Gene list
Applied filters:
COG category: Replication, recombination and repair
Organism: Brucella melitensis 16M, 16M
Number of genes found: 152
Show UniProt / TrEMBL protein name | View as list | View in Fasta format (Protein) | ||||
# Brucella melitensis 16M, 16M >gid:98501 BMEI0011 DNA POLYMERASE III, DELTA SUBUNIT ATGGCGCAGAAAAAAGCACACGAAGTCGACAGCTTTCTGGCGCGGTCGAC AAGTTCATTTCCGGTCGTGCTTCTCTACGGTCCCGACAAGGGGCTGGTGA ATGAGCGCGCACGCCGTTATGCCGCAGCAAGCAAGCTGCCACTCGACGAT CCCTTTGCCGTGATCCGCATGGAGGCCGATGAGATCGAGGCCGATCCGGC AAAACTTGCCGACGAAGCCGGCACGATTTCCATGTTCGGCGGGCAACGCC TGATCTGGATCAAGAACGCTGGCGGCCAGAAGAAGCTGGCCGAGGCCGTG AAACGGCTTGCAGCTGAGCCCCCGCAGGAAACCTTCATTCTGATTGAAGC AGGCGATCTCAAAAAGGGTGCAGGCTTGCGCAGCGCCGTTGAGAATGCTT CAGCAGGCATGGCCCTGCCCTGCTATTCCGATGATGCGCGCGGCATAGAC GGCGTGATCGACGATATTCTTGCCGAGTGGAAGATGCAGATCACGCTTGA TGCGCGCCAGCTTCTGCGCGCCAGCCTGGGCGGCGACCGGCTGGCGACGC GCGGCGAGCTGGAAAAACTCTGTCTCTATACCCGCGGCAAGGAACGCATC GACATTGATGATGTGCGTGAAGCGGTGGGCGATGTTGCGGGGCTCTCAAC CGACGAAGTGGTCGATGCGGTTCTGGCTGGGGATCTTCCGCGTTTTGAGA TTGCGTTTGACCGGGTCGTCAAATCCGGCACCGCGCCCTTTCTTCTGCTC ACTGCGGCCATGCGCCAGTTCCAGCAGGTGCAGGCATTGCGCCATATCGC CGATACCGAGCGCAAAAGCGCCTCCATGGTGGTCGCAAGCGCAAGACCGC CCATTTTTTTCAATCGAAAAAAGCTGATCGAAACCGCCATTAGCCGCTGG ACCGGCGAAAGCCTCACCCGCGTCATGGAACGGCTTCAGCGCGCCGTACT GGAAAGCCGCCGAAACGCAGCCCTTTCCGTACCGATCATCCGCCAATGCC TGCTTGCGATCAGCGTAGAGTCGCTTCGCAATGCCAGGCGATAG >gid:98531 BMEI0040 INTEGRASE/RECOMBINASE XERD ATGACAATGCGCGCTTCACTGGCAATCGAGAATTTTCTGGAAATGATGAG CGCCGAACGCGGCGCGGCACAAAATACGCTCGAATCCTATCGGCGTGACC TTGAAGCCGCCGCCGAAGAGCTTGCCGCAAAAGGCGTGAACCTTGCCGAA GCGGAAACCGGGCATATACGCATGACCCTCGACACCATGGCAGCACAGGG TTTTGCCCCGACCTCGCAGGCGCGCCGCCTTTCCGCCTTGCGCCAGTTTT TTCGCTTTCTCTATTCGGAAGGTTTCCGGCAGGACGATCCGACCGGCATC CTTTATGCGCCGAAAAAACAAAAGCCCCTGCCCAAGATCATGAGCGTCGA AAATGTCGGCAAACTGCTCGACCGGGCTGCACTTGAAGCCAATGAGGCGG CGGAGCCGGGCGAACGCATCAAGGCATTGCGCCTGCACGCCCTTCTGGAA ACGCTCTATGCGACGGGCTTGCGCGTGTCGGAACTTGTCGGCCTGCCCGT CACCGTGGCGCGCACCGACCACCGCTTTTTGCTGGTGCGCGGCAAGGGCT CGAAGGATCGCATGGTGCCCCTTTCCCGGAAAGCGCGCGATGCCTTGCAA AAATTTCTGACCCTGCGCGATTCCCTGCCCGGCAGCGATGATAATCCCTG GCTCTTCCCGGCTTTTTCCGAAAGCGGCCATCTGGCGCGGCAGGTTTTCG CGCGTGAATTGAAGGGGCTCGCCGCCCGGGCAGGGCTTGCTGCTTCCTCA GTCTCTCCGCATGTGCTGCGTCATGCTTTCGCCAGCCATCTTTTGCAGAA CGGCGCAGACCTGCGCACGGTGCAGCAATTGCTTGGCCATGCCGATATTT CGACCACGCAGATCTATACGCATGTGCTGGAGGAAAGATTGCATAAACTC GTCAGCGAACATCATCCGCTTGCCGATTAG >gid:98559 BMEI0068 EXODEOXYRIBONUCLEASE III TTGCAATTATCGGATAAATGGTTAGTTTCGCGACCAACCTGTCAAAAGTC GCGAGTTCTTTCCATGGCCTTTTCCATTGCTACCTGGAACATCAATTCGG TGCGTCTGCGCATGCCGCTTGTCGAGCAGTTTCTGCGCGATTATCAGCCC GATGTTCTGTGTTTGCAGGAAACCAAGTGCCCCGACGACCTGTTTCCCGC CAAGGGTTTTCGTGCGCTCGGCTATGAGCATATCGCGATCAGCGGCCAGA AAGGTTATCACGGGGTCGCCACGGTTTCACGCCGCCCGCTGGACGGTGTG GAGAAGGTAGACTTCTGCAATATGGGCGATTGCCGCCACCTGAGCGCCGT CGTTGAGGCGGGCGACAGGAAACTGCGCATCCATAATTTCTATGTACCGG CGGGCGGCGACGAGCCGGACCCGGAAATCAACCCGAAATTTGCGCACAAG CTGGCATTTCTTGAGGAAATGCGCGCCATTATTGCCGACCGGAAGGACGG ATGTTCATCGCTTCTCGTCGGCGATCTCAACATCGCGCCGCTCGAAAATG ACGTCTGGTCGCACAAGCAGCTTTTGAAGATCGTCAGCCATACGCCGATC GAGACCGAAACGCTGGAAGACCTGCGGATCAAGGGCGGCTGGAGCGACCT CATGCGCCATCTCATTGCGGCGGACCAGAAAATCTATACCTGGTGGAGCT ATCGCGCCAAGGATTGGGATGCCGCCGATCGCGGCCGCAGGCTGGACCAT GTATGGGGTTCGGCTGATCTGGAAAGCCATAACAAGGGCTTGCAGGTGCT GCGCGATGCGCGCGGCTGGGACCGCCCTTCGGATCATGTGCCGGTGATTG CGACTTTCGATCTGGATTGA >gid:98619 BMEI0126 MUTATOR MUTT PROTEIN (7,8-DIHYDRO-8-OXOGUANINE-TRIPHOSPHATASE) (8-OXO-DGTPASE) ATGACCGAAGTGAAGAAACGGCGCATGCTTCTTGTCGTGGCCTGTGCCCT TGTGGATCAGGACGGGCGGGTGCTTCTGGCGCAGCGTCCCGAAGGCAAGC AGCTTGCGGGCCTGTGGGAATTTCCCGGCGGCAAGGTGGAGCCGGGTGAG ATGCCGGAAGAAACCCTGATTCGCGAATTGCAGGAAGAGATCGGCATCAC GACAAAAATCCCCTGCCTCGCACCGCTGACTTTCGCGAGTTACACATATG ATGATTTTCACCTTCTGATGCCGCTCTATGTCTGCCGCCGTTTCGAGGGC GTTGCGCGCGGGCTGGAAGGGCAGGCGCTGAAATGGGTGCGCCCGAAGGA CATGCGCGATTATCCGATGCCTCCGGCGGATGAGCCGCTCATTCCGTTTC TGGTCGATCTGCTTTGA >gid:98640 BMEI0147 INTEGRASE ATGGCGACAAATAGCGAATTTCTGATCCCGGCGCGCGCCGACCTTGCAGC AGCGCGCGAGGAATGGCTGAAATCGCTGAAAACCATGCGGCGTCTTTCCG ACAATACGCTCATTGCCTATGAACGCGATACGCGCCAGTTCCTGCAATTT CTCACCGGCCATCTGGGTGAGCCGCCTTCGCTAAAAGAGATCGGCAATCT GCGTATCGCCGATCTGCGATCCTTCCTTGCCAATCGCCGCAATGACGGCG CGGGGGCCCGCACGCTTGGCCGGGGGCTTGCCGGGGTACGCTCACTCCTG CGCCATCTGGAAAAGCGCGGCCTCGTCAATGCGGCAGGCGCAAGCGCCAT GCGTGCGCCGCGCCAGCCGAAATCTCTGCCGAAGCCGCTGACCGCAGACG ATGCCCGGCGGGTGGTTTCGGCGGATGGTCAGATGGCGGAAGAACCATGG ATCGCCGCGCGCAATGCTGCCGTACTGACGCTGCTTTATGGCTGCGGCCT GCGTATTTCCGAAGCCCTGGGGCTCAGCGGAGACGCGCTCAGCGATCCTT CTGCCCGCTCCATGACCATTACCGGCAAGGGAAGCAAGACGCGGCTCGTG CCCTTGCTGCCTGCGGTCCACAAGGCTGTCGCGCAATACCGCGCGCTTTG TCCTTTCGATCTTTCTGCCGGGCAGCTGCTGTTTCGCGGTGCAAAAGGCG GCCCTCTTCATGCCGCGATCATACAGCGCGAAATGCAGAAACTGCGCGCA GGCCTGGGTCTGCCCGATAGTGCCACCCCCCATGCCCTGCGCCACTCTTT TGCAACGCATCTTCTGGGGCGCGGAGGCGATTTGCGCACCATTCAGGAGC TTCTGGGCCATGCAAGCCTGTCCACCACACAGGTCTATACCGGCGTCGAT ACGCAGCGATTGCTGGAAGTCTACGACAAGACGCATCCCCGCGCCTGA >gid:98700 BMEI0200 TRANSPOSASE GTGCGAGCGTTAATCGCGGCGGGGCTTTCTCAAGGCAATCCGGGCGGAGC CGGATCGCAAGGATCTGTCGCAAATTATTCAGATCTTCTGCGCTATGCGT CTGGGCTATGCATGGTAGAGGAAAGTGTGCAGCGAATGGCGATCGATTTC AAAGGGGCTCATTTCCCCAAAAATGTCATTCTGTATGCGGTCTTCTTTTA CGTACGCTATCCCGTCTCCTATCGTGACCTACAGGAAATTCTGGCTGAAC GCGGCATTGAGGTTGACCATGCGACATTGAACCGGTGTGTTGTTCGATAC TCTCCTCAGATTGCCACACAGGCACAGATGCGCAAACGACATACGGCCGG CTCCTGGCGTGTTGACGAGACCTATCTCAAGGTTCGGGGCAAATGGGTTT ACTTATACCGAGCCGTTGATCGTGACGGTCAAACCCTTGATTTCATGCTG TCTGAGCGCCGAAATGTTGGCGCTGCAAGGCGTTTCTTTAAAAAAGCCAT CACAAGCAGCGGTGTTCCACATAAGATCGTCATTGATAAAAGTGGAGCCA ATCTGGCAGGCGCTCAGGCTGTAAATAATATCCTGAAAATCACTGGTGCG GATAAGTTGATTGAAATTTTGCAGGTCAAATATCTGAACAATATCCTTGA GCAGGATCATCGTTTCATCAAGCGGATCACCAAACATATGCTGGGCTTCA AGGCATTTCATTCCGCCGCAGCGACAATCGCAGGTATCGAAGTAGCGCAC ATGATCCGCAAGAACCAGTTCGCTAATGACAATTGCTCACCATTCAAGGT CTTCGCCGAACTCACAGCATAA >gid:98716 BMEI0215 (Di)nucleoside polyphosphate hydrolase ATGTCCGAGCATAAAGGCCCAACCGGCGCGATGGTCGATCCTGAAAGCCT GCCTTACCGTCCCTGTGTCGGGCTGATGGTTCTCAACAAGGCGGGGCTGG TCTGGGCCGGGCGGCGCATCGTCATTCCGGGCGATGAAATGGATGGCGCC ACACAGCTCTGGCAGATGCCGCAGGGGGGCATCGATAAGGGCGAGGACCC GGCGCAAGCCGCGCTGCGCGAACTTTATGAAGAAACCGGCATGACGTCGG TCTCGCTTCTGGAGGAAGCATCGGACTGGATCAATTACGATCTGCCGCCG CATCTGGTGGGGCTGGCGCTCAAGGGAAAATATCGCGGCCAGACGCAGAA ATGGTTCGCCTATCGCTTCGAGGGCGATGAAAGTGAAATTGCGATCAATC CGCCACCCGGTGGCCACACTGCTGAGTTCGATTGCTGGGAATGGAAGCCG ATGGCTGACCTGCCGAACCTGATCGTGCCGTTCAAGCGCAAGGTCTATGA ACAGGTGGTTGCGACTTTCCGGCATCTGGCGGCCTGA >gid:98746 BMEI0245 PRIMOSOMAL PROTEIN N' ATGTCGAAAGATTCGCACGATATTGCAAACCCCATGTCTGGTCTGTTTCC GGAACTCGCGCCACGGGTGGTTTCCGTGCTCGTACCCATGCCCGCGGAAC GGCCTTATTCTTATATGGTTCCGCCGGGCATGAACGTCCAGCCCGGATCG ATCGTGCGCGTGCCACTCGGGCCGCGGGAGGTGGCGGGGATTGTCTGCGA GGGCGAGACCGATGCGGTCGATTCCAGAAAATTGCGGGAGATTTCAGAAG TTTTCAATTGCCCGCTAGTGGGGCCTGAGATGCTGCGCTTCATGCGCTGG GCAGCCGATTATACGCTTTCGCCGCCCGGCATGGTGGCGCGCATGGTTTT GCGCGTGCCTGCCGCCTTCGACCCCGAACCGGCGGTGCCGGGGCTTCGCT ATCGTGCCGGCGAGCCGGAGCGCATGCCAGAGCGCATGACTGCGGCTCGC GCCCGCGTGATGGAGCTTGCCCGCGACGGGCTTGCCTGGACACGCTCCGG CCTTGCCCATGCGGCGGGCGTATCGCTGACGGTCGTGGATGGCTTGAAGG CGCAAGGCATTTTTGAAGAAATCATGCTGCCGCCGCCAGCCGTGGTTGCA AAGCCCGATACGGATTATGCGCGCGCCACGCTTTCGCAGGACCAGCAGGC AGCCGCCGAAATGCTGTCGGAAGCCGTCGAAGCCGGTGGTTTTTCGGTTT CTCTGCTCGATGGTGTGACGGGGTCGGGCAAGACGGAGGTTTATTTTGAA GCGGTCGCCAAGGCGCTGGATGCGGGCAGGCAGGTGCTGATTCTCCTGCC GGAAATCGCGCTGACCCAGCAGTTTCTCGACCGCTTTCACGACCGCTTTG GCGCAAAGCCCGCCGAATGGCATTCCGATCTTGCGCCGCGCACCCGCGAG CGCGTCTGGCGGCAGGTTGCGGAGGGAACAGTGCGGCGTTGTGGCAGGTG CGCGCTCAGCACTTTTCCTGCCCTTCAAGGAACTGGGGCTGATCGTCGTC GATGA >gid:98747 BMEI0246 PRIMOSOMAL PROTEIN N' TTGGCGCAAAGCCCGCCGAATGGCATTCCGATCTTGCGCCGCGCACCCGC GAGCGCGTCTGGCGGCAGGTTGCGGAGGGAACAGTGCGGCGTTGTGGCAG GTGCGCGCTCAGCACTTTTCCTGCCCTTCAAGGAACTGGGGCTGATCGTC GTCGATGAAGAACATGATCCGGCTTACAAACAGGAAGACCGCGTTTTCTA CAATGCGCGCGATATGGCCGTGGTGCGTGGCCATATTGGCAGCTTTCCGG TCGTGCTCGCCTCGGCCACGCCGTCCATCGAAAGTCAGGTCAATGCGGAG CAGGGCCGCTACAAGCGAATCAAGCTCTATGGCCGCTATGCTGAAGCAGC ACTTCCCGATCTTAAAACCATCGACATGCGCCGTTCGCCGCCGCCGCCGG GCCGGTTTCTGTCGCCTGCCCTGACGGAAGCTGTCGGCAAGACAGTGGAG CGCGGCGAGCAGGCGCTTTTGTTCCTCAACCGGCGCGGCTATGCGCCATT GACGCTCTGCCGGGTCTGCGGCCACCGCTTTCAATGTCCGCAATGTTCAA GCTGGCTGGTGGAACATCGTTTTCGCGGCCAGTTGATGTGCCACCAGTGC GGCTATCATGAGCCGGTGCCGCAAGCCTGCCCGGAATGCGGCACGCTGGA TCATCTGGTTGCCTGCGGCCCCGGCGTGGAGCGCATCGCGGAGGAAGTGG CGGCAACCTTCAATGACGCGCGAATCATCGTTCTTTCGTCTGATATGGCG GGTGGCGTGAAGCGGCTGCGGCTGGAACTTGACGCTATCGCAAAAGGCGA AGCGGATATCGTCATCGGCACGCAGCTTGTCGCCAAAGGACACAATTTTC CCAACATGACACTGGTGGGCGTGGTGGATGCCGATCTGGGGCTTGCCAAT GGCGATCCGCGCGCGGCCGAACGCACGTTCCAGTTGCTCAATCAGGTCAC GGGCCGCGCGGGGCGAACGGGGCGCAAGAGCCTCGGTCTCATTCAGACTT ATCAGCCTGACCATCCCGTGATGCGGGCTATCGTCAGCGGCGATGCGGAC GCCTTTTACGCCCGCGAAATCGAGGAGCGCGAGCGCAGCAATCTGTCGCC TTTCGGGCGGCTTGCGGCGCTCATCATCTCCGCTGATAACCGGCCCGACG CTGAAAATCATGCGCGCGCGCTTCGCCGCTGTGCGCCCTCGTCGCGTGAA ATTTCCGTGCTGGGACCAGCCGAAGCGCCGCTTGCGCTGGTGCGCGGGCG CCATCGGTTCCGCATTCTCGTGCACGGGACAAAACGCGCGGATATTCAAG GATTTATCCGCGCGCTTCTGGCGGCTGCGCCAAAGGAAAAAGGCTCGATC AGGGTGCAGGTGGATATAGATCCGCAAAGCTTTCTCTGA >gid:98776 BMEI0275 ATP-DEPENDENT DNA HELICASE ATGAACCAGCAACCTGCCCATGATCTGCCGCTGACATTGAGTGGCCGCGA CGTGACCGCGGTGCTGGGGCCGACCAATACCGGCAAGACACACCTGGCCA TCGAGCGGATGCTGTCGCATGGGAGCGGCATGATCGGCCTGCCGCTGCGC CTGCTTGCGCGCGAGGTTTATAATCGCGTGGCCGAGCGGGTAGGGGCAGC CAATGTTTCGCTGGTAACGGGCGAGGAAAAGATCGTGCCGCCGGGTGCGC GCTATTCCGTCTGTACGGTGGAGGCCATGCCGCGCCACACAGATGCGGCC TTCGTCGCCATTGATGAAGTGCAACTGGCCAACGATCTGGAGCGCGGCCA TATTTTCACCGACCGTATCCTGCATCTGCGCGGACGGCAGGAAACGCTGC TGCTTGGTGCGGCCACCATGCGCGGCATTCTGGAAAAGCTGCTGCGCGGC GTGAATGTGGTGACACGTCCGCGTCTTTCGCATCTGGCCTATGCCGGATC GAAGAAGATGACGCGCCTGCCCAACCGTTCCGCAATCGTGGCCTTTTCCG CCGACGAGGTTTACGCCATCGCCGAGCTTATCCGCCGCCAGCGCGGCGGG GCGGCGGTGGTGATGGGTGCGCTCAGCCCGCGTACGCGCAATGCGCAGGT GGAGCTTTACCAGTCGGGCGATGTCGATTTTCTGGTGGCGACGGATGCGA TCGGCATGGGGTTGAACCTCGATGTGGATCACGTCGCCTTTGCGCAGAAC CGCAAGTTCGACGGCTATCAGTTCCGTGATCTGACGCCCGCCGAAGTGGG GCAGATTGCGGGCCGTGCGGGCCGCCATGTGCGCGATGGCACTTTTGGCG TGACCGGTCAGGTCCATCCTTTTGACGAGGAACTGGTTGAGCGGGTGGAA GCGCATAATTTCGATCCGGTGAAGGTGCTGCAATGGCGCACGTCCCGTTT CGACTTTTCCTCTGTCGAGGCGCTGCTTCGTTCGCTGGAAACGCCTGCGC CCATTGAGGGGCTTGCCAAGGCTCTGCCTGCCGTCGATCAACAGGCGCTT GAAAATCTGTCGAAAGACGACGAGATTATGCGGCTTGCAACGACGCCGTC GCGCATCGAGCTTTTGTGGGATGCGTGCGCGCTGCCTGACTATCGCAAGA TCGCACCGGCACAGCATGCCGATATTATTGCAACCATCTATCAGGATCTT GTACGCCGAGGGAGCGTTGATGAAGATTATATGAGCGAACAGGTGCGCCG CGCCGACAGCACAGAGGGAGAAATCGACACCCTGTCGCATCGCGTGGCCC AAATCCGTACCTGGACTTTCGTGTCGCACAGGCCTGGATGGCTTGCCGAT CCGACACACTGGCAGGAAAAGACGCGCGAAATAGAGGACAGACTGTCCGA TGCGCTGCATGAGAGGTTGACGAAACGCTTTGTAGACCGCAGGACAAGCG TGCTTATGAGGCGCCTGAGAGAGAATGCCATGCTTGAAGCAGAAATCAGC CCTGCCGGAGACGTGATCGTCGAGGGCCATAATGTCGGGCAACTGGAAGG ATTCCGTTTCACTGCCGACGTCCAGGCCGAGGGGCCGGACGCCAAAGCTG TGAAGACGGCTGCACAAAAGGCGCTGGCCGCCGAGTTTGAACGCCGAGCG GAGCGCTTTGCTGCTGCGCCAAATGGCGATCTCGCGCTTGGTTCGGATGG CGTCCTGCGCTGGATCGGCGCGACCGTCGCCACGCTGGTTGCGGGCGATG ACGTGTTGAAGCCGCGCACGGTCATTCTGGCCGACGAACAACTGACGGGG CCAGCGCGCGACAAGGTCGACGCCCGTATTGACCGTTTCGTTGCCCATCA TATCGAAACCGTTCTGAAGCCGCTTGCCGATCTGGCAAATGCGGATGCGC TGACGGGCATGACGCGCGGCCTGGCTTTCCAGATCGTCGAAAACCTGGGC ATTCTCCAGCGCCGTGACGTGGCGGAGGAAGTGCGCGGCCTTGATCAGGA TTCGCGTGCGGCGCTTCGCCGTCTGGGCGTGCGTTTCGGTGCTTATCACG TTTTCATGCCCATGCTGCTAAAGCCGGCCCCGGCTGGCCTCATCACGCTT CTCTGGGCGCTCAAGAACGATGGCCGCGAACGGGCAGGTTACGGCGATGT CGTCAATGTGCTGGCCGCTGGCCGCACCTCGGTCGTGGTTGATCCGGCCT TCGATCCGATGTTCTACCGTCTCGCTGGCTATCGTGTGCTGGGCCGGCGC GCGGTTCGCATCGATATTCTGGAGCGCCTTGCCGATCTCATTCGCCCGGC TCTTGCCTGGCGTCCGGGTTCCGGCGCTCGCCCGGATGGCGCTTATGATG GTGGACGCTTCATCGTGACGCCTGCCATGATGTCCATTCTGGGGGCGACA ACCGAGGATATGGAAGAAATCCTCAAGAGCCTTGGCTATCGCAGTGAGGC AATGGAAGTCGCTGCGGTGGCGGCGAAGCTTGCGGAGCTTGATGCATTCG CAGCCGAGGCTGGTGGCAAGGATGCAGCCGCGCCGGTTGAAGCTGAAAAG CCAGCCGTGCCGCCGGCAGAACCTGTTCCCGCGCCGGTCGTGGCTGCTGA ACCCGAGGCTAAAGTGGAAGAGACGGCGGCTCCAGCCATCGAAGCTGCTC CTGTTGCTGAAGCGTCTGCGGGCGAGGCGGAAGAGCCGAAGCCGGTTCTT CTGTGGCGTCAGGGCCGTTTTGAAGGCCGCAACCGCAATCAGGACCAGAA TCGCCAGCGCCAGAATCGTGGAAACCAGCATCGTGGCAACCAGAATCGCG GCCATCAGAACCGCGAAGAGGGTGGTGCGGCACGCAAGGCTGAGGGTGGT GAAGAACAGAATCCGCGTGGCGGCAACAAGCGCTTTGATAAGCACAAGCG CCAACACGACGGCGAAGGCAAGCGCGAAGGCGCGAAGGGCGAATTCCGTG GTGGCAATCAGCGCCAGCCAAAGCGCGATCATGTCTATCAGGGCAACAAG CGGACGGAACAGGAGCGGCCTGTTCGTATCGACCCCGATTCGCCTTTCGC CAAGCTTCTGGCGCTCAAGGAACAGATGAAGAAGTAA >gid:98832 BMEI0332 CROSSOVER JUNCTION ENDODEOXYRIBONUCLEASE RUVC ATGAAAGAAACGATTCGCATTATTGGCATCGATCCGGGCCTGCGCCGAAC CGGCTGGGGCATCGTCGAATCGCTTGGCAATTCGCTGCATTTCATCGGCT CGGGGACCGTGACCTCGAATGCCGAGATGGATCTGGCATCGCGCCTGTGC CAGTTGCATGAAGGGCTTTCAAAAGTCCTGCATGAATTCATGCCGCATGA AGCGGCGGTCGAGCATACTTTCGTCAACAAGGACGCGACTGCAACACTCA AACTGGGGCAGGCGCGCGGCATTGCGCTGCTGGCGCCGGCGCAGGCCGGA TTGCCGGTTGCCGAATATGCGCCCAATGCCGTCAAGAAGGCGGTGATCGG CGTTGGCCATGGCGAAAAGCAGCAGATCCACATGATGGTGAAGGTGCTGA TGCCGCGCGCTTCCTTCGATACGAGCGATGCCGCCGATGCGCTGGCCATC GCCATATGTCATGCGCATCACCGGCAGAGCATCGTGAGTGCCCGCCGGAT GCAGGCATTGTTAGCGGGGTAA >gid:98833 BMEI0333 HOLLIDAY JUNCTION DNA HELICASE RUVA ATGATCGGCAAGTTGAAGGGCGTGATTGACGAAATTGCCGAGGACCATGC TGTCATCGACGTGCATGGCGTGGGCTATGTCGCGTTTTGTTCGGCGCGCA CGCTGGGCAATCTCGGTGGCGCGGGCGAGGCGGCCATCCTGTTCATCGAA ACCTATGTCCGTGAAGATATGATCCGCCTTTATGGATTTGCCACGCAGCT TGAGCGCGAATGGTTCCGCCTGTTGCAGAATGTGCAAGGGGTGGGGGCCA AGGTGGCTTTGGCGGTGCTTGGCACCCTGTCGCCGTCCGAACTTGCCAAT GCGATTGCGCTGCGCGACATTGCCATGGTTTCGCGCGCGCCGGGCGTCGG CAAGAAAGTGGCAGAGCGTATCGTTACCGAATTGAAGAACAAGGCTCCCG CCTTTGCCGGTGAGGCGAGCGGCACGATCGGGCTCAAGCAGGAGCTTGGC GCAGGTGCGGCGCCTGCACCCGTTGCCGATGCGGTTTCGGCGCTTTCCAA CCTCGGTTATTCGCGCGATCAGGCCGCCAATGCCGTGGCAGCCGCCTTGA AGGAAACGGGCGAGGGCGCCGATTCGGCCAAGCTGATACGGCTCGGTTTG AAGGAACTCTCGCAGTGA >gid:98834 BMEI0334 HOLLIDAY JUNCTION DNA HELICASE RUVB ATGAGCGACCGTAACCCCCTGATCGATGCCGACCGGCGCGCAGACGAAGA CAATACGCTGCGCCCGCAGACGCTTGACGATTTTGTGGGCCAAGCGGCGG CGCGCGCCAATCTGAAAGTGTTTATTGAAGCCGCCAAGGTGCGTGGCGAG GCGCTGGATCATGTGCTTTTCGTCGGCCCGCCCGGCCTCGGCAAGACGAC GCTGGCGCAGATCATGGCGAAAGAACTTGGCGTCAATTTCCGCTCCACAT CCGGCCCGGTCATCGCCAAGGCAGGCGATCTCGCCGCGCTGCTTACCAAT CTGGAAGAGCGCGACGTGTTGTTCATCGATGAAATCCATCGCCTGAGCCC CGCGGTGGAAGAAATTCTCTATCCGGCCATGGAGGATTTTCAGCTCGATC TCATCATCGGCGAGGGGCCTGCCGCGCGTTCGGTCAAGATCGACCTCGCC AAGTTTACGCTTGTTGCCGCCACGACGCGCCTTGGCCTGCTCACCACGCC CCTGCGCGACCGGTTCGGCATTCCGGTGCGGCTCAATTTCTATACGGTCG AAGAGCTGGAATATATTGTGCGGCGCGGCGCGCGCATCATGCAGATGGGA ATCTCGTCTGACGGCGCGCGGGAAGTTGCCCGCCGTTCGCGCGGCACGCC GCGTATTGTCGGGCGGCTTTTGCGGCGCGTGCGCGATTTCGCGCTGGTCG CGGGCGCGGATATCATAGACCGCAGAATAGCCGATGAGGCGCTGTCGCGG CTTGAGGTGGACAATCGCGGCCTCGACCAGCTTGACCGGCGCTATCTCAA TATTATTGCGCGCAATTTTGGCGGTGGGCCGGTCGGGATCGAAACCATTG CGGCGGGCTTGTCCGAGCCGCGCGATGCGATTGAAGACATTATCGAACCC TATCTGATCCAGCAGGGTTTCCTGCAACGCACGCCGCGCGGGCGCGTGCT GACTGCCGTTGCGTGGCAACATCTGGGATTACCTGCGCCTGCTGAAATCA TCCAGCAGTCGCAATATGGCCTCTTCATGGAAGACGAATGA >gid:98883 BMEI0382 DNA-3-METHYLADENINE GLYCOSIDASE TTGTGTGCCGGGAGAATGAAAGGCCAGGCGATGCGGCGGATCGATACATT GAGCGATATTGAAGCAGGGCTGGAGGCGCTGGTTCTTGCCGACAGGCGGC TCGCCGATATCCGCAACCGCTCGCATGCAGTGCCTCTGCGCCGGTCCGAA CCCGGATTTGAAAGTCTGGCTTCCATCGTCGTCGCGCAGCAGGTTTCGAC CGCCAGCGCCGCCGCCATCTGGGCGCGGTTGAAACAGGTGATCAATCCGC TGACGCCGGAAGCCTATATCGCGGGCGGGGAGGAGGCGTGGCGTTTGGCC GGGCTTTCGCGGCCCAAGCAGAGAACGCTTCTGGCGTTAAGCGAGGCACT GGCAGGCGGTGCGCTCGATCTTCACGGCCTGTGCGACCTGCCTGCCGGGG AAGCCATTGCCACACTGACTGCGATCAAGGGTATCGGCCCCTGGACGGCG GAGGTTTATCTGCTCTTTGCGGCCGGCCATCCGGATGTGTTTCCGGCGGG CGATGTCGCGCTGCAAACGGCGGTCGGCCATGCCTTTGCTCACGAGACCA GACCCGATGCGGCAGCTCTTCGCCAATTGGCCGAAAACTGGGCGCCATGG CGCGGCGTGGCGGCGCGTTTGTTCTGGGCCTATTATGCCGCCATCAAAGG CCGCGAGGCCGCCCCGCTTCTGTAG >gid:98964 BMEI0453 MUTT/NUDIX FAMILY PROTEIN ATGCGCTTTCGCCATTTTATATTTCATACATATTTTTTGTTTCGGCGGCC CATGACCCTTGGTGTTCGGGCGGTCATTCTTGATGAGAAGAAAAATTCGG TCTTTCTTGTGAAGCACACTTATGTTCCCGGCTGGCAACTGCCGGGCGGC GGTGTGGAGCGCGGCGAGACTTTCGGGCAGGCACTGGAAAAGGAACTGCG CGAGGAAGCCAATATCGTTCTGAAAGGGCCAGCGAAGCTTTTTGCGCTTT ACAAGAATGCGCATGCATCGCCGCGTGATCATGTGGCGCTTTATATCTGC CGGGAGTTTGAGCAGACCGGGCCGCGTTTGCCTGATCTGGAAATCGCAAG CTGCGGATTTTTCCCGCTGGACGATTTGCCGGAAGGGACGACAGCATCCA CCAAGCGGCGCTTGCAGGAAGTGCTTCATGATCTGGAGCCGCTTCCATTT TGGTGA >gid:98973 BMEI0462 PHOSPHOHYDROLASE (MUTT/NUDIX FAMILY PROTEIN) ATGAGCGGGTTTCCAGCCTTTTCAGCCGGTGATTTTGCCGAGCGGGTGCG GCAATGGCGGCCCGACCACGAGGAGCTGACTGGCGATCATGCGCTTAACC CCGATGTCTCACAGGCGATGGTGACGGCCAGAATGCGCGATGCCGCCGTG CTTGTTCCGGTGGTGGACCGGGGGGCGGAGGCAACGCTGCTGCTTACCCG GCGCACCGATACGCTGCGCAAACATTCCGGCCAGATCGCCTTTCCCGGAG GGGCCATCGACCCGGAAGACGGAACGACGGAACGGGCGGCACTTCGCGAG GCCAATGAGGAAATCGGGCTTGCCGCAGACCGTGCGGAGATCATCGGCAA CCTGCCGCGCTATCTCACCGGCAGCGGCTTTTCCATCACGCCTGTCCTGG CGGTGGTGAAAACGCCGTTCGATGTGCATCCCAATCCGGACGAAGTCGCC GATATTTTTGAAGTGCCGCTTTCCTTCCTGATGAATCCGGCCAATCATCG TCGCGAAAGCAGGCTGTTCAACGGCAAGGAACGCTTCTATTACGCCATGC CCTATCACGAGCGATTCATCTGGGGGGCAACCGCCGGCATCATTCGCGGA CTTTATGAAAGGCTCTACGTTTGA >gid:99012 BMEI0501 EXCINUCLEASE ABC SUBUNIT B TTGTCCGGCACTATCGCGGACTGGGCAAAGGAAATCGGCGACGAGGCTGC AAAACCACGCGCAAAGAACCCCAAACAGCCGAAGAAAATTCCCGAGCGCA GCAAGGAAGCCTCGCGCACGGGACGCGGCACGTCCATGGGCGGCGCGGCT TCCGCCAAGGAGCGCACAGCCGCTGGCCTCAACCCCGTAGCAGGCCTTGA TATCAGTCTCGAAGAGGCTGCGGGCCTCAGCCCATCCGGTGCGACCGCAA CCGTGCAGGCGCTGGCCGACCTGATCCAGTCGGGCAATCCGCTGTTCAAA CATGGCGAGCTGTGGACGCCGCACCGCCCTGCCCGCCCGGAAAAATCCGA AGGCGGCATTCCGATCCGCATGGAAACGAGTTTCGAGCCGTCAGGCGACC AGCCGACGGCCATTCGTGACCTCGTGGAAGGTTTGGAAAATCAGGACCGT ACGCAGGTTTTGCTCGGCGTGACAGGTTCCGGCAAGACCTTCACCATGGC CCAGGTGATCGAAAAGACGCAGCGCCCGGCGCTGATTCTGGCGCCGAACA AGACACTGGCCGCGCAGCTATATGGCGAGTTCAAAAGCTTCTTTCCGAAC AATGCGGTGGAATATTTCGTTTCCTATTACGATTATTACCAGCCGGAAGC CTATGTGCCGCGCTCGGACACCTATATCGAGAAGGAATCGTCGATCAACG AGCAGATCGACCGTATGCGCCACTCGGCCACCCGTGCGCTGCTCGAACGC GACGATGTGATTATCGTCGCCTCCGTATCGTGCATCTACGGTATCGGCTC GGTCGAAACCTATACGGCCATGACCTTTGAAATGAAGATCGGCGACCGGC TCGACCAGCGGCAATTGCTCGCCGATCTCGTGGCGCAGCAATATAAGCGC CAGGATATCAACTTCGTGCGTGGTTCTTTCCGCGTGCGCGGTGACACGAT CGAAATATTCCCTGCCCACCTGGAAGACCGCGCCTGGCGCATCTCGCTGT TCGGTGATGAAATCGAAACCATTACCGAGTTCGATCCGCTGACCGGCCAG AAAACCGGCGACCTGAAATCGGTCAAGATTTACGCAAATTCGCACTATGT CACACCGCGCCCGACGCTCAATCAGGCCATCAAATCAATCAAGGAGGAGC TGAAACACCGCCTTGATGAACTGACCCGCGCAGGCCGCCTGCTGGAAGCC CAGCGCCTTGACCAGCGCACGACTTTCGATCTGGAAATGCTGGAAGCAAC CGGCTCCTGCGCAGGCATCGAAAATTATTCGCGCTATCTCACGGGCCGCA AACCCGGCGAGCCGCCGCCGACCCTGTTTGAATATATTCCCGACAATGCG CTGGTTTTCATCGATGAAAGCCACGTCACGGTTCCGCAGATCGGCGGCAT GTATCGCGGCGACTTCCGCCGCAAGGCGACGCTTGCCGAATATGGTTTCC GCCTGCCCTCCTGCATGGACAACCGCCCGCTCCGCTTCGAGGAATGGGAC GCCATGCGCCCGCAGACCATCGCCGTTTCGGCAACGCCCGGAAACTGGGA GATGGAGGAAGCGGGCGGCGTCTTCGCAGAACAGGTCATCCGCCCGACCG GCCTCATCGACCCGCCGGTCGAAATCCGTCCTGCCAAGACGCAGGTGGAC GATGTTCTGGGCGAAATCCGCGATACGGCGAAGAAGGGCTATCGCACGCT CGTCACCGTGCTGACCAAACGCATGGCGGAAGACCTTACCGAATATCTGC ACGAACAAGGCGTGCGCGTGCGCTATATGCACTCGGATATCGACACGCTG GAGCGCATCGAAATCATTCGCGACCTGCGGCTTGGCGCTTTCGACGTGCT GGTCGGCATCAACCTTCTGCGCGAAGGGCTCGACATTCCCGAATGCGGTT TCGTCGCCATTCTCGATGCCGACAAGGAAGGCTTCCTGCGTTCCGAAACC TCGCTTATCCAGACGATCGGCCGCGCCGCGCGTAATGTGGACGGCAAGGT AATTCTCTATGCGGATAACATGACCGGCTCGATGCAGCGCGCGATCGACG AAACGAATCGCCGCCGCGAAAAGCAGCAGGCCTACAACGAGGCGCATGGC ATCACGCCTGCTTCCGTGAAGAAAAACATCTCGGATATTCTCGATTCGGT CTATGAACGCGACCATGTGCGCGCCGATATTTCCGGCTTTGCCGAAGAAG GCGCGATGATGGGCAACAATCTGGCCTCCCATGTCGAATATCTGGAAAAG CAGATGCGCGATGCGGCTGCCGATCTGGACTTCGAGAAGGCTGCGCGCCT GCGCGACGAAATCAAACGCCTGCGCGAAACCGAGCTTGCGATTGCGGACG ACCCGATGGCGCGTGAGGTGGAACTGGAAAGCCCCGTTACGGGGCGGACC AAAGGTCGCCACAATGCGGGCCGCAAGATGCATCGCGTGGTTACGGATGA CGAAGGCGGCAAGTCTTTGTTCCAGAAGCCATCGCTCGACAATATGGGAC CGGGAACGGATATGGCGAAGCCCCGCCATGACGGCCCGCTTCCGACAGCC GCGGAAAGCAGGTTCCGCAAGAACACGCTGGATGAAATGACCGTGAAACG CACCGAGATCCCGGCGGGCGGCAAGGCGCCCATCCGGCGCGAACGGGCTG GCATCGGCTCATATGAAGATCCGGCGGAGGTCTCCCGCAAGAAGCGTCGC CCCGGCAAGACAGGCCGGCCGGGGCGTTAG >gid:99030 BMEI0519 PHOSPHOHYDROLASE (MUTT/NUDIX FAMILY PROTEIN) TTGAGGGAAAGGCTTCTGGTTTTCGCGGAGCCGGATTCCCCGCAAATGCC GCTTCAGGTGCCGGGCGGCACGGTCGATCCGGGCGAGGATGTCCATCTCG CCGCCTATCGCGAATTCGAGGAAGAGACAGGCATAAAAGTGCGCGACGGC