGCAGGTCACCTCCAACATCCGGGAGCTGGA
AGGGGCCCTCATGCGGGCCATCGCCTTCGCCTCGCTCAACGGCGTTGAGC
TGACCCGCGCCGTGGCCGCCAAGGCCCTCTCCGACATCTTCGCCCCCAGG
GAGCTGGAGGCGGACCCCTTGGAGATCATCCGCAAAGTGGCGGACCACTT
CGGCCTGAAACCGGAGGAGCTCACGGGGAGCGGCCGCAAGAAGGAGGTGG
TCCTCCCCCGGCAGCTCGCCATGTACCTGGTGCGGGAGCTCACCCGGGCC
TCCCTGCCCGAGATCGGCCAGCTCTTCGGCGGCCGGGACCACACCACGGT
CCTCTACGCCATCCAGAAGGTCCAGGAGCTCGCGGAAAGCGACCGGGAGG
TGCAGGGCCTCCTCCGCACCCTCCGGGAGGCGTGCACATGA
>TTC1106 dnaB, dnaB replication fork helicase
ATGGAAGGCCGTATCCCCCCCCACAGCCTCGAGGCGGAGCAGAGCGTCCT
GGGGGCGATCCTCCTGGACTATCAAGTCCTGGACGAGATTGAGGGCCTGC
TCCCCACCCCCGAGGCCTTCTACGCCGAGGCCCACCGCAAGATCTACGCC
GCCATGCAGGGCCTGAGGGCCGAGGGCAGCCCCGTGGACCTGGTGACCCT
CGCCGAGGAGCTTTCCCGCCGGGGGGAGCTGGACGGGGTGGGGGGGATCA
GCTACCTGATGCAGCTTTCCGAGGCCACCCCCACCGCCGCTTACGCCGAG
CACTACGCCCGCATCGTGGCGGAGAAGTGGACCCTGCGCAGGCTCATCCA
GGCGGCCGGGGAGGCCATGCGCCTCGCCTACGAGGAGGCGGGAAGCCTGG
ACGAGATCCTGGACCAGGCGGGGAAGCGGATCCTGGAGGTGGCCCTGGCC
CAGACGGAGGTGGAGGCCCGCTCCATGCGGGAGCTCGTCCACGAGACCTT
TGAGCACATTGAGGCCCTCTTCCAGAACAAGGGGGAGACCGCCGGGGTGC
GCACGGGCTTCAAGGAGCTGGACCAGCTCATCGGCACCCTCGCCCCCGGC
TCCCTGAACATCATCGCCGCCCGCCCCGCCATGGGGAAGACCGCCTTCGC
CCTCACCATCGCCCAGCACGCCGCCCTCAAGGAAGGGGTGGGGGTGGGGA
TCTACTCCCTGGAGATGCCCGCGGCCCAGCTCGTCCTCCGGATGATGTGC
TCCGAGGCCCGCATTGACATGAACCGGGTCCGGCTCGGCCAGCTTTCCGA
CCGGGACTTCTCCCGCCTCGTGGACGTGGCGGGCCGGCTTTCCGAGGCCC
CCATCTTCATTGACGACACCCCCGACCTGACCCTCATGGAACTCCGCGCC
CGGGCCCGGAGGCTCAGGAGCCAGCACAACGTGGGCCTGATCATCATAGA
CTACCTCCAGCTCATGTCGGGGCCCGGAGGGGGGCAGAAGGGGGAGAACC
GGCAGCAGGAGATCGCCGCCATCTCCAGGGGGCTCAAGGCCTTGGCCCGG
GAGCTCGGCGTGCCGGTGATCGCCTTAAGCCAGCTCTCCCGGGCGGTGGA
GGCGCGGCCCAACAAGCGCCCCATGCTCTCCGACCTCAGGGAGTCGGGCT
CCATTGAACAGGACGCCGACCTGGTGATGTTCATCTACCGGGACGAGTAC
TACAACCCCCACTCGGAGAAGGCGGGGATCGCCGAGATCATCGTGGGCAA
GCAGCGCAACGGCCCCACGGGGACCGTGGAGCTCCAGTTCCACGCCCAGC
ACGTGCGCTTCAACGACCTGGCCAAGGAGCCCTAG
>TTC1873 dprA, competence protein dprA
GTGGACCCCTTGGCCCTCGCCCTCCTCCCGGGCATCGGCCCCAAGCGGCT
TTTGGAGGTCCTAAAGGCGGAGGACCCTCTGGGCTTCCTGCGGGAGCGCT
TCCCCGAGGCCTGGCGGCACCTCCCCGAGGCCGAGGCCCAGGCGGAAAGG
GAGAGGCGGCGCGCCGAGGCCCTAGGGGTGCGCCTCCTGGGTCTCTGGGA
GGAGGGCTTCCCCGAGGGGCTGAAGGCGCTTCCCCAGCCGCCCACCCACC
TCTACCTGAAGGGGGAGCTTCCCCCGGAAAGGGAGGCGGTGGCCCTCGTG
GGCACGCGCCGGGCCTCCCCTTGGGCCCTGGCCTTTGCCCGGAAGCTCGC
CCGGGAGCTTTCCGAGGCCGGGCTCTGGGTGGTCTCGGGCCTCGCCCGGG
GCATAGACCGGGAGGCCCACCTCGGGGCCCTCGAGGCCGGGGGGCGCACC
CTGGGCGTCTTGGGAAGCGCCCTGGACCGGGTCTACCCCCCGGAAAACCG
CCCTTTGGCCCAACGGATGGACCTCCTCTCCGAGTTCCCCTTCGGCACCG
GGCCCAAGCCCGAGTTCTTTCCCCGGCGGAACCGCCTCATCGCCGGGCTT
TGCCGGGCGGTGGTCGTGGTGGAGGCCCCCCTGGACTCCGGGGCCCTCAT
CACCGCCCGCCACGCCCTGGAGCTCGGCAAGGAGGTGCTGGCCGTGCCCG
GAAGGCCCATGGACGAGCGTTCTCTGGGAGCCAACCGCCTCATCCAGGAC
GGGGCCTACCCGGTGCTCTCCGCCGAGGATGTCCTCTCCTATCTGGGAAT
GTCCGCAAGGCCCAAGCCCCTCCCGGGCCTCTCCCCGGAGGAGGAGGCCC
TTTACGCCCTCCTGCAGGAAAAGAAGGAGGCGCTCCCCGAGGCCCTGGCC
ATGGCCCTGGGGATCCCCCCGGAGCGGGTGCTCTCCCTTCTCACCCTTTT
GGAGCTAAAGGGCCTGGCCCGGGCCCTCCCGGGAGGGCGCTACGGGCCAG
GCTAA
>TTC0803 ecJ, single-stranded DNA specific exonuclease RecJ
