Gene list
Applied filters:
COG category: Replication, recombination and repair
Genomic element: chromosome
Number of genes found: 88
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