ATGGCTCATCTCGAAACCGTCGATTATGCTTTTCCCGATGAACAAGGCAC GGAGCTTCACCGGCGTCATTGTTTTCATCTGCGGCTACGGGACGAACAGC CAGAAACGTGGGATCATTATGAAATGTCGCCCTGTGATGGCGGCGCGCCA ATCCTTTTTCGCCTCTTCTGGCTCGACCGGCAGGCGGCACAGGCGCGGCT GGGTTTTGAAATGGCGAAAAGTCTGGATAAAATCAGTTTCTAG >gid:99041 BMEI0530 DNA PRIMASE ATGGACTGTCAAGGCGGGGGCGCCTATATAGTCAATAACTATAAGCTGCC TGCTGTTCGACCTGAAAGTGAATCTGTAATGCGTTTTCCGCCCTCCTTTC TCGATGAGATCAGAGACCGCGTCCCGATCTCGACGCTGATCGGAACGCGT GTTTCATTTGACCGCAAGAAAAGCAATCCGCCCAAGGGCGATTTCTGGGC CTGCTGTCCGTTTCATGGCGAGAAGACGCCGAGCTTTCATTGCGAGGACC GCAAGGGCCGTTACCACTGTTTCGGTTGCGGTGTGACTGGCGATCACTTC AAGTTCCTGACAGACCTTGAAGGCTTGAGTTTCCCGGAAGCGGTGGAGCG GGTGGCCGATATGGCCGGTGTTCCCATGCCCGCGCGCGACCCGGAAATGG AAAAGCGCGAGGCGCAGCGCGCAACGCTTTACGATGTGATGGAACTGGCT GCGCAATTCTTTGAGAGCCAGTTGCAAAGTGCGACCGGTGCGAAAGCGCG CGCCTATCTGCGCGACCGCGGCCTTTCGACCGCCACGCAGCAGGCGTTCC GCATGGGCTATGCGCCTGAATCACGCAATGCGCTGAAGGAGTTTCTGGCA GGCAAGGGCGTTTCCCGCGAGCAGATCGAAGCCTGCGGCCTTGTGGTGCA TGGCGAGGGAATAGCGGTTTCCTACGATCGTTTCCGTGATCGCGTGATGT TCCCTATCGAGGATTTGCGTGGGCGGATCATCGCTTTTGGCGGGCGGGCT CTTTCTGCGGATGCGCCTGCGAAATATCTCAATTCGCCCGAAACAGAGCT CTTTCATAAGGGGCGCGTGCTTTATAACGGCTTGCGGGCGCGCAAGGCCT GCCAACCGCAGGGCGGCGAACCGGCCAAGCCGATCATTGCCGTCGAAGGC TATATGGACGTCATCGCGCTTGCGCAGGCCGGTATCCATCATGTGGTGGC TCCGCTTGGCACTGCTCTGACCGAAGAACAGCTTGAACTTCTCTGGCGCA TCAGCCCCGAGCCGATCCTCTGTTTTGACGGTGACGGCGCTGGCCTTCGT GCGGCCTATCGTGCTGCCGATCTTGGCCTGCCTGTCTTGCAACCCGGCAA GTCGCTGCGCTTTGCGCTTTTGCCGGAAGGGCAGGACCCGGACGATCTCG TCAAGGCGGAAGGTCCGTCCGCTTTTCATGCGGTTCTGCGCGATGCAAGA CCGCTGGTGGAGATGGTCTGGACGCGGGAAACGGCAGGCGGGGTTTTCGA TACGCCGGAGCGCCGGGCCGAACTGGAGGCGCGTCTGCGCGAAATTACGA GCCGCATTGCCAATGAAGATATCCGCCGCCACTACAGCCAGGATATGCGC GAGCGGGCGCAGGCCTTTTTCGGGCAGGGGCGGCAGGGCTTTCAAAACGG CGGCCAGCGCAGCCAGTCGTTTACGCGCCGCAATGAAGGCGCGCGCGGAC GCGGCGGCCCGGCCGGCAGCGGCCGGCTGGCAATCTCCGACAGTCTCGCC CGGTCGACGCTGGTAAAGGGCGGCCGGCAGGGTGGTGCTGCACATGCTCC CTTGCGCGAGACGGCCATCGTGCTGACGCTTCTCAATCATCCCCGGCTTA TCGAGGAGGATTTCGAGACGCTTGCCGCGCTTGATCTTGGCCATGATGCC TTGAAGACGCTGCATCTTGCCATGCTGGATGTGCTGGCGGCGGGACGTGT GGACGACGGGATCGCCATGCGGCGCGCGCTGGTGGATGCCGGTCATGGCG ATCTGATCAAGATGCTGGAGCAGGTGGTGAAGGGCGCGAAACTGTGGACC GCGACCACCCTTGCCGCTGAAGATGATGCGCGTGAAGCACTGCGTCAGGC GCTTCACTTGCATCAGCGCGCGCGTACACTACATAAGGAACTGCGCGCTG TTGAGGCCGCACTTGAGACAGATGAGACGGGCGAGTTGTTCGCGCGTCTT CGCGATATACAAAACCAGATTTTAAAAGCCGATGCGACCGAGGCCCTGAT AGATGGATTTGGCCTGTCATCGGGGCGGCCACATGGCGGTTTCTGA >gid:99049 BMEI0537 INTEGRASE/RECOMBINASE TTGTTCCTGCCGATCACGCCGATTCTGTCAGAAGTCTTGGAGGCCACCCC GCGACAGGGAGAAACCGTTCTGGTGACGGCGTATGGCGAGCCATTTTCGC CCAAGTCGTTGACTGGAAGAATGGCAGACTGGACCGCGTCTGCGAAACTG CCGAAAGGCTTCACGCTGCATGGATTAAGAAAGACACTCGGCAAGATACT TGCTGAAGGTGGTGCGTCAACGAGGCAGATTATGGACACCTTGGGCCATG ACGATATTGCCCACGCCGAGCTTTACACCAGAGAAGCAGAACAGGCACGA CTCGCTACCGACGGTATGAGCCGTGTTGTGCGCCTGAAGCGCAATGGCTA A >gid:99100 BMEI0588 DNA REPAIR PROTEIN RECN ATGCTGTCGCACCTGTCGATCCGCGATATTGTTCTGATTGAAAGGCTCGA CATCGAGTTCAGGAGCGGCTTGTCCGTGCTTACGGGTGAAACCGGTGCGG GTAAGTCCATTCTGCTCGATTCGCTGTCGCTGGCGCTTGGTGCGCGTGGT GATGCCTCGCTTGTGCGCCATGGTGCCGATCAGGGACAGGTAACGGCGGT TTTCGATGTGCCGGGCAATCATCCAGCCCGGCTTTTTCTGCGCGAAAACG GGTTTGACGATGATGGTGACATCATCCTGCGCCGCCTCCAGATGGGGGAC GGGCGCACGCGTGTCTTCATCAATGATCAGGCGGCAAGCGTTGCGCTCCT GCGCGATCTGGGCAAGAGGCTCGTAGAAATTCATGGCCAGCATGATGACC GCGCGCTGATCGACACCGATCTGCACCGCACACTTCTCGACGCTTTCGGC GGGCTTGACGCACAGGCGATGCTGGTGCGCGAACGCCACAAGGCGTGGCG TGATGCGGAAAGCGCGCTTGCAAAGCACCGCGCCCGCGTGGAGCAGGCCG AGCGTGAGGGCGATTATCTGCGTTCCTCGGTGGAGGAGCTGACCAAGCTT GATCCGCAGCCGGGCGAGGAGGAGGAACTTGCAGAACGCCGCGCGACGAT GATGAAATCGGAAAAGATCGCTGGCGATGTCAATGAGGCAGGCGAGCTTC TTTCCGGCCAGGGATCGCCCGTGCCGTCGCTTGCAAGCCTGGTGCGCCGT CTGGAGCGCAAGGCCATTGAAGCGCCCCATCTGCTGGAGCCGGTTTGCAA GGCGATAGACGAGGCGCTGGACAGTCTGGCGCGGGCGCAGGACGGTATCG ACCACGCCATGCGCGAGATCGATTTTGATCCGCGTGTGCTGGAGCAGGTG GAAGAACGCCTGTTCGCCCTGCGTGCGGCGGCGCGCAAATATTCCGTCTC TGTGGAAGGTTTGCCTGCGCTGCGTGACAAGATGGATGCCGATCTGGCCG ATCTCGATGCAGGGGCGGAAAAGCTGATCCAGCTTGAAGCCCATGCGGGT GAAATGCGGGCTGCCTATGACGAGGCTGCGGCGCAGTTGTCAGCCGCGCG CAAGGAAACGGCTGGCCATCTCAAGGCTGCTGTTATGGCGGAACTGCCCG CGCTGAAGCTTGAGCGCGCTGAATTCATCGTTGAAATGACCACCGATCCG CAAACGAGGACGGCGGAAGGCATCGACACGGTGGAATATTGGGTGCGAAC AAATCCGGGCACGCGGGCAGGGCCGATGATGAAGGTTGCCTCTTGCGGTG AACTTTCGCGTTTCCTTCTGGCGCTTAAAGTGGCGCTTGCCGATCGCGGT TCCGCACCGACTTTGGTGTTTGATGAAATCGATACCGGCGTGGGCGGCGC GGTGGCGGATGCGATCGGGCAACGTCTGGCGCGTCTTTCCGGCCGGGTGC AGGTGCTCTCCGTCACCCATGCGCCGCAGGTGGCGGCGCGCGCTTCCACC CATTTCCTGATCGCCAAATCCGCGACCCACGAGGACCGTATGGCGACTTC CATCCGTGTCATGGCAACGGATGAGCGGCAGGAGGAAATTGCGCGTATGC TGGCTGGCGCCAGCATCACCGATGAGGCGCGCGCGGCAGCCGAACGCCTT CTGGCTGAAAATGGCGCGCCCGCATCCTGA >gid:99101 BMEI0589 NAD-DEPENDENT DNA LIGASE ATGTCCGATATTTCCGTCGAGAAACTGACCGAACTCGAAGCTGCCGCCGA ACTGGAACGGCTGGCGCGCGCGATTGCTCATCACGACGAGCTTTATCACG CCAAGGACAGGCCGGAAATTTCCGATGCGGCTTATGATGCACTGAAGCGG CGCAACGAGGCGATTGAAGCGCACTTTCCGGCACTTGTCCGCGATGACAG CCCGTCGCGGCGTGTGGGTGCAGCCCCGGCGCTTGCCATCTTTGCGCCTG TTGTTCACGCGCGGCCCATGCTGTCGCTGGATAATGCCTTTAGTGATGAG GACGTGCGTGATTTTGTTGGCAGCGTCTATCGCTTTCTGGGCCAACTGCC GGATGATTCCATCGCCTTTACCGCAGAACCGAAGATCGATGGGCTTTCCA TGTCGATCCGTTACGAGAATGGAATTCTGGTTAGCGGTGCGACACGCGGG GATGGCACAACGGGCGAGAATGTAACAGCCAATATCCGCACCATTGCTGA AATCCCGAACAGGCTTCCGGCAGGTGCGCCTGCTGTCGTGGAAGTGCGCG GCGAGGTCTATATGGCCAAGAGCGACTTTCTGACGCTCAATGCGCAGATG GAGGCGGAGGGCAAGCAGACCTATGTGAACCCGCGCAATACGGCAGCAGG TTCGCTGCGCCAGCTTGATGCGAAGGTGACGGCAAGCCGCAAGCTCAGGT TCTTCGCCTATGCCTGGGGGGAAATGTCGGACATGCCTGCGGATACGCAA TTGGGCATGGTCGAGGTTTTTCGCCAATGGGGCTTTCCGGTCAATCCGTT GATGAAGCGGTTCAACAGCGTGGATGGGTTGCTTGCGCATTATCGCGCCA TCGGCATGGAGCGTCCCACGCTGGATTACGATATCGACGGTGTTGTTTAC AAGGTGGACCGGCTCGACCTGCAAACCCGGCTTGGTTTTCGCTCGCGCAG CCCGCGCTGGGCGATTGCGCATAAATTCCCGGCGGAACAGGCGCTCACCA TTTTGCGCGGCATCGATATTCAGGTGGGCCGCACTGGCGCGCTGACGCCG GTGGCGCGGCTGGAGCCAATCACCGTCGGCGGTGTGGTTGTGACCAACGC GACGCTGCACAATGAGGACTATATCAAGGGCATAGGTCAGAAGGGCGAGC CGATCCGGGAGGGGCGCGATATCCGCATTGGCGATAGCGTGATCGTGCAG CGCGCGGGCGATGTCATCCCGCAGATCGTGGATGTGGTGCTTGAGGAAGG CAAAAAACGCGGCGAGCCTTATCAGTTTCCCCATGTCTGCCCCGCCTGCG GCAGCCATGCCGTGCGCGAGGAGGGCGAGGCGGTACGCCGCTGCACCGGC GGGCTGATCTGCCCTGCGCAGGCGGTGGAACGCATCCGCCATTTTGTGTC GCGCAATGCCTTCGACATTGAGGGGCTTGGCGAAAAGCAGGTCGAGTTCT TCTTCAATGCGGAAGATCCGGCCCTTTGCATCCGCTCGCCTGCCGATATT TTCACACTGAAAAAGCGGCAGGAAAACTCGCTGACCAAGCTTCAGAATAT CGAAGGCTTTGGCGCAACTTCCGTGAAGAAGCTTTATGACGCCATCGATG CGCGGCGCGAGATTGCACTCCACCGCTTTCTGTTTGGTCTTGGCATCCGC CATGTGGGCGAGGTGAATGCCAAGCGCCTTGCCCGCGCCTATCTTTCATA TGCCGCTTTTAAGAAGGCGGCGCTGGAGGCTGTGCCGCCAAAAGAAGGCG ACCGCACCGACAAGGGCAGCGAAGCGTGGCAGGACATGCTGGCCGTGGAG GGGATCGGTTCCATCGTGGCGGAAGCCGTGGTCGATTTTTATGGCGAGCC GCATAACCGCGAAGTGCTGGCCGCACTTCTTGCCGAAGTAACGCCGCTTG ATGAGGAAGCGCGTGTGGCGACCGGTTCGCCCGTCGAGGGCAAGACGGTG GTTTTCACCGGCAGTCTGGAGCGCATGTCACGCGATGAAGCGAAGGCTAT GGCTGAGCGCCATGGCGCGAAGACGGCAGGCTCTGTCTCCAAGAAGACCG ATCTCGTGGTGGCAGGGCCGGGGGCCGGTTCCAAGCTTGCCAAGGCGACG GAACTGGGCATTGAGGTTATCAATGAAGACGACTGGTTCAAGCTTGTTGG GGAGGATTGA >gid:99108 BMEI0596 DNA HELICASE II ATGGCCGCACGCAACCAGCAGCATGGCGAGCCCGATTACCTCAAGGGCCT GAACCCGAAGCAGAAACAGGCGGTGCTCACCACCGAGGGCCCGGTTCTGG TGCTGGCGGGTGCTGGCACCGGCAAGACGCGCGTGCTCACCACGCGCATT GCACATATTCTTTCGACCGGCCTTGCCTATCCGAGCCAGATTTTGGCCGT GACCTTCACCAACAAGGCCGCGCGCGAAATGAAGGAGCGTATCGGCCATC TGGTCGGCGGTGCTGTTGAAGGCATGCCCTGGCTTGGCACATTCCACTCC ATCGGCGTCAAGCTTTTGCGCCGCCACGCCGAACTGGTCAATCTTACCTC CAGCTTCACCATCCTCGATACGGACGATGTGATCCGGCTCATCAAGCAGC TTATTCAGGCCGAAGGACTGGATGACAAACGCTGGCCTGCCCGCACCTTC GCCAATATGATCGACGGCTGGAAGAATAAGGGTTTCAGTCCCGCCGATAT TCCCGAAGGGGATGCGCGCTCGTTCGGCAACGGGCGGGGCCGTGAGCTTT ATCAGGCCTATCAGGAACGGTTGCGCACACTGAACGCCTGTGATTTTGGC GATCTTCTGCTGCATCCGATCCGCATCTTCCGCAACCACCCGGATATCCT GCGCGAATATCATGCAAAATTCCGCTACATTCTGGTGGACGAATATCAGG ACACCAACACCGCACAATATCTCTGGCTGCGTCTGCTAGCACAGCGACCA AAATCACGAACGACAGCGCCAACGCAGGCCGGAGGCTCGCCAGTACAGCC CGCTAGGGCGTCCGAAGGCCCCTGCGGAGCCGGTGAGCGCAGCGAACTCG GCGTGAGCGAAGACAAAGTAAACTTGTGTTGTGTGGGCGATGACGACCAG TCGATCTATGGCTGGCGCGGAGCGGAAGTGGACAATATCTTGCGCTTTGA GAAGGACTTTCCGGGCGCGGTCGTTATCAAGCTTGAGCGCAATTATCGCT CCACGGCGCATATTCTGGGCACTGCCGCGCATCTGATCGCGCATAATGAA GGCCGTTTGGGCAAGACGCTTTTCACCGAGGCACCCAATCCGGATGACCC GCGCGTCAAGGTCCATGCGGCCTGGGACTCGGAAGAGGAAGCGCGTGCGG TTGGCGAAGCCATCGAGCAGGCGCAGCGTCAGGGGCACCTTCTCAACAAT ATGGCGATCCTTGTGCGCGCCTCCTTCCAGATGCGTGAGTTTGAAGACCG TTTTGTCACGCTCGGCCTCAATTATCGCGTCATAGGCGGCCCGCGCTTCT ATGAGCGCCTCGAAATTCGCGATGCCATGGCATATCTGCGCGTCGTCGCG CAACCCGCCGACGATCTGGCGCTGGAGCGCATCATCAACACGCCAAAGCG CGGCCTTGGCGAAGCAGCCATCCGCCAGATTCATGACTATGCGCGCGCGC GCGACATTTCCATGTTCGCTGCGGCCTGCGACCTCATAGAAACCGAGGAG CTGAAACCCAAGCCACGCTCTGCCCTGCGTGAGGTGGTGGAGAATTTCCT GCGCTGGCAGTCGCTGATCGACACCACGCCGCATACGGAACTGGCGGAAA CCATTCTTGATGAATCCGGCTACACCGCCATGTGGCAGAACGACAAATCA GCGGAAGCGCCGGGCCGGCTTGAAAACCTCAAGGAACTGATCCGTTCCAT GGAGGAATATGAAAGCCTGCGTGGTTTCCTCGAACATGTCACGCTCGTCA TGGATGCCGAGCAGAATGAGGATATGGATGCCGTCAACATCATGACGCTG CATTCGGCCAAGGGGCTGGAGTTTGAAACCGTCTTCCTTCCCGGCTGGGA GGAAGGCCTGTTTCCACACCAGCGCGCGCTTGATGAAGGCGGACGTTCGG GGCTGGAGGAAGAGCGCCGCCTCGCCTATGTCGGCGTCACCCGCGCCAAG AAAAACCTGCATATCTGGTTCGTGTCCAACCGCCGCATCCACGGCATGTG GCAATCGACCATCCCGTCGCGCTTTCTGGAAGAGCTTCCCGAAGCACATG TGGAGGTGGCCGAACTGGAAGGTAATTATGGTGGTTATGGCGGCGGCTAT GGACAGTCCCGTTTCGACAAGGCCGACCCCTTCCAGAACTCCTATTCCAC ACCCGGCTGGCAGCGTGCGCAGCAGAACCGTTCGGATGCAACGCGCAACA ACTGGGGTTCGCGCTCGGGCAGCCGCGTGGAGCGCATTGGCTATGGCGAG ACCGATTCCGGCTTCGGTGCGGGGCGTGGATCGGTAAAAGGCCGCACGAT TGAAGGCGAACTGGTGGCAAAATCAGTGGCCGACAAACCATCGGCCTTCA AGCTTGGCGACCGCGTATTCCATATCAAATTCGGAAACGGCACGATTTCG CTTATCGACGGCAACAAGCTGACGATCAATTTCGACAAGGCCGGACAAAA GCGCGTTCTCGATAGTTTCGTCCAGCCGATCTAA >gid:99131 BMEI0619 EXODEOXYRIBONUCLEASE V ALPHA CHAIN ATGCAGTTTTCACCCGAACAGGATCAGGCGCTGAAAGCAGTCGGCCAATG GCTCAAGGCCGGGCGCAGCCCCATCTTCAGGCTCTTTGGCTATGCCGGCA CGGGCAAGACGACGCTTGCGCGCTATTTTGCCGAGCATGTGGATGGTGAG GTGCAGTTTGCAGCCTTCACCGGCAAGGCGGCGCAGGTTCTCCGTTCCAA GGGCGCCAGCAATGCCCGCACGCTTCATTCCCTGATTTATCGCCCGCGCG GTGAAGAGGCGATTGAGGACGAGACGACAGGCAAGACATCCATTGCGCCA ACCTTTTCGCTCAACCGGCAAAGCCCGGTTGCGAAAGCCGCCATGATCGT GGTCGATGAATGTTCGATGGTGGATGAGGCGCTGGGACGGGACCTGATGA GTTTCGGCACGCCAATTCTCGTTCTGGGGGATCCGGGCCAATTGCCGCCG ATTTCCGGCGGCGGGTTCTTCACCGAGCATGAGCCGGATTATCTCCTGAC CGAAATTCATCGTCAGGCACGCGACAATCCAATCATCCGCATGGCGCTGG ATGTGCGCGAAGGCCGGGAACTGTCCTATGGCGATTATGGCGCGGCAAAG GTGATCGGCAAAAGCGAGGTCAATCAGGATATCGTTCTGGCCGCAGATCA GGTGCTTGTGGGCACCAACCGCACCAGGCGGCGCTATAACCAGCGCCTGC GGGAGCTGAAAGGTTTTACGGCCGATTATCCGCAGGCGGGTGACAAGCTC GTCTGCCTGCGCAACGATCCGACCAAGGGGCTGCTCAACGGCTCGCTCTG GAAGGTGATGACTTCTTCCAAGGAAACCGTGAAGCCCGGCATCAATCTTC TGGTCTCGCCGGAGGATGAGGATCGCGGCGTTGCCAAGATCAAGCTTCTC AAGGCGCAGTTCGAGGACCCGGACACCGAAATTCCGTGGCAGACCAAGAA ACGTTTTGATGATTTTGATTATGGCTATGCGCTGACCGTCCATAAGGCGC AGGGTTCGCAATGGGATCAGGTCGTTCTGTTCGACGAAAGCTTCGCCTTT CGCGATACGCGTGAACGCTGGCTCTATACGGCCATTACGCGCGCGGCAGA ACGCCTCATCATCGTGAAGTAA >gid:99141 BMEI0629 Hypothetical Protein ATGTGCGGGTCTTGCCCCGGCCCTCTGCCATATGCGGAGGGAAACCGCGC TTCCATTGCGGAAAACTGGGCACGGGAATGCGCGGCAAACCCGACCTTGT TCGATGGCGAGGTCTATCTGGCTCCGGAAGCCACATTGAAGGATGGTGTT CTTCAGGCCGGTTTCAAACGCACGCGCTTTGCCACCTTGATGCACTGGCG GCGCGACCCGTCGCCGATAAGGCCCTGGCATATTTTCTCGGTGGGCGTGA TCGTGTCCGGCGAAGGGCACCTGATCGCCGCGCGCATGGGGCAGCAAAAT GCAGTGGCGGGGAAGGTCTATTTTCCGGCAGGCTCCATCGATGATAATGA TATCTTCGATGCGCGCGTCGATTATGATGCCAATTGCCGGAGGGAAGTGC GGGAGGAAACGGGTATCGACCTTGCCGATGCGCGCGCCGAGACACAGATC AATCTCGTGACAGGCAATCGCAGCATCGCGCTTTTCCGGCGCTATTATTT CGATGTGCCGTCTTGCGACCTGGTGGCACGGATCGAAGGCTATCTTTCCC GCGAGGCGGCGCCCGAACTTGCCGAAATCATTCCCGTCAAAGCTGCGGGT ATGATGAATGAGGCAACGCCGTCCTATGTTCGCGCTTTTGCCGACTGGCA TTTCGGCAACCCCGGATTGGCGGGGACTGACAGATGA >gid:99231 BMEI0718 DNA REPAIR PROTEIN RADC HOMOLOG ATGGCAAAGAAGAAGGATACGCCCGGAGATGGCGAATTTCCGGGCTTCAG CGACACGCTGCAACGCACACCGAAGCTGGAGAAGCCTCATTATGCGGGGC ATCGCGACCGGCTGAAGCAGCGCTTCCGGGATGCGCCGGACGCTCTCGCC GATTATGAATTGCTGGAGCTTCTCCTGTTCCGCGCCATCCGCCGCGCGGA CACCAAGCCTATTGCCAAGGCGCTTCTCAACCGTTTCGGCTCCATAGCCG AAGTTCTGGCTGCGCCAGAGAATCTGATTGCCGAAATTCCGGGCGCTGGC CCCACCGTCGCGCTGGAACTGAAACTCGTCGAAGCCATAGCCAAGCGCAG CGCCCGCAGCACCGTGATGGAGCGCGAAGTACTCGGCTCCTGGGACAAGG TCATCAATTATTGCACCGCCGCCATGGCGTTTGAAACCCGCGAACAATTC CGCATCCTGTTCCTCGACAAGAAGAACAAGCTCATAGCCGACGAAGTGCA GCAGACCGGCACTGTTGACCATACGCCCGTCTATCCGCGTGAGGTGGTGA AGCGGGCGCTGGAGCTTTCCGCCACGGCCATCATCCTCGTCCATAACCAC CCGTCCGGCGACCCGACGCCATCGCGCGCTGATATCGACATGACCAAGCA ACTGGTCAACGCCGCCAAGGCACTCAATATTACCGTGCATGACCACGTCA TCATCGGCAAGCACGGACATGCGAGCCTGCGCAGCCTGCGCCTGATCTGA >gid:99242 BMEI0728 SINGLE-STRANDED-DNA-SPECIFIC EXONUCLEASE RECJ ATGACAACAGAGCGTTTTTTCCTCGGAGTGAAACAATCCGCAACCGGCCA GAAATGGGTGGATCGGCTGGGTCCGCGTGAAGCCAATACGGCACTTGCCA TTGCACAGCATCATGGCATTTCCGATCTGGTTGCGCGTGTGCTTGCGGGG CGGGGGGTGTCCGTGGAAGGGGCGCCGGAATTTGTCGATCCGACGTTGCG CAATCTCATGCCCGACCCGGCGACGCTCAACGACATGGACAATGCGGCGG GGCGCATTGCCGATGCGATCCAGCGCCGCGAGACGGTCGCGATCTTTGGC GATTATGATGTGGACGGCGCGTGTTCTTCCGCGCTGATGGCGCGGTTTCT CAAACATTACGGTGTCCAGCATTCCATCTATATCCCCGACCGGATTTTCG AGGGCTATGGCCCCAATCCCGATGCGATGCGGGAACTGGCCGCCAAGGGA GCAAGCCTGATCGTTACGGTCGATTGCGGCACCAACAGCGTGCCGTCCAT CACCGCCGCCAAACAGGCCGGGGCAGATGTCGTCGTGCTTGACCACCATC AGGTCGGCGGCGATCTGCCGGAAGATGCGGTGGCGATCGTCAATCCCAAC CGTGAAGACGATATTTCGCAGCAAGGCCATCTCTGCGCGGCAGGCGTGGT TTTCCTGGCATTGGTGCAGGTGGCCAAAATCCTGCGCGCGCGCGGCAAGG GGCCGGGGCCTGACCTTCTTTCCATGCTTGATCTCGTTGCACTGGCGACG GTTTGCGATGTGGTGCCGCTCAAGGGCGTCAACCGCGCCTTTGTGGTGAA GGGCCTGCTCGTTGCCCGCGGGCAAAGCAATGTCGGCCTGGCGGCGCTGG CGCGCGTTGCGCGCATCGGGGAGCCGCTCAATGCCTTTCATCTGGGGTAT CTGATCGGTCCGCGCATCAATGCGGGTGGGCGCATTGGCGATGCGGGCTT GGGCGCGCGCCTTCTCACGCTGGATGACCCGGCAATGGCGGATCGCATTG CAATGGAACTCGACAGGCTCAATCAGGAACGGCAGGCCATGGAGGCCGAA ATGCTCATGGAGGCGGAAGCGGAAGCTTCGCTGGAGATTTCGGGCGGGGC GGGCGCATCCGTGATCGTAACGGCCAGTGACCGCTGGCATCCGGGCATTG TCGGCCTGCTAGCCTCCCGGCTGAAGGAAAAGGCGCGGCGTCCGGCCTTT GCTATTGCATTCAACGCCAATGGTGTCGGCTCCGGCTCGGGGCGTTCGAT TTCAGGTCTTGATCTGGGCAAGCTGGTGCGCGGTGCGGTGGAAAAGGGCC TGCTGGTGAAGGGCGGTGGCCATGCCATGGCGGCGGGCATTACCATTGAG CGCGGCAATCTTGGCGCGCTGCGCGCCTATCTGGAAGAAGAAGCCGCGGA TATCGTGTCGCGCTTGCGTGAAAACCAGAGCCTTTCCATCGATGGGGCGC TGGCTGCATCCGGTGCGACCGTGGCGCTTTATGAAGCTTTGCAGAAAGCC GGTCCTTATGGTTCTGCGCATCCGCAGCCCCTGTTGGCGCTGCCGCATCA TGTGCTGGCCGATGTGCGGGGCGTCGGGCGGGATCATGTGCGGGTGACAT TGCGCGGGGCAGACGGCAAGCGGGTCAATGCGATCGCATTTCGAGCGGCA GAAGGCGATCTTGGACGCTTCCTGTTCAACAATATCGGCTGCAGTGTGCA TGTGGCCGGAAATCTTTCTCTCAACCATTGGAATGGTTCTGTTTCTCCCC AAATCCAGATTCTGGATGCGGCTTTGCCTGTTTAA >gid:99301 BMEI0784 ATPase associated with chromosome architecture/replication ATGCCGCTTCAGGGGGGATTATGCCTGAAGCGGCATTTTGTTTATGATCG AGCGATTGGAATGAGCGATCTATTTTCAACAGCGGCAGACCCGAATGCGG ACCGCAACAGGCCGCTTGCGGACCGCCTGCGCCCCAAACATCTTTCGGAA GTGACCGGCCAGGAACACCTGACGGGGCCGGAAGGCGTGTTGACGCGTAT GATTGCCTCCGGCTCGCTCGGCTCCATGGTCTTCTGGGGGCCGCCCGGCA CCGGCAAGACAACCGTTGCGCGCCTGCTTGCCGGTGAAACCGATCTCGCC TTCGAGCAGATTTCCGCGATCTTTTCCGGTGTCGCCGATCTGAAGAGGGT GTTTGAAGCGGCGCGCGCGCGCCGTATGTCCGGGCGGCAGACACTGCTTT TTGTGGATGAAATTCATCGCTTCAACCGGGCGCAGCAGGATTCCTTCCTG CCGGTTATGGAAGATGGCACAGTTATCCTGATTGGCGCCACGACCGAAAA CCCTTCTTTTGAACTCAATGCCGCTCTCCTGTCACGCGCGCGGGTTCTGA CTTTTCATCCGCATGACAGCGAAAGCATCGCCACGCTTCTCAAACGCGCC GAGGAGCAGGAGGGGCAGGCGCTGCCGCTGGATGATGAGGCGCGGGCAAG CCTTATCCGCATGGCGGATGGCGATGGCCGTGCGGCGCTGACGCTTGCCG AGGAAGTCTGGCGCGCTGTACGCCCCGGCGAAGTGTTCGATGCTGCCAAA TTGCAGGATGTGGTTCAGCGCCGTGCACCGATCTATGACAAAAGCCAGGA TGGCCATTACAACCTCATTTCCGCCTTGCACAAATCGGTACGCGGTTCCG ACCCGGATGCGGCGCTTTATTATCTTTCACGCATGTTCGATGCCGGAGAA GACCCGCTTTATATCGGACGCCGCCTCGTACGGATGTCGGTGGAGGATAT CGGCCTTGCCGATCCGCAGGCGCTTGCCATCTGCAACGCGGCCAAGGATG CCTATGATTATCTGGGCTCGCCGGAGGGGGAGCTTGCACTGGCCCAGGCC TGCGTTTATCTCGCTACGGCACCCAAATCCAATGCGGTCTATGTCGCCTT CAAGAATTCCATGCGCGCGGCAAAAGAAAACGGGTCGCTTTTGCCGCCGA AACACATTCTCAACGCGCCAACCAAGCTCATGAAGAATGAGGGCTATAGC GAAGGCTATGCCTATGACCACGACCAACCCGATGCATTTTCAGGCCAGGA TTATTTTCCCGAAGCCATGGGCAGGCAGGTTTTCTACAATCCGCCCGAGC GCGGGTTCGAGCGGGAAATCCGCAAGCGGCTGGAATATTGGGCACGGCTG CGGCAGGAGCGGCAGCGGCGCTGA >gid:99304 BMEI0787 RECA PROTEIN TTGTGGCAACGAGCCTGCCGGGCTTCTAGCGAGACAAGAGGATGGTGTAA GATGTCTCAAAATTCATTGCGACTTGTTGAGGATAATTCAGTGGACAAGA CAAAAGCTCTCGACGCGGCATTGTCGCAAATCGAACGGGCGTTCGGCAAA GGCTCAATCATGCGTCTGGGCCAGAACGATCAGGTGGTCGAAATCGAAAC CGTATCGACCGGCTCGCTCTCGCTCGATATTGCCTTGGGGGTTGGCGGCT TGCCCAAGGGACGTATCGTGGAAATCTATGGGCCGGAAAGTTCCGGTAAA ACCACGCTTGCCTTGCACACCATCGCTGAAGCGCAGAAGAAGGGCGGCAT CTGCGCATTCGTCGATGCGGAACATGCGCTTGACCCGGTCTATGCGCGCA AGCTCGGTGTCGATCTTGAAAATCTTCTGATCTCGCAGCCCGATACGGGT GAACAGGCGCTTGAAATCACCGATACGCTCGTGCGCTCTGGCGCCATCGA CGTTCTCGTTGTCGACTCGGTCGCAGCCCTGACGCCGCGTGCTGAAATCG AAGGTGAAATGGGGGATTCCCTGCCGGGCCTTCAGGCCCGTCTCATGAGC CAGGCGCTGCGCAAGCTTACTGGCTCCATTTCCCGTTCAAACTGCATGGT GATCTTCATCAACCAGATCCGCATGAAGATCGGTGTCATGTTCGGCTCGC CGGAAACGACAACGGGCGGCAATGCGCTCAAGTTCTATGCTTCGGTTCGC CTCGATATTCGCCGTATCGGCTCCATCAAGGAGCGCGACGAAGTGGTGGG CAACCAGACCCGCGTGAAGGTGGTGAAGAACAAGCTCGCTCCTCCGTTCA AGCAGGTCGAATTCGATATCATGTATGGCGCGGGCGTTTCCAAGGTGGGC GAGCTGGTCGATCTTGGTGTCAAGGCCGGTGTGGTTGAGAAGTCTGGTGC CTGGTTCTCCTATAATTCCCAGCGTCTCGGGCAGGGGCGCGAGAACGCCA AGCAATATCTCAAGGATAATCCGGAAGTCGCGCGTGAAATCGAAACCACG CTTCGCCAGAATGCCGGCCTGATCGCCGAGCAGTTCCTTGACGATGGCGG ACCGGAAGAAGATGCTGCCGGCGCGGCGGAAATGTAA >gid:99394 BMEI0877 DNA-BINDING PROTEIN HU-ALPHA ATGCCTATGAACAAGAACGAATTGGTCGCCGCAGTAGCGGAAAAGGGCGG TTTGACGAAGGCTGATGCCGGTACGGCTGTTGACGCAGTGCTTGCTTCTG TGACCGCTGCCCTCAAGGCTGGTGAAGAAGTCCGTCTGCCTGGCTTCGGC GTTTTCTCCGTTTCGCATCGCGCCGCTTCGACCGGTCGCAACCCGTCGAC CGGCAAGGAAGTTGCTATTCCCGCCCGCAACGTGCCGAAGTTCTCGGCCG GCAAGGGCCTGAAGGACGCCGTTAACGGCTAA >gid:99395 BMEI0878 EXCINUCLEASE ABC SUBUNIT A ATGAGCGATCAGAAATTCATTTCCATACGTGGCGCACGCGAGCACAATCT GAAAAATGTCGATCTCGATCTGCCGCGCGACAAGCTGATCGTGATGACGG GGCTTTCTGGCTCGGGCAAATCCTCGCTTGCTTTCGATACGATCTATGCC GAAGGCCAGCGCCGCTATGTCGAAAGCCTTTCAGCCTATGCGCGCCAGTT TCTCGAAATGATGCAGAAACCGGATGTCGACCAGATTGACGGCCTGTCGC CCGCCATTTCCATCGAGCAGAAGACGACAAGCCGCAATCCGCGTTCGACG GTGGGCACAGTCACCGAAATCTACGACTATATGCGCCTGCTCTTTGCGCG TGTGGGCATTCCCTATTCTCCTGCTACCGGCCTTCCGATCGAAAGCCAGA CGGTGAGCCAGATGGTCGATAGGGTCATCGCACTGGAGGAAGGCACACGT CTTTATATCCTTGCGCCTATCGTGCGCGGGCGTAAGGGCGAATACAGGAA GGAACTCGCCGAACTTCAGAAAAAGGGCTTCCAGCGCGTGAAGGTGGACG GCACCTTCTATGAGATCGCCGACGTTCCGCCACTCGACAAGAAATACAAG CACGATATCGACGTAGTGGTAGACCGCGTGGTGGTGCGCCCGGATTTGTC CACACGTCTTGCAGACAGTCTCGAAACCTGTCTCAAGCTTGCGGATGGTC TGGCCATTGCCGAATTTGCCGACAAGCCCCTGCCAGTGGGAGAAACGGCG GAAGGCGGTTCAGCCAATAAATCAGCCAACGAAACGCATGAGCGCATTCT TTTCTCGGAAAAATTTGCCTGCCCGGTTTCCGGTTTCACCATTCCTGAGA TCGAGCCGCGCCTGTTCTCGTTCAACAACCCGTTTGGTGCCTGCCCCACC TGCGACGGTCTCGGCACGCAGCAGGCCATCGATCCAAACCTTATTATTCC CGATGAAAGCGCAGCGCTGAAAGACGGCGCGGTTGCACCATGGGCGCGCT CCTCGTCGCCCTATTACAACCAGACGCTGGAAGCCTTGGGCAAGGCCTAT GGTTTCAAGGTAAGCGCGCGCTGGTCGGAACTTTCCGAAGAGGCCCGGCA AGCCATTCTCTATGGCACCAAGGGCAGGGAAATTACCTTCCATTATGACG ACGGGCTGCGGTCTTATCAAACCACGAAACCTTTCGAGGGGGTGATCCCC AATCTGGAACGCCGCTGGAAGGAAACCGATTCGGCATGGTCGCGTGAGGA AATCGAGCGCTTCATGGCCTCCACCCCCTGCCCCGCCTGCAATGGCTATC GCCTGAAGCCGGAAGCCCTGTCCGTAAAGATCGGCAAAAAACATATTGGC GAGATCACCGAAATGTCGATCCGCAAGGCCGATGCCTGGTTCCGCGACAT CGATGGCAGCTTTAATGAAAAGCAGCGTGAAATTGCAGCGCGCATCCTGA AAGAAATTCGCGAGCGCCTGCAATTCCTCAACGATGTGGGGCTCGACTAC CTGACGCTGGCGCGCAATTCCGGCACGCTCTCTGGCGGCGAAAGCCAGCG TATCCGCCTTGCCTCGCAGATCGGCTCGGGCCTCACCGGCGTGCTTTACG TGCTGGATGAACCATCCATTGGTTTGCATCAGCGTGATAATGCCCGCCTG CTCGACACGCTGCGCCACCTGCGCGATCTCGGTAATACGGTCATCGTGGT CGAGCATGATGAGGACGCAATCCTCACCGCCGATTATGTGGTCGATATCG GCCCGGCAGCGGGCGTGCATGGCGGCAAGGTGATTGCGCAGGGCTCGCCC CAGGATATCATGGCAAATACGAATTCGCTGACAGGCAAATATCTGTCCGG CGCGATGGAAGTTGCCGTCCCGGCCGAGCGTCGCAAAATTTCCAAGACCA AGCGGCTGCGTGTCGTGGGCGCTCGGGGCAACAACCTGAAGAATGTTTCA GCCGATATTCCACTCGGCACCTTCACCGCTGTCACGGGCGTTTCAGGCGG AGGCAAGTCCACCTTCCTGATCGAGACGTTGTTCAAGGCTGCGTCGCGCC GCATCATGGGGTCGCGTGAGCATCCGGCTGAACACGACCGGATAGAGGGG CTGGAATTTCTCGACAAGGTGATTGACATTGACCAGTCACCGATCGGGCG CACCCCGCGCTCCAACCCGGCCACCTATACCGGTGCGTTCACACCAATCC GCGACTGGTTTGCGGGCCTGCCGGAAGCCAAGGCGCGCGGCTATCAGCCG GGCCGCTTTTCCTTCAACATCAAGGGCGGGCGCTGCGAGGCATGTCAGGG CGACGGCGTCATCAAGATCGAGATGCACTTCCTGCCAGACGTTTATGTGA