ATGAGGGACCGGGTCCGCTGGCGGGTGCTTCCACTCCCTCCCCTCGCCCA
GTGGCGGGAGGTGATGGCGGCCTTGGAGGTGGGGCCGGAGGCCGCCCTGG
CCTACTGGCACCGGGGCTTTAGGCGCAAGGAGGACCTGGACCCCCCCCTC
GCCCTCCTTCCCCTCAAGGGCCTGAGGGAGGCAGCGGCCCTCCTGGAGGA
GGCGCTCCGCCAGGGGAAGCGCATCCGCGTCCACGGGGACTACGACGCCG
ACGGGCTCACGGGCACGGCCATCCTGGTTCGGGGCCTCACCGCCTTGGGC
GCCGACGTCCACCCCTTCATCCCCCACCGGCTGGAGGAGGGGTACGGGGT
GCTGATGGAGCGGGTTCCCGAGCACCTCGAGGCCTCGGACCTCTTCCTCA
CCGTGGACTGCGGGATCACGAACCACGCCGAGCTCAGGGAGCTTTTGGAA
AACGGGGTGGAGGTGATCGTCACCGACCACCACACCCCCGGCAAGACCCC
TCCCCCCGGCCTGGTGGTCCACCCCGCCCTGACCCCGGACCTCAAGGAGA
AGCCCACGGGAGCGGGGGTGGCCTTCCTCCTCCTCTGGGCCCTCCACGAG
CGCCTGGGCCTTCCCCCACCGCTGGAGTACGCCGACCTCGCCGCGGTGGG
CACCATCGCCGACGTGGCCCCCCTTTGGGGCTGGAACCGGGCCTTGGTGA
AGGAGGGCCTGGCCCGCATCCCCGCCTCCTCCTGGGTGGGGCTCAGGCTG
CTGGCCGAGGCGGTGGGGTACACGGGGAAGGCGGCGGAGGTGGCCTTCCG
CATCGCCCCCCGGATCAACGCGGCAAGCCGCCTCGGGGAGGCCGAGAAGG
CCCTAAGGCTCCTCCTCACCGAGGACGCGGCCGAGGCCCAGGCCCTCGTG
GGGGAACTCCACCGGCTGAACGCCCGCCGCCAGACCCTGGAGGAGGCCAT
GCTCAGGAAGCTCCTCCCCCAGGCGGACCCCGAGGCCAAGGCCATCGTCC
TCCTGGACCCCGAGGGGCACCCGGGGGTGATGGGCATCGTGGCGAGCCGC
ATCCTGGAGGCCACCCTCCGGCCCGTCTTCCTGGTGGCCCAGGGCAAGGG
GACGGTGCGGAGCCTCGCCCCCATCAGCGCCGTGGAGGCCCTAAGGAGCG
CCGAGGACCTTTTGTTGCGCTACGGGGGACACAAGGAGGCGGCGGGCTTC
GCCATGGACGAGGCCCTCTTCCCCGCCTTCAAGGCCCGGGTGGAGGCCTA
CGCCGCCCGCTTCCCCGACCCCGTGCGCGAGGTGGCCCTTTTGGACCTGC
TTCCGGAGCCCGGCCTCCTCCCCCAGGTCTTCCGGGAGCTCGCCCTTTTG
GAGCCCTACGGCGAGGGAAACCCCGAGCCCCTCTTCCTCCTCTTCGGCGC
CCCGGAGGAGGCCCGGCGCCTCGGGGAGGGCCGCCACCTCGCCTTCCGCC
TGAAGGGGGTGCGGGTCCTGGCCTGGAAACAGGGGGACCTCGCCCTGCCC
CCGGAGGTGGAGGTGGCGGGCCTCCTCAGCGAAAACGCCTGGAACGGCCA
CCTCGCCTACGAGGTCCAGGCGGTGGACCTGCGAAAGCCAGAGGCGCTGG
AGGGCGGGATCGCGCCCTTCGCCTACCCCCTGCCCCTCCTCGAGGCCCTG
GCCCGGGCCCGCTTGGGGGAAGGGGTCTACGTCCCCGAGGACAACCCCGA
GGGGCTGGACTACGCCAGGAAGGCGGGCTTCCGCCTCCTCCCCCCCGAGG
AGGCCGGGCTTTGGCTCGGCCTCCCCCCAAGGCCGGTCCTGGGCAGGCGG
GTGGAGGTGGCCCTGGGGCGGGAGGCGCGGGCCAGGCTTTCCGCCCCCCC
CGTCCTCCACACCCCCGAGGCCCGGCTCAAAGCCCTCGTCCACCGCCGCC
TCCTCTTCGCCTACGAGCGCCGTCACCCGGGTCTCTTCAGCGAGGCCCTC
CTCGCCTACTGGGAGGTGAACCGTGTACAGGAGCCCGCGGGAAGCCCATG
A
>TTC1454 mutM, formamidopyrimidine-DNA glycosylase mutM
GTGCCCGAGCTTCCCGAGGTGGAGACCACCCGTAGGCGGCTGCGTCCCCT
GGTCCTGGGCCAGACCCTTAGGCAGGTGGTCCACCGCGACCCCGCCCGCT
ACCGGAACACGGCCCTGGCGGAGGGGAGGCGGATCCTGGAGGTGGACCGC
CGGGGGAAGTTCCTCCTCTTCGCCCTCGAGGGCGGGGTGGAGCTCGTGGC
CCACCTGGGGATGACGGGGGGGTTCCGGCTGGAGCCGACGCCCCACACCC
GGGCGGCCCTGGTCCTCGAGGGCCGGACCCTCTACTTCCACGACCCCCGG
CGCTTCGGGCGCCTCTTTGGGGTGCGGCGCGGGGACTACCGGGAGATCCC
CCTCCTCCTCCGCCTCGGCCCCGAGCCCCTCTCGGAGGCCTTCGCCTTTC
CCGGGTTCTTCCGAGGGCTGAAGGAGAGCGCGAGGCCCCTTAAGGCCCTC
CTCCTGGACCAGCGCCTCGCCGCCGGGGTGGGCAACATCTACGCCGACGA
GGCCCTCTTCCGCGCCCGCCTAAGCCCCTTCCGCCCCGCCCGAAGCCTCA
CCGAGGAGGAGGCGCGGCGCCTCTACCGGGCCCTGCGCGAGGTGCTGGCG
GAGGCCGTGGAACTCGGGGGAAGCACCCTCTCGGACCAAAGCTACCGCCA
GCCCGACGGCCTCCCTGGGGGCTTCCAGACGCGCCACGCCGTCTACGGCC
GGGAGGGCCTCCCCTGCCCGGCCTGCGGGCGCCCGGTGGAGCGGCGGGTG
GTGGCCGGGCGGGGCACCCACTTCTGCCCCACCTGCCAGGGGGAAGGCCC
CTAG
>TTC1282 mutS, DNA mismatch repair protein mutS
GTGCGGGACGTCCTCGAGGTCCTGGAGTTCCCCCGGGTCCGGGCCCTGCT
GGCGGAGAGGGCCAAGACCCCCCTGGGCCGGGAGCTTGCCCTGGCCCTCG
CGCCCCTTCCCCGGGAAGAGGCGGAGAAGCGGCACGAGCTCACGGGGGAG
GCCCTAAGCTACCCCTACGCCCTCCCCGAGGCGGGGGCCTTAAGGGAGGC
CTACGGGAGGGCCCTCGCGGGGGCGAGGCTTTCCGGCCCCGAGCTCCTAA
AGGCGGCCAAGGCCCTGGAGGAGGCCATGGCCCTGAAGGAGGAGCTCCTT
CCCCTGAAAAACGCCTTAAGCCAGGTGGCGGAGGGCATCGGGGACCACAC
CCCCTTCCTGGAGCGGGTGAGGAAGGCCCTGGACGAGGAGGGGGCGGTGA
AGGACGAGGCGAGCCCGAGGCTTGCCCAGATCCGAAGGGAGCTTAGGCCC
CTCCGCCAGCAGATCCTGGACCGCCTCTACGCCCTCATGGACCGCCACAG
GGAGGCCTTCCAGGACCGCTTCGTCACCTTAAGGCGGGAGCGCTACTGCG
TCCCCGTGAGGGCGGGGATGGCCCAGAAGGTGCCGGGGATCCTCCTGGAC
GAGTCCGAGTCGGGGGCGACCCTCTTCATAGAGCCCTTCTCCGTGGTCAA
GCTCAACAACCGCCTCCAGGCCCTGAGGCTAAAGGAGGAGGAGGAGGTGA
ACCGCATCCTCCGGGACCTCTCCGAGAGGCTCGCCAAGGACGAGGGGGTG
CCGAAGACCCTGGAGGCCCTGGGCCTTTTGGACCTCGTCCAGGCCCAGGC
CGCCTTGGCCCGGGACCTGGGGCTTTCCCGCCCCGCTTTCGGGGAGCGGT
ACGAGCTCTACCGGGCCTTTCACCCCCTGATCCCGGACGCCGTGCGGAAC
TCCTTCGCCCTGGACGAGAAAAACCGCATCCTCCTCATCTCCGGTCCCAA
CATGGGGGGAAAGACCGCCCTCCTCAAGACCCTGGGCCTCGCCGTCCTCA
TGGCCCAGTCCGGCCTCTTCGTGGCGGCGGAGAAGGCCCTTTTGGCCTGG
CCCGACCGGGTCTATGCCGACATCGGGGACGAGCAGTCCCTTCAGGAGAA
CCTCTCCACCTTCGCCGGGCACTTAAGGCGCCTCAAGGAGATGCTGGAGG
AGGCCACTCCCACGAGCCTCGTCCTCATTGACGAGCTCGGAAGCGGCACC
GACCCCGAGGAGGGGGCGGCCCTTTCCCAGGCCATCCTGGAGGCCCTCCT
GGAGAGGGGGGTCAAGGGGATGGTCACCACCCACCTCTCCCCCCTGAAGG
CCTTCGCCCAGGGAAGGGAGGGGATCCAGAACGCCTCCATGCGCTTTGAC
CTCGAGGCCCTCCGTCCCACCTACGAGCTCGTCCTCGGGGTGCCGGGGCG
GAGTTACGCCTTGGCCATCGCGAGGAGGCTCGCCCTCCCTGAGGAGGTCC
TCAAGCGGGCCGAGGCCCTTCTGCCCGAGGGGGGGCGGCTGGAGGCCCTT
CTGGAGAGGCTCGAGGCCGAGCGCCTGGCCCTGGAGGCGGAGCGGGAGCG
CCTGAGGCGGGAGCTTTCCCAGGTGGAGAGGCTGCGCAAGGCCTTGGCCG
AGCGGGAGGCCCGCTTTGAGGAGGAGCGGGCGGAAAGGCTCAAGGCCCTC
GAGGAGGAGGTGCGGGCCGAGCTCCTCAAGGTGGAGGCCGAGCTCAAGGC
CCTCAAGGAGAAGGCCAGGAACGAGGGCAAGCGGGACGCCCTCCGGGAAC
TCATGGCCCTCCGGGAGCGCTACGCCAAGAAGGCCCCGCCGCCCCCGCCT
CCGCCGGGCCTCGCCCCCGGGGTCTTGGTGGAGGTGCCGTCCTTGGGCAA
ACGGGGCCGGGTGGTGGAGCTCAGGGGGGAGGAGGTCCTGGTCCAGGTGG
GCCCCCTGAGGATGAGCCTCAGGCCCCAGGAGGTGAAGCCCCTTCCCGAG
GCCGAACCGGGCAAGCCCCTCCTCGCCAAGCCCCGGCGGGAGGTGAAGGA
GGTGGACCTCCGGGGCCTCACGGTGGCCGAGGCCCTTCTGGAGGTGGACC
AGGCCCTGGAGGAGGCGCGGGCCCTGGGCCTTTCCACCCTCCGCCTCCTC
CACGGCAAGGGGACGGGGGCCTTAAGGCAGGCCATCCGGGAGGCCCTTCG
CCGGGACAAGCGGGTGGAAAGCTTCGCCGACGCCCCGCCCGGCGAGGGGG
GGCATGGGGTTACCGTGGTGGCGCTTCGGCCTTGA
>TTC0960 mutS, DNA mismatch repair protein mutS
ATGGGGAACATGCTCAAGGGCGAAGGCCCAGGTCCACTTCCCCCTCTTCT
GCAGCAGTACGTGGAGCTCCGCGACCGCTACCCGGACTACCTCCTCCTCT
TCCAGGTGGGGGACTTCTACGAGTGCTTTGGGGAGGACGCGGAGAGGCTG
GCCCGCGCCCTTGGCCTCGTCCTCACCCACAAGACCAGCAAGGACTTCAC
CACCCCCATGGCGGGGATTCCCATAAGGGCCTTTGACGCCTACGCCGAGC
GGCTTCTCAAGATGGGCTTTCGCCTGGCGGTGGCCGACCAGGTGGAGCCC
GCCGAGGAGGCGGAAGGCCTGGTGCGGCGGGAGGTGACCCAGCTCCTCAC
CCCCGGGACCCTCACCCAGGAGGCCCTCCTCCCCCGGGAGGCCAACTACC
TGGCCGCCATCGCCACCGGGGACGGGTGGGGTCTGGCCTTTTTGGACGTC
TCCACGGGGGAGTTCAAGGGGACCCTCCTAAAGAGCAAAAGTGCCCTGTA
CGACGAGCTTTTCCGCCACCGGCCCGCCGAGGTCCTTTTGGCCCCGGAGC