CCTGCGATGTCTGCCACGGCAAGCGGTATAACCGCGAAACACTGGATGTG CTGTTCAAGGGCAAGTCCATTGCCGATGTTCTCGACATGACAGTGGAAGA AGGTGCTGAATTCTTCTCCGCCGTGCCGGCCGTGCGCGACAAGCTGGAAA CGCTCGTCAAGGTCGGCCTCGGTTACATCAAGGTCGGCCAGCAGGCGACG ACGCTTTCCGGCGGCGAAGCGCAGCGTGTGAAGCTTGCCAAGGAACTGTC GCGCCGCGCAACTGGCCGCACGCTCTATATTCTTGACGAACCCACCACCG GCCTGCATTTCCACGACGTAGCAAAACTGCTCGAAGTGCTGCACGAACTG GTGGAGCAAGGAAACACGGTCGTTGTGATCGAGCATAATCTGGAAGTCAT CAAGACTGCCGACTGGGTGATCGACCTTGGACCGGAAGGTGGCGACGGCG GCGGCGAGATTGTTGCCGTAGGCCGTCCGGAAGACATTGTGCAGGAGAAG CGGTCTTATACCGGCCAATTCCTCAAGGAGCTGCTGGAACGCCGGCCCAA GCGCAGCTCCCAAGCTGCCGAGTAA >gid:99397 BMEI0880 SINGLE-STRAND BINDING PROTEIN ATGGCTGGTAGCGTCAACAAGGTCATTCTGGTCGGCAATCTTGGTGCAGA TCCTGAAATTCGCCGCCTGAATTCCGGCGATATGGTTGCCAACCTGCGCA TTGCAACCTCGGAAAGCTGGCGTGACCGCCAGACCGGCGAACGCAAGGAT CGCACCGAATGGCACAGCGTCGTCATCTTCAATGAAAATCTCGCCAAGGT TGCCGAACAATATCTGAAGAAGGGCGCCAAGGTTTATATCGAAGGCGCGC TCCAGACCCGCAAGTGGCAGGATCAAAACGGCAATGACCGTTATTCAACG GAAATCGTGCTGCAAAAATTCCGTGGAGAGCTTCAAATGCTCGACAGCCG CAGCGAAGGCAGCGAGGGCCGTTCCTTCGGCGGTGGTGGCAACCGCAACC AGATGTCGGATTATTCCGGCGGCGGTGGAGATTTCGGCTCATCCGGCCCA TCTTCGGGCAGCAGCGGCGGTTTCTCGCGCGATCTGGACGATGAAATTCC GTTCTGA >gid:99401 BMEI0884 DNA GYRASE SUBUNIT A ATGCAGCGGTCTTATCTTGATTATGCCATGAGCGTGATCGTGAGCCGCGC GCTGCCCGATGTGCGCGACGGCCTGAAGCCTGTGCATCGGCGCATTCTCC ATGCCATGAACGAGATGAATCTCGCCTATAACCGCCCCTACCGCAAGTCG GCCGGTGTGGTTGGTGAGGTCATGGGTAAGTATCACCCGCATGGCGATGC TTCGATCTATGATGCCCTCGTGCGTATGGCGCAGGATTTTTCCATGCGCG ACCCGCTGATCGACGGGCAGGGCAATTTCGGTTCCATCGACGGCGATCCT CCGGCGGCGATGCGATACACTGAATGCCGTCTGGAAAAGGTCACGGAATC CCTCCTGTCGGATATCGACAAGGACACCGTCAATTTTCAGGACAATTATG ACGGCCGCGAACAGGAGCCGGTGGTTCTGCCGGCACGCTTCCCGAACCTT CTCGTCAATGGTTCAGGCGGTATTGCGGTCGGCATGGCCACCAATATTCC GCCGCACAATCTGGGCGAAGTCATTGATGGTTGCGTTGCGCTGATCGACA ATCCGGCCATCGAACTGTCGGAACTGATGGAATTGATTCCCGGTCCCGAT TTCCCGACGGGCGGTATCATTCTGGGCCGCAACGGTATCAATTCCGCCTA TACGACCGGGCGCGGCTCGGTCATCATGCGCGGGCGCGCCACAATCGAGC CGATGCGTGGCGACCGTGAGGCCATTATCATCACCGAGATTCCCTATCAG GTGAACAAGGCCTCGATGATCGAGAAGATGGCCGAACTGGTGCGCGACAA GCGCATTGATGGCATTTCCGATCTGCGCGATGAATCGGACCGTGAAGGCT ATCGCGTCGTGGTGGAGCTGAAGCGCGATGCCGTGGCCGATGTCGTGCTG AACCAGCTTTATCGCTATACGCCTTTGCAGACCTCGTTTGGCTGCAACAT GGTGGCGCTGAATGGCGGCAAGCCGGAACAGCTCACGCTGCTCGACATGC TGCGCGCCTTCGTCGCCTTCCGCGAGGAAGTGGTGACGCGCCGTACCAAG TTCCTGCTCAACAAGGCGCGTGATCGCGCGCATGTGTTGGTCGGTCTTGC TATTGCCGTTGCCAATATTGACGAGGTGATCGCCCTCATTCGCCGTGCGC CCGACCCGGCGACGGCCCGTGAGCAGTTGATGGAGCGCCGCTGGCCCGCC GTCGATGTGGCTCCGCTGATCCGTCTTATCGACGATCCGCGCCATACGTT GAACGAAGACAATACCTATAACCTCTCCGAAGAACAGGCTCGCGCCATTC TCGATCTGCGTTTGCAGCGCCTCACCGCGCTCGGCCGCGATGAAGTGGCC GATGAGTTGAACAAGATCGGTGAGGAAATCCGCGATTATCTGGATATTCT CGGCTCGCGCCTGCGCGTGATGAATATCGTCAAGGAAGAGATGATTGCCG TTCGCGACGAGTTCGCAACGCCGCGCCGCACCGAAATCGGTTTTGGCGGC GCGGAAATGGACGACGAAGACCTGATTGCCCGCGAGGATATGGTCGTCAC CGTCAGTCATGCAGGCTATATCAAGCGCGTACCGCTCACGACCTATCGTG CGCAGCGCCGCGGCGGCAAGGGCCGTTCCGGCATGGCCACCAAGGAAGAA GATTTTGTGACCCGCCTGTTCGTGGCCAACACGCATACGCCGGTTCTGTT CTTCTCGTCGCGCGGTATCGTTTACAAGGAAAAGCTGTGGCGTCTGCCGG TCGGCACGCCGCAATCGCGTGGCAAGGCGCTCATCAATATGCTGCCATTG CAGCAGGGCGAGCGTATCACCACCATCATGCCGCTGCCGGAGGATGAGGA TTCCTGGGCGAACCTCGACGTGATGTTCTCGACCACGCGCGGCACGGTTC GCCGCAACAAGCTGTCGGACTTCGTGCAGGTCAATCGCAACGGCAAGATC GCAATGAAGCTCGAAGACGAGGGCGATGAAATCCTCTCGGTCGATACCTG TACGGAATTCGACGATGTGCTGCTGACATGTGCCGGTGGCCAGTGCATCC GCTTCCCCGTTACCGATGTGCGCGTCTTTGCTGGCCGCAATTCTATCGGT GTGCGCGGGATCAATCTGGCAGAGGGCGACAAGGTCATTTCGATGGCGAT CCTGCATCATGTCGATGCAACGCCGGCGGAGCGTTCCGCCTATCTCAAGC GTTCGATTGCAGAGCGCAGGGCACAGGGCGCTGACGATGCGGATGATATC GTTGTTGTCGGCGAGGATGTCGATGCAGAAGCGGAGCTGTCGGAAGATCG GTATCAGGAGTTGAAGGCTCGTGAGGAAACCGTGCTGACGGTCAGCGAAT TCGGCTACGGCAAGCGTTCTTCGTCTTACGAGTTCCGCATTTCGGGCCGC GGCGGCAAGGGCATCCGTGCCACAGATACGTCGAAGACCGATGAAATCGG CAAGCTTGTGGCGCTGTTCCCTGTTGAGGGAAGCGATCAGATTCTGCTTG TTTCGGATGGCGGACAGCTTATTCGTGTGCCCGTGGATGGCATTCGTATT GCCGGGCGCTCGACCAAGGGTGTTACGATCTTCAATACGGCGGATGGCGA AAAGGTTGTCTCCGTGGAGCGCATATCCGATGCGGATAGCGATGAGGAAA ACGGCAATGGGGGCGATGCGGCGCCGGAAGGCGATACTCCCGCTGCCACG CAAGAATAA >gid:99419 BMEI0901 RESOLVASE ATGAACAATGCAACCGTCGCCAACGTCGCCGCTACCTACCGGGGTCAGCT TGTGGGGTACGCTCGTACATCGACAACCGATCAGAAGGCAGGACTTGCCG CACAAGAGCGAGACCTTCAAGCGGCAGGGTGTGATCGCATATTCAGTGAA CAGACCTCTGCCAAGGATAGTAAGAGGCCGGAACTGCAACGCGCCCTCGA TCATCTGCGAGAAGGCGACACGTTCATTGTTACCAAGCTGGACCGTCTGG CCCGTTCGGTTGCTGACTTGGTTGATCTCACCGGGCAACTCAGCAGCAAG GGCGTCAGTTTGCGTATCCTCGCCATGAACCTCGACACGGCAACGCCGAC AGGGAAGCTTATGCTGAACCTTTTGGGATCGATTGCGGAGTTCGAGCGGG AACTGATGCTGGAACGCCAGCGGGAAGGTATTGCAGCGGCCAAGGCAGGC GGCAAGTACAAGGGCAGGGCACCCACCGCACAGCGTCAGGCAGACGAGAT TATCCGCTTGAAGGACGAAGGGAAGACCGTCGCGGAAATCATGGCGGCAA CCAAGGCGGGGCGGTCTAGTGTATTCAGCATTCTTAAGGAGGCAGGAAGG ACGGAAGCCCAGCTATGA >gid:99420 BMEI0902 RECOMBINASE GTGTATTCAGCATTCTTAAGGAGGCAGGAAGGACGGAAGCCCAGCTATGA CCGGAAGCAACTCAACGCTGTTCAGGACATGCTTGCCATGGGAGCCGGTA CATCTGAGATTGCTAAGGCGACGGGGTTGACACGACAGACCGTTATCAGG ATCGGTAAAGACCCTGTGAAGGCTGACCAAACATTGAAGCAATGGGAGCC GCAAGGATACGACATGCAAAGAAAATGCTAG >gid:99453 BMEI0934 ATP-DEPENDENT RNA HELICASE RHLE ATGGGCCGACTGATTTTCATCGGCTTTCCCGGACTTGGACTTGTTGCGTC ACATCTTCCACACCGGAATGGTCCAGCAGAGGAAGGGACCCGAAATCAGT TCGGGCACGACAGCGCAAGTCGCCAGAGAGTTTTCCGGCGTCCCGTCGTT ATCATTAAATGGAATTATGTTCGGCAAGTTGCGCTTGCCCGGCGTTTTAA AGCGGACCGCGAATGCGCGGTGCCGCTGAAAGAGATTGAATTGACAAAAG AAAACACGGGCGGCTTCGCCGCTCTCGGTATCACCGGCGTTCTGCTCAAA GGCGTGGAAGCTGCCGGCATGACCGAGCCGAAACCGATCCAGACGCAAGC CATCCCGTCGCAACTTGAAGGCCAGGACATCCTCGGCATCGCCCAGACGG GTTCCGGCAAGACGGCGGCTTTCAGCCTGCCCATCCTTCAGAAAATCATC GGCCTTGGCGACAAGCGCCGCCCGAAAACCGCACGCGCGCTAATCCTGGC GCCAACGCGTGAACTGGCAGTACAGATTGAGCAGACGATCCGCAATGTCT CCAAAAGCGCGCATATCTCCACCGCGTTGGTTCTCGGCGGCGTGTCCAAG CTTTCGCAGATCAAGCGTATCGCACCCGGCATCGATGTGCTCATCGCAAC ACCCGGCCGCCTGACGGACCTGATGCGCGATGGCCTCGTGGACCTGTCGC AGACCCGCTGGCTGGTTCTCGATGAAGCCGACCGCATGTTGGACATGGGC TTCATCAATGATGTGAAGCGCATTGCCAAGGCAACACACGCCGAACGCCA GACCGCACTGTTCTCGGCTACCATGCCAAAGGAGATCGCATCGCTGGCCG AACGTCTGCTGCGCGATCCGGTACGGGTGGAAGTGGCGCCACAAGGCGCC ACGGCTTCTGAAATTACGCAGGTCGTGCATCCAGTGCCGACGAAGGAGAA GCGCCGCCTGCTTTCAGCCATGCTGACCGATGCCGACATGCGTTCCGTCA TCGTCTTCACGCGCACCAAGCACGGAGCAGATGCCGTCGTGCGCCATCTT GAGCGCGACCGCTATGATGTTGCGGCCATCCACGGCAATAAGTCGCAGAA TGCACGCCAGCGCGCGCTGAACGGTTTCCGCGATGGGACCCTGCGCATTC TGGTTGCAACGGATATTGCAGCGCGCGGCATCGACGTGCCCGGCATCAGC CATGTGGTGAATTACGACCTGCCGGACGAGCCGGAAACCTATGTGCACCG CATCGGCCGCACCGGCCGCAACGGCGCAAGCGGCGCTTCCATCACGCTTT ATGATCCGGCTACGGAAGAATCAAAGCTGCGGGCGGTTGAGCGCGTCACG CGGAGCAAACTTTCGATCAAGGATGCGCCGGTGAAGCTTGCACCAGCACC TGTCGCCAAAGGCCCCGCACCCCAGGGCCAGCGGACTGAACAGGCTGAGA GCCGCAAGGCGCCCGCGCACAAGCATCGCCGCCCCGCACAGAAGGCGGGC GAGCAGCATCGCGCCGGGGCACATGCCAGCGCCGGTGAGGCCGCGCCGAA GCCGAAGCGTCCCTTCCGCCGCAAGCGCCGCAGCAATGGCGGCCAGCGCG CCGCCTGA >gid:99461 BMEI0941 BIS(5'-NUCLEOSYL)-TETRAPHOSPHATASE(ASYMMETRICAL) GTGAAGACGCAGGCCAAACAACTCGTTGCAACGGAGAAGCGTATTCTGAC GCCTTCTGGTCGTTTGCAGCAGGTTGCAGCGCTTGTCTATCGTCGCGAGA TGGGCGCTTTGCAGGTGCTTGTCATCACGAGCCGCGGCACGGGCCGCTGG ATCATCCCCAAGGGCTGGCCGCAAGTGGGCCGTACACTGGCTGGAGCCGC GCTGCGCGAAGCTTTCGAGGAAGCGGGTATACGCGGCGATGTTTCTCGTG ACCCCATCGGCAGCTACATTTATTGCAAGATGGATCTGCCGCCGGAGCGC ATCAACCAGTTCACGGTGGCCGTCTATGCCGTCCAGTTTACTTCACAGGA GAAGGACTGGCCGGAACGGGAACAGCGTTTGTGTGAATGGGTGTCCCCTG GCGAGGCAGCCAACCGCGTCGAAGAGGTGGAGCTGAAGCAGATACTGAAC GGCTTTGCTGATTCGGGCTTTGCCGCCGCTGCTGAATAA >gid:99506 BMEI0986 SEC-INDEPENDENT PROTEIN TATD TTGATGATGCTTGTCGATAGCCATTGCCACCTCGATTTTGCCGATTTTGA GCCGGAGCGCGATGCTGTTGTTCAGCGCGCGCTCGATGCGGGCATCAAGC GCATGGTGACTATTTCCACGCGCGTCCGGAAATTCGATGCGATTCGCACG CTGGCCGAGACTTATGAAGCGGTCTATTGCTCGGTCGGGACCCATCCGAA CAATGCACATGAGGAACTCGACATTACCGCCGATGATCTGGTGCGGCTTG CCGAACATCCGAAAGTGGTGGCAATAGGCGAGGCGGGCCTCGACTATCAT TATGATTATGCGCCGAAGGAAGCCCAGCAACAGGGTTTTCTCGCCCATAT TGATGCTGCGCGCCGCACCCAATTGCCGCTTGTCATCCATGCGCGCAGCG CGGATATCGATATGGCCGAAATCCTTGAAAAAGAGACGGAAAAGGGCGCA TTCCCCTTTATTCTGCATTGTTTTTCTTCCGGCCGTGCGCTTGCGGAAAA AGGTATAGAACTGGGCGGCTATATCTCGTTTTCCGGCATTTTGACCTTCA AGAATTCCGCCGATATCCGGGAAGTGGCGTCAATCGTGCCGCGTGATCGC CTTCTGGTGGAAACCGACGCACCCTATCTTGCGCCGGTGCCGCATCGCGG CAAACGCAACGAGCCGTCTTTTGTGCAGCATACGGCGGCCGTGCTGGCTG AAACCATCGGCGTCAGCCCGGAAGAGATCGCGGCGATCACCAGCGACAAT GTTTTCCGGCTTTTCTCCAAAATGCCAAGACCGGCCGAAGGAATATAA >gid:99508 BMEI0988 DNA POLYMERASE III, DELTA' SUBUNIT ATGATCGAAGAGCTGGACATTCCCAAAACACATGATGCCATTGAAGGCGT CCCCGGACCCTCGGCCAGCGCCTATCTGGCGGGGCATGACGAGATCGCGC GTTTTCTGGCGCAGGCCTATCATGAAGGCAGGATGCACCATGCCTTGCTG TTCGAGGGACCGCAGGGCATTGGCAAGGCAACGCTCGCCTTTCATCTGGC GGGGCATATGCTCTCTTTCGGCGACCGGAACGAGGCTCCCGAAACGCTAA TCGCGCCGGATTTTTCAAAACCGCTCTGGCGGCAGATCGCGGGTGGCATG CACCCGGCGGTGCTGCACATCACCCGCCCTTTCGACCAGAAGACCGGAAA ATTCCGCACCGCAATCACCGTGGAGGAGATCCGTCGCGTCACGCATTTTC TGACGCGTACGGCTTCCGATCACGCCTGGCGCATCGTTATTGTCGATCCG GCGGACGATATGAACCGCAATGCGGCCAATGCGCTTTTGAAAACGCTGGA AGAGCCGCCGGCGCGCGCGCTTTTCATCCTTATTTCGCATTCATCGGGAC GTCTTTTGCCGACAATCCGCTCGCGCTGCCAGAGCATATCGTTCAAGCCG CTCGACGGTGAAACGCTTGGCCGCGCACTGTCACATGCGGGGTCGAAGGC GGGCATCAGTGCGGGCGACATAACGGAAGTGCTGTTGCAGCGCTCGGAAG GCAGCGTGCGAAAGGCGCTGCTTCTGCTGGCGCATGGCGGGCTGGAAATT TCCGATACGGTGGATCAGATCATAGCAGGCAGCATATTCGATCTTCCCAA GGCGCAGGCGCTCGGCGGCATATTGAACGGGCGGGAAGCCGAAGTGCAAT ATGAGCTTTTCCGCGATTACCTGATGGGGCGTATCGCAGCCGAAGCGCGG CGCTACGCCGATAGCGGGCAATTGCGTGAAGCTGATCAATGGGCGCGCTT CTGGAGCGACCTCATTCGCGAAACGGTGGAGGCGGAAACCTACAATCTCG ACCGCAGGCAGGCGGTTGTTATCCTTCTGGAAAAGACGCATCGCGCTTTT CGCACCGGTGTGCCGCCGCTCACATCGGCTTGA >gid:99521 BMEI1001 TRANSPOSASE TTGACGACCAAGCTGCATGCTGTTGTCGATGCTATCGGCCTACCGCTGCG AATAAAGCCAACACCCGGCCATTATGGTGACTGTCCGCAAGCTTCAAGCC TTCTATCCGGCTTAAAGGGTGTGGGGCATGTCATTGCTGATGCGGCCTAT GATGCCGATCACTTAAGGGCCTTCATTGCCAGCGATCTCAAGGCAACGGC TCAGATCAAGGTCAATCCAACACGTTCCAGTGTCCCAACAATCGACTGGA GGCTGTACAAGGAACGCCATCAGATTGAATGCTTTTTTAACAAGTTGAAA CGCTATCGTCGCATTGCGCTGCGATGCGAGAAAACATTGACCGCATTCGT GGGTTTCGTCCATCTCGCATGCGCTATGATCTGGTTACGTTGA >gid:99522 BMEI1002 TRANSPOSASE GTGAGCAGACGAAGCCTTACAGATGAGCAATGGAACCGGATCGAAGCATA TCTTCCGGGGCGAGTTGGTACGCCCGGCCGCAGTGGCGTTGATAACCGAT TATTTGTCGACGCCATCTTGTGGATGGCTGCCAATGCAGCGCACTGGCGC GATCTGCCTGCGACCTTCGGCAAATGGACAGCGGTTCATGCCCGCTTTCG GCGCTGGTCGCACGCCGGTGTATGGGAAAGGCTTTTCCATGCCCTGGCTG ATACGCCGGACTTTGAATATGTCCTCATTGACAGCACCATATCGAAAGTC CACGCAGATGCGGCGGGCGCAAAAGGGGGGCTGAAGCTGCCTGCATCGGT CGCTCGCGCGGGGGATTGA >gid:99532 BMEI1012 INTEGRASE/RECOMBINASE TTGAAAGGCATCCACAAAGTTAACGCAAAGGGCCGCACGTATTATTATGC ATGGCGTGGCGGCCCGGCCCTTCGTGGAGAACCCGGATCGGCTGAATTTA TGGCTTCGCTTCAAGAAGCAAATGATAGTCGGGTAATTCCAGATGCTTCA AAGTTTCGCGCCGTTATCACGGCCTATAAGTCTAGCCACGACTACCAGAA GCTAGCCGACAGCACGAAACGCAATTGGAATGGATGGCTGGATAGGATCG GGAAAAAATTCGGGGACTTGAGCATAACGCAGTTTGATCTACCTCAGAAA ATACGGCCAGTCATTCGAAAATGGCGCGGGGAGTTTGCCGATAAGCCACG AACTGCGGACTATGGAATGCAAGTCCTTTCCCGCGTTCTGTCCTATGCTG TAGACCCTCTTGGCAAGATTAGCCAAAATCCATGTGAAGGCATTAAGCAG CTATACAAAAACGACCGTGCCGCCATCATATGGACAGATCAGGATATCGC GCGGCTCAAAACGAAATGTTCACCCGAAGTCGCATGGGCGGTTGATCTAG CAGCCCACACAGGCTTGCGCGCTGGCGATCTTTTGCGGCTGTCATGGTCT CATATCACCGATAACGCAATAATCCTACCCACCGGGAAAAGTCGTCACAC GAAGGAAGCGGTCATTCCTCTTTACGCGGAATTGAGGGCCTTGCTTCAAA CGATCCCACGCCGGTCTCCTATTGTCTTGACAAACACCAGGAAAGCACCT TGGACGGTAAACGGGTTTGGGTCATCGTTTTCAGACTGCCGCGAAGAAGC AAAGCTTGGCGATAGAGATTTATACTTTCACGACTTCCGTGGGACGGCGG CGACAAAGTTCTATATCGCCGGTCTGTCCGAACGTGTAATTGCTGAAATC ATGGGGTGGGAAGAAGAAACCGTGCGGAACATTATCCGGCGGTATGTGAG CAAAACGGCTGCTATAGAGGCCACGATAAAACAGATTGACGAGGCCAGAA AGAGAACGTAG >gid:99558 BMEI1035 ATP-DEPENDENT RNA HELICASE DEAD TTGACGACATTTGCCGAACTCGGTCTTTCCCCGAAAGTGATCGCTGCTGT AGAAGCAGCGGGATACACTGCGCCCACTCCAATTCAGGCTGGGGCCATTC CGCCCGCGCTTGAGCGCAAGGATGTGCTTGGAATTGCACAGACCGGAACG GGCAAGACGGCTTCGTTCGTTCTGCCGATGCTGACGCTTCTGGAAAAGGG CCGGGCGCGGGCGCGTATGCCGCGCACGCTCATCCTTGAGCCAACGCGCG AACTGGCAGCGCAGGTTGAAGAAAATTTCGTCAAATATGGTATCAATCAC CGCCTCAACGTGGCCCTGCTTATCGGCGGCGTATCGTTTGAGGAGCAGGA GCGCAAGCTTGAGCGCGGCGCGGATGTTCTCATCGCAACGCCGGGCCGTA TGCTCGATCATTTTGAACGCGGCAAGCTTCTGCTTACCGGCGTCGAGATT CTCGTCATTGATGAAGCCGACCGTATGCTCGATATGGGTTTCATCCCGGA CATCGAACGTATCTGCAAGCTGATCCCCTTTACCCGCCAGACTTTGTTTT TCTCGGCCACCATGCCGCCGGAAATCACCAAGCTGACGGAACAGTTTTTG CATTCGCCCGTGCGCATCGAGGTCGCCAAGGCTTCCTCCACGGCCAAGAC CGTGACCCAACGTCTGGTGAAATCGGGCAAGAAGGATTGGGACAAGCGCG CCGTGCTGCGCGACCTGATCCAGTCCGAAGGTGATTCACTCAAGAATGCG ATCATCTTTTGCAACCGCAAGAAGGACGTCTCGGAGCTTTTCCGCTCGCT GACGCGCCATGAATTCGATGCCGGCGCCTTGCATGGAGACATGGACCAGC GGGCTCGCATGGCCATGCTGTCCAGTTTCAAGGATGGCAAGCTGCGCCTT CTGGTAGCATCCGATGTTGCCGCACGTGGCCTCGATATTCCCGATGTAAG CCATGTGTTCAACTTCGATGTCCCTATCCATGCGGAAGATTATGTCCATC GCATCGGCCGCACGGGCCGTGCGGGCCGTTCCGGCAAGGCGTTCACTATT GTGACCTCGTCTGACACCAAATATCTCGCGGCGATCGAAAGCATGATCGG CGAAAAGATCGAGTGGCACGATGGCGATCTGTCCACGCTGGCCGTATCCG AGGAGGCTGATGAGCAGCCACGCAAGGGACGCAACGCGCGCGGCAAGGGC AAGGAAAAGCCGAAGGAAAAGGCCAGCAAGCCTGTTGCGGCTAAAACCGT TGATCCGGCCGGACAACCGCAGCCGGTTATTGAAAATCAACACCGTCGCG AAGCGATTCGTTCATCAAATGAAGAACGCCGCGGCAAGCCGCAGACCGAA CAGCACAAGCGCCGCCGTGATCGCGATGATGACGGTCCGGCTCCGGTTGG TTTTGGAAACGATATTCCGGCCTTCATGCTGATTCCAACCGGCGTGTGA >gid:99576 BMEI1052 TRANSPOSASE TTGACGACCAAGCTGCATGCTGTTGTCGATGCTATCGGCCTACCGCTGCG AATAAAGCCAACACCCGGCCATTATGGTGACTGTCCGCAAGCTTCAAGCC TTCTATCCGGCTTAGAGGGTGTGGGGCATGTCATTGCTGATGCGGCCTAT GATGCCGATCACTTAAGGGCCTTCATTGCCAGCGATCTCAAGGCAACGGC TCAGATCCAAGGCCAATCCAACACGTTCCAGTGCCCCAACAATCGACTGG AGGCTGTACAAGGAACGCCATCAGATTGA >gid:99577 BMEI1053 TRANSPOSASE TTGAGCAGACGAAGCCTTACAGATGAGCAATGGAACCGGATCGAAGCATA TCTTCCGGGGCGAGTTGGTACGCCCGGCCGCAGTGGCGTTGATAACCGAT TATTTGTCGACGCCATCTTGTGGATGGCTGCCAATGCAGCGCACTGGCGC GATCTGCCTGCGACCTTCGGCAAATGGACAGCGGTTCATGCCCGCTTTCG GCGCTGGTCGCACGCCGGTGTATGGGAAAGGCTTTTCCATGCCCTGGCTG ATACGCCGGACTTTGAATATGTCCTCATTGACAGCACCATATCGAAAGTC CACGCAGATGCGGCGGGCGCAAAAGGGGGGCTGAAGCTGCCTGCATCGGT CGCTCGCGCGGGGGATTGA >gid:99618 BMEI1093 EXODEOXYRIBONUCLEASE III ATGCTCCGCCGCCGAAATACGAGCTGTGACAGGAATGTGGGAGGAAAAGC TGTGTGGTCCAAAGGGCCGTGCTTGCCCTGCCCCGCACGAGCGCATAATC ATTATGGAATGAAAATCGCTACATGGAACATCAACGGCGTCAAGGCGCGC ATCGACAATCTCCAGCATTGGCTGAGGGAGTCGTCGCCCGACATCGTCTG CCTGCAGGAAATCAAGTCGGTGGATGAGCAATTTCCCCGCCTTGAGATCG AAGCACTCGGCTATCATGTCGAAACCCACGGCCAGAAGGGTTTCAATGGG GTGGCGCTGCTCTCAAAAAAATCACCGGATGAGATCAATAAAGGCCTTCC CGGTGACGATAGCGACGAACAGGCCCGTTTCATCGAAGGCATTTATTCGA CCGATACTGGTGTCGTGCGGGTCGTGTCGCTCTATTTGCCCAACGGCAAT CCGATCGACACCGAAAAGTTCCCCTACAAGCTTTCATGGATGCAGCGGCT TGAAAATTGGGCAAAGAAGCGCCTGACACTGGAAGAACCATTGGTTCTGG CGGGTGACTATAACGTCATTCCCGAACCCGTGGACGCCCGCAACCCGCAG GCATGGCTGGGCGATGCGCTGTTTCAGCCGCAATCCCGGCAGGCATTCCG CAGGCTGGAAAATCTGGGGTTCACCGATGCAATCCGGGCATCGACCGATG AAAGCGGCGTCTATTCTTTCTGGGATTATCAGGCCGGGGCCTGGCAGAAG AATAACGGCATTCGCATCGACCACCTGATGCTGTCGCCGGAAGCGACAAA CCGTTTCATTTCAGCCAATATCGAAAAGCACGTTCGTGCCTGGGAAAAGC CATCCGATCATGTGCCGGTAACAGTCACGTTGGCGGTTTAG >gid:99621 BMEI1096 SUCCINOGLYCAN BIOSYNTHESIS PROTEIN EXOI ATGCTGATTTTCCATCTGCCAGCCAACCAGCCCGACCGAAATGAGCCAAG CGGCCGCCCCTATATCATTGACGGGGATACAGTCGTGCTCGGCAAGACCC ATATTCGCCTGAAAGGGATCAACGCACCGGAAATCGGGCAGAGCTGCGAG GGCGCGCACGGAACCTATGATTGCGGCGGCGAAGCTCGCAATAAGTTGCG AGCCCGGATCGGCAGGGCGTCGATTCGCTGCGAAAGCAGCGGGCGCGACC GGTATGACCGGGTTCTGGCCCGGTGCTTTCTTGGTGAAACCGACCTCAAT CAGTGGATGGTTCAGGAAGGGTGGGCCGTTTCCTATGGCAATTACCAGCG CGATGAAGCAGACGCCCGCCGTGACAAGCGCGGCATATGGGCGGGGAAGT TCGAGCGGCCTTCGCGCTGGCGGAAAGAGCATCCGCACCCCAACCGGAAA CAACCATGA >gid:99622 BMEI1097 hypothetical protein ATGGAATTCATGGAAAAACTGGACGAGCTCAGGCACTCGATCCAGGCTTG CCGCCTCTGCCGCGACACGCCGCTGTTTCCGCCACCGCTACCGCATGAAC CCAATCCCGTCTGTATCATTTCCGATACGGCGCGCATTGCCATTTGCGGA CAGGCGCCGGGAATTCGGGTGCACAACACCTCCCTGCCGTTCAACGACCC GTCGGGCGACCGCCTGCGGCAATGGCTCGGTGTTACGCGCGAGGAGTTTT ACGACGCCTCCCGTTTCGCCATCGTTCCGATGGGCTTCTGCTTTCCGGGT TATGACAAGAACGGCGGCGACCTGCCGCCGCGCAGGGAATGCCGCCAGAC ATGGCATGACCGGGTGTTTGCGGCCATGCCGCAACTGGAGTTCATTCTGG TGGTCGGGCAATATGCCCTTGCCTATCACCTGCCGGACTATCGCGGGCGC AATCTCACGGAAACCGTGAAGAACTGGCGGCATTTCATGGAAACGCCGAG CCATACCGGGCGCATCGCCCTGCCCCTGCCGCATCCTTCATGGCGCAATA GCGGCTGGCTGAAGCGAAATCCGTGGTTCGACATGGAAGTCGTGCCTGTT CTTCAGGCAAAAGTCCGCCATCTCATTGATGACGAGAAATAA >gid:99662 BMEI1137 DNA POLYMERASE III, ALPHA CHAIN GTGAGCGGTCGTCGATGCGGCTTTACGGAAGATCGGGGTGGACGAATGAA CGATACGGTAGCAGGAAACGCAGCGAGCGGTAGCTCTGCTACGCCGGGTT TCGTTCATCTGCGGGTTCATTCCGCCTATTCCTTGCTGGAAGGCGCATTG CCGCTTGGCAAGATCATCAAACAGGCGCTTGCCGACGAAGCGCCGGCCAT CGCAGTCACGGACACCAACAATCTGTTCGGTGCGCTGGAATTTGCGCAGA AGGCGTCGAAGGATGGTGTGCAGCCGATTATCGGCTGTCAGCTTGACGTT GCCTTCGGCGATCATAATGACAATAGCCGCAGTGTTAACCGCAAGCTCGC GCTGGATCTTGCGCCGCTTGTCCTGATTGCGGCAACGGAAGCAGGCTATG CCAATATTGTGCGGCTTGTAAGCCGTGCATTTCTGGATACGCCTGCTGGC GACCCTATCCACATAGAGGCTGGCTGGCTGCCAGCCTTGTCTGAGGATGT AATCGCGCTAACCGGCGGACCTTTGGGGCCGATCGGGCGGTCCTTCACGG CGGATCGTGCCGACCGCGCGCGCGCGCGCTTGGCTTTCCTGAAGGAAACC TTCGGCAATCGTCTCTATGTCGAATTGCAGCGCCAGGCGGGGTATGACCG CACTGTGGAAGCCAGTACGGTGGAACTGGCTTACGAGATGGATTTGCCGC TGGTCGCGACCAACGAGGCTTTTTTCCTGAAAGCGGAGGATTTCGAGGCG CATGATGCGCTGCTCGCCATTGCGGAAGGCCAGATTCTCTCCAACGATGA TCGCCGCCGCCTGACACCGGATCATTGTCTGAAAAGCCGCGCGGAAATGG CGGAGCTTTTTGCCGACCTGCCGGAAGCACTTGAGAATACGGTCGAAATT GCCGGGCGTTGTAGTTGGTACACGCAGACGCGTAAGCCGATCCTGCCACG GTTTACCGGCGAGTCCGACGATCCGGAAGCTGCCGTTCAGGCGGAAGCTG ACGAACTTGCGCGGCAGGCGCGCGAGGGCCTGAAGAAGCGTCTTGAGACT GCGGGCCTTGCGGAAGGCTATACGCCGGAACAATATGCCGAACGCCTCGA ATATGAGATCGGCATCATCACCCGCATGAAGTTTCCGGGCTATTTCCTGA TCGTTGCCGACTTTATCAAATGGGCCAAAGCTCATGGTATTCCGGTCGGG CCGGGCCGTGGTTCCGGTGCCGGTTCTCTTGTCGCCTATGCGCTGACCAT CACCGATGTCGATCCGCTGCGCTTCTCGCTACTTTTTGAACGCTTTCTCA ATCCCGATCGCGTTTCGATGCCCGACTTCGATATCGATTTCTGTCAGGAT CGCCGCGAAGAGGTGATCCGCTATGTGCAGGAAAAATACGGGCGCGATCA GGTTGCACAGATCATCACGTTTGGAACCTTGCAGGCTCGCGCCGTGCTGC GTGACGTTGGCCGTGTTCTGGAAATGCCATATGGGCAGGTGGATCGCCTC TGCAAGCTGGTGCCGCAGAACCCGGCCAATCCGGTATCATTGGCGCAAGC CATCGAGTCCGAGCCTAAGATCAACGAGGAGCGCGAGAAGGAGCCGGTCG TCGGCCGCCTTCTCGACATGGCGCTGAAGCTTGAAGGGCTTTACCGGCAT GCATCGACCCATGCCGCTGGCATCGTGATCGGTGATCGACCTTTGTCTGA GCTGGTGCCAATGTATCGCGATCCGCGATCCGACATGCCTGTCACCCAGT TCAATATGAAGTGGGTGGAGCAGGCGGGTCTCGTCAAGTTCGACTTCCTC GGCCTCAAGACGCTGACCGTTCTTCAAACGGCGGTCAAGCTGGTGGCGCG CAAGGGGATCGATATCGATCTTTCCCACCTGCCGCTTGATGATGCGCTGA CCTATGAAATGCTGTCGCGCGGTGAAACCGTTGGTGTGTTCCAGGTTGAA AGTGCGGGTATGCGCAAGGCGCTGCTCGGCATGAAGCCGGATCGTGTCGA GGATATTATTGCGCTTGTGGCGCTTTATCGTCCGGGCCCGATGGAGAACA TTCCAACCTATAATGCGCGCAAGAATGGTGAGGAGGAGATCGCCTCCATT CACCCGAAGATCGATCACCTGATCAAGGAAACGCAGGGCGTCATCGTCTA TCAGGAACAGGTGATGCAGATCGCGCAGGTGCTTTCGGGCTATTCTCTCG GCGAAGCTGACCTTCTGCGCCGCGCCATGGGCAAGAAGATACGCGAGGAA ATGGACAAGCAGCGTGTCCGTTTCGTGGATGGTGCGGTTGAGCGTGGGGT GGACAAGGCGCAGGCGAACATGATTTTCGATCTGCTTGCCAAGTTCGCCG ACTATGGCTTCAACAAGTCGCACGCTGCGGCCTATGCCATCGTTTCTTAC CAGACGGCTTATATGAAGGCGCATTACCCGGTCGAGTTCCTCGCCGCGTC GATGACCTACGATATGTCGAACACCGATAAGCTCAACGATTTCCGCCGCG AGGCGAACCGTCTAGGCATTGAGGTTGTGCCGCCTTCGGTGAAGACATCG TTCCGCCCGTTTGAAGTGGGTGAGAAGAAGATTTTCTATTCGCTCGCAGC CATCAAGGGTGTGGGGGAGGCGGCTGTCGATCATATTGTCGATGTGCGTG CCGAAAAACAGTTTGAAAGCCTTGAGGATTTTTGCGAGCGGATTGATCCC AAAATTATCAATCGCCGTGTTCTGGAAAGCCTCATCAATGCAGGCGCGAT GGATTGTTTTGGGCGGGACCGCGCTGCCATGTGCGCCGGGATGGACCGCA TTCTGGGCTTTGCCCAGCGCACGCAGGAAAATGCCGTCAGCGGCCAGTCG GATATTTTCGGCCTTTCCGGCGCGCCCAGGGAAACACTTATCCTGCCGCC GACAGCCCCCTGGCTGCCATCTGAAATGCTGCATCGTGAGTTTCAGGCGG TCGGCTTTTATCTGTCTGCCCATCCGCTGGACGAATATCGCGACGTCTTG AACCGGATGCGTGTGCAAAGCTGGGCTGATTTTTCAGCCGCGGTAAAGCG CGGCGCAAGCGCGGGGCGTCTGGCCGGGACGGTTACGGCCCGGCAGGAGC GCAAGACCCGCACCGGCAACAAGATGGGTATCGTGCAGCTTTCCGACGCC AGCGGCCAGTTTGAGGCGGTCCTGTTTTCGGAAGGGCTCGCACAATATCG CGATCTGTTGGAAAGCGGCAAATCGGTGGTGATCACGGTGCAGGCGGAAA ACCGGCCTGAAGGCATCGGATTGCGCATTCAGACTGTCCAGTCGCTGGAA GACGAGGCTTGCCGTATGCAGAAGGCTATGCGACTCTATCTGCGCTCGGC TGATGCGGTCCGCCACATCGCACCGCATTTCAATACACGCGGTGACGGAC AGGTGAGCCTCATCGTCATCAAGGATAACGGACAGCGTGAGGTGGAGATC GAATTGCCGCATCGCTATCGCGTCAGCCCGCAGATCGCGAGCGCCATGAA GGCTATCCAGGGCGTTGTGGAAGTCGAGCTTGTTTAG >gid:99690 BMEI1163 TRANSPOSASE TTGACGACCAAGCTGCATGCTGTTGTCGATGCTATCGGCCTACCGCTGCG AATAAAGCCAACACCCGGCCATTATGGTGACTGTCCGCAAGCTTCAAGCC TTCTATCCGGCTTAGAGGGTGTGGGGCATGTCATTGCTGATGCGGCCTAT GATGCCGATCACTTAAGGGCCTTCATTGCCAGCGATCTCAAGGCAACGGC TCAGATCCAAGGCCAATCCAACACGTTCCAGTGTCCCAACAATCGACTGG