TACGGGAGAACGAGGCCTTCGTGGCCGAGTTCCGGAAGCGCTTTCCCGTG
ATGCTCTCCGAGGCCCCCTTTGAGCCCCAGGGGGAGGGTCCTTTGGCCTT
GAGGCGGGCCCAGGGGGCGCTCCTCGCCTACGCCCGGGCCACCCAGGGGG
GGGCCTTGAGCGTGCGCCCTTTCCGCCTCTACGACCCCGGGGCCTTCGTG
CGCCTGCCGGAGGCGAGCCTGAAGGCCCTCGAGGTCTTTGAACCCTTGCG
GGGCCAGGACACCCTCTTCGGCGTTCTGGACGAGACGCGAACCGCCCCCG
GAAGAAGGCTCCTCCAGGCCTGGCTCCGCCACCCCCTTCTGGAAAGGGGG
CCCTTGGAGGCGAGGCTTGACCGGGTGGAGCGCTTCGTGCGGGAGGGGGC
CCTACGCGAGGGGGTGAGGCGCCTCCTCTTCCGCCTCGCCGACCTGGAGC
GCCTGGCCACGAGGCTGGAGCTTTCCCGGGCAAGCCCCAGGGACCTTGCC
GCCCTAAGGCGGAGCCTGGAGATCCTCCCCGAGCTTAAGGGCCTTTTGGG
GGAGGAGGTGGGGCTTCCCGACCTCTCCGGCCTTTTGGAGGAGCTTAGGG
CGGCTTTGGTGGAGGACCCGCCCCTCAAGGTCTCCGAGGGGGGGCTCATC
CGGGAGGGGTACGACCCGGACCTGGACGCCTTGAGGCGGGCCCACGCCGA
GGGGGTGGCCTACTTCCTGGACCTCGAGGCCCGGGAGAAGGAGAGGACGG
GCATCCCCACCCTCAAGGTGGGGTACAACGCCGTCTTCGGCTACTACCTG
GAGGTGACCCGGCCCTACTACGAGAAGGTGCCCCAGGAGTACCGCCCCGT
CCAGACCCTCAAGGACCGGCAGCGCTACACCCTGCCGGAGATGAAGGAAA
GGGAGCGGGAGCTCTACCGCCTCGAGGCCCTGATCAAAAGGCGCGAGGAG
GAGGTCTTCCTTGCCCTTAGGGAGCGGGCGAGGAAGGAGGCGGAGGCCCT
AAGGGAGGCGGCGAGGATCCTCGCCGAGCTTGACGTCTACGCCGCCCTCG
CCGAGGTGGCGGTGCGCCACGGCTACACCCGGCCCCGCTTCGGGGAAAGG
CTTCGGATCAGGGCGGGGCGCCACCCGGTGGTGGAGCGCCGCACCGCCTT
CGTCCCCAACGACCTGGAGATGGCCCACGAGCTCGTCCTCGTCACCGGGC
CCAACATGGCGGGGAAGTCCACCTTCCTCCGCCAGACCGCCCTCATCGCC
CTCCTCGCCCAGATCGGGAGCTTCGTGCCCGCCGAGGAGGCGGAGCTTCC
CCTCTTTGACGGGATCTACACGAGGATCGGGGCCTCCGACGACCTCGCCG
GGGGGAAGAGCACCTTCATGGTGGAGATGGAGGAGGTGGCCCTGGTGCTC
AAGGAGGCCACCGAACGTAGCCTCGTCCTCCTGGACGAGGTGGGCCGGGG
CACGAGCAGCCTGGACGGGGTGGCCATCGCCACCGCCCTCGCCGAGGCCC
TGCACGAGCGGCGGTGCTACACCCTCTTCGCCACCCACTACTTTGAGCTC
ACCGCCCTCGCCCTTCCCCGGCTCAAGAACCTGCACGTGGCCGCCAAGGA
GGAGGAGGGGGGGCTCGTCTTCTACCACCAGGTCCTCCCCGGGCCCGCCT
CCAAGAGCTACGGGGTGGAGGTGGCGGAGATGGCGGGCCTGCCCAAGGAG
GTGGTGGAGCGGGCCCGCGCCCTCCTCAGCGCCATGGCCGCGAGGCGGGA
GGGCGCCCTGGAGGAGGTCTTGGAGCGCCTCCTCGCCTTAGACCCCGACC
GCCTCACTCCCCTCGAGGCCCTGAGGTTCCTCCACGAGCTCAAGGCCTTG
GCCCTGGGCCTCCCCCTGGGTAGCATGAAGGGGTGA
>TTC1576 mutT, mutator mutT protein (7,8-dihydro-8-oxoguanine-triphosphatase)
ATGCGCCGGGAGATCCTGGTGGCGGCGGCCATCCTCCTGGACAGCCGGGG
CCGGGTCCTCCTCGTGGGCAACGACTGGGGCCGCCGGGGCCGGGTGCGCT
ACACCCTTCCCGGGGGGACGGTGGAGCCCGGGGAGACGGCCGTGGAGGCC
CTGGTGCGGGAGGTGCGGGAGGAGACGGGGCTTCGGGTCCGGTCCGTGGA
GCACCTGGCCTACGTGATCCAGGTGGAGGACCGCCGCAAGAACGAGCGCA
CCCTGGCCATGGCCTTCCGGGCCACCTACGAGGGGCTCTTGAACCCCAGG
GACCCCGACGGGCACATCGTGGAGGCCCGCTTCTTCACCCTGGAGGAGGT
GGAGGAGAGGCTCAAGGGGCACCTCCCCCTCCTCGAGCCCCTGAGGGCCT
ACCTGCGGGGGGAGCGGGGCCGGTTTTACGCCTACGCCGGCTGGCACGCC
CCGGGGGTCGTGGTCTAG
>TTC0511 mutT, phosphohydrolase (mutT/nudix family protein)
ATGAGCCCCTGGGAGCGCATCCTCCTAGAGGAGATCCTCTCCGAGCCCGT
CCGCCTGGTGAGGGAACGGGTGCGGACGCACACGGGCCGGGAGCTCACCT
ACGTCTACCGCCCGGGCCCCGTGGCCGCAAGCTTCGTCCTCCCCGTGACG
GAGAGGGGCACAGCCCTCCTCGTCCGCCAGTACCGCCACCCCACGGGCAA
GTTCCTCCTGGAGGTTCCGGCGGGGAAGGTGGACGAGGGGGAAACCCCGG
AAGCGGCGGCGAGGCGGGAGCTAAGGGAGGAGGTGGGGGCCGAGGCGGAA
ACCCTCATCCCCCTGCCCTCCTTCCACCCCCAGCCCTCCTTCACGGCGGT
GGTCTTTCACCCCTTCCTCGCCCTCAAGGCCCGGGTGGTGACCCCGCCCA