AGGCTGTACAAGGAACGCCATTAGATTGA >gid:99691 BMEI1164 TRANSPOSASE GTGAGCAGACGAAGCTTTACAGATGAGCAATGGAACCGGATCGAAGCATA TCTTCCGGGGCGAGTTGGTACGCCCGGCCGCAGTGGCGTTGATAACCGAT TATTTGTCGACGCCATCTTGTGGATGGCTGCCAATGCAGCGCACTGGCGC GATCTGCCTGCGACCTTCGGCAAATGGACAGCGGTTCATGCCCGCTTTCG GCGCTGGTCGCACGCCGGTGTATGGGAAAGGCTTTTCCATGCCCTGGCTG ATACGCCGGACTTTGAATATGTCCTCATTGACAGCACCATATCGAAAGTC CACGCAGATGCGGCGGGCGCAAAAGGGGGGCTGAAGCTGCCTGCATCGGT CGCTCGCGCGGGGGATTGA >gid:99707 BMEI1179 INTEGRATION HOST FACTOR ALPHA-SUBUNIT TTGTGTAACGTCCTGTCATGTAAGGATATTATCTGTTCAAACGCTAACCA GGCAGGTTCGGTCATGGGAGGTAAAACGGTCACGCGGGCTGATCTGGCAG AGGCTGTTTACCGTAAGGTAGGCCTTTCCAGAACGGAATCGGCGGCTTTG GTCGAGATGATACTCGATGAAGTCTGTGACGCTATCGTCAATGGCGAAAC GGTGAAATTGTCGTCTTTTGCGACATTTCAGGTTCGCGACAAGAACGAGC GTATCGGTCGTAACCCCAAGACGGGTGAGGAAGTGCCGATCCTCCCGCGG CGTGTGATGACGTTCAAGGCGTCTAATGTTCTCAAGCAGCGCATTTTGCA GGAACATCAGAAGCGTCAGGGTAAAACCTCGAAGTGA >gid:99728 BMEI1200 TOPOISOMERASE IV SUBUNIT A TTGGTACTGAGAGATATGGGAAAAAGTCTGATTCCGCCCGGCGACGGCGA AGAACACATTGAACGGGTCGATCTGAAATCGGCTCTTGAGGAACGTTACC TCGCTTATGCGTTGTCAACGATCATGCATCGTGCGCTGCCGGACGTGCGC GACGGCTTAAAGCCGGTGCACCGCCGCATCATGCACGCCATGCGCCTCCT GCGGCTTAATCCCGATCAGGCTTATGCGAAATGCGCCCGTATCGTTGGCG ATGTCATGGGCAAGTTCCATCCCCATGGCGATGCCTCGATCTATGATGCG CTGGTGCGGCTCGCGCAGGATTTCGCCGTGCGCTATCCGCTCGTGGACGG GCAGGGCAATTTCGGCAATATCGACGGCGATAACGCCGCCGCCATGCGCT ACACCGAAGCGCGCATGACGGAAGTGGCGACGCTGCTTCTGGAAGGCATC AACGAAAACGCCATTGATTTCCGTCCGACCTATAATGAGGAAGACGAAGA ACCCATCGTTCTTCCCGGCGCTTTTCCCAACCTGCTTGCAAACGGTTCGG CGGGCATCGCGGTCGGTATGGCCACCAATATTCCGCCGCATAATGTGGCG GAGCTTTGCTCGTCGGCGCTTTATCTCATCAATCATCCCGATGCGCCGGT GGAGGAACTCGTAACCTCGCCCGAACAATGGGCGGAGATTGAACAAGAGT CCAAGACCGATCCGGCAGCACTTCTGAAATGCAAGGTGCGTGGCCCGGAT TTCCCGACCGGGGGCATCCTCGTCGAAGAGCATGGCAATATTCTTGAGGC CTATCGCACGGGGCGCGGCGCATTTCGCGTTCGTGCCCGCTGGCACAAGG AAGAGGGCAATCGCGGCACCTGGGTGATTGTCGTCACCGAAATTCCCTAT CAGGTGCAGAAGTCGCGCCTCATCGAAAAGATCGCGGAACTGCTTCTGGC AAAGAAGCTGCCGCTGCTTGACGATATTCGTGATGAATCGGCGGAAGATA TCCGCATTGTTCTGGAGCCGAAGAACCGCACGGTCGATCCCGAGCTGCTG ATGGAATCGCTGTTCAAGCTGACCGAGCTTGAAAGCCGCGTTTCATTGAA CATGAACGTGCTGTCGCACGGCAAGGTGCCGAATGTCCTGTCGCTGGGTG CTGTCCTGCGCGAATGGCTGGAGCATCGCAAGGAGGTGCTGGTTCGCCGG TCGCAATTCCGGCTGGCGGAGATCGAAAAGCGTCTCGAAATCCTTGGCGG CTTCCTGATCGCCTATCTCAATCTGGATGAGGTGATCCGCATCATCCGTG AGGAAGACGAGCCGAAGCAGGAATTGATGCGTGCTTTTGAACTGACTGAC GTTCAGGCCGAATCCATCCTCAATATGCGCCTGCGTTCATTGCGCAAGCT TGAGGAATTCGAGATCCGCAAGGAGTTCGATGACCTCACTGCCGAAAAGA CGGACCTGGAAGGTCTGCTCGCTTCCGGCACGCGCCAGTGGAAGAAGATC AGCACCGAAATCAAGGCGGTGCGCGAAAAGTTTGGCCCGACGACCAGGCT TGGCAAGCGCCGTACGACTTTCGCCCATGCTCCGACGCACGATCTTGAAG ATATCCATCAGGCTATGATCGAGCGTGAGCCGGTAACGATCGTGGTTTCC GAAAAGGGCTGGCTGCGCGCCATGAAGGGGCATCTGGCCGACTTCTCGAC GCTTTCTTTCAAGGAGGGCGACAAGCTCAAGCTTGCCTTCCATGCCGAGA CGACCGACAAGCTTTTGTTCTTCACCACGGGCGGCAAGTTCTTCACCATC GGTGCCAACACGCTGCCGGGCGGCCGCGGCCACGGCGAGCCGATCCGCAT TCTGGTCGATATGGAAAACGATCAGGATATACTGACGGCCTTCGTGCACG ATCCATCCGCAAAGCTGCTGCTTGTCAGCCATGAGGGCAATGGTTTCATT GTTCCGGAAAGCGAGGCGGTCGCCAATACCCGCAAGGGCAAGCAGGTCAT GAACGTCAAGGCCCCGGATGAGGCGAAGCTTTGCCAGCGCGTTTCGGGCG ATCACATTGCTGTCGTCGGCGAAAACCGCAAGATGCTGGTCTTCCCGCTT TCCGATATCCCGGAAATGACACGCGGCAAGGGCGTGCGCCTGCAAAAATA CAAGGATGGCGGGGTTTGCGACGTTCGCACCTTCGCAATTGCCGATGGCC TGTCATGGCAGGATTCGGCGGATCGCACCTTCAATCGCAGCAAGGAAGAA CTGGTCGAGTGGATCGGCGCACGCGCCTCTGCGGGCCGTCTGGTGCCGAA GGGTTTTCCGCGTTCGGGCAAATTCTGA >gid:99751 BMEI1223 TRANSPOSASE TTGCTCTCGCAGCCTGATGTTCGGCTAGAGCGGGACTATTTCGCTGCTGG TCAGATCGCGCGGCGGGCGCGTTGCGATCAACGTTATCTTAGCTCGCTAC CACCCGAGGCACGCCAAAAACTGCGCTGGAAAGCCAGTTATTGTGAAGCT TTCCTGGAGGCTGAAGCGAAACACAAGGCTTGCCGTACACTCGGATCCAT CTCGCAGATATTACCTGCTCTGACTATGAGAGTAGATGAGCGGGAAACCA TCTGCCAACTGCCGGCCGGGAATCACAAAGTGGGCAAGCCTGTTACGCGA TTTCTGCCACCTTCTCCGACAGCACTGCGTTCATGGATCCGGCTGTACGA GAGGTGCGCGCGAAGCCCGCTTGCATTTCTTCGGAAGCGACGATCAGATT TATCCTATGCCCGAAAATTGGTGGGCGAGACCGAAATATTACTGGCTGAA TGCGTTTCAGAATATTTGTCGCGCAACAAGCCAAGTCAGCAAATGGTAGT CGACCGGACACGAACTCGCTTCATCGAGACCAACGAAAAACGTGCACTGC TTGGGCTGCCTGCTTTGCCCATACCTTCGGCACGTTCCGTTCGTCGTCGG ATTGCTAAACTCGACCCCTTCGAAGTTACGGTGCGCAGGGAAGGCGCTGA GTTCGCTAAACGCAAGTTTGCCTTCTATGAGGAGGGAGTCTCGACAAGTT ATCCACTCGAACGTATCGAGATGGATGAATGGAATATCGATGTTGTTTCC CTCTTTGGTCGATCAGGTGCACTTGATGCTCTGAGGCCTGAAGAGAGAGC TCGCTTCGAAGTCGGACGACGTTGGCTTTATGTAGCTCTCGATTGTGCAA CGCGATGTATCGTGTCGCTTCGTATTGTTGTTAATCCATCGGCGGAAGAT GCAATTCGGGCGCTGGAACTCATAACGATCGATAAGACCCCGATCGCTCG AGCGGCAAATTGCGATTCAGACTGGCCGTACTTTGGAGGCATTGGTACCC TTGTCACGGATCAGGGGGCAGCGTTCGCGTCTGCAGATTTCCGAAGCGCC GTGTGCGATTTGCACGGCACTTATGAGGCGCCACCGGCTGGTGTCCCGAA ACTTCGTGCTGGCATTGAAAGATTATTCGGCACGTTCGGCGCGCAATTGA TGCCGTATCTAATCGGGCGGACGTTTTCCAATCCGCAGGAACGTGGCGAC TATCCTTCGGAGCAATGGGCTGCTCTGACAGATGACGAACTGGCTGAGAT TTTCACTAACTTTGTGGTCGATATTTATCATAATACACCGCACTCTGGAT TAGGGGGCGAAACGCCAGCAAACGCATGGAAACGTTTGGCAAATGAACGC TGGATCACTCCGCCGCCAACGCTAATCGAACGCACTGTGGTGTTTGGCGT TCCGCTACAGCGAAAAATTGGCAGGCACGGCGTTCTTGTGCATGGCATCC ATTACAGCTGCAGTGAACTTCAGCAAGCGCTGTTAACCGGTCATAATCGG ATGGTTCGGGTGCGCGTGAATCCGCGCGATCTTACTTTCATCTGTGTAGA AGTCGCTGGCGAATGGCGCATCGCCGAAGCTGTATCGAAGGCAGTGACAG GTCTTTCGCTCGAAGAATGGCAACGATTGGTATTCGAGCTTCGCTGTAAA CATAGAGGCGAAGCGGCTCTGTCAGAGGAAATAATAAGGAAGGCCCGCAA AAGATTGGTGAGCATTGATCAGCGGGCGCGGGAGTTAATGCGCATTCAGC CTGATCGGACGACAGCAGGCGATCTCGAGCAATTAGAAAAAACCTTGTTT CTGGGGCTCAGAATTAAACTGTCCGGGCATGAGACGGAGGATCTAGTTCC GATAACTGATGACCTGTTTGGCGATGTCATCACACCCTTTCAAGCAGCAG TCGATCACGAGAACCTCACTGAGGCCGATGATCAAAAGCCGTGGGAGCTG TCAGATGACTGA >gid:99757 BMEI1229 Hypothetical exonuclease GTGAAAACCGCCATCATCTTCGACTGCGAGTTCCTTTGCATCAAAGGCTC CCAGAGCCGTTTCTGGTGTGCAGCTATCGACCCCGACCCTGTCATAGCTC AAATCGGAGCAGTCAAGATTGGTCTCGAAAACGAACTCCCCATACTCGAG ACTTTTAAAGCCTACGTGACACCGCACGATCGCTATGGCGCTCGCTATGC CATCGCCCCCTACTTCACGGACCTGACGGGCATCACCGAGGAACAGATCT CGCGAGATGGCAAACCTTTGAAGACAGCGCTGAATGATCTTGACAGCTTT TCTGATGGCGCAACCTTCTGGTCATGGGGGAAAGACGAGCTGAACATGAT CGCAATCAGCTGCTATGTTGAAGGCATTGCGCCCCCGATACCCGCGCCCC GGTTCGATAACGCTGTGAAGCTTCTGCTTGCTGCTGGTATGCCTGTGGAG GATTTAGCGCGAACGCCTAGCAACAAGCTAGCTGATTATTACGGCCTTGA GCACCCGGAATTACAGGGGCACGATGCGTTGGACGATGCACGTTCTATCG GTTACACGCTGCAATATCTTCTTAGTTCCGGAAAGTTGGAACCTTCCGCT TTTAGCAGCTAA >gid:99768 BMEI1238 INSERTION SEQUENCE IS21 PUTATIVE ATP-BINDING PROTEIN ATGCATGACGCACCGCGCCAGATACCGCTTAATCTTGAGCATCAGCCCGG TTACAACCGGGAGGATCTGATCGTCACGGCTTCCAACCGTGCCGCAGTCG ATCTCATTGACCGCTGGCCGAACTGGCTTTCGCCGGTTACGATCCTTGCC GGGCCGACGGGTGCGGGCAAAACCCATCTTGCCGAAATATGGCGCTCGGG TACGGATGCGCTGCTGGTCGATCCGTCGAACATCACCGAGGAAGCCGTGA ACAGTGCTGCCGAGCGCCCCGTTTTGATTGATAATATCGGCGCCGAAGCT TTTGATGAGACGGGGCTTTTCCACCTCATCAACAGTGTGCGCCAACATGC GGCGCAGGGGCCGGGTCCGTCCCTGCTGATGACTTCGCGCCTGTGGCCTG CAAACTGGAACGTGAAACTGCCTGACCTCGCATCACGTCTCAAGGCTGCA ACCGTGGTGGAAATCGCGGAGCCGGACGACATGCTGCTTTCCGGCGTCAT TCACAAGCTTTTCGCAGACCGGCAGGTGAGCGTGGAGCCGCATGTCGTGT CCTATCTTGTCAGCCGTATGGAGCGTTCGCTTCTATCGGCGATACAGATC GTGGATCGGCTGGATCGCGCCGCGCTCGAACAGAAAAGCCGCATCACGCG TGCGCTTGCGGCGCAGATTCTGGCCGATATGGGGCAGGCCGGATGA >gid:99781 BMEI1251 EXCINUCLEASE ABC SUBUNIT C ATGGCCACCGGCGAGCAAACGCATCTGCCGCCCGATGACGAACAGGACGT TGCGGGCATCATTATCGGTGAGGCAGAAACCGAAGACGATGACGATGCGG CGGCAAACGGCGAGGAAGAGCCTGCCCGCATAGCTTCGGCTGCGGAATCC ATCCAGTGGGATTCGTCGGACGGGCTGCCCGATACGGCGGGGCTCAGCGG CCCGGACATCATCAATGCCTTTGTGAAGCGCCTGCCCAACAATCCCGGTG TCTATCGCATGTTCAACAGCGATGGAGGCGTGCTTTATGTCGGCAAGGCG CGCAACCTCAAGAAGCGCGTTTCCAATTATGCGCGCGGCATTGGCCATTC CAATCGCATCACACGCATGATCCGTGAAACCGTGACGATGGAATTCGTCG TCACGCGCACGGAAACGGAAGCACTTCTGCTTGAAGCAAATCTCATCAAA AGATTGCGGCCACGCTTCAACGTGCTGATGCGCGACGACAAGTCGTTTCC GTATATTCTGCTGACCGGCGGCCACCGCGCGCCGGGCATTTTCAAGCATC GCGGCGCACGTTCGCGCAAGGGCGACTATTTCGGCCCCTTTGCTTCGGCG GGGGCTGTGGGCCGCACCATCAACGCGCTCCAGCGCGCTTTTTTACTGCG CACCTGCACCGATTCCGTCTTTGAAACCCGCACACGGCCCTGCCTGCTCT ATCAGATCAAACGCTGCTCTGCGCCCTGCACCTATGAAATCAGCGACGAG GACTATGCCGGGCTTGTGGCAGAGGCCAAGGCCTTTCTTTCCGGCAAGAG CCAGTCGGTCAAGGATCATCTGGCAGCGGCAATGCAGGCAGCTTCCGCCG ATCTCGATTTTGAACATGCCGCAGTCTATCGCGACCGTCTCGCCGCGCTT TCACACGTCCAGTCCCATCAGGGTATCAATCCGCAAACGGTCGAGGAAGC CGATGTTTTCGCCATCCATCAGGAAGGCGGCATGACCTGCATTCAGGTCT TCTTCTTCCGCACCGGCCAGAACTGGGGCAACCGCGCCTATTTTCCGAAA GCCGACAGTTCGCTCGGGCCAGCGGAAGTGCTAGGCGCTTTCCTGTCGCA GTTCTATGATGACAAGCCTTGCCCGAAACTCGTTCTCCTTTCGGAAACGG TCGAAGAACAATCCCTTATCACCGAGGCGCTCTCCACGCGCGCCGGTCAT AAGGTCCAGGTCTCGGTGCCGCAGCGCGGTGAAAAGAAAGAACTCGTGCA GCACGCGCTGACCAATGCGCGCGAAGCACTTGGCCGCAGGCTGGCCGAAA CCTCATCGCAGGCGCGCTTGCTACAGGGGCTTGCCGAAACATTCGGCCTG CCGCGCGCACCGCGCCGCATCGAGGTTTACGACAATTCCCACATCATGGG CACCAATGCGGTTGGCGGCATGATCGTCGCCGGGCCGGAAGGCTTTGTGA AAAACCAGTATCGTAAGTTCAATATCCGTTCGACCGACATTACGCCGGGC GATGATTTCGGCATGATGCGGGAGGTGATCGAGCGGCGCTTCTCACGTCT GGTAAAGGAACATGGAACCCCTGCCGGCGAGGTGAAGAACCCGGACGCCT TCCCTGCCTGGCCTGATGTCATTCTCATTGATGGTGGCCAGGGACAGGTG GGCGCGGTGCGCCAGATACTCGGCGAGATGGGCATCAGCGATCTGGTCAC GGCAATCGGCATCGCCAAGGGCGTTGACCGCGAGGCAGGCCGCGAGCGGT TTTTCATGGAAGGCAAGCAGCCATTTACCCTGCCCCCGCGCGATCCCGTT CTTTATTTCATCCAACGCCTGCGCGACGAGGCGCATCGCTTTGCCATAGG CACCCACCGCGCACGACGCAAGAAGGAAATAGTCAGGAATCCGCTGGATG AAATTGCCGGCATAGGCCCTACGCGCAAGCGCGCCCTTTTACATCATTTT GGAACGGCAAAAGCGGTTTCGCGCGCCGCTGTCGAAGATCTGATGCAAAT CGATGGTATTTCGGAAGCCATGGCGCGGGCGATCCACGACCACTTCCGGG ACAAATGA >gid:99790 BMEI1260 DNA POLYMERASE III, CHI SUBUNIT ATGGGGAAGCTGATTGCGTTTCCTCATCTTCCTTCAAGCAGGCAGGGCAT GGCAGAAATACTTTTTTACCATCTGACGGAATCGACACTGGATGAAGCCC TGCCGGGCCTTGTCGAACGCTCGTTGGGGCGTGGTTGGCGCGTAACGGTT CAAACCGTCAGTGAAGAGCGGCGCGATGCGCTGGACAGCCTGCTCTGGAC CTTTTCGGACACGTCTTTTGTGGCGCATGGCACGGATAAGGAACCCAATC CTGAACATCAGCCCGTATTGTTGACCACGACTGAAACCAATCCCAACGGT GCAACGGTCCGCTTTCTTGTGGAAGGCGCGAAGCTGGAACAGGCCGGAGA TTATGAGCGGCTTGTGGTGATGTTCGACGGGCATGATCAGGATCAGCTCG ACATTGCCCGCACCCAATGGAAAGCCTTCAAGGCGGAGAACCATGATTTG ACCTATTGGCAGCAGACGCCTGACCGGCGCTGGGAGCGTAAAGCCTGA >gid:99815 BMEI1285 DNA REPAIR PROTEIN RECO ATGGAATGGCGCGATGAAGGCGTAATTCTCGGCACACGTCGCCATGGCGA AACCAGCGCCATTGTCGAGGTGATGACCTGCGGGCATGGCCGCCATATGG GCATGGTGCGCGGCGGGCGCTCCCGCCGTATGCAGCCTTTGCTGCAACCG GGTAATCATGTCGATGTTTCGTGGTGGGCCCGGCTTGACGAACATATGGG AACTTTTACCATCGAGCCGCTCAGCTTTGCCGCCGCGCGGCTTATCGAAA CGCCGGTCGCCCTTTATGGCATTCAGCTTGCCGCAGCACATCTCAGGCTT TTGCCGGAGCGTGATCCGCATCGCGGACTTTATGAAACCCTGCGCCTCAT CATCGAACATTTCGATGATCCGCTGGCAGCGGGCGAATTGCTGCTGCGCT TTGAAGTGATGATGCTGGAGGAACTTGGTTTCGGTCTGGACCTCAAGGAA TGCGCGGCGACGGGGCGGAAGGATGACCTGATCTATGTGTCTCCGACATC AGGCCGCGCGGTCTGCCGCGAAGCTGGCGCGCCTTGGGCAGAAAAGCTAC TGTCCCTGCCGTCTTTTGTGAACGATACGGCGCTTCGTGCGTCTTGTTAT GACGATCTCGACCGTGCTTTCACGATGACGGGCTATTTCCTCATGCGCCA TGTCTGGGAACCGCGCGCCCAGACTCCGCCTGATTCCCGTAGCGGCTTCC TGAATGCCGTTGGCCGGGCAATCAATCTTTCACAGGCAAGCTGA >gid:99829 BMEI1299 Hypothetical Cytosolic Protein ATGATTTCCGAACCTTCGCCAAATTGCTCAATCTGCCCGCGGCTCCATGC CTTCTTACAGGAATGGCGACAAAAGGAGCCTGCGTGGCATAACGCGCCCG TCCCCCCTTTCCTTCCCGGGAGCGATGAAGACGTTCGGCTTCTGATCGTA GGGCTTGCCCCCGGCCTTCGCGGAGCCAACCGCACGGGACGGCCCTTTAC CGGCGATTATGCCGGGGAACTTCTTTACAGTACGCTTTGCGAATTCGGCT TCGCGACGGGAAAATTCGAGGCGCGCCCGGATGACAGCCTGCGGCTTCTC GATGCCTGCATCGTCAATGCGGTTCGCTGCGTGCCGCCGGAAAACAAGCC TGTCGGCAGCGAAATCAACAATTGCCGGCAATTCCTGACACCGATGCTGA CGCGCTTTCCCAATCTCGATGCAGTGGTCACACTGGGGACCATCGCCCAT CAATCAACAGTGCGCGCCTTAGGCGTTCCGGTTTCGCGCCACCCGTTCGG CCATGGCAAGGCCACCGATATCGGGCCATTGCGGATTTTTTCCAGCTATC ATTGCTCGCGCTACAACACGAATACGGGCGTGCTGACCGATGCGATGTTC CGCGATGTTTTCAAAAATGTACGCGCTTATCTAAGCGAGAAAGCAGCCGG AAGCGCACGTCTGTCTGTCTGA >gid:99838 BMEI1307 INTEGRASE GTGATCATCGTTGGGGAAACGAAGATCGATACGGGCGACAAATATGCGCC AATTATCGATTACAATCTGAATTATATATCCGGCAAAAATCCAAAGCACC GGCTCGTCGAGCACTATTCGGTGGCGGAGCTGACGGCAAAATATATCAAT ATCCTCTGGGATGATGGACCGCATAAATATAATGTAAGGTCGTTCCTCGG CGAGATTGACGAGATTCTGAAAGGCGCACGTTTTTCAGGTTTTGATCAGG AAATGCTCGATTCCATCATCGGCACGCTTCGCGAACGCGGCAACAGCAAT GCAACCATCAATAGAAAGATGGCTGCGCTGAGCAAGCTGCTGCGAAAGGC GCACAAGATGGGGGATATCTTCAATCTTCCGGAGTTTATCCGGCAGAAAG AGCGCGTGGGGCGCATTCGATTCCTGGAACAGGAGGAAGAGAAGCGATTG TTCGCCGCAATAAAGTCGCGCTGCGAGGACAGCTATCGCCTATCGGTCTT TCTCGTGAATACGGGTTGCCGTCTTGGCGAAGCAATCGGCCTCACATGGA ATGATATTCAGGAACAACGGGTTACGTTCTGGGTCACCAAATCCAATCGC AGCCGCACCGTTCCCCTCACCCGGCGTGCACGAAAAGCATCCCATATTCC GCGTGAGAGGCTAAAAGGCCCCTTCTCCATGCTCAATCAGGTTCGGTTTC GCCAAATCTGGAACGAAGCGAAGGCCGAAGTTGGCCTTGGCGCGGATGAC CAAATCGTTCCGCACATTCTACGCCATACATGTGCGTCGCGACTGGTGCG TGGGGGCATCGACATCCGCCGGGTTCAGATGTGGCTTGGTCACCAGACCT TGCAGATGACAATGCGCTACGCGCATCTGGCAACACATGATCTCGATTCC TGCGTTAAGGTGCTCGAAATTCATTAG >gid:99852 BMEI1321 DNA POLYMERASE, BACTERIOPHAGE-TYPE ATGACCGATGGCCGGGAAACGCTGGATATGGAGGGCCTGCTTCGCTTTTA TGCGGAAGCGGGTGTCGATGTGCCGCTTTGCGAAACGCCGATTGACCGTT TTGCAGCCGCCACACATCCTGCCCCCGCACAAAGCCGGATGCAGGCCGCA GCACAACAGCCGGAATCAAACCCGGCGCAGGCCCGCGAGGAACGGGCGCG TACCGTTGCCGTACCCTCCCCTTCCAGCAAGCCGGTGCAGGCTGCAATGG ATCTGCCCGACAATGCGCAGATCGCGCTTGCCCGCGAAGCTGCTTCGCAG GCCGAAACACTGGAAGAACTGCGCGAAAAGCTTGCGGCCTTCGACGGCTG CAACCTGAAATTCACCGCCAAGAACCTCTGCTTTGCCGATGGCGACCCTT CGTCCGATATCATGTTCATCGGTGAAGCGCCGGGGCGGGACGAGGATATG GAAGGCCTGCCTTTTGTCGGCAAATCCGGCCAGCTTCTGAACCGCATGAT CGAGGCTATCGGCCTCAAGCGTGAAGAGGTTTATATTGCCAATACGATTC CGTGGCGGCCACCGGGCAATCGCGCACCCACACCGCTTGAAACGGAGCTA TGCCGCCCCTTCATCGAACGGCAGATAGAGCTGGCCGCGCCAAAAGTGCT GGTGGCGCTTGGCGGCCCGGCTGGCAAGGCGCTGACGGGCGCAGCGGAGG GCATATTGCGCCTGCGCGGCAACTGGAAAATCCACCGCACGCCGACAGGC ATGGAAATCCCCGTAATGCCGACATTGCATCCGGCCTATCTGCTGCGCAC CCCGGCACAGAAACGTTTCGCCTGGCGCGACTTTCTGGCGGTGAAACTCA AATTGGCCGAATTGCGTGGTTGA >gid:99893 BMEI1362 CHROMOSOMAL REPLICATION INITIATOR PROTEIN DNAA GTGCGTCTTACACACCGCGCCGACAAGAAGCGGCGCGAGCGATGCATCGA ATTATGCGAGGCACTGATCGATCTTCTGGCTGCCTCTTTTGGTGCCAGCG GTGCGGAAATCCGCTCACCGCTTCGCGGACGGCAGGAAGTCTCACGTATC CGTCAGATCGGCATGTATGTGGCCCATACATCGCTGGGAATGGCTATGAA CGAAGTGGCGCTGGGCTTTGCGCGTGATCGCACGACCGTCATGCACGCCT GCCATACGGTGGAGGATTTGCGTGATGACGTAGAGTTCGATGCCCTCGTT TCCCTGTTTGAAAAAATCGTTAATTCGGCTTTTACGGCGTGGAGGATGGC AGCATGA >gid:99928 BMEI1397 TRANSPOSASE TTGGCGTCCCGTTCACGGGGGGCTTGTATATCACGCGGGCAGGGCGTTCA ATACGTGTCAGTTCGCTACTCCGAGAGGTTGGCAGAAGTTGGCATCGAGC CTTCTGTCGAAAGCGTCGGCGACAGTTACGACAATGCCCTTGCCGAAACG ATCAGCGGTCTCTACAAGGCTGAGGCCATCCATCGGCGCGGGCCATGGAG GAACTTTGAAGCGCTCGAATGCGTCACTTTGGAATGGGTCGATTGGTTCA ATCACCGATGCCTTATGGAGGCCATCGGAAAGATACTGCCAGCCGAGGCA GAAAGAACAATACTATGCCATACTGGACGCGCCAGTCATGGCCGCATAAC TTAA >gid:99929 BMEI1398 TRANSPOSASE ATGGGACGTTGCCGCGGCGGGCTTACGAGCAAAATCCACGCGCTCGTTGA TGCCGAAGGTCGCCCGGTCAATCTACGTCTGACTGGTGGACAGATCGCCG ATTGTGCCGAAGCCGACGCGCTGACGAATGAGCTTGGTGAGGGAGACATC CTGCTGGCCGACAAGGGGTATGACACGAATGCCATTCGGGCTAAGGCCGC CGCGCGAAAGGCCTGGGCCAACATCCCGCCGAAGAGCAATCGCAAGGGCT CTTTCGTGTTTTCGCGCTGGGTCTATCGGCAACGCAATCTCGTGGAGCGC TTCTTCAACAGGATCAAGCAGTTCCGAGGCATCGCAACCCGATATGATAA GCGCCCGGAAAACTACCTCGCAGCCGTAAAGCTCGTCGCAACAAGAATAT GGTGCCAAAGTTTATGA >gid:99930 BMEI1399 TRANSPOSASE GTGGCGATTTCGAACGGGCTCGCCCTGGGCGGAAGTTCCCGAACGCTATG GCCCGCCGCGGCCTGTTACAACCGCTTCGTGCGCTGGCGCAAAGCCGGGG TCTGGGATCGGCTTTTTGAAACGGTGCCCAAGGCCTACGATGGCGACATC GTCATGATCGACTCGACCTGTGTCCGCGTTCACCAGCACGCGGCCACAGG AAAAAAGGGGATGGAGACGATGGTGGCATGGGACGTTGCCGCGGCGGGCT TACGAGCAAAATCCACGCGCTCGTTGATGCCGAAGGTCGCCCGGTCAATC TACGTCTGA >gid:99931 BMEI1400 TRANSPOSASE ATGACGCGTCGTCGCTACGAACTAACTGACCACGAATGGTCGATTATATC GCCGTTGTTGCCCAACAAACCACGCGGCGTTGCTCGCGTTGATGATCGGC GGGTGCTGAATGGCATCCTGTGGCGATTTCGAACGGGCTCGCCCTGGGCG GAAGTTCCCGAACGCTATGGCCCGCCGCGGCCTGTTACAACCGCTTCGTG CGCTGGCGCAAAGCCGGGGTCTGGGATCGGCTTTTTGAAACGGTGCCCAA GGCCTACGATGGCGACATCGTCATGA >gid:99932 BMEI1401 TRANSPOSASE ATGAGAGAACAGTCCAGCGAACTGTTTTCCTGCCGAACAGTCGATGAAGT TTCGATTCATCGATCAGGCGAAGAAGGAATTCCCCACATCTCGTCTTTGC CGTGTCATGGGCGTAAGCCAAAGTGGCTATTTCGCCTGGAGTACCGACCG GTCAGGCGCCGCCAGCGCGATGATCTGGTAATGCTGGCACATATGCGCAC GGCCTGGTCACTTGGCCGTCACCGGATTGCCCGTCTGATACGTGAAAATG CAATGCAGGCGCGTCAGAAGCGTCGCTTCAGGAAAACCTCAGACAGTCAT CATGCATTTCCGGTCGCGCCCAATATTCTCGCGCAGGATTTCGCGGCAAC AGGTCCCAATCAGAAATGGGATGCTGACATTTCTTATATTTGGACGAAAG AAGGGTGGCTGCATCTCGCTGGCGTCATTGGTCTCTTTGCACGTCGTGTT GTCGGATGGTCCGTCAGTGACCGCCTGCATCGCCAGTTGGCTCTTCAGGC TCTCGAGAAAGCCATCACAATGAGACGTCCACCAAAGGGCCTGATCCATC ATTGA >gid:99933 BMEI1402 TRANSPOSASE TTGAATTCCAAGCTACATGCCGTATGCGACGGTCACGGTCGGCCACTCAT CCTGCTTCTGAGCGAAGGGCAGATGAGCGATTACAAAGGAGCAGCTAAAA TGCTCCACGCCTTTCCCAAAGCAAAAGATCTGTTGGCAGACAAGGGATAT GACGCCGACTGGTTTCGAGATGCATTGGCAGAGCGTAAAATCACCGCATG CATTCCATCACGAGCCAACCGTAAGGATGTCATCCCATATGATCCGGTCC TCTATAAACGGCGTCATAAGATCGAAAATATGTTCGGCAGGCTTAAGGAC TGGAGAAGAATTCACACCAGATATGACCGATGCGCTCACACCTTCTTCTC AAGCATATGCATCGCTGCTGCCGTTACCGTCCTCCAGATCAACTCTGATT TCAATGTCTTGAAGAATGTTTCAACCATAGCGTTATCGTAG >gid:99934 BMEI1403 TRANSPOSASE ATGAGTGATTTGCTGTTGCTGTCGCAGGCACAGGTGTGCCGGATCAAGCC CTATTTTCCGTTATCTCACGGGGTTCCACGCGTCGATGATCGCTTGATTT TGAGCGGTATCATCTTTGTGCTGCGCACCGGGCTTCGGTGGCGCGACGCC CCGAGGGAATACGGTCCCCACACGACGATCTACAACCGTTTCATCCGCTG GAGCAGGCTCGGCGTGTTTAACCGGATCTTGGCCGAACTGGCTGCCAAAC GCGGTAAGCCGGATCAATTGATGATCGACGCTACCCACCTGAAAGCGCAC CGTACCGCAGCCAGTCTGCTAAAAAAGGGGATGTTCCCCGACGTATTGGG GGCACCAAAGGTGGCTTGA >gid:99936 BMEI1405 TRANSPOSASE ATGCAGACACGCCCTAAGGCCGCCGAGCGAAAGGCCTGGGCCAACATCCC ACCGAAGAGCAATCGCAAGGACTCTTTCGTGTTTTCGCGCTGGGTCTGTC GGCAACGCAGTCTTGTGGAGCGCTTCTTCAACAGGATCAAGCAGTTCCGA GACATCGCAACCCGATATGATAAGCGCCCGGAAAACTACCTCGCAGCCGT AAAGCTCGTCGCAACAAGAATATGGTGCCAAAGTTTATGA >gid:99937 BMEI1406 TRANSPOSASE TTGACGACCAAGCTGCATGCTGTTGTCGATGCTATCGGCCTACCGCTGCG AATAAAGCCAACACCCGGCCATTATGGTGACTGTCCGCAAGCTTCAAGCC TTCTATCCGGCTTAGAGGGTGTGGGGCATGTCATTGCTGATGCGGCCTAT GATGCCGATCACTTAAGGGCCTTCATTGCCAGCGATCTCAAGGCAACGGC TCAGATCCAAGGCCAATCCAACACGTTCCAGTGTCCCAACAATCGACTGG AGGCTGTACAAGGAACGCCATTAGATTGA >gid:99938 BMEI1407 TRANSPOSASE GTGAGCAGACGAAGCCTTACAGATGAGCAATGGAACCGGATCGAAGCATA TCTTCCGGGGCGAGTTGGTACGCCCGGCCGCAGTGGCGTTGATAACCGAT TATTTGTCGACGCCATCTTGTGGATGGCTGCCAATGCAGCGCACTGGCGC GATCTGCCTGCGACCTTCGGCAAATGGACAGCGGTTCATGCCCGCTTTCG GCGCTGGTCGCACGCCGGTGTATGGGAAAGGCTTTTCCATGCCCTGGCTG ATACGCCGGACTTTGAATATGTCCTCATTGACAGCACCATATCGAAAGTC CACGCAGATGCGGCGGGCGCAAAAGGGGGGCTGAAGCTGCCTGCATCGGT CGCTCGCGCGGGGGATTGA >gid:99939 BMEI1408 TRANSPOSASE TTGATCAGAACCGTCCCTTATAGGATCCATACAATTCTGACGGATAATGG CGTGCAATTTGTCCAGCGGGAGCAAGGTACTGGCCTTACTTTCTCGTACA TCTTTGGACGAGTAGCTCTTGAACACGGCATTGAGCACCGGCTGACAAAA CCATATCATCCGTGGACCAATGGTCAGGCCGAGCGGATGGTGCGGACGAT CAAGGAAGCGACGGTCAAATCCTTTCACTACAGCTCGATTAACGAAATGC GCCGCCATGTGCGCGATTGGCTGACTGCATACAACTTTGCCAAACAACTC AAAGCCTTGAAGTTTAAAACACCCTATGAAGCGATTCACGAACTCTGGAA ATCAAAGCCTGAGGCCTTTATCGTCAAACCACACCATCATATGATGGGAC CAAACACCTAG >gid:99941 BMEI1410 TRANSPOSASE ATGGGACGTTCCCGCGGCGGGCTTACGAGCAAAATCCACGCGCTCGTTGA TGCCGAAGGTCGCCCGGTCAATCTACGTCTGACTGGTGGACAGATCGCCG ATTGTGCCGAAGCCGACGCGCTGACGAATGAGTTTGGTGAGGGGGACATC CTGCTGGCCGACAAGGGGTATGACACGAATGCCATTCGGGCTAGGTGTTT GGTCCCAGCATGTGATGGTGTAGAGTTGTCGCCGACACAGCGGAGAGAGC TACGGGACAAATTCTTCACGGCAGCGCCAAGACCACGCACGCCATTCGAG CAGAGTTACAGCGATCGAAAGCTTCGGCCGCGGAGCTTGCGCGGCGGTAC GGCATCAATGAGAAAACGGTCCTGA >gid:99942 BMEI1411 TRANSPOSASE GTGGCGATTTCGAACGGGCTCGCCCTGGGCGGAAGTTCCCGAACGCTATG GCCCGCCGCGGCCTGTTACAACCGCTTCGTGCGCTGGCGCAAAGCCGGGG TCTGGGATCGGCTTTTTGAAACGGTGCCCAAGGCCTACGATGGCGACATC GTCATGATCGACTCGACCTGTGTCCGCGTTCACCAGCACGCGGCCACAGG AAAAAAGGGGATGGAGACGATGGTGGCATGGGACGTTCCCGCGGCGGGCT TACGAGCAAAATCCACGCGCTCGTTGATGCCGAAGGTCGCCCGGTCAATC TACGTCTGA >gid:99943 BMEI1412 TRANSPOSASE ATGACGCGTCGTCGCTACGAACTAACTGACCACGAATGGTCGATTATATC GCCGTTGTTGCCCAACAAACCACGCGGCGTTGCTCGCGTTGATGATCGGC GGGTGCTGAATGGCATCCTGTGGCGATTTCGAACGGGCTCGCCCTGGGCG GAAGTTCCCGAACGCTATGGCCCGCCGCGGCCTGTTACAACCGCTTCGTG CGCTGGCGCAAAGCCGGGGTCTGGGATCGGCTTTTTGAAACGGTGCCCAA GGCCTACGATGGCGACATCGTCATGA >gid:99951 BMEI1420 TRANSPOSASE ATGGAAAGCCAAGTTCGGCGGCATGGACGTGTCCGAGGCCAAGCGGTTGA AGACGCTGGAAGACGAAAACACAAAGCTGAAACGGCTCCTGGCAGATGCG ATGCTCGACAACGCCGCTTTGAAAGACCTTTTGGGAAAGAAGTGGTGACA CCCGCAGCAAGCCGGAAAGCTGTCGCTCATCTGATGGATCATCACCAGAT GAGCGAACGGCGGACGTGTAAAGCCATGGGCTTTTGCTGTATGGCGATCC GTTACGAAACCAGGCGCAGCGATGACCATGACCTTCGCGAGCGGATGAAG GCGCTAGCGCATGAACGTCGCTGCTTTGGATATAGACGTCTTCAAGTGCT GCTCAGGCGTGAGGGTCACCTTGTGAACCACAAGTGGCTCTTCCGGCTCT ATCGGGAGGAGAAGTTGACGGTACGCAAGCGTGGCGGGCGTAAGCGGGCG ATAGGCACCCGAGCGCCGATGTTGATCCCGCCGGCTGCCAATGTTCGCTG