CGCTGGAAGAGGGAGAGCTTCTGGAGAGCCTGGAGCTTCCCCTTACCGAG
GTCTACGCCCTCCTCGCCAAGGGCGAGATCCAGGACGCCTCCACCGCCCT
CACCCTCTTCTACGCGGAACCTCACCTGAAGCGCTTGGGCCTGCTCTAA
>TTC1466 recA, recA protein
ATGGACGAGAGCAAGCGCAAGGCCCTGGAGAACGCCCTGAAGGCGATTGA
GAAGGAGTTCGGCAAGGGGGCGGTGATGCGGCTGGGCGAGATGCCCAAGC
AGCAGGTGGACGTGATCCCCACCGGCTCCCTCGCCCTAGACCTCGCCCTG
GGGATCGGCGGCATCCCCCGGGGGCGGATCGTGGAGATCTATGGCCCCGA
GTCCGGGGGCAAGACCACCCTCGCCCTCACCATCATCGCCCAGGCCCAGA
GGCGGGGCGGGGTGGCCGCCTTCGTGGACGCGGAGCACGCCCTGGACCCC
CTGTACGCCCAGCGCCTCGGCGTCCAGGTGGAGGACCTCCTGGTCTCCCA
GCCCGACACGGGCGAGCAGGCCCTGGAGATCGTGGAGCTCCTCGCCCGCT
CGGGGGCGGTGGACGTGATCGTGGTGGACTCGGTGGCCGCCTTGGTCCCC
CGGGCGGAGATTGAGGGGGAGATGGGGGACCAGCACGTGGGCCTCCAGGC
CCGGCTCATGAGCCAGGCCCTTCGCAAGCTCACCGCGGTGCTCGCCAAGA
GCAACACCGCCGCCATCTTCATCAACCAGGTGCGGGAGAAGGTGGGGGTC
ACGTACGGCAACCCCGAGACCACCCCGGGGGGGAGGGCGCTGAAGTTCTA
CGCCAGCGTGCGCCTGGACGTGCGCAAAAGCGGCCAGCCCATCAAGGTGG
GGAACGAGGCCGTGGGCGTCAAGGTGCGGGTCAAGGTGGTGAAGAACAAG
CTCGCCCCCCCCTTCCGCGAGGCGGAGCTGGAGATCTACTTCGGCCGGGG
GCTGGACCCGGTGGCCGACCTGGTGAACGTGGCCGTGGCCGCGGGGGTCA
TTGAGAAGGCCGGGTCCTGGTTCTCCTACGGGGAGCTCCGCCTGGGCCAG
GGGAAGGAGAAGGCGGCCGAGGCCCTGCGGGAGCGGCCCGAGCTTTTGGA
GGAGATCCGCACCAAGGTCTTGGAGCGGGCCGGGGAGGTGGTCCTGGCCG
CGGGCGAGGACGAGGGGGAGTAG
>TTC1721 recF, recF protein
ATGCGGCTTCTCCTCTTCCGGCAACGGAACTTCCGCAACCTGGCCCTGGA
GGCCTACCGCCCCCCGCCGGGCCTTTCCGCCCTGGTGGGGGCCAACGCCC
AGGGGAAGACGAGCCTCCTCCTGGGGATCCACCTGGCCCTAGGGGGGGAG
GTCCCCCTGGGCCTTGCCGACCTCGTCCGCTTCGGGGAGGAGGAGGCCTG
GCTCCACGCCGAGGTGGAGACGGAGCTCGGGGCCTACCGCCTGGAGCACC
GCCTGGGCCCCGGGGGGCGGGAGGTCCTCCTCAACGGGAAGCGGGTGAGC
CTTCGGGCCCTTTGGGAGCTTCCCGGCTCGGTCCTCGTCTCCCCTCTGGA
CCTCGAGGCGGTCCTCGGGCCCAAGGAGGAGCGGCGGGCCTACCTGGACC
GGCTCATCGCCCGCTTCTCCCGCCGCTACGCCGCCCTCCTTTCCGCCTAC
GAGAAGGCGCTGCGCCAGCGGAACGCCCTCCTCAAGGCCGGGGGGGAGGG
CCTTTCCGCCTGGGACCGGGAGCTCGCCCGCTACGGGGACGAGATCGTGG
CCCTGAGGCGACGCTTCCTCCGGCGCTTCGCCCCCATCCTGCGGGAGGTC
CACGCCGCCCTCGCCGCCAAGGAGGCGGGGCTTCGCTTGGAGGAGACCGC
GGGGGAAGGGGTGCTCCGGGCCCTCGAGGCCAGCCGGGCCGAGGAGCGGG
AGCGGGGCCAGACCCTGGTGGGGCCCCACCGGGACGACCTGGTCTTCCTC
CTGGAGGGGCGGCCCGCCCACCGGTTCGCCAGCCGCGGGGAGGCCAAGAC
CCTGGCCCTGGCCCTGCGCCTCGCCGAGCACCGCCTCCTCGGCGAGCACC
ACGGCGAGCCCCCCCTCCTCCTCGTGGACGAGTGGGGAGAGGAGCTGGAC
GAGGCCCGCAGGCGGGCCGTCCTCGCCTACGCCCAGGCCCTGCCCCAGGC
CATCCTGGCGGGGCTGGAAGCCCCCCCGGGGGTGCCGGTATGCTCGGTGG
TACGAGGGGTGGTCCTGTGCCCTGGCGCCTGA
>TTC0902 recG, DNA helicase recG
ATGGAAGGCGTGACGCAAGAGGAGCTCAAGGCCAGGCTCCTCAAGCCCCT
TCTCCGGGAGCTCCAGGACGGGGCCAGGGACCGGGTGGTGGTGGGGGGCC
TCGAGGCCTTGGTGCAGAACCTCGCCCGCCCCTTCCCCAAGCTCCTGGAG
CTCTTCCGGGGCTACGGGGAAAAGCCTCAGGAAGAGCGGAAGCGGGTCTT
GCAGGAGGCCCTCCGCCTCCTGGAGGGCCAAGGCCCCTCCCCAAAGGGCC
AGGCCCAGGCCTCCTCCAGGAGGCTCGCCCCTTCCGATCCCGCCCACCTC
CTCGCCCCCCCGCAAAGCCGGAGGAAGCTTGCCGAGCTCGGCCTGCGCAC
GGTGCGGGACGTCCTCCACCACTACCCCCGCCGCTACGAGGACCGCAGGA
CCCTCCCCGGGGCGCGCTACCTGGAGGAGGGGCAGAAGGCCACCCTGGCC
GTGAAGGTCCTCGCCAAGGAGCTCGTCAAGACCCCCAGGAAGGGGATGCA
GCTCGTCCAGGTGAAGGCCCAGGACGCCTGGGGGTGGCGCATCACCCTGG
TCTGGTTCAACCAGCCCTGGGTCCTCTCCCAGATTGAGGAGGGGGCCACC
CTCATCGTCACCGGGAGGGTGGGGCGGCGAAACGGCCTCCAGCTCTACGT
GGAGCACTTTGAGGACGAGGGCACCGAGTCGCTTTCCACCGGGCGGATCG
TCCCCATCTACCCCGCCAAGGAGGGGGTAAGCCAGGCCTTCCTCCGCCGC
ACCGTCCACAGGGCCCTGGAGCTCGCCCTCCCCCTCCCCGACCCCCTGGA
GGCCTACCGGGAGGACCTGGGCCTCATGCCCTACGCCGAGGCCCTGAAGG
CCATCCACTTCCCCGAGGACGAGGAGGCCCTGAAGCGGGCCCTCCTCCGC
CTCAAGTTTGACGAGTACCTCCTCCTGGAGCTCAAGGCCCTCCTGGAGGC
GGGAGGAATGGTCCTCGGCCGGAGCTTCCGGGTGGAGGAGGCCTGGGTGG
AGGCCTTCAAAAAGGCCCTCCCCTTCCCCCTCACCCGGGCCCAGGAACGG
GTCATGGGGGAGATCGCCAAGGACATGCAAAGCCCCCGCCAGATGGCCCG
CCTCCTCCAGGGGGACGTGGGCTCGGGGAAGACGGTGGTGGCGGCCTTCG
CCCTCTTCCTCGCGGCCAAGAACGGGGCCCAGGGGGCCCTCATGGCCCCC
ACGGAGATCCTGGCCCGGCAGCACTACCAGAACCTCACCCGCTACCTCTT
CCCCTTGGGGATCAGGGTGGAGCTCCTCCTGGGCTCCATGACGGCCAAGG
AGAAGGAGGCCGCCATGGCCCGGCTCCTCTCGGGGGAGGCCCAGGTGGCC
GTGGGCACCCACGCCCTCATCCAGGAGGGGGTGGGCTTTAGGGACCTGGG
CCTCGCCGTGGTGGACGAGGAGCACCGCTTCGGGGTCCTGCAGCGCCGGG
CCCTCCTCAAGCTGGCCAAGGCGCCGCCGGACGTCCTCGTCATGTCCGCC
ACCCCCATCCCCCGCTCCCTGGCCTTAACCCTCTACGGGGACCTCGAGGT
GAGCGTCCTGGACGAGATGCCCCCAGGACGCGTCCCGGTGAAGACCAAGG
TCCTCCCCCACCGCCTCCGCCTCCAGGCCTACGCCTTCGCCCGGGAGGAG
GTGAGAAAGGGCCACCAGGTCTTCGTGGTGGCCCCGGCCATTGAGGAGAG
CGAGGAGCTGGACCTAAAGGCGGCCACCACCCTCTACGAGGAGCTTAAAG
GCCTCCTCCCCGGGGTGCGCCTGGCCCTCCTCCACGGGAGGATGCCCGCC
CGGGAGAAGGACGAGGTGATGGAGGCCTTCCGGCGCGGGGACTACGACCT
TTTGGTCTCCACCACGGTGGTGGAGGTGGGGGTGGACATCCCCAAGGCCA
CCCTCATCATCGTGGAGAACGCCGAGCGCTTCGGCCTCGCCCAGCTCCAC
CAGCTAAGGGGCCGGGTGGGCCGGGGGGGGCTTCAGGGCTACGCCATCTT
CATCGCGGGGGAGGCGGGCCAGAAGACCCTGAAGCGCCTCAAGATCCTGG
AGGAGTCCACGGACGGCTTTTACATCGCCGAGATGGACCTGAAGCTCAGG
GGCCCTGGGGAGCTTCGCGGCACGCGGCAGTCAGGCTACCCCGAGCTCAA
ACTCGGCGACCTCGCCGAGGACACGGGGATCATTGAGAAGGCCCGGGCCC
TGGCCAAGGCCATCGTGGACAAGGACCCCACCCTGGACCTCCCCGAGCAC
CGGGCCCTCAAGGAGGAGCTCAGGGCCCAGGCGGAGCGGGTGGGGTTCCG
GGAAGTGATCTGA
>TTC1236 recR, recombination protein recR
ATGCGCTACCCGGAAAGCCTCCTCAAGCTCACCCGGGCCCTCTCCCGCCT
CCCCGGCATCGGCCCCAAGACGGCCCAGCGCCTGGCCCTCCACCTCGCCT
TCCACAAGGAGGAGGCCGAGGCCCTGGCGGAGGCCCTGGAGGGGCTCAAG
CGGGTCCGGGCCTGCCGCGAGTGCGGCAACCTGGCCGAGGGGGAGCTCTG
CCCCATCTGCCAGGACGAGGACCGGGACCGCTCCCTCCTCGCCGTGGTGG
AGAGCGTGGCCGACCTGTACGCCCTGGAGCGGAGCGGGGAGTTCCGGGGC
CTCTACCACGTCCTGGGAGGGGCCTTGAACCCCCTGGAGGGCATCGGCCC
CAAGGAGCTCAACCTGGAGGGCCTCTTCCGGCGGCTGGAAGGCGTGGAGG
AGGTGGTCCTCGCCACCTCCATGACCGTGGAGGGGGAGGCCACCGCCCTC
TACCTCGCCGAGGAGCTGAAGAAGCGGGGGGTGCGGGTGACCCGGCCCGC
CTACGGCCTCCCCGTGGGGGGGAGCCTGGAGTACGCCGACGAGGTGACCC
TGGGCCGGGCCCTGGAGGGGAGGCGGCCCGTCTAG
>TTC1696 ruvA, holliday junction DNA helicase ruvA
ATGATCCGCTACCTCCGGGGCCTGGTCCTCAAGAAGGAGGCGGGCGGCTT
CGTCCTTCTCGCCGGGGGGGTGGGGTTCTTCCTCCAGGCCCCCACGCCCT
TCCTCCAGGCCCTGGAGGAGGGGAAGGAGGTGGGGGTCCACACCCACCTC
CTCCTCAAGGAGGAGGGGCTGTCCCTCTACGGCTTCCCCGACGAGGAGAA
CCTCGCCCTCTTTGAACTCCTCCTCTCGGTGAGCGGCGTGGGGCCCAAGG
TGGCCCTCGCCCTCCTCTCGGCCCTGCCCCCTAGGCTCCTCGCCCGGGCC
CTCCTGGAGGGGGACGCGAGGCTCCTCACCTCGGCGAGCGGGGTGGGGAG
AAGGCTCGCCGAAAGGATCGCCCTGGAGCTCAAGGGGAAGGTGCCCCCCC
ACCTCCTCGCCGGGGAGAAGGTGGAGAGCGAGGCCGCGGAGGAGGCGGTG
ATGGCCCTCGCCGCCTTGGGGTTCAAGGAGGCCCAGGCGCGGGCGGTGGT