GTTGCTGGACTTCGTGTCAGATCAGCTCACCGATGGCCGCAGGTTCCGGG TGCTTGCGGTCGTCGATGATTGCACAAGAGAATGCCTGCCTCTTGTCGCC GATACGTCCCTTTCCGGCTTGCGGGTTGCCCGTGAGTTGGACCGGATCAT CGAAAGACGTGGCAAGCCGAAGATGATCGTCAGTGACAACGGCAGTGAGT TCACCAGTAACGCAATCCTGCATTGGGTGGATCGGACCAAAATGGAATGG CACTATATAGCGCCTGGCAAACCGATCCAGAACGCCTTCATCGAAAGCTT CAATGGACAGCTACGAGACGAGCTCCTGAATGAAACGTTCTTCTCGTCAC TAACCCATGCATGA >gid:99952 BMEI1421 TRANSPOSASE TTGCGAGACTTCCTTACGGCGCGTGGCACGCAACGGGTCATTCCCAACAA TCCAACCCGAAAGCGGATCAGACCGTTCGACCCGATCGCCTACCGACGCA GAAATATCATCGAACGCACCTTCTGCCGCCTCAAGGATTGGAGGCGTATC GCCACACGATATGACAAGCTCATGATTAACTTCGCCGCAACCTGCTACAT CGCCGCGATCGTAACATGGTGGATCAATTGA >gid:99953 BMEI1422 TRANSPOSASE GTGATGACGGACAACGGGGCCTGCTATATCGCCAAGGCCTGCAAGGCGCT CGATCTCAAGCACATTCGAACCAAGCCCTATACGCCAAAAACCAACGGCA AGGCCGAGCGCTTCATTCAGACCGCATTACGGGAGTGGGCCTATGCACGT GCATACCCATCGTCACAGATCCGCAAAGCGCATCTGCCAAACTGGACACA TATGTACAATTGGCATCGACCTCATAGCGGGCTAAAATCAAAAACACCAA TCAGTCGCCTCGGCCTCAACCGAGACAACCTGTTGACGCTCCACAGCTAG >gid:99955 BMEI1424 TRANSPOSASE ATGGCAGGAGAGTTCTGGCTTGATGATCAGCAGTGGGCAGTGATTGCGCC CTTGCTTCCAACCAACCAGCCTGGCGCGCATCGCACCGATGATCGCCGGG TCATCAGTGGGATTATCCACATCCTGCGATCCGGTTGCCGATGGCAGGAT TGTCCAGCCTGCTACGGACCTCCAACAACTGTCTACAATCGCTTCCATCG CTGGTCAGCCAAAGGAATATGGCGGCGGCTGTTTGAAGCTTTGGTGCAAC CGACCGATCGGGACATCCATATGATCGATAGCACCACCGCAAAAGCACAC CGCCCTGCCGCTGGCGGAAAAGGGGGCGATGCCGAAGCAATCGGTCGCTC GCGCGGCGGCAGATCGACAAAAATCCATGCTGTTGTCGATAGTTGCGGCC GTCCAGTCGCGTTGCGAATAACGCCTGGGCAACGCGGCGACGCCCCCATT GTCATTCTCCTGCTAGATGTGAGCTTTCAGGAGGTTGTCCATTCGGAGCG GATCGAGGAGACTGGAGTTACCACACCTCAGTTTTCCAGGATTGCTCCGA ATGAACATCCACAAGAATGCCCGACTGACGCCATTGCGTCGAGAAGAAAT GGCGGTCGCAGTTTTCGGCGGCAGGCTGACGAAGGCGCAGGCTGCACGCC TTTATGGGGTCTCGCTGAAAATTGTTTCTCGTTGGACCGAACGGTTCAGG ATATCTGGCCGGGCGGCGATGACGGATCGCTCGTCGCGCCCCACCCGCAG CCCCCGTCAAATGGGCCAGGACATTGTCGAACGGATACTCCATCTTCGCA GACAACGCCTGACCGGTAA >gid:99966 BMEI1434 Hypothetical Protein ATGATCTTGTTCGGGGGTGTTATAGGATTCTTTGGAGAGGACGACATGGA CCGTGTCCTTAGCCATGGCCCCGCGCCAACATCGGTGACAGAAGCCCCTG AACAGGATGCAATGACGCTTGAAGCCGTCGAGCTGGAATTTGCACTGGGT GCTATCGATGTCCTCACCGAAGGTTTCGACGCGGCTCTGGCCAAGGCTGC GGAACGGGTTGGCGGCGAAGTGCTTTTCAACATGCCCGCCCTCGACACCA GCGAGGCGCAGCGCATCGGCGCTATTGCCATTTCCGGCCAGCCACAGGAT CAGGTGATCTTCGTCACATTGCGCAACGACGGCACGACGCTCTCCCTTGC ACCGTTGACCGGCCACAACGCCCTGTTTGAAAGCCTGGGGCGCAACTATG CCGCCGTGATGAAAATTCTGTCGCCTCAACAAGCCGCAAACGAAAGCTGA >gid:99974 BMEI1442 A/G-SPECIFIC ADENINE GLYCOSYLASE ATGAAAGCCATTCTTTTAACGAATCCGCATGGATACGCATCAAGCAGGCC CATGGATCCCACGACTTTTCTTCTGCGCTGGTATGACCGTCATCATCGCG TCCTGCCGTGGCGCGTGACGCCTGTTGACGCGGCCAAAGGAGACGTCGCC GATCCCTATCGTGTATGGCTGTCGGAAATCATGCTGCAACAGACAACCGT TGAAGCCGTGAAATCCTATTTCTTGCGCTTTATCGAGCGATGGCCGACGG TCCGGGCCATGGCGAAGGCGAGCGAGGATGATATTCTTCGCGCTTGGGCA GGGCTTGGCTATTATTCCCGCGCGCGCAATCTCAAGAAATGCGCCGATAT CGTCGTCGCCGAACATGGCGGAGAATTTCCGAAAAGTGCGGCCGGCCTCA AGGAATTGCCTGGCATCGGCGATTATACCTCGGCGGCAATCGCTGCCATC GCCTTTGGCGAGCAGGTCGCCGTGGTGGATGGCAATGTCGAGCGCGTGAT CTCGCGCCTTTATGCTATCGACACCCCCCTCCCCGTCGCAAAGGCGCAGA TTCGCGCGCTCATGGGGCAGATGACGCCACCTGACCGCCCCGGCGATTTT GCACAGGCCATGATGGATCTGGGCGCGACGATCTGCACGCCGCGCCGCCC GGCCTGCGCGCTCTGCCCGCTCAATAAGGGATGCATCGCGCTGTGCGAAC GCGACCCGGAAGACTTTCCGGTAAAAGCGCCCAAAGCGGAAAAGCCGGTG CGCACAGGCGCGGCCTTCATTGCCATTGCGGGTGACGGCTCCGTCTATCT GCGCAAGCGCAAGGGCGAAGGCTTGCTGGCGGGCATGACGGAAGTGCCGG GCAGCGGCTGGACCGCGCGCATCGACGGTGACGCAACGGTGAATGCAGCG CCCTTTTCGGCAGCCTGGACACCATCCGGCACCATCACGCACGTCTTCAC GCATTTCGAGTTGCGGCTGTCGGTTTATCGTGCCAGCAATGTGCGGAAAC AAGCGGCGAATGAAGGATGGTGGTCAACGCCCGAGGAGCTTTGCGGCGAG GCCCTGCCAACGGTTATGAAAAAAGCCATTGCCGCCGCTATTCCAGACGC TTTCAAACGGGGGAGGAAAAGCCGTTGA >gid:99976 BMEI1444 ADENINE-SPECIFIC METHYLTRANSFERASE TTGGCGTTAACGGCATATTTACCCTACGCAGTAACCATAGGAACAAGTTT TTTGCGTTCACAGGTAATCGAGTATCCCATGTCCCTAGTACGTCTTGCGC ATGAGTTGCCCATCGAGGCCCCGCGTACCGCCTGGCTCGACTCCATCATC AAAGGTGATTGCGTTTCCGCGCTGGAGCGCCTGTCGGATCATTCCGTAGA CGTCATCTTTGCCGATCCGCCCTATAATCTCCAGCTTGGCGGCGATCTGC ACCGTCCGGATCAGTCCATGGTCAGCGCCGTGGACGATCATTGGGACCAG TTTGAAAGCTTCCAGGCCTATGACGCCTTCACCCGCGCCTGGCTGCTCGC CTGCCGCCGTGTGCTGAAGCCGAATGGCACCATCTGGGTCATCGGTTCCT ATCACAATATTTTCCGCGTCGGCACGCAGTTGCAGGATCTGGGCTTCTGG CTCCTCAACGACATTGTCTGGCGCAAGACCAATCCCATGCCGAATTTCCG TGGCCGCCGTTTCCAGAATGCGCATGAAACGCTGATCTGGGCTTCGCGTG ACCAGAAGGGCAAGGGATATACTTTCAATTACGAGGCCATGAAAGCGGCC AATGACGATGTGCAGATGCGTTCGGACTGGCTGTTCCCGATCTGCACCGG CAGTGAACGCCTGAAGGACGAGAACGGCGACAAGGTCCACCCGACCCAGA AGCCGGAAGCACTTCTCGCGCGCATCATGATGGCTTCAAGCAAGCCGGGC GACGTTATTCTCGACCCATTCTTCGGTTCCGGCACGACCGGCGCGGTCGC CAAGCGGCTTGGCCGCCATTTCGTCGGCATCGAGCGTGAACAGCCCTATA TCGACGCCGCAACCGCCCGCATCAATGCCGTGGAGCCGCTTGGCAAGGCG GAACTCACGGTGATGACCGGCAAGCGCGCAGAGCCGCGCGTGGCCTTCAC GAGCGTAATGGAAGCGGGCCTTTTGCGTCCGGGAACCGTGCTTTGTGATG AACGCCGCCGTTTTGCCGCCATTGTTCGCGCCGATGGGACGCTGACGGCC AACGGCGAAGCCGGTTCAATCCATCGTATTGGCGCCAGGGTTCAAGGGTT CGATGCCTGCAATGGCTGGACCTTCTGGCACTTTGAGGAAAACGGCGTAC TGAAGCCTATCGATGCCCTGCGCAAGATCATCCGCGAACAGATGGCTGCG GCAGGTGCATAA >gid:99989 BMEI1457 RIBONUCLEASE HI GTGAAGCGCATCGAGGCCTATACGGACGGGGCCTGTTCCGGCAATCCCGG TCCCGGCGGCTGGGGTGCATTGCTGCGGTGGAACGGCAATGAAAAGGAAC TGAAGGGCGGCGAGGCGGAAACGACCAATAACCGCATGGAACTGATGGCG GCGATTTCTGCACTTTCGGCGCTGAAGGAGCCTTGCGAAGTCGATCTCTA CACCGACTCCGTCTATGTGCGCGATGGTATTTCCGGCTGGATCGAAGGCT GGAAGCGCAATGGTTGGAAAACGGCGGCCAAGAAGCCGGTGAAGAATGCC GAACTCTGGCAGGCGCTGGATGAGGCGCGAAAAGCCCACAAGGTCACTTG GCATTGGATCAAGGGCCATGCCGGGCACCCTGAAAACGAACGTGCGGATG AACTGGCCCGCGCTGGCATGGAGCCGTTCAAATATGCCGGGCACCGCACG TTGAAGGTGAAATAG >gid:100017 BMEI1485 REPLICATIVE DNA HELICASE ATGGCGGAAGCGGCGGTACGCAAACTCGACGATGCGCGGGACCAGAAGGA CGTGCGCTATCGGGAGGCGCCCCACAATATTGAGGCAGAACAGGCGCTTC TCGGCGCTATTCTCATCAACAATGATGCATTCTACCGGGTTTCGGACTTT CTGAAACCGACCCATTTTCTTGAGCCCCTGCACCGGCGCATCTATGAGAT CGCCACTGATCTCATCCGCGTCGGGAAAATGGCCAATCCGGTGACGATGA AGACCTTCCTGCCGACCGAGGGCAAGGTGGGCGATCTTTCCATTTTCCAA TATGTCACGCGCCTTGCGACCGAAGCCGTGACCATTATCAATGCCGAGGA TTATGGCCGCGCGATCTATGATCTGGCGACGCGCCGCGCGCTGATCGGCA TTGGCGAGGATATGGTCAACATCGCCTATGACGCGCCGGTGGATATGGCG CCGCAAGAGCAGATTGAAGACGCCGAACGCCGCCTGTTCGAGCTTGCCGA AACGGGCCGCTATGATGGCGGCTTCCTGCCTTTCAAGGATGCGGTAACGA CCGCCGTGGACATGGCCAACGCCGCCTTCATGCGCGACGGGCACCTTTCG GGCATTTCGACCGGCATTCACGCGCTTGATAGCAAGATGGGCGGGTTGCA GCCATCGGACCTTATCATCCTTGCCGGGCGTCCTGGCATGGGCAAGACCT CGCTTGCCACCAATATCGCCTTCAACATCGCCAATGCATACGAACCGGAC CAGCAGGCCGACGGCACCATAAAGGCGGCCAATGGCGGCGTTGTCGGGTT TTTCTCGCTCGAAATGTCTGCCGAACAGCTCGCCACCCGTATTATTTCCG AGCAAACGGAAGTGTCGTCCTCGAAAATCCGCCGCGGCGAAATTACCGAA ACGGATTTTGAAAAGCTCGTCGCCTGCTCGCAGGTCATGCAGAAGATCCC GCTCTATATCGACCAGACAGGTGGCATTTCCATCGCGCAGCTTGCCGCGC GCGCACGCCGGTTGAAGCGCCAGCGCGGCCTCGACGTTCTCGTCATCGAC TATGTGCAGCTCATGACCGGCTCGTCCAAGGCTTCCGCGCAGAACCGCGT GCAGGAAATCACCGAAATCACCACCGGCCTGAAGGCGCTGGCGAAGGAAC TCAATGTTCCGATCATCGCCCTGTCACAGCTTTCGCGCCAGGTGGAAAGC CGCGACGACAAACGCCCGCAACTTTCCGACCTTCGCGAATCGGGCTCCAT CGAGCAGGATGCCGACGTGGTGCTGTTCGTGTTCCGCGAGGAATATTACG TCAAGAACCTCGAACCGCGCGACAAATTCGATCCGAAATACGAGGAATGG AAGCAGCATTTCGAGAAAGTGCGCGGCACGGCCGACGTCATCATCGCCAA GCAGCGTCATGGGCCGACCGGTACGGTCAAGCTTGCCTTCCAGTCCGAAT TTACCCGGTTTGCTGATCTGGCCGATGGTTCCTATCTACCGGAGCAGTAT GAATAA >gid:100035 BMEI1503 EXODEOXYRIBONUCLEASE VII SMALL SUBUNIT GTGACTGAACCGTCCAACGCCGACATTGCAGTAATGAGCTTCGAGGATGC GCTGAAGCAGCTCGAAAAGATCGTTGACGATCTGGAGCGGGGCGATGTGC CGCTGGAGGAATCCATCCGTATCTATGAGCGCGGCGAAGCGTTGAAGAAG CATTGCGATACGCTTCTCAAATCCGCTGAGGACAAGGTGGAAAAAATCCG CATTGGCCGCGACGGCCAGCCGGTCGGGACCGAGCCGCTGGACCCTGAAT AA >gid:100073 BMEI1541 TRANSPORTER ATGGCAGTCATCCATCAGGCAGAGATTATCGGGCAGGCAGACAGGCTCGC CTTTGGTGCGGGCCGGGCCGAACATGCCAATGCGGTGATCGGCGAAGCGG GCCTGCGCATTGACCATGCAAGGCGGCGCGGGCGTGGTGCGGGCATCAAT CCGAGCGGGCGCTTCGAGCCGACGGTGCGTCAGGAATTCGACGATGGCTG GGCCACGCTGGAAGAGCTGCCTGCATTCAAGACCGACGTACAGATCGAGA AGCCGCGCACCATCATCACACGCAATGATTCTCTCGATATTTCCTTCGAC CGCTCCATCAATCCCTATCGCGGCTGCGAACATGGCTGCATCTATTGTTT CGCCCGGCCCACCCATAGCTATATGGGCCTTTCCGCCGGTCTCGATTTTG AAACCCGCCTCTTCGCCAAGCCGGACGCGCCGCGCCTTCTGGAACGCGAG CTTGCCAGGCCCGGCTATCAGCCAAAGACAATCGCCATTGGCACCAATAC CGATCCTTATCAGCCAGTCGAGAAGAAATGGCGCATCATGCGTGAAATTC TCGAAGTGCTGGAGGCAGCCAATCATCCAGTGGGCATCGTTACCAAATCG GCGCTCGTGGTGCGCGATATCGACATATTGAGCCGCATGGCTGAAAAGGG GCTCGCCAAGGTGGCGCTTTCGGTGACAACGCTCGACGCACATCTGGCGC GCACCATGGAACCGCGCGCCTCGACACCGAGCCTTCGCCTGCAAGCCATC CGCAGGCTCACCGATGCGGGCATTCCCGCTTCGGTGATGATGGGACCAGT CATTCCCGGCATCAACGACCACGAGATAGAACGCATTCTGGATGCAGCCT ATGCGCAAGGTGCGCGCGAGGCAGGCTATGTGCTCCTGCCGCTGGAAGTG GCGCCGCTCTTCAAGGACTGGCTCCTGCGCAACTACCCGGACCGTTACCG CCATGTCATGTCGCTGGTACGCTCCATGCGCGACGGCAAGGATTATGATG CGGAATGGGGCAAGCGTATGCGCGGTACCGGCCCCTATGCCTGGCAGATC GGCCGCCGCTTCGAGATCGCCGCGCGCAAGCTCGGCTTCAACACCCAGCG GCTGCGCCTGCGCACCGACCTGTTTGAGCCCATCCAGAAAGGCGGAAAAC AGCTTTCGCTATTTTGA >gid:100074 BMEI1542 RIBONUCLEASE HII ATGAAACGCTCGGCTTCTGATTCTCCGCTTCTCTTCGATCTTCCCCTCGC GCCTGATTTTTCACAAGAGCAGCAGCTCATGAAGCGCGGCCTGAAACATA TTGCGGGCATTGACGAGGCTGGGCGCGGCCCCTTGGCCGGGCCGGTCGTC GCCGCGGCAGTGGTGCTCGACCAGAACGATCTTCCCGAAGGGCTGGACGA TTCCAAGCGGCTCACAGCCGCAAGGCGCGAAGCGCTTTATGAAATCATTC TGACCAAGGCGATCACGGTTTCGGTGGCAAGCCTCAGCGCCCGCAGTATC GACGCCAGCGATATCCGCAAGGCGGCACTTGAGGCCATGCGCCGCGCCGT CATCGGCCTGACGCTCAAGCCATGCCATGCGCTGGTCGACGGGCGGGACG TGCCTCCCGGCCTGCCCTGCCCCGGTTCGGCTCTGGTGAAAGGCGATCAG CGTTCCGTCTCGATTGCCGCCGCGTCTATCGTGGCCAAGGTCACACGAGA CCGCATGATGATCCGCGCTGGCGCCGCGCATCCGCCTTATGGGCTGGAAA TCCATGCCGGCTATGCCACCCAAAAACACCGCGCGGCCATTGAAAGCGAA GGGCCCGTTCCGGGTCTTCATCGCTATACATTCGCACCGATCAAAGGCCG CTTCGACTGTTAG >gid:100090 BMEI1558 ADA REGULATORY PROTEIN / O-6-METHYLGUANINE-DNA-ALKYLTRANSFERASE ATGAACCTTATGATTCCGAAAACGCATGACCCCGACGAAAGCCGCTGGCA GAAGGTGCTCGACCGTGACAAGGCATCGGACGGGAAGTTCGTCTATGCCG TGCGCACCACAGGTGTTTATTGCCGCCCATCCTGCCCATCGCGGCGGGGA AAGCGCGAAAACGTGCAGTTTTTCAACGGCTGCGAGGATGCCGAGCGCGC CGGTTTCCGCCCCTGTCTGCGCTGCAAGCCCGATCTTTCCGATACGCTGG CGACGCAGAACAATGCCCGCCATGCCGAAATGGTCGCAAGCGCTTGCCGC TTCATTGAAACAGCGGAGACGCAGCCTTCGCTGGAGGAAATCGCGAATGT AGTTAAGGCAAGCCCGGCGCATTTCCATCGTGTTTTCAAGGCCTTCACCG GCCTTACGCCGAAAGCCTATGCCGATGCGCACCGGGCAGGCAGGATGCGC GCAGCACTTGATATGCCGCAAATCCGGGTGACGGATGCGATCTATGATGC GGGATATAATTCCTCAAGCCGTTTCTATGAAGCGTCTGACCGGATTTTGG GAATGACCCCAAAGGCTTATCGGGCTGGCGGCAAGGATGCCGATATCCGT TTCGCCATCGGACAATCAACGCTGGGCGCGGTGCTGGTGGCGGCAAGCGG AAAGGGCGTCTGCGCCATTTTCATGGGCGACGATCCGCAAGGCTTGATCC ATGATCTGGAAAAGCGTTTTCCGAAGGCAAATCTGATCGGTGCTGACCGC AATTTCGAGAATCTGGTAGCCGAGGTGGTGGGCTTCGTGGAAGCGCCGGG TATCGGTCTTGATCTGCCGCTGGATTTGCGCGGCACGGCGTTCCAGCAAA GGGTGTGGCGGGCGCTATGCGAAATTCCTGCTGGGGAAACAGTAAGTTAT ACTGACATCGCCGAACGGATCAGTGCGCCACGGGCCGTTCGCGCTGTGGC GCAGGCCTGCGCGGCAAACAAGATCGCCGTTGCCGTTCCCTGCCACCGCG TGGTGCGCAACGATGGCGGCATTTCCGGCTATCGCTGGGGCGTGGAACGC AAGCGCGACCTGCTTGAAAGGGAGCGCAAGGCATGA >gid:100172 BMEI1640 PHOSPHOHYDROLASE (MUTT/NUDIX FAMILY PROTEIN) ATGAAGACGATTCGTATTTCAGCAGCCATTATCCGCGATGAAGCGGGCCG TTTCCTTCTCGTGCGCAAGCGCGGTAGCGAGATATTCTTTCAGCCCGGCG GCAAGATCGATGACGGCGAAGACCCGGAAACCTGCCTCTTGCGCGAGATC GAGGAGGAACTGGGCATCCGCATTGGCCGCAGCCAGTTGCGTTATGCGGC GAAAATGGCAGCCCCTGCCGCCAACGAAACGGATGCGACGGTGGAAGCCG AGCTTTACCATCTTACGCTGGAGGAAGGGCAGGTGCCCATCGCCTCCAGC GAGATTGAGGAATTGCGGTGGAACCCGCCGGGCGACACCACGCGGCCTGT CGCCCTTCTGTCGCAGGCCATTCAGGCACGGTTTGCCTGA >gid:100194 BMEI1661 RECOMBINASE GTGTACGTAAGGGTTGACTTTGTTATACGGACATGCATTCTATCGTACAT AACCTTAATGTACACACAGAGGCACCCCGACATGAAGACCATCCTTTACG CCCGTGTATCGACCGAAGACCAGAATGCAGCCCACCAGCGGACACAGGCA GAAGCAGCCGGGTTCGTCATTGACGAAGTCGTGACCGATCAAGGCGTATC GGGCGTAAGCGTCCCGATGAAGGAGCGACCAGAAGGCAAGCGCCTCTTTG ATATGCTCCGTAAAGGGGACACTCTGGTGGTACGCTGGGTGGACCGGCTC GGGCGCAACTATCGGGACGTGACGGACACCATCCAGCATTTCATGCGACA GGGCGTCATTATTCGTACCGTCATCAATAACATGACCTTTGACGGCTCAA CACAGGACCCCATGCAGCAAGCTGTTAGAGACGCTCTTATCGCATTCATG TCTGCAACCGCACAAGCACAGGCAGAGGCAACCAAGGAGGCTCAGAAGGC GGGGATCGCGGCGGCGAAGGCTGACAAGGACCGGGGCGCATATCTCGGAC GGAAGCCCAGCTATGACCGGAAGCAACTCAACGCTGTTCAGGACATGCTT GCCATGGGAGCCGGTACATCTGAGATTGCTAAGGCGACGGGGTTGACACG ACAGACCGTTATCAGGATCGGTAAAGACCCTGTGAAGGCTGACCAAACAT TGAAGCAATGGGAGCCGCAAGGATACGACATGCAAAGAAAATGCTAG >gid:100197 BMEI1664 Hypothetical Cytosolic Protein ATGGGTTTGCCTATGCCTGCTCCTTACAAGCATCCGAAGACCGGCGTTTA TTATCTCAGGCAACGAGTCCCCGCTGATTTGAAGGACAAGGCGAGGGGCA AGATTGTCGCACTTCCGATAAGCGGAACGCTCAAAAGCTTCACCGTGGGC GATAGCGTTAAGGCTTCTCTTGAGACGAAAGACCCGGCAGACGCCAAGGC GCGTTACCGCGAAGCTGATGCGTCGCTGTCGAAGTTCTGGGAGGCCGTGC GGAACGGGCCACTAAGTCTGACCCAGAAGGAAATCGCGGAACGGGCTGGG CTGGTTTACAAATTCTTTGCGGACACATTCGAGGACGATGCGGACGCCCC TGAACTTTGGGAGCGGGCGCAGCGTATAAACGCGGTTGTCCTCAAGAAAG CGAAGCTAGGGAAGCGCCCGACTTACCCTCTGACTGTGGCACAGCGTGAC ATTCTGGAACCGCGTTTCGGGGGCTTTGTCGATAAGTTGCTGATCGATAC CGGAGAGCAAGTTGACCAAGAAAGCCGTGATAAGCTTCTGGTAGCCGTTG CCGAAGCATTACAGCAATCAACAGGCACCATACTGAAACGTGCGGACGGC GATTATTCGCCCGATACAGCGATACGCCAGCGTTACCCGGAATATGCGCC CATAGAAAAGCCTCAGGCTGTGCCGAGACAGACCGAGGAACGGAGCGGGG CTAAGCTAGACCTATACAATCTTCTCGACCACAAATTTAAAGACAAGGGC AAAGCCAAGACCCACCGCGACTATCGGAGTGAGATTGACAAGTTCGTTAA GTTCATCGGCCACAGCGATGCTGAACGCATCACGAAGGATAATGTACGCG AATGGAGAGACGCGCTAATAGCGCAGGGCCTTTCCCTCAAGACTGTTAAC GATAAGCGCCTCACGGCTATCAAAGCTGTTCTCGCCCATGGTGTAGCTGA GTTCAGTCTATCCCAGAACGTTGCGGACGGCATACGCGATAAACGACAGG AAGCAGCCCCGGTCGGCTCCAAAGGTTATTCCCCAGAACAGGCGAAGGCG ATCCTACAGGCGACATTCAACGGAACCGACAAGGAGCTTGACCCGCATTA CCAACGGGCTGTGTTCTGGGTCCCGTGGATTTGCGCCTATACCGGCTTAC GTGTGAGTGAGGTTACACAGCTTCAAGGCAAGAATGTCCGTAACGTAGAC GGCCACGCTATCTTTGTTATCACACCGCAAGACGGCAGCACCAAGAGCGG CAAGGCATGGACAACCGGCATTCACCCGCACCTGATCGAAATGGGCATTC TCGACATGTTCAAGGCAGTTGGCGACGGTCCTGCCTTCTATCGTGCTTAT CCAGTCGGGACCGATCTACAGAAGATTGCCGGGAAGCACCGGGCCAAGGA GAGCGCAAGTCGTGTAGGCGACTGGGTTACCGCTACGCTTGGTGAGACAG CACCCGGAGGCAGACCTAATCACGCTTGGCGTCACACCTTCACGACACTT TCGCGCCGCGTCAAGATGGACAAAGAGGCACGGGACTACATGCTAGGCAG TCGATCCCGGACGGACGCACGGGAGGGCTACGGAGATTGGACGCCGGATG TTATATGCGGGGAAATTGACAAGCTACCACGGTTCGACGTGAAGGAGACG GACTACCGCCCTACGCTCAGAGTAATGAAGCCGAAGCCTATAAGTGAGCC GTATGTGCGCCCGAAGAAGACCAGAGGCGGGAAGCTGGTCCTCACTCCAA GGGTGCCTAAAGGTTGA >gid:100237 BMEI1702 TRANSPOSASE GTGCGTGCAATAAACCGATTGAGCGCAAGGGCGGCAACAACATTGGGACC GGGGAAGCACAATGACGGTGCGGGCCTTTGGCTGCACAAGCGCCCGGATG GTGGCGGGCAATGGATTCTCCGTGTCACCATTCATGGTAGGCGCAGAGAG ATGGGGCTTGGCTCTGCGCTTGAGGTGTCATTGAAAGAGGCGCGTGAAGC CGCTGAAAAGTGGCGCGCCATGGTTCGCTCGAACATCGATCCAATCAAAG AGCGCGAACGCCAGAAGCGTGAAGCTGCTCGCAATCTGCATTTGTTGAAA GATGTGGCAATTGATGCATTTGAGAGCCGGAAAGCTGAATTGAAGGGCGA CGGTGACGCTGGTCGCTGGTTCAGCCCGCTTGAGCATCATATTTTGCCGA AACTCGGCAAGGTTCCGGTAGCCGATATTGATCAGAAGGATATTCGCGAC ACGCTTGCGCCGATCTGGCATTCGAAAGCTGAAACCGCACGGAAGGCTAT CAATAGACTTGCCATATGCATGAGGCATGCAGCGGCCCTTGGTTTGGACG TTGATTTGCAGGCAACAGAAAAAGCTCGCGCCCTTCTCGGTAAGCAGCGC CATAAAGCCCAGAATATCCCGGCCATGCCGTGGCAGGAGGTCCCTGCCTT TTATGCGACCTTGACTGACGACTCGGTTACGCATCTTGCTATGCGCCTGC TTATCCTGACGGGCGTTCGGTCGGGGCCGCTTCGTTCGATCCATGAGAGC CAGATAGACGGCAATGTCTGGACCATTCCCGGTGAAGCCATGAAAGGCCG GAAGGATGCAACGAATGACTTCCGTGTCCCGCTTACAGTCGAGGCGATGA AAGTTATAGATATTGCCCGCCGCCATGCGCGTGACGGCTTTCTTTTCCCG AATGTTCGCAGTGGAGTTATCAGCGATATGACGCTGGGTATGTTCATGCG CAGGGCCAAGCTTGAAGCACGTCCGCATGGCTTCCGCTCCAGCTTGCGGG ACTGGATAGCTGAAACGACAGATACGCCCCACGATATTGCAGAAACGGTT CTTGGGCATACGGTCGGCGGATCGGTCGAGCGTGCCTATCGACGTACTGA TTTCTTGGAACAGCGGCGTGTTTTGATGGAGCGCTGGGCAAACCATGTGG CCGGTAATGGTGCTCAGATTTTACAGCTTATGAAGGCAGGAGCATGA >gid:100298 BMEI1762 O-6-METHYLGUANINE-DNA-ALKYLTRANSFERASE TTGCGCAAATACTACGACTTTTCACCTCTTAACCGGTTCATCCGGGTTCC ATCTGCCCCTGTATGTTTCAAATCGTGCTATTATTCGGTCATGGAATCGT TTGGCATCACCGTTTTTGAAACGCCCATCGGGCCCTGCGGCATTGCATGG CGCGGGAGCAAAATCGTGGGCGTGGAGATCGGCGAGGCGGACGAGAAAGA AACGCGCCATCGACTTCGTGAGCGTTTTGCGGGCGGGGAATATGCTGAAC CGCCCGCTTTCATCAGGCAAACTATTGAAAAAGTGCGCGCATTGCTTGAT GGCGCATCGCCGGATTTTTCCGATACACCGCTGGCGCTTGATTCGGTCCC GGACCTCAACCGGCGCGTTTATGAAATCATTCTGGAACTGAAACCGGGTG AAACCACCACTTATGGCGCGATTGCGCGGCGCCTTGGCGATGTGAGCCTG TCGCAGGCAGTGGGCTATGCGCTCGGCAAGAATCCGTTTCCCATCATCGT GCCCTGCCACCGCGTTCTGGGATCAAACGGCAAGGTGGGCGGCTTTTCGG CTGCGGGCGGCACGGCCACCAAGCTGCGCCTTCTCAACATAGAGCGCGCC AGAACGACAAGCGAGCCAGACCTTTTCGGCGGACTGCCCTTACAGGAACG GCCACAGACAGGCTGGTAA >gid:100305 BMEI1769 ENDONUCLEASE ATGACGGATCTGCGCGAGAAAAAGCGTATTGCTTTCTTTCGCGGCCACAG CGCCGAACGCCTTGCCGCTTTCGCACTCATGCTCAAAGGCTTTCGCATCG TCGCGCGGCGCTATCGCACGCGGCTTGGCGAGATTGACCTGATTGCAAGA CGGGGCGATCTGGTGCTGATCGTCGAGGTCAAGGCGCGGGCAAGTTTTGA AGCCGCACAATTTGCGGTAACGCCGCAGGCCATGCGCCGCATCGAGGCGG CTGCCGATCTCTGGCTGCAACGCCAGACCGATCGGGCGCGGCTTTCGCTG CGTTTCGATATGGTCGCCGTGCTGCCGCGCCGCTGGCCGAAACATGTCCC CGCCTTTTTTACGGCAGGCCATTATGGGTAA >gid:100318 BMEI1782 ENDONUCLEASE III ATGCAAGAGACAAAAATCAAATCCGCTGTGAATGGCTCCACTTCACCCGT GCGCCGCCCGCGCCGCGTGGCGGGTACGCTTTACACGGCCGACGAGATCC ATGAAATTTTCCGCCGTTTCTCCATCCAGCGCCCCGAGCCGAAGGGCGAG CTTGAACATGTGAACGCCTTTACCCTGCTCGTGGCCGTGGTTCTGTCGGC GCAGGCGACGGATGCCGGCGTCAACAAGGCGACACGCGCCCTTTTCGCTG TCGCCGATACGCCGCAAAAGATGCTGGCGCTGGGTGAGGAAAAGGTCGGT GAATATATCCGTACCATCGGGCTTTGGCGCAACAAGGCGAAGAATGTCAT CCTGCTTTCCGAAGCGCTGATCCGCGATTATGGCGGTGAGGTGCCGGGCG ATCGCGACGAGCTGGTGAAACTGCCGGGCGTGGGGCGCAAGACGGCCAAT GTCGTGCTCAACATGGCTTTCGGCCAGCCGACCATGGCGGTGGACACGCA TATATTGCGCATTGGCAACCGCATCGGGCTTGCACCGGGCAAGACGCCGG AAGCGGTGGAGGCCATTCTGGTTCGGGTCATCCCGCGTGAATATATGCTT CACGCCCATCATTGGCTGATCCTGCACGGACGCTATGTGTGCAAGGCACG CAAGCCCGAATGCGAGAAATGCGTGATTGCCGATCTCTGCAAATATCCCG CCAAGACCTGCGATATCCCCGCCGCGCTCGTGCCGCTGGCGCCTTAG >gid:100330 BMEI1794 INTEGRATION HOST FACTOR BETA-SUBUNIT TTGAAACAGGGGTCTAAAGCCGTGATCAAATCGGAACTTGTTCAGATTAT CGCAAGCCGCAATCCACATCTTTTCCAGCGCGATGTCGTAAACATCGTCG GCGCTGTTTTCGATGAGATCACCAATGCACTCGCCGAAGGCAACCGCGTG GAACTTCGTGGCTTCGGCGCTTTCTCCGTGAAGAACCGCCCTGCCCGCAG TGGACGCAATCCGCGCACCGGCGAAACGGTGGACGTGGAGGAAAAGTGGG TTCCCTTCTTCAAGACCGGCAAGAAACTGCGCGACCGTCTCAACGGCGCA GTCTGA >gid:100337 BMEI1801 DNA MISMATCH REPAIR PROTEIN MUTS ATGAAGGTTTGTGACATGGAAGCGAAGGTTGAAGAGAAAGAGCCGGAACC GGTGGAAAACGCCGGGCCGGATGCTCCGGTTCGCCTGACGCCCATGATGG AGCAATATATCGAGATCAAGGCGGCGAATGTTGATTCGCTCCTGTTCTAT CGCATGGGCGATTTCTACGAATTGTTCTTCGATGATGCCGTGGCGGCTTC CGCTGCGCTTGGCATCACGCTTACAAAGCGCGGCAAGCATCTGGGTGAGG ATATTCCGATGTGCGGCGTGCCGGTTCATGCCGCCGACGATTATCTGCAA AAGCTGATTGCCAAAGGCTACCGCGTCGCGGTCTGCGAACAGGTGGAAGA CCCGGCAGAAGCCAAGAAACGCGGCTCCAAATCGGTGGTGAAGCGCGATG TGATCCGTCTTGTTACGCCCGGAACGCTGACGGAAGAAAAACTGCTTGAC CCGGCACAAGCCAATTTCCTGATGGCCATGGGGCGCACGCGCGGCGACGG TGCGCTGGCGCTCGCCTGGATCGATATCTCAACCGGAACCTTCCGGGTGG CGGAAACCACGCCAGACCGGCTCTTTGCCGACATTATGCGCGTGGACCCG CGTGAACTGGTCGTGGCCGACAGCGCCTTTCATGATGAGGAATTGCGGCC CGTTTTCGATCTGATCGGCAAGGCGGTGACGCCACAGCCGGCAACGCTTT TTGACAGTGCGGCGGCGCAAACGCGCATCCAGCACTATTTCAACGTGGCG ACACTCGATGGTTTCGGCCAGTTCAGCCGCCCGGAGCTCTCTGCCATTTC CGGCGCAATCGCCTATATTGAAAAGACGCAGATTTCCGAACGCCCACCCC TGATGCGCCCTGAGCGCGAACATGAGGGCGGCACGCTTTTCATCGACCCG GCCACACGCGCCAGCCTGGAATTGGCCCGCACCATGTCGGGCAATCGCGA TGGGAGCCTCCTGAAAGCCATCGACCGCACGGTGACGGGCGGTGGCGCGC GGCTCCTTGCCGAACGGTTGACTGCGCCGCTGACTAGCCCGAAGGAAATA GCACTGCGGCTTGATTCCGTTTCGTGGTGCCTGAGCGAGCAGACGTTGTG CGAGGCTCTGCGGCTGGAACTGAAGGGCGTGCCCGATATGCCGCGCGCCC TGTCGCGGTTGGCCGTCGGGCGTGGCGGCCCGCGCGATCTGGGTGCACTG GCCTGCGGCTTTGAAGCGGCGGGCGGCATCGCCTCGCTTCTGGATGGCGC GCTATTGCCGGACGAACTTGCGGCGGCGCGCGAGGCCATTGAAAAAATGC CCGCCGGTTTTGCTGCTCATCTCGACCGGGCGCTGGCCGATGAATTGCCG CTCCTCAAACGCGACGGCGGTTTCGTGCGCGAAGGCTATAATTCGGAACT GGATGAAATGCGCGCGCTGCGCGACCAGTCACGCCGCGTCATTGCCGGTT TGCAGGCCGATTATATCGAGGAAACCGGCATCAAGTCGCTCAAGATCAAG CACAATAATGTGCTTGGTTATTTCATCGAGGTCACGGCCAATAATTCGGG AGCGATGACCGATACGGACGAGGCGAAAAGCCGGTTCATCCATCGCCAGA CCATGGCCAATGCCATGCGTTTTACCACGACCGAACTGGCGGAACTGGAA AGCAAGATTGCCAATGCCGCCGACCGGGCGCTCTCCATTGAACTTGCGAT TTTCGAGGAACTGACGGCTGAAGCTGTTGCCCATGCGGACAGTATCCGCG CTGCGGCTTCAGCGCTTTCCGTCTTCGATGTTTCAACTGCGCTTGCCGTA CTGGCGGAAGAGCAGGGCTATTGCCGCCCACATGTTGATGACAGCCTCTC CTTCAACATCGTGGCTGGCCGTCATCCGGTCGTCGAGCAGGCGCTGCGGC GTCAGGCGGCCAATCCGTTTGTTGCCAATGATTGCGATCTCTCGCCGCAA AGGGACGGTGGAGATGGTGCGATCTGGCTTTTGACCGGCCCCAATATGGG GGGTAAATCGACCTTCCTGCGCCAGAACGCGCTGATCGCTATTCTTGCGC AGATGGGTTCCTTCGTGCCAGCCGGATCGGCACATATCGGCGTGGTGGAC CGGCTGTTCAGCCGCGTCGGTGCTTCCGACGATCTGGCGCGGGGGCGTTC GACCTTCATGGTCGAAATGGTTGAAACGGCGGCAATTCTCAATCAGGCGG GCGAACACTCGCTGGTGATCCTGGATGAGATCGGGCGCGGCACGGCCACT