CCTGGACCTCCTGGCCCAAAACCCCAAGGCCCGGGCCCAGGACCTCATCA
AGGAGGCCCTAAAGCGCCTCCGCTAG
>TTC0038 ruvB, holliday junction DNA helicase ruvB
GTGCGCCGCACGGGAATAAGGCTATCATGGAGGAGCGTGGACGACCTCGC
CCTTAGGCCCAAGACCCTGGACGAGTACATCGGCCAGGAGCGCCTGAAGC
AAAAGCTCCGGGTCTACCTCGAGGCGGCCAAGGCCCGAAAAGAGCCCTTG
GAGCACCTCCTCCTCTTCGGCCCCCCGGGCCTGGGCAAGACCACCCTGGC
CCACGTCATCGCCCACGAGCTTGGGGTCAACCTCCGGGTCACCTCCGGGC
CCGCCATAGAGAAGCCCGGGGACCTCGCCGCCATCCTGGCCAACTCCCTG
GAGGAAGGGGACATCCTCTTCATTGACGAGATCCACCGCCTGAGCCGCCA
GGCCGAGGAGCACCTGTACCCCGCCATGGAGGACTTCGTCATGGACATCG
TCATCGGCCAAGGTCCGGCGGCGAGGACCATCCGGCTGGAGCTTCCCCGC
TTCACCCTGATCGGGGCCACCACCCGGCCCGGCCTCATCACCGCGCCCCT
CTTGAGCCGCTTCGGCATCGTGGAGCACCTGGAGTACTACACCCCCGAGG
AGCTGGCCCAAGGGGTGATGCGGGACGCCCGCCTCCTCGGGGTGAGGATC
ACGGAGGAGGCCGCCCTGGAGATCGGTAGGCGGAGCCGGGGCACCATGCG
CGTCGCCAAGCGCCTCTTCCGGAGGGTGCGGGACTTCGCCCAGGTGGCGG
GGGAGGAGGTCATCACCCGGGAGCGGGCCTTGGAGGCCCTTGCCGCCCTG
GGCCTGGACGAGCTAGGCTTGGAGAAGCGGGACCGGGAGATCCTGGAGGT
CCTCATCCTCCGCTTCGGCGGCGGCCCCGTGGGCCTCGCCACCCTGGCCA
CCGCCCTCTCCGAGGACCCGGGCACCTTGGAAGAGGTGCACGAGCCCTAC
CTCATCCGCCAGGGCCTTTTGAAGCGCACTCCCCGGGGCCGGGTGGCCAC
GGAACTGGCCTACCGCCACCTGGGCTACCCGCCCCCGGTGGGCCCCCTCT
TGGAGCCGTGA
>TTC0725 ruvC, crossover junction endodeoxyribonuclease ruvC
GTGGTCGTGGCCGGCATAGACCCCGGGATCACCCACCTGGGCCTCGGGGT
GGTGGCGGTGGAGGGGAAGGGGGCCCTCAAGGCCCGCCTCCTCCACGGGG
AGGTGGTGAAGACCTCGCCGCAGGAGCCCGCAAAGGAGAGGGTGGGGCGG
ATCCACGCCCGGGTCCTGGAGGTCCTCCACCGCTTCCGGCCCGAGGCGGT
GGCGGTGGAGGAGCAGTTCTTCTACCGCCAAAACGAGCTCGCCTACAAGG
TGGGCTGGGCCCTGGGGGCCGTCCTCGTGGCGGCCTTTGAAGCGGGGGTG
CCCGTCTACGCCTACGGCCCCATGCAGGTGAAGCAGGCCCTGGCGGGGCA
CGGCCACGCCGCCAAGGAGGAGGTGGCCCTCATGGTCCGGGGCATCCTGG
GCCTGAAGGAGGCCCCGAGGCCAAGCCACCTGGCAGACGCCTTGGCCATC
GCCCTGACCCACGCCTTCTACGCCCGCATGGGCACGGCGAAGCCCCTTTA
G
>TTC0923 sbcD, putative exonuclease sbcD
ATGCGCCTTCTCCACACCGCCGACTGGCACCTGGGCAAGCTCCTCAAGGG
GGTGGACCGGACCCCGGAGATCGCCGCCGCCCTCCGGGACCTTCTGGGCC
TGGTCCGGTCCGAGCGGGTGGACCTGGTGGTGGTCTCCGGGGACCTGTTT
GACCGGCCCCAGGTTTCGGCGGAGGCCGAGGCTTGCGCGGTGGAGTTCTT
CATGGAGCTCAAGGCCCTTGGGGTCCCGGCCCTGGTCATCGCCGGCAACC
ACGACCCCAAAGAGCGCCTCGAGGCCCTCGCCCCCCTTCTCGGGCTTGCG
GGGGCCCGGGTCCGGGGCCGCCTCCTCTTCGCCGAGGAGGGAGGGGTGGT
GGAGGTGGGCGGGGTGCGGGCGGGGCTTCTGCCCTTCGTTTCCGAGCGCC
TCCTCGTCCGGCGCCTCTTCCAGGAGGACGAGGTCCTGCACCGCACCTAC
GCCGAGGCCATGCGCCGGGTGCTGGACAACCTCAAAAGCCCTCTTCTCCT
GGGCCACTTCGCCGTGGAGGGGGCGAGGCCCGGGGGAGGGGAGTTCGTCT
TCCACCTGGTGGGAAGCTACGCCGTCCCCCGGGCGAGCCTGCCTTTGGAG
GTCCGCTACCTCGCCCTGGGCCACGTCCACCGGCAGCAGCAGGTGAGCGA
GGCCCCCGTGGCCTGGTACCCGGGAAGCCTGGTGCAGCTGGACTTCGGCG
AGGGGGAGGCGGCGGAGCGGGGGGTGCTCCTCGTGGAGCTTCCCCCCTCG
GGGCCGCCCCGGGTCCACCCCGTCCCGGGGCGGTGGGGGAAGCCCCTCAG
GACCTACCGCCTGCGGCCCGAGGAGCTGGACGGGAGGATGGGCGAGTTGG
AGCGCTTTCCCGGCTACCTGCGCCTGGTGGTGGAGGGGAGGCTTTCCCCC
CAGGTCAAGGAGAACCTTTTCCGGGCCCTCCCCCACCTCCTCGCCGTGGA
GGGCGCCCCGCTCCAGGCTGGGGAGGGGAGGCGGGAGGAGGTGCAGGACC
TCGGCTTCGTGGAGGGCTACGCCCGCTACCTGGAGGAGCGGGGAAGGAAG
GAGGAGGCCCTGCTGGAGCGCTTCGCCGAGGTGCTGGCGGAGGTGGAGGG
TGAGGCCCTTACGGCTTGA
>TTC1084 tatD, sec-independent protein tatD