TTCGATGGGCTTTCCATTGCCTGGGCGGCGGTGGAATATCTGCACGAGAA AAACCGCTGCCGTGCGCTGTTTGCCACGCATTTCCACGAAATGACGGCTC TTTCGGAGAAGCTGGAGCGGCTTTCCAATGTCACCATGCGGGTGAAGGAA TGGGACAATGACGTCATCTTCCTGCATGAGGTGGCAAAAGGAGCAGCCGA CCGTTCCTATGGCGTGCAGGTGGCCCGCCTCGCGGGGTTGCCGGAAGCCG TGGTGAACCGTGCACGCGACGTGCTGCATCAACTAGAGGCGGGCGAAACA TCCGGCAAGGCCGACAGGCTGATCGACGACCTGCCGCTTTTTTCCGTCAT GTTGCAGCAGGAAAAGCCGAAGCCGCAGATACAGGCGAAAGACAGCGAAC TGGCGAATGCGGTCGCTGCCATCAGCCCTGATGAACTGACCCCACGGGAA GCACTGGACCTGATCTATAAGCTGAAGGAACTGGCCGGGAAGGCGTGA >gid:100350 BMEI1814 TRANSPOSASE TTGACGACCAAGCTGCATGCTGTTGTCGATGCTATCGGCCTACCGCTGCG AATAAAGCCAACACCCGGCCATTATGGTGACTGTCCGCAAGCTTCAAGCC TTCTATCCGGCTTAGAGGGTGTGGGGCATGTCATTGCTGATGCGGCCTAT GATGCCGATCACTTAAGGGCCTTCATTGCCAGCGATCTCAAGGCAACGGC TCAGATCAAGGTCAATCCAACACGTTCCAGTGTCCCAACAATCGACTGGA GGCTGTACAAGGAACGCCATCAGATTGAATGCTTTTTTAACAAGTTGAAA CGCTATCGTCGTATTGCGCTGCGATGCGAGAAAACATTGACCGCATTCAT GGGTTTCGTCCATCTCGCATGCGCTATGATCTGGTTACGTTAA >gid:100351 BMEI1815 TRANSPOSASE TTGAGCAGACGAAGCCTTACAGATGAGCAATGGAACCGGATCGAAGCATA TCTTCCGGGGCGAGTTGGTACGCCCGGCCGCAGTGGCGTTGATAACCGAT TATTTGTCGACGCCATCTTGTGGATGGCTGCCAATGCAGCGCACTGGCGC GATCTGCCTGCGACCTTCGGCAAATGGACAGCGGTTCATGCCCGCTTTCG GCGCTGGTCGCACGCCGGTGTATGGGAAAGGCTTTTCCATGCCCTGGCTG ATACGCCGGACTTTGAATATGTCCTCATTGACAGCACCATATCGAAAGTC CACGCAGATGCGGCGGGCGCAAAAGGGGGGCTGAAGCTGCCTGCATCGGT CGCTCGCGCGGGGGATTGA >gid:100353 BMEI1817 ATP-DEPENDENT HELICASE HRPB GTGGGCCATGGCTGGTCGTGGCCGATATGTCCGGCAAGGCGGGCCGCGCC CGCATCCTGTCGGCGGCGGAAACGTCCGAAGCTGAAATTCGCGCCGCCCT TGGCGGCCGGATCGAAAGCGGAAAGCAGATTGTCTACGACCCGGAAAAGA ATGCATTGCGCGCGCGAGGCTGTGCGCATCGGCGCAATAGCCCTTTCGGA AAAGCTTCTTGCCGCGCCCTCGGGCGCTGGCGCCGATGAAGGCGTGATTG CTGCCGTGCGCGAGCATGGGCTTTCCATCCTGCCCTGGAGCAAGGAGGCC GAAATCCTGCGCCGCCGTCTTGGCTGGCTTTATCGCGGGCTTGGCGATCC GTGGCCCTCAATGGAAGACGACACCCTTCTGGAAAGGCTTGAAGACTGGC TTCTGCCCTTTCTGACCGGCGAGGCCCAGCTCGACCGCATACCGGGGCGT GTGCTGAAAAACGGTTTGATGAGCCTTGTGCCATTTGATCTGCAACGCAG CGTCGACCAGCTTGCGCCGACGCATTTCGAGGCGCCCACCGGCTCGCATG TTCCCATCCGCTACGATGCCGAAGAACCCGTGATTGCGGTGCGTGTGCAG GAATTGTTCGGCCTTGGCGCGCATCCTTCCATCGCCAATGGCAAGGTGCC GCTCTTGCTGGAGCTTCTTTCACCCGCACATCGTCCAATCCAGATCACGC GCGATCTTCCGGGCTTCTGGAAAGGCTCGTGGGCCGATGTGCGCTCTGAT ATGCGCGGGCGCTATCCCAAACATGTCTGGCCGGAAGATCCTGCCAATGC AATGCCCACGCGCCGCGCCAAACCGCGCGGAACCTGA >gid:100354 BMEI1818 ATP-DEPENDENT HELICASE HRPB TTGGCTGCCCCACGCAGCGCCGCGATCTGCTGGAGAAGGGCTGCGCATTC CGTCCCCGCTTCCACCGCGCGTTCCAATGCTTCGGCCTGCCCCTTGATGC GGCGTAGGCACGTCAGGGCGCGCATTCTTGTCTTCTGGCGAATGTGGCAT GGACTCTCCCGATTTTCCCCGAAACTATATACTCTGGGGGAGTACGTCAA CGGGGCCGGACGGCTGGACAATTCCGCATCGCTCATGCAAACCGCCAAAG CGTACAATGCAAAAGATGGAAAGCCTTTGACGAGCCTGCCCGATCTTCCC GTGACACGAATTCTGCCTCAGCTTGATGAGGCATTGGCGCATCATGCAAG CGCGCTCCTTGTTGCGCCGCCGGGTGCGGGCAAAACGACGCTGGTGCCGC TCCATATGCTGGGTGCGGACTGGCGCGGGGAAGGCGTGATCGTGCTTCTG GAGCCAAGGCGGCTTGCTGCCCGCGCTGCCGCCCGCCGCATGGCGCAGCT TCTGGGTGAAGAGCCGGGTGAAACGGTCGGCTACCGGATGCGCCTTGAAA GCAAGGTATCGGCCAAAACCAGAATTCTTGTCGTCACCGAGGGCGTCTTT GCGCGCATGATCCTGGATGATCCGGACCTGAATGGCGTTGCCGCCGTTCT CTTTGATGAATTTCATGAACGCAGCCTTGATGCCGATTTCGGTCTGGCGC TGGCGCTCGATGTGCAGGCGGCACTGCGCGACGATCTCAAAATCCTCGTC ATGTCGGCAACGCTGGATGGTGCGCGCGTGGCCTCGCTTCTCGGCGATGC GCCGGTCATCGAGAGCGAGGGCCGCGCTTATCCCGTCGATATCCGCTATC GCGACCGCAAGGCGGATGAGCAGATTGAGGATGCCATGGCGCGGGCAATC CGCGATGCACTGGTGGATGAAACGGGCAGTATTCTGGCCTTCCTGCCGGG GCAGGGCGAGATAGAACGCACGGCACGGCTTCTGGAAGAAAGGCTGCCGG CCAATGTCCTGCTTGCGCCGCTTTATGGAGCGATGGAAGGCAGCGCACAG GATGCGGCAATCAGGCCCGCGCCTGCGGGTAGCCGCAAGATCGTGCTGGC GACCTCGATTGCCGAAACGTCCATCACGATCGATGGCGTGCGGGTGGTGA TTGACAGCGGGCTTGCCCGCCTGCCCAAATATGAACCGGCCACCGGCCTC ACCCGGCTTGAAACCGTGCGAACATCGCGCGCAAGCGCGGATCAGCGCGC GGGCCGTGCCGGGCGAACCGAACCCGGCATTGCCATTCGCCTGTGGCATC AGGGGCAGACGGCTTCGCTTCCCGCTTTCTCGCCGCCGGAGATTCTGGAG GCTGACCTGTCCGGCCTCGTGCTCGATGCCGCCGCATGGGGTGTGACCGA TCCGGCAACGCTCAATTTTCTTGATAAGCCACCGAAACCGGCCCTCGCCG AAGCGAAGGCGCTTTTGCATCGGCTGGGCGCGCTCGACGAGGCTGGCCGC CTGACGCCGGATGGTGAGGCGATGCGCTCGCTCGCTCTGCCCGCGCGGCT TGCCCATATGGTGACCGAAGCTGCCAAGCGCGGCGAGGCACAGGCCGCCG CCGAACTGGCGGTGCTTTTGACCGAGCGCGGGCTTGGCGGCAAGGATATC GACCTTGAGACCCGTCTTTCGCGCTTTCGCGGTGATCGGTCGGATCGCGC GCAGCGCGCCAGGGGATTGGCAAAGCGCCTCGCTGCAAATCTGCGCAATC AGGGTGCGCCAGCCGGTTCGACCGTGGGACGCTTGTTGATCGACGCCTAT CCGGACCGCATTGCAAAGGCGCGCGGGACTACCGGGCAGTTCCTGCTGGC CAACGGGCGCGGCGGCGAAGTCGATCCTGCCGTCAGCCTTAGCCGTGGGC CATGGCTGGTCGTGGCCGATATGTCCGGCAAGGCGGGCCGCGCCCGCATC CTGTCGGCGGCGGAAACGTCCGAAGCTGAAATTCGCGCCGCCCTTGGCGG CCGGATCGAAAGCGGAAAGCAGATTGTCTACGACCCGGAAAAGAATGCAT TGCGCGCGCGAGGCTGTGCGCATCGGCGCAATAGCCCTTTCGGAAAAGCT TCTTGCCGCGCCCTCGGGCGCTGGCGCCGATGA >gid:100359 BMEI1823 DNA GYRASE SUBUNIT B ATGAGCGAGATGCCCGAGATGAATTCCGAAGCCCCCGCCGAATATGGCGC GGATTCCATTCGTGTTCTGAAAGGTCTGGATGCTGTTCGCAAGCGCCCCG GCATGTATATCGGCGACACGGACGACGGCTCCGGCCTGCATCACATGGTC TATGAAGTCGTGGACAACGCCATCGACGAAGCACTGGCCGGACATGCCAC GCTCGTCACCGTAACGCTCAATGCCGACGGCTCCTGCACCGTGACCGACA ACGGGCGCGGCATCCCGACCGACATCCACAAGGAAGAAGGCGTTTCAGCT GCCGAGGTCATCATGACCCAGCTTCATGCGGGCGGCAAATTCGACCAGAA TTCCTACAAGGTTTCCGGCGGCCTGCATGGCGTCGGCGTTTCAGTGGTGA ATGCGCTGTCGATCTGGCTGAAGCTGAAAATCCGGCGCGCGGGCAAAATC CATGAAATGAGCTTCACACACGGCGTTGCCGATGCGCCCTTGGTCGTAAC CGGCGATGCAGGCAGTGAAACCGGCACGGAAGTGAGCTTCCTGCCCTCGC CTGACACCTTCAGCATGGTCGAATTCGACTATGAAACGCTGGAACGCCGC CTGCGCGAACTTGCCTTCCTCAATTCGGGCGTGCGCATCAAGCTCGCCGA CCGCCGCCATGCGGATGTGAAGGAACAGGAACTGCATTATGACGGCGGCC TGGTCGAATTCGTCAAATATACCGACCAGAGCAAGAAGTCGCTTCTGGAA GAGCCTATCTATATTCGCAGCGAAAAGGATGGCATGACGGTGGAAGTCGC CATGTGGTGGAACGATTCCTACCACGAGAAGGTGCTGTGCTTCACCAACA ACATCCCGCAGCGCGACGGCGGCACGCATCTGGCCGGTTTCCGCGGCGCG CTGACCCGACAGATCACGGGCTATGCGGACTCTTCCGGCATGACGAAGAA GGAAAAGGTACAGCTTACCGGCGACGATTGCCGCGAGGGCCTGACCGCCG TTCTTTCCGTGAAGGTGCCGGATCCGAAATTCTCCTCGCAGACCAAGGAC AAGCTTGTTTCCTCCGAAGTGCGCCCGGTGGTGGAAGGCCTCGTCAATGA AGCGCTTTCCACATGGCTTGAAGAACATCCGGCAGGCGGCAAGATCGTTG TCGAGAAGGTCATTCAGGCGGCGGCGGCCCGCGAAGCCGCCCGCAAGGCG CGCGACATCACCCGCAAGAGCAATCTCAGCGTGACGTCCCTGCCCGGAAA GCTTGCCGATTGCCAGGAGCGCGATCCGGCCAAGTCCGAAATCTTCATCG TCGAGGGCGATTCGGCAGGCGGTTCCGCCAAGAGCGGGCGCTCGCGCCAG AATCAGGCCATTCTGCCGCTGCGCGGCAAAATCCTGAACGTGGAACGCGT GCGTTTCGACCGGATGATTTCATCCGATCAGGTGGGCACCCTCATCACGG CGCTTGGCACCTCCATCGGCAAGGATGAAACGCACGGCTTCAACGCCGAC AAGCTGCGTTATCACAAGATCATCATCATGACCGACGCCGACGTCGATGG CGCCCATATTCGTACGCTTCTGCTCACCTTCTTCTTCCGGCAGATGCCGG AACTGATCGAACGCGGGCATATCTATATCGCGCAGCCGCCGCTCTATAAG GTGACACGCGGCAAGTCTTCGCAATATATCAAGAACGAAGCCGCCTTTGA GGATTTCCTCATCGAAACCGGCCTTGAAGAAACGACACTGGAACTGGTGA CTGGCGAAATGCGCGCCGGGCCGGATTTGCGCTCGGTGGTGGAGGATGCG CGCACGCTGCGTCAGCTTCTGCACGGCCTGCACACCCGCTATGACCGCAG CGTGGTGGAACAGGCGGCAATTGCCGGCCTGCTCAACCCCGATGCCTCAA GGGACAATGCAACGGCACAGCATTCCGCCGATACGGTTGCCAAGCGTCTC GACATGATTTCGGAAGAGACCGAGCGCGGCTGGAGCGGCCATGTGATGGA AGACGGCGGCTATCGCTTCGAGCGTATGGTGCGCGGTGTAAAGGATATCG CCATTCTCGACATGGCCCTGCTCGGCTCGGCCGATGCCCGCCAGGTCGAC CGCGTTGCGGGCCGCATGGCTGAAATCTTCATGGAGCCGCCGGTGCTGCG CCGCAAGGACAAGGTGGAATCGCTTTCCGGCCCGGTGGCCCTGCTTGACG CCGTGTTTGCAACCGGCCGCAAGGGTCTGACCCTCCAGCGTTACAAAGGC TTGGGCGAAATGAACGCCGAACAGCTTTGGGAAACGACACTTGATCCGAA TGTGCGTTCGCTCCTGCAGGTGAAGGTGAACGATGCAACCGATGCCGATT CCCTCTTCTCGCGCCTTATGGGCGACGAGGTGGAGCCGCGGCGTGAATTC ATTCAGGATAATGCGCTAAACGTCGCCAATCTGGACGTTTGA >gid:100360 BMEI1824 ATP-DEPENDENT RNA HELICASE DEAD ATGTCTCTGCCTGATACCATCGCTCCGACTCTCTCCGGAGCATTAACCGC TCGCGGTTACAATACGCTTACCGCTGTTCAGAATGCTGTTCTGGCCCCCG AAACACTCGCTTCCGATCTTCTTGTGTCTGCCCAGACGGGGTCTGGCAAG ACGGTGGCTTTTGGCCTTGCCATGGCCAACACCATTCTCGAAGACGAACT GCGCTTCGGTGATGCGGGTGCGCCACTTGCCATGATTATCGCGCCGACGC GCGAACTTGCACTTCAGGTGCGCCGTGAACTGGAATGGCTTTATGCCGAT ACCGGCGCGCGGATTGCATCCTGCGTTGGTGGCATGGATATCCGTACCGA GCGCCGCGCGCTGGAGCGGGGAAGCCATATCGTCGTCGGCACGCCGGGCC GCCTGCGCGACCACATTACGCGCAATGCGCTCGATATGTCGCAACTGCGC GCGATCGTGCTCGACGAAGCCGATGAAATGCTCGACATGGGCTTTCGCGA AGACCTCGAATTTATCCTGGGCGAAGCGCCGGAAGACCGCCGCACGCTGA TGTTCTCGGCAACCGTGCCGAAGCCGATTGCCCAGCTTGCCAAGCGTTTC CAGAACAATGCATTGCGCATCACCGTTCAGAGCGAAACCAGCCAGCATGC CGATATCGATTATGTCGCCATGCCGGTTCCGCCGCATGAGCGTGACCATG CGATCATCAACACGCTGCTTTATTACGACAGCCAGAACTCGATCATTTTC TGCTCCACCCGCGAAGCGGTAAAGCACATGGCAAGCCGCCTCTCCAATCG CGGTTTCGCGGTGGTGGCGCTTTCAGGTGAGTTGAGCCAGGCGGAGCGCA ACAACGCGCTTCAGGCCATGCGGGACGGGCGCGCCCGCGTCTGTGTGGCG ACCGACGTTGCCGCGCGCGGCATCGACCTGCCCAATCTTGATCTGGTCAT CCATGCTGATCTGCCAACCAATCCGGATACGCTTCTGCATCGTTCTGGCC GTACGGGCCGCGCGGGCCGCAAGGGCACCTGCGTCCTGGTTGTGCCGTTC TCGCGCCGGCGCAGTGCCGAACGCCTGTTGCACATGGCAAAGCTTGATGC GCAGACGGTTCCCGCGCCCAGCATTGCTGCCGTTCAGGCCAAGACCAATG AGCGCATTTTGAATGCGGAAGTCTTCAACCAGCCCGTTGAAGAAGAATAT CAGGAACTGCTGAAGGCCCTTGCCGAGCGTTACACGCCAGAGCAGATTGC GAGCGCCTTCCTCAATCGCGAAGTGGCCTCCTATCCGGCGGCGGAAGAAG TATCCGATGCGCCGGTGCATCCGGTCGGCGGCAAGAAGCCGCGTTCGGAC CGTTTTGAAAAGGGTGATCGTTATGAGCGCGGCGAACGCCGTGAGCGTGG CGAACCGGGCGAACGCTTCGACCGCAATGCGCGTTTTGATGGCGTCTGGT TCTCGGTTTCGGCTGGCCGCAAGCACCGCGCCGATCCGAAATGGCTGCTG CCGCTCATCTGCAAGGCGGGTGACGTATCCAAGCGCGATGTCGGCTCGAT CAAGATTTTCGACAATGAAACGCGCTTTGAAATTGCGGCATCCAAGGCGG ATGAATTCCGCCAGTCGGTGGCTGAACGCGGCACGGGCGAAAAGAGTCTC GTAATCCGCACCGCCGTTGCCGGTGCTGGCGGCGATGCTGCTGCGCGTGA GAGCCGCGGCAGCTTCAAGCCACGTAGCGACAAGTTCAAGGAAGGCGGCT TCCGGGACGGCCACAAGAGCGATAAGCCGCGCGATTTTTCCCGCGGTGAT GACTTCAAGAAAGATGGCTTCAAAAAGGGCGGTAAAAAATCCGAAGGTGG CGGTTACAGCAAGAAGCGTCGCGGTGAATAA >gid:100361 BMEI1825 DNA POLYMERASE I GTGCGAAGCGGTTTTGCGTCCGAAATTGCGTATGGACAAGGAACAGGCAT GAAAAAAGGCGATCATCTCTTTCTCGTTGACGGCTCGGGCTATATTTTCC GCGCCTATCATGCCCTGCCGCCGCTGACCCGCAAGACGGATGGCCTGCCT GTCGGTGCGGTTTCCGGTTTCTGCAACATGCTGTGGAAGCTGTTGAAGGA TGCGCGCAACACGGATGTCGGCGTGGTGCCGACCCATTTCGCGGTCATTT TCGACTATTCGTCGAAGACGTTCCGCAAGGAGATTTATCCTGATTACAAG GCGAACCGCACCGCGCCCCCTGAAGACCTGATCCCGCAATTCGGCCTCAT CCGACAGGCGACCCGCGCCTTCAATCTGCCCTGCATCGAGAAGGAGGGCT TCGAGGCTGACGACCTTATCGCCACCTATGCGCGTCTGGCTGAGAAAGCG GGCGGCGATGTCACGATCATCTCCTCCGACAAGGACCTCATGCAGCTCGT GACACCAAGCGTGTCGATGTATGACAGCATGAAGGACAAGCAGATTTCGA TCCCGGAAGTGATCGAGAAATGGGGCGTGCCGCCGGAAAAGATGATCGAC CTGCAATCGCTGACCGGCGACAGCACCGACAATGTTCCGGGCATTCCCGG CATCGGCCCGAAAACGGCGGCGCAATTGCTGGAAGAGTTTGGCGATCTCG ACACGCTTTTGGCCCGCGCCTCTGAAATCAAGCAGAACAAGCGCCGCGAG AACATTCTGGCTTTTGCCGACCAGACGAAGATCGCGCGCGAATTGGTGAC ACTCAAGACGGATGTGCCGCTCGATATCGATCTGGACGGGCTGGTGCTGG AGCCGCAGAACGGGCCGAAACTGATCGGCTTCCTGAAGGCAATGGAATTC ACCTCGCTCACCCGCCGCGTGGCCGAGGCAACCGATACGGACGCTTCTTC GGTCGAGCCATGCCATGTGGAGACCGACTGGGGGGCGGATGCTCATGGCC CCGATGTCGATGTTCCCGAAAAGGCCGATGCTGCTGCATCGCAACTGCTC TCGGCGCCGACTGCCGCTGAGCCCGATCAGGGCTATACGCCGAAAGCGCT CGCAGAAGGGCGGGCGGCGCAAGCCATCGCGCAAAAGATCGATACGAGCG CCTATGTCTGCATCCGCGATATTGCGACGCTGGAGCAATGGCTGGCCGAA GCGGCCGAAACAGGTATCCTTGCTTTTGACACGGAAACGACTTCGCTTGA TCCGATGCAGGCCGAACTTGTTGGCTTCTCCCTGGCGCTCGCACCGGGAA AGGCCGCCTATGTGCCGCTCCAGCACAAGTCTGGCGCGGGCGATCTTCTG GGCGGTGGCATGGTGGAGAACCAGATCCCGCTTGATATGGCACTCGCGGC GCTGAAACGCGTGCTTGAGGACGCTTCCATTCTCAAGATCGCGCAGAACA TGAAATATGACTGGCTTGTCATGCGCCGCCACGGCATCAACGCCGTTTCC TTCGACGATACGATGCTGATTTCCTATGTTCTGGATGCGGGTACAGGCAG CCACGGCATGGACCCTTTGTCCGAGCGATGGCTTGGCCACACCCCGATTG CCTATAAGGACGTGGCGGGAAGCGGCAAGAGCGCCGTCACTTTCGACATG GTGGATATCGACCGTGCGACGGCCTATGCCGCCGAAGATGCCGATGTGAC CTTGCGCCTGTGGCAGGTGCTGAAGCCGCGCCTTGCAGCGGAGGGGCTGA TGTCGGTCTATGAGCGGCTGGAGCGTCCGCTGGTCGATGTGCTGGCGCGC ATGGAAGAACGCGGCATTGCCGTTGACCGTCAGGTGCTGTCACGCCTTTC CGGCGATCTGGCGCAGGCCGCTGCCGCTTATGAAGACGAGATTTACGCGC TTGCGGGCGAGAAATTCACCATTGGCTCGCCCAAACAGCTTGGCGATATC CTCTTCGGCAAGATGGGGCTGCCCGGCGCATCCAAGACCAAGACAGGCCA GTGGTCGACCTCCGCGCAGGTTCTGGAAGACCTTGCCGCCGAAGGTCATC CTCTGCCGCGCAAGATCGTGGACTGGCGCCAGCTTACCAAGCTCAAATCC ACTTATACGGATGCGCTGCCGGGTTTCATCAACCCCCAGACCAAGCGCGT CCATACATCCTATGCAATGGCATCCACCTCGACGGGGCGCCTTTCCTCGT CCGACCCCAATTTGCAGAATATTCCGGTGCGCACCGCAGAAGGCCGCAAG ATCAGGACAGCCTTCATCGCCGAACCCGGCAACAAGCTGATTTCCGCCGA CTACAGCCAGATCGAACTGCGCATTCTGGCACATGTGGCCGATATTGCGC AATTGAAACAGGCCTTTGCCGACGGCATCGATATTCATGCCATGACGGCG TCGGAAATGTTCGGTGTTCCGGTGGAAGGCATGCCCTCGGAAGTGCGCCG CCGCGCCAAGGCGATCAATTTCGGCATTATTTACGGCATTTCCGCTTTCG GTCTGGCGAACCAGCTTTCCATCCCGCGCGAGGAAGCGGGGCAATATATC CGCACCTATTTCGAGCGTTTTCCCGGCATCAAGGATTATATGGAAGCAAC CAAGGCATTCGCCCGCGAGCATGGCTATGTCGAAACCATTTTCGGGCGGC GTGCACACTACCCGGATATCCGCGCATCCAACCCGCAGGTTCGCGCTTTC AACGAGCGCGCGGCCATCAACGCGCCGATCCAGGGGGCTGCTGCCGATAT CATCCGCCGCGCCATGATCCGTATGGAAGATGCGCTGGCCAAGGAAAATC TCGCCGCGCGTATGCTTTTGCAGGTCCATGACGAACTGATCTTTGAAGTG CCTGAAAATGAGGTTGAAAAGACTATTCCGGTCGTGCGCCGCGTAATGGA GAATGCGGCTATGCCTGCCGTCTCGCTTGCGGTGCCGCTGCGTGTGGATG CAAGGGCGGCGCATAACTGGGACGAGGCGCATTGA >gid:100411 BMEI1875 Hypothetical Cytosolic Protein GTGCCGCCGTCAGCCGCTGGCGGGTGGCGCCCGCGCCTTCGCGCTCCAGC GGAGCAAACGCGCCGGGCAAGCCCGCCTTTTCCGCCGTTCTGGAGCGCAA CCGCCACGGCACATGCGGGCAATGGATCATGGAATGGAACAATGAAACTC TCGAATTTGGCGCCCGCGAACGGGACGGCAGAACGCTTGTTTCTCGCCCT CTGGTTTCCGTTTCTGCCGACCGACCGGCTTCGCCGCGCCGTTCCGCCTG ATGGCAAGGAGCGGCTTCCTCTGGTCGTGACAGAACGCACGGCCAATGCG CTGCGCCTGACGGCGGTGGATGGTGAAGCGGCAAAGCTCGGCCTTTTTCC CGGCATGGCGCTGACCGATGCCCGCGCCCGCGTGGAAAGGCTCGACGTGG CAGCGGCAGCGCCGGAACATGATACCGCACTTCTCAAGCGCCTTGCCCAG TGGTGCGAGCGCTACACGCCGCTTGTCGCCTTCGATGAGCCGCATGGGTT GATGCTGGACATAACCGGCTGCGCGCATTTGTTCGGCGGGCCTGCCGCCA TGCGTGCTGACGCCCTTTGCCGCTTTGAACGCGCCGGGCTGCACATGCAG GCGGCGATTGCCGATAACAGTTTTGCCGCCCGGCTTCTGGCGCGGGGAAC GAAGGGCGGTGTTTTCAGCCAAGCGGAGGCCGACCGGCTGCTTCCCCGCC TGCCCCTTTCCGCGCTTGAACTGGCGCAAGCCGCAGAAACCGGCCTCAAG CGCGCCGGGCTGAAACGGATCGGTGATGTGATGGCGCTGCCCCGTTCTGC CCTCACCGCCCGTTTCGGCACCGATCTTGCCACCAGGCTCGACCGGCTGG CGCGGCGCGAGCGCGCGCCGATTTCCCCCTTGCGCATCCTGCCGCTCAGA ACCGTCGAACGCCGCCTGTCAGAGCCGGTGACGGCAATGGAACTGGTGGA ACATATATTGCGGGAACTGGCGCAGGCGCTGTTTGCGCAGCTTGAAATGG AAGGCAAGGGCGCGCTTCTGCTTGAGGCGTCGTTCTTCCGGGTCGATGGC GAGGTGCGCCATATCCGTATCGAAACAGGCCAGCCCTTGCGCGACGACAG GATTTTCCTGCGCCTTGCGCGCGAAAGGCTGGGTGCGCTCACCGATCCGC TTGATGCCGGTTTCGGCTTCGACATGATCCGGCTGGCAGCACTGCGCAGC AGCACAGTGGCCCAGCGCCAGACGGGGCTCGACCAGCATGAGGAAGACGA AGCCGGCTTCAGCCAGCTTATCGACCGGCTTTCGGCGCGGCTTGGACAGG ACCGCGTTCTCGTCTCCTTTCCGCGCGACACCCATATGCCGGAGCGCGCT TACGGCCTCGCCCCTGCCTTGCATGGATCGCGGAAAACCGAAGCCGATTA TCGCAGCCAGGCGGAACTGCCGGGCGACTCGCCCGCACGCCCCATAAAAC TGTTCCGTCCGCCACAATTGATCGAAACCGTCGCCGAAGTGCCCGACAGT CCGCCCTCCTTCTTCCTGTGGCGGCGGGTGCGCCATCAGGTGCGCCTTGC CGAAGGGCCGGAACGGATCGAGCCGGAATGGTGGTGCGCAATCGGTCAGG ACGTGCCGGAACTGCGCGATTATTACCGGGTGGAGGATGAAAACGGCCAG CGTTTCTGGATTTTTCGCGAAGGGCTTTATGACGGCGCCAATCACCCGCG CTGGTTTCTGCATGGGCTGTTCGCGTGA >gid:100412 BMEI1876 DNA POLYMERASE III, ALPHA CHAIN GTGATGGTTCCTTATTTTGAAATGGCCGCTGCCAGCAATTTTTCCTTCCT TTGCGGTGCATCGCATCCGCAGGAACTGGTAGAGCGTGCGCATGCGCTTG ACCTGTCCGGCATCGGCATTGCCGACCGCAACACGCTGGCCGGTGTGGTG CGCGCCCATGCACAATGGAAGGATATTCGCAAGGAAAGCGGTTTCCGCCT CTTCATCGGCTGCCGCCTTTCCTTCATCGACGGCACGCCGGATATGGTCG TCTATCCGCGTGATCGCGCCGCTTATGGCCAATTGTGCCGCCTGCTGACG GAAGGAAAGCACCGCGCCGCCATCAAGGGCGAATGCCATCTCGAATGGGC CGACCTCCTGTTTCGTGCGCGACAGTTCCAGATCGCGGTCTTTCCGCCTG ACGAAGATGAGCCGGATTTTGCCGCACGCCTGACGGAGATCGCACAGGCC GCACCCGGCTCGGTCTGGCTGGCGCTTACCATGCCGCATCAGGGGCAGGA CGGACGCCGCGCGGAACGCATCGCCCGGTTTGCCGCGCAGGCAGGCGTGC CGCTGATCGCCACCAATGATGTGCTCTATCATCACCCGGACCGCCGCCCG CTTCAGGACGTGCTGACGGCCACGCGCCATCACACGACCGTTTTTGCCGC CGGGCGGCTTCTGGAAAAGAATGCCGAACGCCACCTGAAACCGCCGCATG AGATGGTGCGCCTGTTCCGCGATTATCCTGAAGCCATTGCAGCGACCGCC GATTTCGTCGCGCCCATCACCTTCCAGCTTGATGAGCTGAAATATGCCTA TCCCGACGAACCCATCCCGCCCGGCAAGACAGCCCAGCAACATCTTTATG ACCTCGTCTGGGAAGGTGCGGCGCGCCATTACGGTGCGGACATGATCCCG CCAAAGGTGCAAGGGCTGATCAACAAGGAACTGGCGCTGATCGCCAGGCT TGAATACGAGCCCTATTTTCTCACCGTTTATGACATTGTGACCCATGCCC GCGAGAAAGGCATTCTGTGTCAGGGGCGCGGCTCGGCGGCCAATTCCGTT GTCTGTTTCTGCCTCGGCATTACCGGCGTGAACCCGACGCAAGTGGATCT TCTGTTCGAGCGTTTCATCTCCGCCGAGCGAAAGGAACCGCCGGATATCG ACGTCGATTTCGAGCATGAGCGGCGTGAAGAGGTGATGCAATATGTCTAT GACCGCTATTCGAGAGATCGCGCGGCTATTGTGGCGACCGTCATCAGCTA TCGCTCGCGCAGCGCGATCCGCGATGTCGGCAAGGCGCTGGGGCTGAGCG AAGACGTGACAGCAGCACTTGCCAATACGGTCTGGGGCCTATCGGGCGGC GGCATCGACAGGCAGCATATCAGGCAGGCAGGGCTAGACCCCGACAATCC AATCATCCAGCGCGCGGTGGAACTGGCCATCACGCTGATCGGTTTTCCGC GCCACCTGTCGCAGCATGTCGGCGGCTTCGTGCTCACCCGCGACCGGCTG GACGAAACCGTGCCCATTGGCCCGGCGGCAATGGACAAGAGATCTTTCAT CGAATGGGACAAGGACGATATCGATGAAGTGGGCTTGATGAAGGTGGATG TGCTGTCGCTCGGCATGCTCACCTGCATCCGCAAGGCTTTCGACCTCATT CACCAGCACAAGCCGCAGCTTTATGGCGGCGAAAAGCTGACATTGGCCAG CCTGCCGCGCAAGGACAAAGCCGTCTACGACATGCTGTGCAAGGGGGATT CGCTCGGTGTCTTTCAGGTGGAAAGCCGGGCGCAGATGAACATGCTGCCG CGCCTGCGCCCGCAGGAATTCTATGATCTTGTGATCGAGGTCGCCATCGT GCGCCCCGGTCCCATTCAGGGCGACATGGTGCATCCTTATCTCAGGCGGC GAAGCGGACAGGAGCCCTGCACCCTGCCATCACCTTCGCCGCAACATGGA CCGGCGAACGAATTGCAGCAGATTCTCGGCAAGACCAAGGGCGTGCCGCT GTTTCAGGAACAGGCGATGCGCATTGCCATGGAGGCTGCAAAATTCACAC CCGAGGAAGCCAACCAGTTGCGCCGCGCCATGGCCACTTTCCGCAAGATG GGCACCATCCATACGATGGAGAAGAAGATGATCGACGGCATGGTCAACCG GGGCTACGACCGGACCTTTGCCGAAAATTGTTTCAACCAGATCAAGGGGT TCGGAGAATATGGCTTTCCTGAAAGCCATGCGGCAAGCTTTGCGCATCTG GTCTATATTTCCGCATGGCTCAAATGCCATCATCCGGAAGTGTTTGCCGC AGCCCTTCTCAATTCCCAGCCCATGGGTTTTTACGCCCCCGCCCAGATCG TGCGCGATGCGCGCGAGCATGGCGTGACGGTGCTGCCCGTCGATGTGAAT TTCAGCCAATGGGACAATATTCTGGAGGAAACACCCGATGTTCACCTGGC GTTGCGGCTCGGTTTTCGCCAGATCGACGGTTTTTCCAAACGGGACACCG AGCTTCTGATTGCCGACCGGCAGGAGCCTTACCGCACCATTGAGGACATG CACCGGCGGCTCCGGCTCGACCGGCGCGCCTTCACGCTTCTGGCCGATGC CGATGCTTTCGGCTCGCTCGATATCGACCGTCGCGCCGCATTATGGGCGG TGCGCCGCCTGCCCAATGACGAAACGCTGCTGCTTTTCCGCGCCGCCGCG GCAAGCGAACTGGCGCAAGAACCGCGCACGAAGCTTCCTGAAATGGCGGC ATCCGAGCATGTGATTGCCGATTACGAGACGACGCGGCTTTCGCTGAAAG GGCATCCGCTGCAATATCTGCGCGAGGGGCTGGCGGCGGAAGGCGTTTCC ACCTGCCGCGCCGTGCAGGAAGGTGCGGATGGACGCCGCATGAAAGTGGC AGGCGTCGTCACCGTGCGCCAGCGCCCCGGCAGCGCCAAGGGCGTGGTGT TTCTTACCATCGAGGATGAAACCGGCATCGCCAATATTGTGATCTGGCCG AAGATCATGAAGGTGTTTCGCCGCGAAGTGATGAGCGCGCGGCTGATCCA TATCGAAGGCCGCATACAGCGCAGCCTCGAAGGGGTCGTGCATCTGGTGG CGGCAAAATTGCAGGACCGTTCGGCGGCATTGATCGAAATGAGCGGACGC GAAGCACAGCGCCTCATCGCTCCATCCCAGATGGCGCATCATCCACGGAA TGTGAGGGTCATGCCGAACTCACGCGACTTCCATTAG >gid:100442 BMEI1906 PHOSPHOHYDROLASE (MUTT/NUDIX FAMILY PROTEIN) ATGGAACCGAGCCGTTTTGTCGGTTTTGCCGGAAACCGCATCGAGCGGCT ATCCGAAAAGCGGCCGGATGATTCTGCTTTCACGGCGCTGGAACTTCCTG AAACACGGATAATGATTCTGGGCGACCACAAGCTGCTGCTTGATTATGGG CAGGAAGACGCGCCGCGTGCGCTGTTTTCTCTGGAGGAAGCGCATCAATT CGTGCTCGATCTTTGCGAGCCGGTTCTGCTTGGCCTTCAGGACGGCACGC CCCTCGTGGCTCTGACGGCCACCCTCTACCCGGAGGCTCTGCCAGCGCCT TTCCGCCTGCAGGACTATCGCAGTGTCTATACGGAAGGGCTGGTCCCGGC TGACCTTCTGGGCGCGCTGGCGCAAGCTGCGGCGCTGACCGCATGGCATG AAAGTCACCGTTTCTGCGGACGTTGCGGCACGAAAACCGAAATGCGCGCA GGCGGTGCCAAGTGTCTATGTCCCCAGTGCGGTGCGGAACATTTTCCGCG CACCGATCCGGTGGCGATCATGCTGCCAGTGCGCGGCGAAAAATGCATTC TGGCCCGTGGCCCCCATTTCGTGGCCGGCTCCTATTCTTGTCTCGCGGGC TTAATCGAGCATGGCGAAACGATCGAAGCCGCCGTGCGCCGGGAAAGTTT TGAGGAAATGAAACTGGCGATCGGCCGTGTCGCCTATCACGCGAGCCAGC CCTGGCCGTTTCCCTATTCGCTGATGATCGGCTGCCATGCCGAAGTTCTC AGTGACGATTTCACTGTCGACCGCTCGGAACTGGAAGATGGCCGCTGGTT CTCGAAGGCGGAAGTGCGCACCATGCTGGAAGGTACCCATGAAAATGGGT TGCGGGTGCCGCATGNGGNGCCATCGCAACCCATCTGA >gid:100444 BMEI1908 DNA POLYMERASE III SUBUNITS GAMMA AND TAU ATGGACACACAATCCGCCGATGGCGCCTATCGCGTTCTAGCCCGCAAATA TCGCCCGCAGAATTTCGATGATCTCATCGGCCAGGAGCCGATGGTGCGCA CGCTGCGCAATGCGTTCGAGACGGGCCGCATCGCACAGGCCTGGATGCTT ACCGGCGTGCGCGGGGTCGGCAAGACCACGACGGCACGTATTCTGGCGCG CGCGCTCAATTACAAGACCGATACGGTCGATCAGCCAACGATCGATCTTT CCACACCGGGCGAGCATTGCCAGGCGATCATGGAAGGCCGCCATGTCGAT GTCATCGAGATGGACGCGGCCTCGCATACAGGCATCGACGACATTCGCGA GATCATCGAGCAGGTCCGCTATCGCCCGGTTTCAGCGCGCTACAAAGTCT ATATCATCGACGAAGTGCACATGCTTTCCACCGCCGCCTTCAACGGGTTG CTGAAGACGCTGGAAGAGCCGCCGCCGCACGTCAAGTTCATCTTCGCCAC CACTGAAATCCGCAAGGTTCCGATCACGGTCCTGTCGCGCTGCCAGCGTT TCGATCTGCGCCGCATCGAATCGGGCACGCTGGCGCAGCATCTGCGCCGC ATCGCGGAAGCCGAAAAGATCGAGGTGGACGACGCATCGCTCGCCATGAT CGCACGCGCGGGCGAAGGGTCTGCGCGTGATTCGCTGTCGATCTTCGATC AGGCGATTGCGCATGGTGCGGGCAGCGTCACAGCGGAAGCCGTGCGTTCC ATGCTGGGCCTTGCCGACCGTGCCCGTATCATCGACCTGTTTGAAATGCT GATGCGCGGCGATGTGGCTGGCGCGCTCACCGAATTTCGCGCGCAATATG ATGTGGGCGCCGACCCTTCGGTGGTGCTGACCGATCTTGCCGATTTCAAC CATCTGGTGACGCGCCTGCGTTTCACGCCGGATGTGGCCGAGGATGTGTC GCTGTCGGAAGATGAGCGCGTGCGCGGACGCGAATTCGCACAGACACTTT CCATACGCGCGCTCTCACGCACCTGGCAGATGCTGCTCAAGGGCATTGCG GAAGTGGATACGGCGACGAGGCCGGTTCAGGCGGCTGAAATGCTTTTGAT CCGCCTTGCCCATGCTGCCGACCTGCCAACGCTGGACGAGGCGATCCGTG GTCTCGACAATGGTTCGGTTTCTGCACCGCGTCCGCAGCCTTCCGCAACA CCGCGGCCAAATGGCGGCAGTGCGCCGCAAGCGCATGGGGCCGCCGATGC CGTCGGTTCTTCAGCACTTGCACCGGCAGCCGGTGGACCGGCCACGGCCA TGCGCATTGTGGAAACGCCGCCGATCCAGGTTTCCGCACCAAAACCATCT GAAGCGGCGCCGCAGCCTTCCGTACCGATCAACAGCTTGCAGGATATCGT TGCGCTTGCCGATAAATATCGCGACATGCAGTTCAAGATTCTGGTCAAAA ACTGTGTGCGTCCGGCATCGATTGCGCCGGGGCGGCTGGAAATCGGCTTG ACGGACGATGCGCCGAAATCGCTGCCGAGTGATATTGCACAGCATCTTCT GAACTGGACCGGCATTCGCTGGGTGGTGACGGTGGCGCGCGACGTTGCGG GCCAGACCATTGCCGAAGCGGAAGCCGAACGCCGCGACAATCTGGTGACG GACGCCCGCGCCGACCCCGATGTGGCGGCCATTCTCGCGGCTTTTCCCGG CGCGAAGATCATAGACGTACGCATTGCTGTGCCGGATAAGAGCAAAGACG AGGATATCGACCTCGACGCCGTGGCGGAAGTGCCGGACGTTCTGCCTGAA GACGACTGA >gid:100446 BMEI1910 RECOMBINATION PROTEIN RECR ATGCCGCATCCTCCCAAATTCCCGTTCCCTACCCCCTTACTCCCCTATTC CCTTACTCCCTTACAAAAAATGTCCAAACGAATAGCCGGTCCTGAAATCG AACGTCTGATCCAGCTTCTGGCCCGCGTGCCGGGGCTCGGACCGCGCTCG GCCCGCCGTGCGGCGCTGCATCTCATCAAAAAGAAGGAAGCGCTTCTGGT GCCGCTTGGCGGCGCCATGCAGGAGGCCGCTGAAAAGGTGCGCATCTGTT CGTGTTGCGGCAATGTCGATACGTCCGACCCGTGCACGATCTGCACCGAT GAGCGCCGCGATCCGGCAACTTTGATTGTCGTGGAGGACGTATCCGATCT CTGGGCGCTGGAGCGGGCAGACACAATGAATGTGCGCTATCATGTATTGG GTGGCCGCCTGTCACCGCTCGATGGCATCGGCCCGGACGATCTCAACATC AAGGGGCTGGTGGAGCGGGTTGCAAGCGGCGCCATCAAGGAAGTGATCCT CGCGGTCAACGCCACTGTCGAAGGCCAGACGACCGCCCATTACATCACAG ACCAGCTATCGAATTTCGATGTGCGCGTGACACGGCTTGCCCATGGCGTT CCCGTTGGCGGCGAACTTGACTATCTGGATGAAGGCACGCTTGCTGCTGC GTTACGGGCGCGAACCACGCTTTAA >gid:100478 BMEI1941 RECF PROTEIN GTGGAAGCAAAAGATCACATAGAACGCCGCCCGGATCGCGTTTCGATCCG GCGGCTCAAGCTTGTCAATTTCCGCAACTATGCAGAATTGTCGCTGCCGC TGGGACCGGGCCATGTGGTGCTGACGGGCGAAAACGGCTCCGGCAAAACC AATCTCATCGAAGCCATTTCCTTCCTGTCGCCGGGGCGGGGCCTGCGTCG CGCCGCCTATGACGATGTGGCGCGTGCCAATGCCGAAGGCGGTTTTGCGA TCCACGCCGCACTCGACTGCATGATTTATGGCGACGCGGAAATCGGAACC GGCACGGCGGGCGGCGGCGAAGGCGGGCGCAAGGTGCGTATCAACCGTAT TGCCGCTTCTGCCGATGATCTTCTCGATTATGCGCGCATTCTCTGGGTGG TGCCATCCATGGATGGGCTTTTCACCGGCGGCGCTTCCGACCGGCGGCGT TTTCTCGACCGTATGGTGCTCGCCATCGATACCGCCCATGGCAAGCGGGT GCTTGATTATGAAAAAGCAATGCGCAGCCGCAACCGGCTGTTGAATGATG GCAGCAATGACGATCAATGGCTGGACGCCATCGAGAACCAGATGGCTGAA CTGGGCACGGCCATTGCAGCAGCGCGTGCGCAAGCCATGCGCCTGATTGC GGCGATGATCGAACGGCTTCCCGCCGAGGGACCATTTCCCAAAGCCGATT GCTTTCTGGAAGGGGCGCTGGAAAGCCGCATCGGTGTGGAGGCGGCGCTT GATCTTGAAGAGGATTTTCGCCGTACCCTGCGCGATGGCCGCGCGCGCGA CCGGGCGGCAGGCCGCACGCTCGATGGTCCGCATCGCACTGACCTGATTG TCCAGCACAGGCCCAAATCCATGCCGGCCGCACTGTGCTCGACGGGCGAG CAGAAGGCGCTTCTGATCGGCCTCATTCTCGCCCATGCACGGCTGACGGC GGAACTTTCCGGCATGGCGCCGATCCTCCTGCTCGATGAAATTGCGGCGC ATCTCGATATGGGGCGCCGTGCAGCCCTTTTCGGCATTCTCGACGAGCTT GGTGGGCAGGCTTTCATGACTGGCACCGATCGTGCGCTTTTTGATGCGCT TGCTGGCGATGCGCAGTTTTTCAACGTGTCGGCCGGGCAATTGACAGGGA TATAA >gid:100479 BMEI1942 DNA POLYMERASE III, BETA CHAIN GTGCGCCTTATCGACAAGGGCCGTCTGCCCCTCGGATGCAGTCGCCCCGG TCCTAGCGAGCGAGTGCGTTTCAAGATGCGTGTTACCCTAGAGCGATCGA ACCTTCTTAAATCTCTCAACCACGTCCATCGCGTCGTGGAGCGCCGCAAC ACGATTCCAATTCTGTCGAATGTGCTTTTGCAGGCCGAAGGCGCAAGCCT CGCCATGAAGGCAACCGACCTGGATCTCGAAGTGAACGAGGCGACCGCCG CCATGGTAGAGCAGGCGGGCGCCACCACGGTCCCGGCGCATCTTCTCTAT GATATTGTTCGCAAGCTGCCGGATGGCGCGGAAGTGATGCTGTCCACCAA TCCCGATGGCGGCTCCATGTCGGTCATTTCGGGCAAGTCTTCTTTCCGCC TGCAATGCCTGCCGCAATCCGATTTCCCGGAACTGACCGCTGGCGCCTTC ACCCATTCCTTCCGCATCGAGGCGCAGGCTCTCAAGCGCCTCATCGACCG CACGCAGTTTGCAATCTCGACGGAAGAAACCCGTTATTACCTGAACGGTA TCTTCTTCCATGCGATTGAAAGCGATGGCGCGTTGAAGCTTCGGGCGGTT GCAACCGACGGGCACCGTCTGGCGCGCGCCGAACTGGAGGCGCCCTCCGG CACGGAAGGCATGCCGGGCATCATCATCCCGCGCAAGACGGTTGCTGAAT TGCAGAAGCTGGTCGATGTGCCGGATGTGGTTGTGACCGTTGAGCTTTCC GATGCCAAGATCCGCTTCACCGTCGGCTCGGTGGTGCTCACCTCCAAGCT TATCGACGGCACTTTCCCGGATTATCAGCGCGTCATTCCATCAGGCAACG ACAAGAAGCTCACCATTGACCGGCAGGATTTTGCTGCTTCCGTTGACCGC GTTTCGACGATTTCGAGTGAGCGTGGCCGCGCGGTGAAGCTTTCGATTGC CGATGGACAATTGACGCTCACCGTCAACAATCCCGATTCGGGCAGTGCGA CCGATGAGCTTGCCGCCGATTATGATGGCGATCCGCTCGATATCGGCTTC AACTCCAAATATCTGCTTGATATCACCGGCCAGCTTTCCGGTACCGATGC GGTTTTCATGCTGGCCGATGCCGGCTCTCCGACGCTGGTGCGCGATACGG GCGATGAAGATGTGCTCTATGTCCTCATGCCGATGCGCGTCTAA >gid:100480 BMEI1943 CHROMOSOMAL REPLICATION INITIATOR PROTEIN DNAA ATGATGACCGGTAAATCGACGGCAACGATAGGTGATAATGCACATGCGAA CCGTATCCATGGATCTTCTGCTACCGGAAATGACAAGAGCCTGATGAAAA TGGACAGTGCCGTCAGCGAGGAAGCTTTCGAGCGTTTGACGGCCAAGCTC AAGGCACGGGTTGGCGGCGAGATTTATTCGAGCTGGTTTGGCCGGCTGAA GCTGGACGATATTTCCAAGAGCATCGTGCGCCTTTCGGTTCCCACCGCAT TTTTGCGCTCCTGGATCAACAATCATTATTCCGAACTGCTGACCGAGCTT TGGCAGGAAGAAAATCCGCAGATCCTGAAGGTCGAGGTCGTGGTGCGTGG CGTAAGCCGCGTGGTGCGCAGTGCAGCACCCGCCGAAACCTGCGACAATG CCGAAGCAAAGCCCGCCGTCACCCCGCGTGAAAAGATGGTGTTCCCTGTT GGGCAGTCTTTTGGCGGCCAGTCGCTTGGCGAAAAGCGCGGCTCCGCCGT GGTCGCAGAATCGGCTGCCGCCACCGGCGCCGTTCTGGGCTCCCCGCTTG ATCCGCGCTATACGTTCGACACATTTGTCGATGGCGCCTCCAACCGCGTC GCCCTTGCCGCCGCCCGCACCATCGCGGAAGCCGGTTCCAGTGCCGTTCG CTTCAATCCGCTTTTCATTCATGCCTCCGTCGGCCTCGGCAAGACACATC TTTTGCAGGCCATTGCCGCCGCCGCTCTCCAGCGCCAGGAAAAGGCCCGC GTCGTCTATCTGACGGCTGAATATTTCATGTGGCGCTTTGCCACCGCTAT CCGCGATAACAATGCGCTCTCCTTCAAGGAACAGCTTCGCGATATCGACC TTCTGGTGATCGACGACATGCAGTTCCTGCAGGGCAAGTCGATCCAGCAC GAGTTCTGCCATCTTCTGAATACGCTGCTCGACAGCGCAAAACAGGTCGT GGTTGCCGCCGACCGCGCCCCTTCGGAACTGGAATCGCTCGACGTTCGCG TCCGTTCCCGCCTTCAGGGCGGTGTCGCTCTGGAAGTGGCCGCACCCGAT TATGAAATGCGCCTGGAAATGCTGCGTCGCCGTCTGGCCAGCGCACAGTG CGAGGATGCAAGCCTCGATATCGGTGAAGAGATTCTCGCCCATGTCGCGC GCACGGTCACGGGTTCCGGCCGTGAACTGGAAGGCGCATTCAACCAGCTT CTGTTCCGCCAGTCTTTCGAGCCGAATATTTCCATCGACCGCGTGGACGA GTTGCTCGGCCATCTGACCCGCGCAGGCGAGCCGAAGCGCATCCGTATCG AGGAAATCCAGCGCATCGTGGCGCGCCATTATAATGTGTCGAAGCAGGAT CTGCTGTCGAACCGCCGCACGCGCACCATCGTAAAGCCGCGTCAGGTGGC AATGTATCTCGCCAAGATGATGACGCCGCGTTCCCTGCCGGAAATTGGCC GCCGCTTCGGTGGGCGCGACCATACCACCGTTCTTCATGCCGTGCGCAAG ATTGAGGATCTGGTCGGTGCCGACACCAAGCTGGCGCAGGAGCTGGAGCT TTTGAAGCGCCTCATCAACGATCAGGCTGCCTGA >gid:100483 BMEI1946 FORMAMIDOPYRIMIDINE-DNA GLYCOSYLASE ATGCCGGAACTGCCAGAGGTCGAAACGGTTCGCCGTGGTCTGCAACCCTT CATGGAAGGGGCAACCGTTGTGCGGGTGGAGCAGAATCGGCCCGACCTGC GCTTTGCCTTTCCTGAAAATTTTGCCGAACGCCTTTCCGGCAGGCGCATC GAGGCGCTTGGCCGCCGTGCGAAATATCTGACCGTCCATCTCGATGACGG GCTTTCGATCATCAGCCATCTCGGCATGTCCGGCTCGTTTCGCATTGAGG CGGAGGATGCGCAAGGTTTGCCGGGCGGGTTTCATCACGAGCGCTCCAAG AACAGCCTGCATGACCATGTGGTCTTTCACCTCATGCGCCCGGACGGTGC GTCTGCACGCATTATTTATAATGATCCGCGCCGCTTCGGTTTCATGCTCT TTGCCGAAAAGGGCGCGCTGGAGGAACATCCGCTCCTGAAAGACCTTGGT GTGGAGCCGACCGGCAATCTCCTGTCGGGCGAGGTTCTGGCCGCGCTTTT CAAGGGACGCCGCACGCCCCTGAAGGCCGCCTTGCTCGACCAGAGGCTTA TCGCGGGGCTTGGCAATATCTATGTCTGCGAGGCGCTCTGGCGCCCAGGG CTTTCGCCGATGCGCGCGGCAGGCTCGGTTGCAGGCGAAATGGACGTGAT GGAGCGGCTTGCCGGGGCCATTCGCTCCGTCATTGCGCAGGCGATTGCAG CCGGAGGCTCCAGCCTTAAGGATTACATTCAGGCCGACGGTGCGCTCGGC TATTTCCAGCACTCTTTTTCCGTCTATGGCCGCGAGGGTAAGCCATGCAG AAACCCCGCCTGCGGCGGCACTGTCGAGCGCGTGGTGCAATCTGGTCGTT CGACTTTTTTCTGTGCCTCTTGCCAGACATGA >gid:100560 BMEI2023 ATP-DEPENDENT NUCLEASE SUBUNIT A ATGAAGAAGAAACCTTTCATCCCGCCGGAAACCATCGATGCGCAGGCGCG CGCGGCCGACCCGTCGGCCTCCGTCTGGGTCTCGGCCAATGCCGGTTCCG GCAAGACCCATGTTCTGACCGAGCGCGTCATCCGCCTGCTTCTGGAAGGC ACGGATCCGTCGAAAATCCTCTGCCTGACCTATACCAAGGCGGCGGCAGC GGTGATGCAGAACCGCGTTTTCATGCGGCTTTCCGAATGGGCGGTCCTGC CCGATGAGGCCTTGGCCGAGCGGCTTGAAAAACTTGAGCGCCGCCGCCCC GGCGCGGCGCGCGTGGCCAGTGCACGCCGTCTCTTTGCGCGCGCGCTGAA AACGCCGGGCGGGATGAAAATCCAGACCATCCATGCCTTTTGCGAAGCCA TCCTGCACCAGTTTCCGCTGGAAGCAAATATCGCCGGTCATTTTGAGATG ATGGACGATCTCATGCAGGCGGCGCTGGTGGGCGAGGCGCGGCGCACCCT GCTTGAAACCGCTTATGGCGGTGGTGATCCCGCACTTGCGGCAGCCTTTG CCGATGTGTTGCAGGCGGCGGGCGAAACGGGGCTGCAATCGCTTCTGGAC GAGGCGGTGGGCCGCCGTAACGGCTTGCAGCTTTATCTGGCTGAACTGGG CGTCGGCACACACCGTGTGGAGGCTCTGCATCGCGCTTTCGGGTTTGAGC CCGATGCGCGCGAAGACGATCTTCTGGCCGATCTCTGGCCGGTACCGGAA TTTTCCGACGATGCGCTCGATCTCATCCTATCGATCCCGAAAGGGGCTTC ACGCGCGCAGGATTTCGCGCTGCAATTGAAACGGCTGGAGAAGGCGAGCG GCCTTCCCGACAAGATTGCGGTGCTGCGCGCCGCTTTCCTCAAGAGCACG GGCGAGCCGAAATCAGGCTCCTATGTCTGTTCGGCAGCCGTGAAAAAGCT TCTGCCTGAATTCGAGGAGGAATTCGACACGGCTGCGGCGCGGGTTGAAA TGGGGCTGGACCGCCTGAAGGAATTGCGCCTTGTCCGGCTCAATCTGGCG GCGCTCACGTTGATCGACAATCTTCTGCAACGCTATCACGACCTGAAGCG CCGGCGCGGCCTTCTGGACTTTGAAGACCTGATTACCCGCACCGTGGCGC TGCTTGCGCGCAATGGGGCAGGCCAGTGGGTGCAATATAAGCTCGACCGC GGCATCGATCATATTTTGGTCGATGAAGCGCAGGATACGAGCCCCGATCA GTGGCAGGTCATCCGCATGTTGTCGGAGGAATTTTTCTCCGGCCTTGGCC AGCGCAACGTCCAGCGCACGCTTTTTGCTGTGGGTGATGAAAAGCAGTCG ATCTATTCCTTCCAGGGGGCCGTGCCAGACGATTTTGCCGAGCAGGGCCG GGCCATCAGCATTCAGGCCAGCAATGCGGAGCTGAAATTCGAGCGCGTGA GCCTCAATTTCTCTTTCCGTTCGACGCCTGATGTCTTGCAGGCGGTGGAT GAGGTTTTTGCGCGGCCGGAAGCTAACAGGGGGCTTTCCGGTGCGACAGT CCACTCCGCTATCCGGGATAAAGAACCGGGCGAAATCGAAATCTGGGACA TGCTGACGCCGGAAATGGTAGAAGAGCCGGACGATTGGCGTGTACCGGTC GATCAACTGGCCGCGCCAGCGGTAAGGCTTGCCGAACAGATTGCGGCAAC GATCCGCTACTGGCTGGATCGCGGGGAGCCGATCCCCGGCCAGAACCGGA AGATCGCGCCGCGCGACATCATGGTGCTGGTGCGAAAGCGTGACCAGTTC ATGCCTGCCTTGTCGCGCGCGCTGAAAAACCTGTCGGTTCCGGTTGCCGG CGCCGACCGTCTGCAACTCACGAGCCATATCGCTATTCAGGACCTGATGG CGCTGGGGCGTTTCGTCCTGCAACCGTCCGACGATCTGTCGCTGGCGGCG CTTCTGAAAAGCCCGCTTTTCGGCTGGGACGATGACCGGCTTTTCACGCT GGCATATCCGCGCGGGGCAGGGGACACGCTTTTTGAATATCTCTACCGCG CTTCGCGCCATGATGCGGAGCTGGCGCAGATTCACAAGCTGCTGAGCCGT TGGCGCAACATGGCCGACACCATGCCGGTGTTTGAATTCTATGCGCGTGT TCTCAGTGCCGATGGTGCAAGGCGCAAGCTTCTGGCGCGATTGGGGCCGG AGGCGGGCGATATCATCGACGAATTCCAGAATTATGCGCTTTCCGCCGAG CGCGCTGGACTTCCGGGTTTGCAGGCCTTTCTCGAAACGCTGGAAGCGGC CGCGCCGGAGATCAAGCGCGAGCTTGACCAGGGCCGTGACGAGGTGCGCA TCATGACCGTGCATGCCGCAAAGGGGCTGGAAGGTGCGGTTGTCTTCCTC GTGGACCCCGGCAGCGCGGTGTGGACGGGAAGCCGTGCGCCCAAGCTTAT CCCTTATGATTTTCAGGGGGATGGCCCGCCGGTGAAGGGCTTTTTGTGGC AGCCGAACAGTTCCTGCCAGACGGGCTTCACGGCAGCGGAAATCGAAAAG CTTAAAAACCGCGCCGAGGAGGAATATCGCCGTCTTCTTTATGTCGGCAT GACGCGCGCGGAAGACCGGCTCATCATTTGCGGTTATCGCGGCACGCGCG AAAGCGGCGAAACCTGGCATCGGCTGGTTGAGGATGCGCTGGCAGCCAAG TCCGAAACCTTTGTTCATCCGGTCACGGGCGTGGCTGCGAGGCGCTATCG CAAGACGCCGCGCAGTTTTATCGAAATCAATGAGGAGGATCAGGCCGGGG CGACGTCTCTGCCACCGCTTCCCCATGATTATCGCCAGCCTATGAAAGCA GAGCCGGGTTTGCCGCGCCCCTTGGCCCCATCAGGCGCTTCGGCCTTGAT CGAGGCGGACGAGGAGCCGCCGCTCGACCTGTCGTCCCCGGTTTTGCAAC CCGGCACCGGCGCACCGGCCTTCGCGCTGCGGCGCGGCACGGCGATCCAC ATGCTGCTGCAATATCTGCCGGATGTGGCGCCGGAAAAACGCGAACATCT GGCTGCGGACTATCTGGCGCGTATTGCCGCAGACTGGCCGGATGCCGAAC GGCTCAAGGCTTGGCAGAGCGTCCATGCCATTCTGGATGATCCGCGCTTT GGCCCCGTTTTTGCGGAAGGTTCGCGCGGGGAAGTGGCTGTCATGGGCAT GATCGATATTGGCGGGCGTGACCACGCCGTATCCGGCCAGATCGACCGCA TCAGCGTGGATGAAAGCCGTGTGCTGATCGTCGATTACAAGACCAATCGC CCGCCGCCGAAGACGCTGGAAGCCGTGCCTTCCGCCTATCGCGCGCAGCT TGCCCTCTACAGGGAATTGCTGAGGCCGCTTTATCCCGGACGTGTGGTGG AAGCGGCATTGCTTTTCACGGAAGGGCCATTTCTGTTGCTCGTTCCCGAT GCTGTTCTGGATGATGCCATGGGAGCGCTGAAGGATACTCAAGGAAAGGT GAGGAACCAGAACTTGACGGATGGCGGCAGACGCGCCACATGA >gid:100561 BMEI2024 Hypothetical Cytosolic Protein ATGTGCGCATCGCGGCCCGGAGATGGAAAACAGCGCCTGTTTTCCATTCC TCCCGGCCAGCCCTTCCTGCCCGCTTTCGCAAAGGCCCTTATTGAGGGGC GGCTGATCGAAGGTTTTCCCGGCCATCCGTCTGATCCGCTGGCGCTGGCA AGCGCGACGATCTATGTGCCGACGCGCCGCGCCGCGCGTGCGCTGCGCAC CATTCTTGTCGATCTCAATCCGGTCAAAAGCGCCATCCTGCCCCGTATCA GCCCGCTTGGCGATGTGGACGAGGATGCAGCTTTCTTCAACGCCGGTGCG GCGGGCGTTTTTGATCTCAATCCGCCGATTGGCACTGCCGAACGGCTCCT GTTGCTGGCACGGCTGATCCGTCCCTGGCGGGAATCGCTTCCGTCGCATG TACGTGCGCTTTTCGGCGTGGATGATGTCTCGGTTCCGGCCACGACCGCG GATGCCATCTGGCTCGCGCGCGATCTGGCAGCACTGATGAATCAGGTGGA AACCGACGGTGCGAAATGGAGCAAGCTTACCAGCATTGCGCCCGATGATC TTGCCGACTGGTGGCGGGTGACACTCGGCTTTCTTGATATCGTCACGCGG CTCTGGCCGGATATTCTGGCTGAACGCAGGCTGTCCAACCCGGCTGCCCA TCGCAACGACCTGATCCGCAGTGAAGTGAAGCGCCTGCGCGACCATCCGC CAGCCGGGCCCGTGATTGCTGCCGGTTCGACCGGCTCCATTCCGGCAACG GCTGAATTGATATCGACCATTGCCAGCCTGCCGCAAGGCGCGGTGGTGCT GCCTGGCCTCGACCGCGATCTCGACGAGGCGGCGTGGAAACTGCTCGGCG AAGCAGGGGACAATCCTTCCATTTTCGGCCATCCGCAATATGGGCTTCAC AAGCTTCTGCAAGCCATAGGCGCGCTGCGTCAGGATGTGGACGTGCTGGA AGACATGCCGCGCGCCAAACGGCTGCGCGAGCGCATCGTAAGCGAGGCGC TGCGCCCGGCAGAAACCACGGATGCATGGGGCCTCCTCAATCGTGATCCC GACATGCAGCCATCAGCCTTGCGTGAGGCTGCGGCAAGGATCGATCTTGT CGAGGCTTCCAACGAGCGTGAAGAGGCGCTTGCGGTGGCGCTGGCCTTGC GTGATGCGCTGGCCGATGAGCGAAAGACGGCGGCGCTGGTTACGGCAGAC CGCAATCTGGCGCGCCGTGTCGTGGGAGAGCTTGCGCGTTTCGGCATCGA TGCGGATGATTCCGGCGGGCGGCATCTGCGCGATGTGGAAACGGCCACGC TTTTGCGGCTTTTGGTCGAAACCGTGTTCAATCCCGGCGATCCGGTGGCT TTGTTGGCGCTTGTCAAACATCCGCTGCTGCGGCTGGGAGGCGCGCGCAT CGACAGGCGGCTTGCGGGCGAAACGCTGGAACTCGTGGCTTTCCGGGGCG GTACGGGCCGGGCTGGCATTCTCGACCTGCCTGCCTTCTTCGAGCGGCGG CTGAAAGAAAGCGCAGACCAGCCCTGGCAGCCCGCCTGGCACACAACCGT GACGCAGGATATGATCGAGGCGGCGCGCGGTCTGTGTGAGAGCCTGTCGG CGGCGGTTGAACCGCTTGCTCCCTTTGTGACAGCCAACCGGCGAACCGAT ATTGGCGAGATTGCCCGCGCCACGGTTGAGGCGCTGGAAAACATGGCGCG TGACGAGACGGGCAGCGTCGCCGCCTTTTATTCGGGCGAGCGCGGTGAAA AGCTTGCCTCCTTCCTGCGCGGCCTCATCTCCAGTGAGGCGGAGCTTGAT TTCGAGGCGATGGAATGGCCCGCCATACTTGATGCGCTCATGGCGGGCGA AACCGTGAAACCGCATCCGGGCGGCCATCCGCGCCTTTTCATATGGGGTG CACTGGAAGCGCGCCTGCAAACGGTGGATGCCATCGTGATCGGCGGCTTG AACGAGGGAAGCTGGCCCACCAAGACCCGCAATGACCCGTTCATGTCGCG GCCGATGAAGGCAATGATCGCGCTCGATCCGCCAGAGCGGCGCACCGGCC TTGCCGCGCATGATTTCCAGATGGCGCTCGGCATGGACCATGTGGTGCTG ACGCGTTCGCAACGCTCGGACAATGCGCCGACGGTGCCTTCGCGCTGGCT GCAGCGGCTTGAAACCGTGCTGGGCGCAGATGTCACCAATGAAATGCGCG GGCGCGGCACGCGCTTCATCCATTGGTCGCGCGAGATCGACCGGGCGGAG GATGTGCCTTTCGTCAGGAAGCCGGAGCCTGCGCCGCCTGTCGCCGCGCG TCCGAAACATTTTTCGGTGACGGAAATCGAAACCCTGCGCCGCGACCCCT ATGCGATCTTTGCGAAGAAGATTCTGAAGCTGCGCCCGCTGGAACCCCTG ATCCGCGATCCGGCGGCAGCCGAACGCGGCACGTTGTTTCACGACATTCT GGGGCATTTCACGCAAGCGGCAATCGATCCGCTTGCCCCCGATGCCGCCG AAAAACTCATGGAGCTTGGCCGCATTCTTTTTGCGGATATGGATCTGCCG CTGGAAATTGAAGCGGTCTGGTGGCCGCGCTTTACCGCGCTCATTCCGCA ATTTCTGCAATGGGAGCGCGAGCGGGCGTATAAAGTGCAGGAAAGATTTG CCGAAATCGCCTCGCAGAAGCGCGAAGTGGAAAATCTCGGCATTACACTT TCCGGCCGTGCCGACCGCATCGACCTGATGCGCGATGGTACGGCGGAAAT CATCGATTACAAGACCGGCTCCACGCCCTCGCCCAAGCAGGCGCATGTGC TTCTCTCACCGCAGCTTGCGCTGGAGGCAGCCCTTCTGGCGCGCGGCGCA TTTCTGGATGTCGGGCCGGTGCGCGCTTGCGATCTCACTTATGTGCGCCT CAAGGCAGCCGGTGAGGTGAAGCCGGAATCGATCCTCAAGATCAGCAGGC CCCCATCGGAAAAGACGGCTCCGGCGCTGGGTGAAGAGGCATGGCAGCGG CTGGCGCAATTGCTGGCCGAATATCAAAAACCGGAGAAGGGCTATCTTTC GCGGGCGCTTCCATTCCGTGAAACCGACCTTACCGGCGATTACGACCATC TGGCCCGCGTGCTGGAATGGTCTGCTGGCGGCGATAGCGGCGGGGAGGGC GGCGAATGA >gid:100593 BMEI2056 DNA POLYMERASE III, EPSILON CHAIN GTGGCCTATCCTTATTCAGAATATTTGCGGAGAGGTTCTTCAATGCGCGA AATCGTTTTTGATACGGAAACCACCGGCCTGGAACGGCTGGAGGACCGCG TGATCGAAATTGGCGGTGTGGAACTTGTCAACCGGTTTCCTACAGGCCGC ACCTTCCATAAATTCATCAATCCGCAGGGGCGTCAGGTTCATCCCGATGC GCTCGCCGTTCATGGCATCAGCAACGAACAATTGCTGGACAAACCTGTTT TTGCGGAAATTCTGGACGAGTTTCTGGAATTCATCGACGGAGCCAGGCTT GTTGCGCATAACGCCATGTTCGACCTTGGCTTCATCAATGCGGAACTTGC GCGGCTAGACCAGGCCGAGATCACTTCGGAACATATCGTGGATACGCTGG CGCTCGCCCGTCGCAAACACCCGATAGGGCCGAACTCGCTGGATGCGCTC TGCAAGCGTTATGGTATCGACAATTCGCACCGCACCCTGCACGGCGCATT GCTCGACGCGCAGATTCTGGCTGAAGTCTATATCGAATTGATCGGCGGCA AGCAGACCGCACTTGGCCTGACCATGGAAAGCGGTTCTGCTGGCGGTGAC AGTCGCGGCAATGGCAGCGCACCCGTTGTCCTGGCCGCCCGCCCTCGCCC GTTGCCGCCGCGCATTTCGGATGCGGAACGTGCGGCCCATGCCGCACTGG TGGAGAAAATGGGCGACAAGGCTGTCTGGAAGAAATATCTATCCTGA >gid:100767 BMEII0169 hypothetical protein GTGGAACTGCAAAAGCTTGGCTGTGCGCGGCACGAAGCAGCACTTGCCAT CGCAAATGCGCGAAAGTCGGCGCTTGATGAGGAGCGCGCGGCGCTGATTG CCATGCAGGACCGGCGCTATGACGCGAATGCGCTCGATATTGATCCCTCG CTCGTCATCCGGTGGCTGGAGACCAATGCGGTTGAAATGCAACAGGTCGA ATCACGGCTCGAATTGGCGCGAAAAGCACTTTTGAAAGAGCAACGGCGCG TGGAACTTCTGCAAGACCGGCTGAACGATGCGCAGGCTGACCGTGAGCGG CGCGAGCTTGCCAGCCTGATCGAAGAATTTGTCAGCCGCAAAACATCGGA TGAGTCGCAAAAGCGGAGCTGA >gid:100788 BMEII0183 TRANSPOSASE ATGAAGTTTGCGTTCATCGACACGGAGAAGGCCCATATGTCCCTGTCACG GCTGTGCGCTTTCGCAGGCGTCAGCATCAGCGGTTATTATGCATGGAAGC ATCGTTTGCCCAGTCGTCGTCAGCTTGATGACATGAGTATTCTGGCCCAC ATTCGTAATCAGTTTGCGCTGTCACGTGAAACCTATGGCAGCCCTCGAAT GCATGTTGAACTGAACGAAGAAGGTATTCGAGCAGGTCGTCATCGCACGG CGCGACTGATGCGTGAAAATGGTTTGAAAGCCCGACAGAAAACGCGCTTC AAACGCACGACCGACAGCAATCATGGTGAGCCTGTCGCTCCCAATCTTCT GGATCAGGACTTCACTTGTGACAGACCAGATCAGAAATGGGGTGTCGATA TCAGTTACATATGGACCGCCGAAGGCTGGTTATATCTGGCAATCGTTGTC GATCTTTATTCTCGTCGCATCATTGGCTGGGAAGCGCGCGATCGAATGAA AAAGGACCTTGCTATTTGTGCTTTGAAGAAGGCCATTGCAATTCGGTACC CAAAGCCGGGGCTGATCCAACACTCCGACAGGGGAAGCCAATATGCCAGT TATGAGTATCGCAAAATCCTCAAATCGCACAGCATGCTTCCATCCATGAG CGGCAAAGGAAATTGCTATGACAATGCAATGGTGGAAACCGTCTTCAAAA CGATCAAGTCGGAACTGATAACGATCAAGTCGGAACTGATCTGGCGCGCT GCATTCCAGACCAGAAATGACGCAATCAAAGCCATTGGCAAATACATTGA CGGCTTCTATAATCCCGTGCGCAGACATTCTACACTGGGCTATAAATCGC CGGTGAAATTCGAGGCAATGAACCGAAACTTAGAGACAGAAGCTCTCCAC TAA >gid:100789 BMEII0184 TRANSPOSASE TTGAAGCAGCGTGAATTTACAGAAGATTTCAAGCGCGAAGCTGTTCGGAT TTTAACCACGAGTGGTCGAAACATTTCATCAGTTGCTGAGGACCTTGGGA TTGGTAAGTCAACGCTTGAGCGTTGGCGGCGCAATTTTGCTGAGAAAGAT TTACTTTCTGGTCCACATGAGGACATGGACCAGGAGCTTGCCCGGCTTCG TAAAGAAAACGAACTTCTGCGACAGGAACGTGACCTACTAAAAAAAGCGA CGGCCTTCTTCGCTCGGGAGACAAGTCGATGA >gid:100792 BMEII0187 Hypothetical Cytosolic Protein TTGATGCGCTATCAGTCTTGTAGACACTGGCTACAAATCAGCGCTTCGTT CCAATGCTACCATGGTAGGCTACCGATCTCCGACGCCACGCGCGGCCGCG TCGACGCGACCCACCGCGAAGCGATGGACCGTCTTTCGTGTAATCAGGAG GACATTGTAGGTTTCTTAAAGCGCATATCCTCTTCGGACGTGAAGATGTT CACCCTTTCCGAGGATGAAATTTCGCCTCTACATGTCGGCCTTAAAAGCA GGATGAACGCGCTGATCTTAAAGGATTTGGCCGACAAGACTCGCCGAAAC CAAGGCGGGCGCGACGATGCCGAAAAGTCTTGCGGCGGCAATTCCTACGG CTATGCTCCAAGACTGGGGATTGACCTGTTAGAAGACACAGCAAGGCACC GATTAAGAAGTGCAAAATTCGTGTCGTCGCGCTCCGACTTACAAAGGCTT GCGCATCTCTCTTTTTGGTGTCGCGCGCAATTGGATATTCCGTCGCAGAA ACGGGAACCCTAA >gid:100832 BMEII0227 TRANSPOSASE TTGAAGCAGCGTGAATTTACAGAAGATTTCAAGCGCGAAGCTGTTCGGAT TTTAACCACGAGTGGTCGAAACATTTCATCAGTTGCTGAGGACCTTGGGA TTGGTAAGTCAACGCTTGAGCGTTGGCGGCGCAATTTTGCTGAGAAAGAT TTACTTTCTGGTCCACATGAGGACATGGACCAGGAGCTTGCCCGGCTTCG TAAAGAAAACGAACTTCTGCGACAGGAACGTGACCTACTAAAAAAAGCGA CGGCCTTCTTCGCTCGGGAGACAAGTCGATGA >gid:100833 BMEII0228 TRANSPOSASE ATGAAGTTTGCGTTCATCGACACGGAGAAGGCCCATATGTCCCTGTCACG GCTGTGCGCTTTCGCAGGCGTCAGCATCAGCGGTTATTATGCATGGAAGC ATCGTTTGCCCAGTCGTCGTCAGCTTGATGACATGAGTATTCTGGCCCAC ATTCGTAATCAGTTTGCGCTGTCACGTGAAACCTATGGCAGCCCTCGAAT GCATGTTGAACTGAACGAAGAAGGTATTCGAGCAGGTCGTCATCGCACGG CGCGACTGATGCGTGAAAATGGTTTGAAAGCCCGACAGAAAACGCGCTTC AAACGCACGACCGACAGCAATCATGGTGAGCCTGTCGCTCCCAATCTTCT GGATCAGGACTTCACTTGTGACAGACCAGATCAGAAATGGGGTGTCGATA TCAGTTACATATGGACCGCCGAAGGCTGGTTATATCTGGCAATCGTTGTC GATCTTTATTCTCGTCGCATCATTGGCTGGGAAGCGCGCGATCGAATGAA AAAGGACCTTGCTATTTGTGCTTTGAAGAAGGCCATTGCAATTCGGTACC CAAAGCCGGGGCTGATCCAACACTCCGACAGGGGAAGCCAATATGCCAGT TATGAGTATCGCAAAATCCTCAAATCGCACAGCATGCTTCCATCCATGAG CGGCAAAGGAAATTGCTATGACAATGCAATGGTGGAAACCGTCTTCAAAA CGATCAAGTCGGAACTGATAACGATCAAGTCGGAACTGATCTGGCGCGCT GCATTCCAGACCAGAAATGACGCAATCAAAGCCATTGGCAAATACATTGA CGGCTTCTATAATCCCGTGCGCAGACATTCTACACTGGGCTATAAATCGC CGGTGAAATTCGAGGCAATGAACCGAAACTTAGAGACAGAAGCTCTCCAC TTTTCCGAAGCAAGTCCAGTTTCAATCTGA >gid:100868 BMEII0261 Hypothetical Cytosolic Protein TTGCCGCGGCTTGTTAGGCAGGTAAACTTGCATAAACATCTATCTTCCAA CGACAAGCGGGGGCAAGTCATGGAAATAATTGTCTACATTCTGCGCTGTG CAGATGGTTCATATTATACGGGTCTCACCAAACAGAACATTGAAGCGCGG TTGTGGGAACACAATGAGGGTATCTACGATAGCTATACAAAGAAGCGGCG ACCCGTCGAGCTTGTGTTCACCGAGACCTACGGCCGGATAGTCGATGCCA TTGCGCGGGAACGGCAGATCAAGGGATGGTCGCGTGTGAAGAAAGAAGCT TTAATTGCGCTAAATTACGAAGGCTTGCCCGAACTGGCGAAGCGAAGATA G >gid:100899 BMEII0290 DNA POLYMERASE III, ALPHA CHAIN GTGCCCGATGCCGACAGAATCGCCTTTCCGCGCCTGGGCGTGGTGGTGGA TACGGAAACCACCGGCCTTAATCCGGCACAGGAAGAAATCATCGAAATCG GTGCGGTTGCCTTCCGCTATGCCGATGACGGTTCCATAGGCGATGTCTGC GCTACTTTCGGCGCATTGCAGCAGCCATCCAAACCGATCCCGGCTGAAAT CACCCGCATCACCGGCATTACCGACGAGATGGTGAAAGGCCGGACGATCC CGCGTGATGAACTTGATGCGCTCATTGCCGAGGCTGATATCATCATCGCG CATAATGCCGGTTTCGACCGCCCGTTTCTGGAAAGACTCTCGATCGCTTT CGCCAACAAGCCCTGGGCCTGCTCGGTCAAGGAGATCGACTGGACCGCGC GCGGCTTTGAAGGCACCAAGCTTGGATATCTGATCGGCCAGAGCGGCTAT TTCCACAATGGCCATCGCGCCGAGGATGACTGTCAGGCGCTGCTGGCCGT GCTGAAAGGGAAATCCGGCAAGACCACGCCCTTTGCCGAACTGTTGAAGG CCAGCCAGCGCGCGCGAATGCGCATCTATGCCGAAAACAGCCCGTTCGAG ATGAAGGATCATCTCAAAGCGCGCGGCTATCGCTGGTCGGACGGCACGGA TGGGCGTCCAAAATCCTGGTGGACCGAGGTTGGCGAAGACGAACTGGAAG CAGAACTTGAATATCTGCGCACCGAGATTTATGGCTGGCGCGATGCCGAT CCGCTGATCCAGAAGCTCACCGCCATGGACCGCTATAAAGAACGTGGGCC GCTACGGGCAAAGAAGTAA >gid:101015 BMEII0405 ADA REGULATORY PROTEIN / O-6-METHYLGUANINE-DNA-ALKYLTRANSFERASE ATGTTGTTCACGCTTCCAAACCAAGACAAACTTTATGATGCGCTTGTTGC CCGCGATGCTTCTTATGAGGGGCGGGCTTATGTCGGTGTTCTTTCGACCG GTATTTTCTGCCGCCTGACCTGTCCGGCGCGCAAGCCCAAACCGGAAAAC TGCCGCTTCTTTGCATCTGTCGCCGAATGCATGGCCGATGGTTTTCGGCC