GTGACCGACACCCACGCCCACCTGGACTTCCTGGAACCGGAGGAGCTCGC
CGAGGCCGCCGCCCACCTCCCAAAGCTTCGGGCCGTGCTCACCCTGGGGG
TGGACCCGGGCCGCTGGGAGAAGACCCTAAGCCTGGCCCAGGGAAACGTC
TACGCCGCAGTGGGCCTCCACCCCACGAGCGCCCACCTCCTCTCCCCCGA
GGTGGAGGAGGCCCTCCGCCACTACGCCCGAAGCGAGCGGGTGCGGGCCA
TCGGGGAGACGGGGCTGGACTACTACTGGACCCCGGAGACCAGGGCCGCC
CAGCTCAAGGCCCTGGACTTCCAGGCGGCTTTGGCGGAGGCCCTCGGCCT
TCCCCTGGTCCTCCACGTGCGGAGCAAGGACGGCAAGGCCGAGGAGGACC
TCGCCGCCTGGCTCCTCCTCCACCGGCCCAAACGGACCGTGCTCCACGCC
TTCTCCGGCCACCCCGCCCTGGAAGCGGCGGGCCTGGAGGTGGGGGCCTA
CTTCAGCTTCGCCGGGCCCCTCACCTACAGGAAAAACGCCGCCCTGCGCG
AGGCCGCGGCCCGGCTCCCCGAGGACAGGCTTCTGGTGGAGACCGACACC
CCCTTCCTTCCCCCGGAGCCCTTCCGGGGCAAGCGGAACCGCCCCCACTA
CGTGCGCTTTACCCTGGAGAAACTCGCGGAAGCGCGGGGCCTTCCCTTCG
CCGAGGCGGAGGCCCTCACCGACCGGAACGCCCGGGTATGCTTTGGCTGG
CCATGA
>TTC1062 uvrD, DNA helicase uvrD
GTGAGCGACGCCCTCCTAGCCCCCCTCAACGAGGCCCAGCGCCAGGCGGT
CCTCCACTTTGAGGGGCCCGCCCTGGTGGTGGCCGGGGCGGGGAGCGGGA
AGACCCGCACCGTGGTCCACCGGGTGGCCTACCTCGTCGCCCGCCGGGGG
GTCTTCCCCTCGGAGATCCTGGCCGTCACCTTCACCAACAAGGCCGCGGA
GGAGATGCGGGAGCGCCTCCGGGGGCTGGTCCCGGGGGCGGGGGAGGTCT
GGGTCTCCACCTTCCACGCCGCCGCCTTGAGGATCCTCCGCGTCTACGGG
GAGCGGGTGGGCCTCAGGCCCGGCTTTGTGGTCTACGACGAGGACGACCA
GACCGCCCTCCTCAAGGAGGTCCTGAAGGAGCTCGCCCTCTCGGCCCGGC
CCGGCCCCATCAAGGCCCTTTTGGACCGGGCGAAGAACCGGGGCGTGGGC
CTTAAGGCCCTCCTCGGCGAGCTTCCCGAGTACTACGCCGGGCTTTCCCG
GGGAAGGCTTGGGGACGTCCTGGTGCGCTACCAGGAGGCCCTTAAGGCCC
AGGGGGCCTTGGACTTCGGGGACATCCTCCTCTACGCCCTGAGGCTTTTA
GAGGAGGACGAGGAGGTCCTCAGGCTCGTGCGCAAGCGGGCCCGCTTCAT
CCACGTGGACGAGTACCAGGACACGAGCCCCGTCCAGTACCGCTTCACCC
GGCTTCTCGCCGGGGAGGAGGCCAACCTCATGGCCGTGGGCGACCCCGAC
CAGGGGATCTACTCCTTCCGGGCGGCGGACATCAAGAACATCCTGGACTT
CACCCGGGACTACCCCGAGGCCCGGGTCTACCGCCTGGAGGAGAACTACC
GCTCCACCGAGGCCATCCTCCGCTTCGCCAACGCCGTGATCGTGAAGAAC
GCCCTCCGCCTGGAGAAGGCCCTGCGCCCGGTGAAGCGGGGCGGGGAGCC
CGTGCGCCTCTACCGGGCGGAGGACGCCCGGGAGGAGGCCCGCTTCGTGG
CCGAGGAGATCGCCCGGCTCGGCCCCCCCTGGGACCGGTACGCCGTCCTC
TACCGCACCAACGCCCAAAGCCGCCTTCTGGAACAGGCGTTGGCGGGGCG
GGGGATCCCGGCGCGGGTGGTGGGCGGCGTGGGGTTCTTTGAAAGGGCCG
AGGTCAAGGACCTCCTGGCCTACGCCCGCCTCGCCCTCAACCCCCTGGAC
GCCGTGAGCCTGAAGCGGGTCCTGAACACCCCCCCTCGGGGCATCGGCCC
GGCCACCTGGGCCAGGGTGCAGCTCCTCGCCCAGGAGAAGGGGCTTCCTC
CCTGGGAGGCCCTGAAGGAGGCGGCCAGGACCTTCCCCCGCCCCGAGCCC
CTGAGGCACTTCGTGGCCCTGGTGGAGGAGCTTCAGGACCTGGTCTTCGG
CCCCGCCGAGGCCTTCTTCCGCCACCTCCTCGAGGCCACCGACTACCCCG
CCTACCTCCGGGAGGCCTACCCCGAGGACGCCGAGGACCGCCTGGAGAAC
GTGGAGGAGCTCCTCAGGGCGGCCAAGGAGGCGGAGGACCTGCAGGACTT
CCTGGACCGGGTGGCCCTCACCGCCAAGGCGGAGGAGCCCGCCGAGGCGG
AGGGGAGGGTCGCCCTCATGACCCTGCACAACGCCAAGGGGCTGGAGTTC
CCCGTGGTCTTCCTCGTGGGGGTGGAGGAGGGGCTTCTGCCCCACCGCAA
CTCCGTGAGCACCCTCGAGGGCCTGGAGGAGGAGCGCCGCCTCTTCTACG
TGGGCATCACCCGGGCCCAGGAGAGGCTCTACCTCTCCCACGCCGAGGAG
CGGGAGGTCTACGGCAGGCGGGAGCCCGCCCGGCCGAGCCGCTTCCTGGA
GGAGGTGGAGGAGGGGCTTTACGAGGTGTACGACCCCTACCGGCGCCCGC
CCTCCCCGCCCCCCCATCGCCCGAGGCCCGGGGCCTTCCGGGGCGGGGAG
CGGGTGGTCCACCCCCGCTTCGGCCCCGGCACCGTGGTGGCGGCCCAGGG
GGACGAGGTCACGGTCCACTTTGAGGGGTTTGGGCTCAAGCGCCTTTCCC
TCAAGTACGCGGAGCTTAAGCCGGCATGA