CTGCAAAAGATGCCACTCCTTGCAGCCCGCAGCCGAAGCGGAAATTTTGG TGAAGAAACTTCTCAATGCGCTTGAGACCGATCCTGAACGGCGCTGGAGC GAGGAGGATGTGGTGCGCATGGGGTTCGACCCTTCGACCGTAAGGCGCAG TTTCCGCCGCCATTTCGGCATGACCTTTCTGGAAATGGCAAGGCAGGAGC GGCTGCGGCACGGCTTTCAGGTTCTGGCCGGGGGAGGGCGCGTCATCGAT GCGCAGGTTGATGCCGGTTTTGAATCACCTGAAGCCTTCCGAAGTGCCTT TGTGCGTATCGTGGGGCTGCCGCCTGCCAAACTGCGCAAGGAAGGGTTGC TGCGCGCCGACTGGTTCAAGACCCCGCTTGGCACCATGATCGCAATTTGC GACGTGCGCAGCCTGCATCTCCTGGAGTTTGCCGACCGCAAGGCGCTGCC TGCCGAATTGAAAAAGCTTCATGCTGCCTGTCGCGGCGATATCGGTATCG GCCGGTTTGAGACACATGATCTGGTGGAGAGGCAGTTGAATGCGTTTTTC GAGGGGCGGTCAGCGGTATTTGATCTGCCTTTGGTGATGCATGGCAGCCC TTTCACGCAGGATGTGTGGCGAGAATTGCAAAATATCCGGGCGGGCGAAA CGCGAAGCTATAGCGAAATCGCGCGGGCTATCGAAAAGCCACTCGCCGTG CGGGCCGTTGCGCGCGCCAATGGTGCGAACCAGATCGCTATCGTCATTCC CTGCCATCGGGTGATTGGCGCGGACGGGGCGTTGACCGGCTATGGCGGCG GCCTCTGGCGCAAGCAGAAGCTTATCGAAATCGAAGCGCAGTATCGAAGG TAA >gid:101055 BMEII0445 TRANSPOSASE GTGAGCAGACGAAGCTTTACAGATGAGCAATGGAACCGGATCGAAGCATA TCTTCCGGGGCGAGTTGGTACGCCCGGCCGCAGTGGTGTTGATAACCGAT TATTTGTCGACGCCATCTTGTGGATGGCTGCCAATGCAGCGCACTGGCGC GATCTGCCTGCGACCTTCGGCAAATGGACAGCGGTTCATGCCCGCTTTCG GCGCTGGTCGCACGCCGGTGTATGGGAAAGGCTTTTCCATGCCCTGGCTG ATACGCCGGGACTTTGA >gid:101057 BMEII0447 TRANSPORTER ATGAGCGACATAAAACTCTTTCGTACGGACAGCGCATCGGTTACGGAACT TCGCGGCAGCGCGGTTGCGTTGGAAAAGTTGCTGCAGACGCTCATTGAAC GCAACATGGAAGCCTTTCTCGGGGTGAGGTTTCTCGCCTCTGAGTTTCCG ACGTCGAACGGTGGGCGCATGGACTCGCTCGGCATCGACGAGAACGGCTC ACCAGTCATCATCGAGTACAAGCGGGCGAGCAACGAGAACGTCATCAACC AAGGATTGTTCTATCTCGATTGGCTCATGGACCATCGCCGCGATTTCGAA TGGCTTGTTCTGGAGCGCTTTGGCGCCGAACAGGCAAAGGCGGTCGATTG GGGCACCCCGCGCCTAATCTGCATTGCCGGCGACTTCACCAAGTACGACG CCCATGCGGTCAACCAGATGAACCGGAACATTGCGCTTGTTCGCTATCGC CGATTTGGCGGCGAGCTATTGCTGTTCGAACTGCTAACCTCGGCATCGGA ACGATCCGCGCGCGAAATCCCTGCCAGCATCGACACTCAAGACGAGCCTG CGGCAGCGCGACCACGATCTCGCCAGAAGACGGTTATGCAATATCTCGCG GACGCAGACCAGGACCTTGTCGACCTCTACGAGGCGACGAAGGCGTACCT GCTAGCGTTGGGCGGCGATGTCGAATTGAAGCCCCTGGACAACTACGTCG CCTTCCGCCGCCTAAAGAACTTTGCCTGCGTCGAGGTCAAGCCCCAGATC AGGCACCTCAAGGTGTTCGTGAAGGTCGATCCGGACACTACTGAACTTGA GCCCGGCTTCACCCGTGACGTGCGCAACATCGGCCATTTCGGCATTGGCG ACCTTGAAATCATCATTACTGATGTCGCAACGCTGGATACAGCCAAGCCT CTGATGGACCGCAGCTATGACGGGGCATGA >gid:101138 BMEII0527 EXODEOXYRIBONUCLEASE VII LARGE SUBUNIT ATGAGCATGGCCTCCGATTCGAGTTTTCCCGGCGCATCGTCGAATGTGGC CGAGTATAGCGTGTCCGAGATTTCCGGCGCTTTGAAGCGCACGGTTGAGG ACACGTTCGGCCATGTGCGTGTGCGCGGCGAGATTTCCGGCTATCGCGGC CCGCATTCTTCCGGCCATGCCTATTTTGCGCTGAAGGATGACCGTGCCCG GCTTGAAGCCGTGATCTGGCGCGGCTCGATGAGCCGCCTTCGCTTCCGCC CCGAAGAGGGCATGGAGGTGATCGCCACCGGCAAGCTCACCACCTATCCC GGTTCATCCAAATATCAGATCGTCATCGAGCAGATGGAACCCGCCGGCGC GGGCGCGCTGATGGCGCTTCTGGAGGAGCGCAAGCAGCGCCTGGCGGCAG AAGGCCTGTTCGATCCTGCCCTGAAACAGCTTCTGCCCTTCATGCCGCGC GTCATCGGCGTGGTGACATCTCCCACCGGCGCGGTCATCCGCGATATCAT CCATCGCATTTCCGATCGTTATCCGCTGCGCGTGATCGTCTGGCCGGTGC GCGTGCAGGGCGATACCTGCGGGCCTGAAGTGGCAACGGCGGTGAACGGC TTCAACACCCTGCCGGATGACGGCCCCATTCCGCGCCCCGATGTGCTGAT CGTGGCGCGCGGCGGCGGCAGTCTGGAAGATCTCTGGGGCTTTAACGATG AAATCGTCGTGCGGGCGGTCGCAGCTTCCCATATTCCCGTTATCTCGGCG GTCGGGCATGAAACCGACTGGACGCTGATAGATCTTGCCGCCGACATGCG CGCGCCGACCCCCACCGGTGCTGCGGAAATGGCGGTGCCGGTGAAGGCTG ATCTTCAGGCCTCACTTGCCAGCCAGTCGGCGCGGCTTTCTTCCGCCATG TCGCGCTTTTTCGACCAGAAGCGACAGGCGCATCGTGCTGCCGCGCGCGC CATGCCCTCTGCCGACCAGTTGCTGGCCCTGCCGCGCCGCCGGTTCGATG AAGCGGCCTCGCGGCTTACCCGCGCACTTTTCGTCAATACGCAGAAAAAG CGCGTCCATTTCGATGGTCATGCCCGGCAATTGTCGCCCCGGCTTTTACA GCGGCGGCTTGTGGAGCTGGAACGCGGTGTGACGATGCTGGGCCAGCGCC TGCCGCGCGCGCTGGAAGCCTTTCTGCGCGAGCGCCGGACGGCTTTCACC CATCGCGCCAACCGGCTTTCGCCGGAACCCATATTGCGCCGCACACGGCT GACGGGCTCGACCCTCGAACAGCTCGACCGCCGCCGCGATCAGGCCGTGC GGCTTCTGATCGAGCGTGTGAAGCGGCGCAGTCAAGAACTCGACCGGTTG ATGCGCACGCTTTCTTATGAAAGCGTGCTGGAACGCGGCTTTGCTGTTGT ATTCGATGCGCAGGGAAAGCCCGTCAAGCAGGCGGCGGCTGTGTCGCCAG GCGATGCGCTGTCTGTCCGGTTCCGCGACGGTGATGTCGGGGTTGTCGCG CGCGCGGGGCTCACAATCCCCGATCCGACCAAAGGCCAGTAA >gid:101262 BMEII0650 DNA POLYMERASE III, EPSILON CHAIN TTGTGCCTCGCAGGCACGGGGCAGAGCATGACAGACATTTACAACCCATC AATCCATACGCGCAAAAAACGCGTCATTGTCTTTGATACCGAAACGACAG GAATTTTGCCTTACGACAGGATCATTACGCTTGGCGCCGTGAAGATCGAA GGCGGCGAATTACTGACGCAATCACTTTATCTGATTTTCGATCCGCGCAA GGATAGCTCGCCGCAAGCTGAGGCTGTCCACGGTTTCGACAACTGGATGA CACGCTATCAGGATCTCTTCCACGAGCTTGCCGCGCCAATCAGAAAATGG TTTTCATGGGCCGACGAAGTGGTCGCCCATAATGCCCAATTCGACATGCA TTATATCCAGCGTGAGTTTCGCAAGGCAGAGGTCGATATGCTCGACCAGC CGGTTTACTGCACCATGGACGGCGCCAGACGGCTTTGGAGAGGCGATTCT ACCAAACTTGACCATTGCCTCGCAAAGATTGGCCTTGCGCGCACGGGGCA CCGACACGGCGCGCTGGAAGACGCCTACCTGACCGCAGGCCTCTATCTCC ATCAGCAAGGCGTTGCAAAACCGCTGCCGAAAATCAATTCCTGGCAACCG CCCAAAAACCTGAAACCCTATCCTGAGCGGCCTGCGGGCGAGCTTCCCCG CCGAACACCAAAACGCAGGAGTGCTGCAGTTTCCGCTTGTTCAACAGTTT AG >gid:101269 BMEII0656 DNA POLYMERASE IV ATGGCCGAAAGCCCTATCGTAAACCATCCCGAACAGGGCCTGTGCCGCGA CTGCCTGTCGCTGCAAAAGACGCAGACATCGCGGCGGTGCCATGCTTGCG GCAGTCCCCGGCTGATCCGCCACAAGGAGCTTTACCGGCTCTCGCTCGCC CATGTGGATTGCGACGCCTTCTATGCCTCGGTGGAAAAGCGTGACAATCC CGATCTGCGCGACAAGCCGCTGATTGTTGGCGGTGGAAAACGCGGCGTCG TCTCCACCGCCTGTTATCTGGCGCGCATTCATGGCGTGCGCTCCGCCATG CCCATGTTCAAGGCGCTGGAAGCCTGCCCCGATGCCGTGGTTATCAAGCC GAACATGGAGAAATATGCACGGGTGGGCCGTGAAGTGCGCCAGATGATGC GCGATCTGACCCCGCTCGTGGAGCCGATTTCCATCGATGAAGCCTTTCTC GATCTGAGCGGCACGGAACGGCTGCACAAGGCTCCACCGGCCGTGGTTCT GGCGCGCTTTTCCAAACGTGTCGAGAATGAAATCGGCATTACGGCTTCGA TCGGGCTTTCCTATTGCAAATATCTGGCAAAGGTTGCGTCCGACCTTGAA AAACCGCGTGGTTTTTCCGTCATCGGTGAAGCGGAGGCGCTCGATTTTCT GCGCGACAAGCCAGTCGGCATGATCTGGGGCGTCGGCAAGGCCTTTGCCG CCAAGCTGGAGAGCGACGGCATCCGCACCATCGGACAATTGCAGACAATG GAAGAAGGCGCGCTGATGAAGGCATATGGCACCATGGGCCAGCGGCTCTA TCGCCTGTCACGCGGGCAGGACAGCCGCAAGGTGGAGCCGGACCACGACA TGAAAAGCGTTTCGGCGGAAACCACCTTCAACACCGATCTTTCGGCGGCA GGTGATCTGGTTCCCGTATTGCGCGCCCTCTCCGAAAAAGTTTCCCGCCG CCTGAAAGCAGGTGAAATTGCCGGGCGAACCATTGTGCTGAAGCTCAAGA CGCAGGATTTCAAACTGCGCACACGCAACCGCCAGCTTGGCGACCCAACG CAGCTTGCCGACCGGATTTTCCGCACCGGCCTCCAACTTCTCGAAAAGGA AATGGACGGAACCCGCTTCCGCTTGCTTGGCATTGGCGTCAGCGATCTTT CGCCAAGCGACCGGGCCGATCCACCTGACCTCGTTGATATTCAGGCCACC AAGCGCGCTGTCGCGGAAAGCGCCATCGACCGGCTGCGCAACAAATTCGG CCTCAATGCAGTTGAAACCGGCTACACTTTTTCCAAGGGCAATCTGGCGC GAACACAAACACCAACCGACCGCGATAATGAACCTTGA >gid:101276 BMEII0663 PHOSPHOHYDROLASE (MUTT/NUDIX FAMILY PROTEIN) TTGAGCCGCGCCATGAGTGAGCCAAAGCCCATACCAGCAAAGCCCCGGCG CTGTCTGCGCCCGCGCGATGCAGCCTCTCTGCTTCTTGTTGACAGATCCG GCGCAACGCCGCGCATTCTGATGGGCAGGTGGCATTCAAGCCTCGCTTTC ATGCCAGGCAAATTCGTCTTTCCGGGTGGCCGCGCCGATCCGGCCGATGG CGCTATTGCCGCGGCAAGCGAGCTTAGCCAAAATGACACGCAAAAGCTTC TGAAAGGCATGGGTGCACGCGCCTCGCTGCGGCGCGCCCGCGCGCTCGGT CTTTGCGCCATTCGCGAAACCTTCGAGGAAACGGGCCTGCGCATAGCGCA TCCCGCATCCGCCCATATCGTGCCTCCCAAGCATGAAGATTGGTGTGCAT TTCTCGAACGAGGCATGTTGCCTCAACTGGACAGTTTGCGTTATTTCGCA CGGGCGGTAACGCCGCCCGGCAATGTCCGCCGTTTCGATACGCGCTTTTT TATCGCCTTTCGCGATAGTTTGCCGGAGGTGGAGACCCAGAAACTTGTTC CAAGCGGCGAACTGGAAGATCTTGACTGGGTTTTGATCGACCAGATCGAA AAACTTGATCTCGCCCGTATCACCCAGGCGATCCTGAACGAAGCCACCGC GCTTTTGATGGATACGCAGCTTGATCTGCCTGCCACCCTGCCGGTGGTGC AATACAGCAAGCGGCATGACCGCTTTGTTCGCGAAGTGATCTGA >gid:101279 BMEII0666 DNA TOPOISOMERASE I GTGGAAGGCAACTTATTTCATGCGGCAAGGAGGTTTAGAGCCTCCGTGGG ACGCGAATTTAGGCTGCTTTACATGAACGTCGTCGTCGTCGAATCGCCTG CCAAGGCCAAAACCATCAACAAATATCTGGGCTCGGACTATAAGGTTCTG GCCTCCTTTGGCCATGTGCGGGACCTGCCAGCCAAGGATGGCTCGGTGCG CCCGGACGAAGATTTTGCAATGTCCTGGGAAGTGGACAGCAATTCCGCCA AGCGCCTGGCGGATATTGTAAAGGCACTGAAGGACAGCGACGGCCTCATT CTCGCAACCGACCCTGATCGCGAAGGGGAAGCCATTTCCTGGCATGTGCT GGAAGTGCTGCGGCAGAAAAAGGCGCTCAACGGCAAAACGGTGAAGCGCG TGGCCTTCAACGCCATCACCAAAAAGGCCGTTCTGGATGCAATTGCCCAT CCACGCGATATTGATGAGCCGCTGGTGGACGCCTATCTCGCCCGCCGTGC ACTCGATTATCTGGTCGGCTTCACCCTTTCGCCGGTGCTCTGGCGCAAGC TTCCCGGCGCCCGCTCGGCCGGTCGCGTGCAATCGGTAGCGCTGCGTCTG GTCTGCGACCGCGAAGCGGAAATCGAACGCTTTGTCCGCGAGGAATACTG GAATATCGCAGCCCTTCTCAAGACACCGCGCAATGACAGTTTCACTGCCC GCCTCACCGCGCTTGATGGCAAGAAGCTTGGAAAGCTCGATATCAAGAAC GGCGAACAGGCCGGTGCCATCCGCACCATGCTGGAAAGCGCGAACTTCAA GGCTGTTTCCGTCGAGGCAAAGCCTACCAAGCGCAATCCGGGCCCGCCAT TCACCACCTCCACCTTGCAGCAGGCCGCCTCGGGGCAATTGGGCTTTTCT GCTTCGCGCACCATGCAGGTGGCGCAGCGCCTTTATGAAGGCGTGGACAT TGGCGGCGAAACAGCCGGTCTCATAACCTATATGCGTACCGATGGTGTGC AGATTGCTCCCGAAGCGATCAATGCCGCCCGAGACGCTATCGCCAAGAGT TTCGGCGCGAAATATGTGCCCGAAAAGCCGCGGTATTATTCGAGCAAGGC CAAGAATGCGCAGGAAGCGCACGAAGCAATCCGCCCCACTGATTTTTCGC GTCATCCAAAGGATGTGCGCCGCTTTCTCGATGAGGATCAGGCCCGCCTT TACGAACTGATCTGGAAGCGCGCCATTGCAAGCCAGATGCAGGCCGCCGA TATCGAGCGCACCACGGTCGATATCGAGGCCACCAACGGTTCACGCGCCG CCATGCTGCGCGCCAATGGCTCGGTGACGAAATTCGACGGCTTCCTTGCC GCCTATATGGATCATCGCGAGGAGGAGGACGACGACGAAGAGAGTGCAAA GCTGCCGGAAATTCGCTCCGGCGAGGCGCTTGCCCGCGAAAAGATCGATG CGACCCAGCATTCGACCGAACCGCCGCCGCGCTATTCGGAAGCAACCCTT ATCAAGAAGATGGAAGAGTTGGGCATTGGCCGTCCTTCCACCTATGCCGC AACACTCGCCACGCTGCGCGACCGCGAATATATCATCATCGACAAGCGCA AGCTGATTCCCGAAGCCAAGGGGCGCCTTGTGACGGCGTTTCTTGAAAGC TTCTTCGAGCGCTATGTGGAATATGATTTCACGGCAGACCTGGAGGAAAA GCTTGATCTTATTTCCGATGGCAAATTGTCGTGGAAAGAGATTCTGCGCG ATTTCTGGCGTGCATTCTCCGGCTCCGTCGAGGACATCAAGGAACTGCGC GTCACCAATGTTCTGGATGCGCTGAATGAGGAACTGGCTCCGCTGGTCTT TCCTGCGCGCGAGGATGGCAGCGACCCACGCTCCTGCCCCACCTGCGGCA CCGGCACGCTGTCGCTGAAGCTTGGCCGCTATGGCGCTTTTGTCGGCTGC TCCAACTATCCCGAATGCAAATATACCCGCCAGCTTGGTGGCGAGGCCAA TGGCGAGACGGCGGCTTCCGACGAGCCGAAGCCGCTCGGCAAGGATCCGT TCACCGGCGAGGAAATCACCGCACGCACCGGGCGCTTCGGCCCCTATATC CAGCGCGGCGAAGGCAAGGAAGCCAAGCGCGCCAGCCTCCCCAAGGGCTG GACGCTCGACACGGTGGATCATGAAAAGGCGATAGCACTCCTGTCGCTGC CGCGCGATATCGGCCTGCACCCGGAAACCGGCAAGATGATTTCGGCGGGC ATCGGGCGCTACGGGCCCTATGTCAGCCATGACGGCACATTCGCCAATCT GGAAAATGTCGAGGAAGTCTTCTCGGTCGGCCTCAACCGTGCAGTTTCCG TGCTTGCCGACAAGCAATCGAAGGGCGGCGGTCGGGGACGGTCCACACCG GCCGCGCTCGCCACCCTCGGCGATCATCCCGATGGCGGCGCTATCACCGT TCGCGACGGGCGCTACGGGCCTTATGTAAACTGGGGCAAGGTCAATGCGA CACTGCCCAAGGGCAAGGATCCGGCATCGGTGACGCTGGAAGAGGCGCTG GCGCTGATTACTGAAAAAGCCGGTTCGTCAAAGGGCAGAAAGGCCCCCGC CCGCAAGTCGGCGGCAAGTTCTGAAAAGAAGACAACCGCGAAAAAGACCG CTACAAAAAAAGCCCCGGCCAAAGCCAAGAGCAAGGCCAAGGCGGCAGAG GAGTAA >gid:101280 BMEII0667 SMF PROTEIN ATGAAACAGGGCGCGAATCCGAAGACCGGAATTCGCCTCTCCGACCGTCA ACGGCTCAACTGGTTACGTCTTATCCGCACCGATAATATCGGTGCCGTCA CCTTTCGCGACCTGATCCTCTTTTGCGGCTCGGCCTCCAATGCATTGGAA ATGCTGCCCGATCTCAATATACGCGGCGGCAGCGCAAGACCGATTCGCAT CATCTCCGTGGATGAAGCCGAGCGCGAACTGGAAGCCATTGAGCGCATGG GCGCGCGCCTCATCGGCATGGGCGAGCCAGAATATCCGCCGCAACTCAAA AATTGCGAAGCGCCGCCCCCACTGGTCATCATCAAGGGCGATCCGGGCGT GTTTCGCAAACCGCCTGTTGCCATCGTCGGCTCGCGCAATGCGTCTGTGG TCGGCGCGCGCTTTACCGAAAAGCTGGCGCACGATCTTGGCAGCGAAGGC TTTTGCGTTGTTTCCGGCCTCGCGCGCGGCATCGACGCGGCTGCCCACAA GGCAAGCCTGTCCACCGGAACGGCCGCTGTGCTGGCGGGCGGACTAGACC GCCCCTACCCGCCTGAAAACCTGCCGCTTTATCGCGCCATTCCTGAAAAT GGCGGCGCCCTTATCACGGAAATGCCTATGGGCGCCGAACCACGCTCGCG TGATTTTCCACGCCGCAACCGCATCATCGCCGGGCTCTCGCTCGGTCTCA TCGTGGTGGAGGCGGCAGAACGCTCCGGCTCGCTCATCAGCGCGCGCATG GCAGGTGAAATGGGCCGGACGGTTTTTGCCGTGCCGGGCTCTCCGCTTGA TCCGCGTGCCCGCGGCACGAACCTGCTTTTGAAACAGGGCGCGACGCTCG TTACCGGCGTGGAGGATGTGATCGAAACGCTGTTGCCGCTCATACGCCCC GCTGATCCGGCTGGCGACGAACCGGAACAGCCCGACCTTCTGACCCAGAT CGATGAGGAACCGGAACAGTTGCAGGCCATCACGACTGACAGGGAGCGCG ATCTGGTCATCGATGCGCTGGGGCCAGTGCCGGTCGATGTCGATACGCTT GTACGGCATACCGGCATCGAAACCGACGCGATCCAGCTCATTTTGCTGGA ACTCGATCTTGCCGGGCGCCTATTGCGTTATCCCGGCAATCGAGTGGCTA TCGTTCCCTGCGATGAATTCACCCAGGCGTGA >gid:101285 BMEII0672 DNA integration/recombination/invertion protein ATGGCAACCGCTGAAATAGAAGAAATTCCGGCACTGCTGAAGCCCGGACA GACGGTTGCCGGGCTTGATCTTGGAACAAAGACCATCGGCCTTGCCGTTT CCGATCTTGGCCTTTCCTTCGCCCATCCGCGCCCGGTCATCAAGCGAGTC AAGTTTACCATCGACGCTCAGGTGCTATTGAAGGCGCTGGAAACCGACAA GGTTGGCGTCATCGTGATCGGCCTGCCCATGAACATGGACGGCACGGCCG GGCCGCGCGTTCAGGCCACGCGCGCCTTCGTGCGCACCATGCAACCGCTG ACCGACCTGCCCTTCGTATTCTGGGATGAGCGGCTTTCAACAGTTGCAGT AGAGCGGGCGCTGATCGGCATGGACGTCTCGCGCGGCAAGCGGGCCGACC GTATCGATTCCGCTGCTGCCGCCTTCATCCTGCAAGGCGCGCTCGACCGG CTGCATATGATGCGCAGGAACGATTACGACGCCGGATAG >gid:101289 BMEII0676 DNA GYRASE SUBUNIT B ATGGACGACAGCAACGATCTCTTTTCAAGAGTAGTGAACAACGCCAGGGA ACGGCAGATGGAGCGCCAAACGGGTGAAAACACCGTGGCGCAACCGGTCG TGCAGCCGGCACCATCCGCGCCCAAGCCTGTGCCTGCCGCTGCCAAGGCG CCGCCTGCTGCATCAGGCGGCGACGATTACAACGCCTCCTCCATCCGCGT TCTTGAAGGCCTGGAGCCGGTGCGCCTGCGCCCCGGCATGTATATCGGCG GCACGGACGAAAAAGCACTGCACCACCTGTTTGCCGAAGTCATCGACAAT TCGATGGACGAAGCGGTTGCTGGCCACGCGAATTTCATCGAAGTCACCGT GGATAAGGAAGGTTTTGTCACCGTTTCCGATAACGGGCGCGGCATTCCCG TGGACGAGCATCCGCAGGTGCCGGGCAAATCCACGCTCGAAGTCATCATG ACCAAGCTTCATGCGGGCGGAAAATTCGACGGCAAAGCCTATGAAACCTC CGGTGGCCTGCATGGCGTTGGCGTGTCGGTGGTCAATGCGCTTTCGGATG TGCTTGAGGTGGAAGTGGCGCGCAATCGCCGGCTTTACCGCCAGTGTTTT TCACGCGGCATTCCGCAGGGAGGCCTCGAAGAACTGGGCGAGGTTCATAA TCGCCGCGGAACGCGGGTGCGCTTTCATCCCGACCCGGAAATTTTTGGCA AGAATGCCCATTTCGACCCGCACCGGCTTTATCGGATGGCGCGCTCGAAG GCCTATCTGTTCGGTGGTGTGGAAATTCGCTGGAACTGCGATCCCTCGCT GCTCGACCCCAAGAAGGAAACGCCGGAAAAGGCCGTTTTCCACTTTCCCG GCGGGTTGAAGGATTATCTGGAGGCCTCGCTCGGCAAGGAACATCAGGTT ACGCGCGAGGTTTTTGCAGGCCGCACGGAGAAGCAGGGCGGGCATGGCGC GGTTGAATGGGCCGTTGCATGGTTCGGCGGCGATGGTTTTGTCCATTCCT ATTGCAATACCATCCCGACCGGCGATGGCGGCACGCATGAAGCGGGCCTG CGCATCGCGCTCACGCGCGGCCTCAAGGCCTATGCGGAACTGACCAATAA CAAGCGCGCTTCTATCATCACCACAGACGATGTGATGGTGTCGGCGGCTG GTATGCTGTCTGTTTTCATCCGCGAGCCGGAATTCGTCGGCCAGACCAAA GACAAGCTTGCGACCGTGGAAGCACAACGCCTCGTGGAAAACGCAATCCG CGATCCGTTTGATCACTGGCTTGCCGCTTCCCCGCAGGAGGCTTCGCGCC TTCTGGAATGGGTGATCGACCGTGCCGATGAACGCCTGCGCCGCCGTCAG GAAAAAGAGACCGTACGCAAGAGCGCGACGCGCAAACTGCGCCTGCCCGG CAAACTTGCCGATTGCACGCAGAATGCGGCAGCAGGTGCGGAATTGTTCA TCGTGGAGGGCGATTCGGCTGGCGGTTCCGCCAAGCAGGCGCGCAACCGC GCCAATCAGGCCATTCTGCCGCTACGGGGCAAGATTCTGAATGTCGCCAG TGCCGGACGCGAAAAACTGACTGCCAACCAGCAGATTGCCGATCTCGTTC AGGCGCTTGGTTGCGGCACGCGGAAGAATTACCGCGAGGATGACCTGCGT TATGACCGCGTGATCGTGATGACCGACGCGGACGTGGACGGTGCGCATAT CGCCTCGCTTCTCATTACGTTCTTCTATCAGGAAATGCCGGAGCTCATCC GCAATGGCCATCTCTATCTGGCCGTACCGCCGCTCTATCGCCTGAGCCAG GGCGGCAAGACCGCCTATGCTCGCGACGACGCGCATAAGGAAGAACTGCT GCGCACCGTGTTCACCGGACGCGGCAAGATCGAAATCGGACGTTTCAAGG GGCTTGGCGAGATGCGCGCCGACCAGCTCAAGGAAACGACGATGGACCCG GCCAAACGTACGCTGTTGCGCGTTCAGGTGGATGAGGAATATGGCGATGA GACGCGCAATACGGTGGATGACCTGATGGGGACAAAGCCGGAAGCCCGCT TCCGCTTTATTCAGGACCGCGCGGCCTTCGTGGAGGAGCTGGATATCTGA >gid:101300 BMEII0686 ATP-DEPENDENT DNA HELICASE RECG TTGCGCCGCGAGGCGAAGCAGTTAATGTTCGACCCCATGCGCCCATCCAT GCTCGATCCATTTTTTGCGTCCGTCCGTTCACTTTCAGGCATCGGCCCGA AAGTGGCCGTCCTGCTTGGAAAATTGCTGGGAACCGATGTGCCGGGCGGC GAACCGAAAATAGGCCAGCTTCTTTTCCTTCCGCCCCACAGCATCATTGA CCGGCGCAACCGGCCCGGTATCGCTTTTGCGCAGGAGGGGGCCATTGTCA CGCTGGAAGTGACCGTCGATCAGCACCAGCCCGCACCGAAAGGGCGTGGC AATGTTCCCCACCGTGTTTTTGCACATGACGATACGGGGGAAATCGCGCT GACCTTCTTCCACGCCCAATTGCCCTGGCTGCAAAAGATGCTGCCGGAAG GCGAAACCGTTATTGTTTCAGGCAAGGTGGAATGGTTCAACGGGCGCGCT TCCATGGTGCACCCGGATTATATTGCAAGCATGGACGATGCCGCCAGCCT GCCGCTTGTCGAGCCGGTCTATCCGCTGACGGCCGGCCTCTCACCCAAGA CACTTGGCCGCGCCATCAAGGAGGCGCTGACCCGCGTGCCTGTCCTGCCG GAATGGATCGATGCGCCTTTGCTGGCGCGCGAAGGTTTCCCGGCGTTTCA GCAGGCGCTCAACACGCTGCATCAACCGGAAGACCCCGGCGATATCGCGC TTGAAAGCATTACGCGGCGCAGGCTTGCCTATGATGAATTTCTGGCGGGC CAACTGGCGCTTGCCCTTGTGCGCGCCAAGACTCGCAGGCTTTCAGGCCG CCCGCTTGAAGGCACCGGCAACATCGTGGCCGAAATCATGCGCCACCTGC CCTATCGCCTGACCAAAGCCCAGGAACAGGCCGTGCGTGAGATCATCACC GACCTCAAATCGCCCCAGCGCATGTTGCGGCTTTTGCAGGGCGATGTCGG TTCCGGCAAAACCGTGGTGGGCCTGCTTTCCATGGCCCATGCGGCTGAAT CCGGCGGGCAATCGGCACTCATGGCCCCAACGGAAGTGCTGGCACGCCAG CATTTTGCAACTATCGCGCCGCTCGCGGAAAAAGCCGGGTTGAAAGCGGC CCTTCTTACAGGCCGCGAAAAGGGGCGCGAACGAAATGCCGTTCTGGAAG GGTTGAAAAGCGGCGAAATCGATATTGTCATCGGCACGCATGCGCTGTTT CAGGAAAAGGTCGAATATCACGATCTGGTTTTTGTCATCATCGACGAACA GCACCGTTTCGGCGTCCATCAGCGCCTCATGCTGACCGCCAAAGGCTCCG CGCCCGACATGCTGGTGATGACCGCAACGCCGATCCCGCGCACGCTTGTT CTCACCGCCTTCGGCGATATGGACGTGTCCAAGCTCACGGAAAAGCCTGT CGGACGCCAGCCCATCACCACCGCAATCGTGCCGATGGAACGCATGGGCG AACTGGTGGAGCGCATCAGAAAGGCGGTCAGTGAAGACCAGAAGATTTAC TGGATTTGCCCTCTGGTCGAGGAATCTGAAGTCGTTGAACTGACATCAGC CGAGGAGCGTTTCGAGAGCCTCAAATCCGTTTTCGGCGAGCGGATCGGCC TTATTCATGGCCGCATGAGCGGCGCGGAAAAAGACGAAGCCATGCGCGCC TTCAAACAGGGCGAGACGCGGCTTCTGGTGGCGACAACCGTGATCGAGGT TGGTGTGGACGTGCCCGATGCCACCATCATCGTCATCGAACATGCGGAAC GTTTCGGCCTGTCGCAATTGCACCAGTTGCGCGGGCGCGTGGGGCGCGGC GACAAGCCCTCAACCTGTCTTCTGCTCTATAAGGGGCCGCTTGGTGAGAT TGCGCAGGCGCGGCTGAAAGTGATGCGCGAAACAGAAGACGGTTTCCGCA TTGCAGAAGAAGACCTGAAATTGCGCGGCGAAGGCGAATTGCTGGGCACG CGCCAGTCCGGCACGCCGGGTTTCCGCCTTGCCTCCATCGAGGCGCATGG TGACCTTCTGGAGATCGCCCGCAAGGATGCGCGCTATATTCTGGCGAGCG ATCCCGATCTGGAATCCGAACGCGGGCAGGCTTTGCGTGTGCTGCTCTAT CTCTTCGGGCGCGACGAGGCCATCCGCCTGCTTAGGGCAGGATAG >gid:101302 BMEII0688 TRANSCRIPTION-REPAIR COUPLING FACTOR ATGCCCGTTTTCAGCAAACTCGGTCTCAAGCCCGGCGCGATCGCGAATAA GGGGCGCCATATCGTCATTGACGGTGTTGCGGACGGTTTTGAGGCGTTCT GCCTTGCGCGTCTGGTGGAAGAGATCGGGGAGCGCGGGCCGATCATGTAT ATCGTGCGCGACGGGCAGCGCATTGCCGATCTGGAGCAGGTGTTGGGTTT CGTTTCGCCCGATCTGCCGGTGCTGCACCTGCCCGCCTGGGATTGCCTGC CTTATGACCGCGTGTCGCCAGGGGCGGATGCTGCAGCGCGCAGACTTGCG GCGCTCAGCGCGCTTTGCGCACTGAAGAAAGCACCGCATCCAGCCGTCAT TCTCACCACGGCCAATGCCGTGCTGCAAAAATTGCCGCCGCAGGCCGCAC TTGGCGAACAGGTGATCTCAGCGCGCCCCGGCAACCAGCTCGACATGAAC GATCTTGCCGCACGGCTGGAGCGCAACGGCTTTGAGCGTGTCTCTACCGT GCGCGACATCGGCGAATATGCGGTACGCGGCGGCATTCTCGATCTTTATG CGCCGGGAGCGGAAGAACCGCTGCGGCTTGATTTTTTCGGCGATACGCTG GAAACGATCCGTGCCTTCGATCCCGCCTCCCAGCGCACCACCGGCACCCG AAAGGAATTCGTGCTTCAGCCGATGAGCGAAATCACGCTCTCGTCCGACA TGATAAGCCGGTTTCGCAAGAATTATGTGGCCATGTTCGGCGCGCCGCAG CGTGACGATGCGCTTTATCAGGCCATCAGCGAAGGCCGCCGTTTTGCTGG CATGGAACATTGGCTGCCGCTTTTCTATGACAATATGGAGACAGTTTTCG ACCATGCCGGGCCAATGCCGGTCGTGTTCGACCATCTGGTGCATGAGGCG CTGACCGAGCGCCACACCATGGTTGTGGACCATTACGAAGCGCGACTGCG GCAGGCGGAGGGCAAAGAGGCGGGCAGCGATGCCGTGCCTTACAAGCCGG TAAAGCCGGAAATGCTCTATCTTACGCCGGGCCAGGTTGAAGAAGCCGCC GAGGCCGCTGGCCTGCGTATTGACCTTACGCCATTCGGCGCGCCGGAGGT TTCCGGCCGGACCATTATTCATGCCGATGTGCACAAGGGCCGCAGCTTTG CCGAGGAGCGCGCCGCAACCGACGTGAACCTGTTTGAAGCCGTGGTGAAA CATATTGCAGACCTGCGCGCCTCCGGCAAAAAGGTTCTGGTTGCCGCCTG GACCGAAGGTTCGCTCGACCGGCTCTGTCAGGTTCTGGACGAACACGGGC TTGAAAAAATAGAGACCGTCGATAGGCTTTCCACCGTCAAGGCCCTGTCG CGCGACAAGGTGACGGCGGCGGTGCTGGCGGTCGAAAGCGGCTTCGATGC GGGCGATCTGGTGGTCGTGGCGGAGCAGGATATTCTGGGCGACAGGCTCA TCCGCCGCTCCAGGCGCCGCAAGCGCGATCAGGATTTCATCTCGGAAGTC GCCTCGCTGACGGCTGGCGATATCGTCGTCCATGTCGATCACGGCATTGG GCGCTTTATCGGCCTCAAGACGATTACTGCGGCAGGCGCCCCGCATGACT GCCTTGAAATCCATTATGCGGGCGATGACCGCCTGTTTCTGCCGGTTGAG AATATCGAGCTTCTGTCGCGCTATGGCTCGGAAGGGTCCGATGCGGTTCT CGACAAGCTGGGCGGTGGCGCATGGCAGGCGCGCAAGGCAAAACTCAAGA AACGGCTTCTGGAAATTGCCGGCCATCTGATCCAGATTGCCGCCGAACGC CAGATGCGCGGTGCACCTGTGATGACGCCGCCGGGCGGTCTTTATGCGGA ATTTGCCGCGCGCTTTCCCTATGATGAGACTGACGACCAGTTGACGGCAA TCGAGGCCGTGGCGGATGATCTTGCGCAAGGCAAGCCGATGGATCGCCTC ATCTGCGGCGATGTCGGGTTCGGCAAGACGGAAGTGGCGCTGCGCGCCGC CTTCATCGCCGCGATGAGCGGCGTTCAGGTGGCAGTGGTCGTGCCGACCA CGCTTCTTTCGCGCCAGCATTTCAAGACCTTCTCCAACCGCTTTCACGGC CTGCCGATCAATGTGGCCCACGCCTCACGCCTCGTCGGCGCGAAGGAGCT GGCCGCCACCAAAAAGGGGCTGGAAGAGGGAACGGTCGATATTGTCGTCG GCACACACGCGCTTTTGGGCAGCTCCATCAAGTTCAAGAATCTCGGCCTT CTCATTATCGATGAGGAGCAGCATTTCGGTGTGAAGCACAAGGAATGGCT GAAGGAACTGAAATCCGACGTCCATGTGCTGACCCTTTCGGCCACGCCGA TCCCGCGCACCCTGCAACTTGCGCTGACCGGCGTGCGTGAACTTTCGCTC ATCACCACGCCGCCGGTGGACCGCATGGCGGTGCGCACCTTCGTCTCGCC ATTCGATCCGCTCGTGATCCGCGAAACCCTTTTGCGTGAACGCTATCGCG GCGGCCAGAGCTTCTATGTCGTCCCACGCATAGCCGACCTCACGGATATT GAAGAATTCCTGAAGGAGCATGTGCCGGAACTGAAAGTGGCCGTGGCCCA TGGCCAGATGGCGCCGGGTGTGCTGGATGACATCATGAATGCCTTCTATG ACGGGCAGTATGATGTGCTTCTTTCCACAACCATCGTGGAATCGGGCCTC GATATTCCAACCGCCAACACCATGATCGTGCATCGTGCCGATATGTTCGG GCTGGCGCAACTCTATCAGTTGCGCGGCCGCGTGGGCCGCTCCAAGCAGC GCGCTTTCGCGCTGTTCACGCTCCCGGCGGGCAAGATGCTGACGCAGATG GCCGAACGCCGTCTGAAAGTGCTGCAATCGCTCGACACGCTTGGCGCGGG CTTCCAGCTTGCAAGCCACGACATGGATATTCGCGGCGCAGGCAATCTGC TGGGCGAGGAACAGTCGGGCCACATCAAGGAAGTGGGCTTCGAGCTTTAC CAGCAAATGCTTGAAGAAGCGGTTGCGACGCTGAAGGGCTCCGGCGAAGT GGAAGACAGCCAGTGGTCGCCGCAGATCGCCATTGGTACGGCGGTCATGA TCCCGGAAGCCTATGTGCCCGACCTGCAATTGCGCCTTGGCCTTTATCGC CGTCTGGCCGATCTGGAAGAGCCGCAGGATATCGATGCCTTTGGTGCGGA ACTCATCGACCGTTTCGGCCCGATGCCCGACGAAGTGCAGCATCTTCTCA AGATCGTCTATATCAAGGCGCTCTGCCGCCGCGCCAATGTTGAGAAACTC GATGCCGGGCCGAAGGGCGTGGTTATCCAGTTCCGCCACGCGACCTTCAA CAATCCGGTCGGTCTGGTAAAAATGATCGGCGAGCAGGGGTCCATGGCGA AGATCAGGCCGGACCAGAGCATCGTCTTCATCCGCGATTGGCCGACACCG GAAAAGCGCCTCAACGGCTCCGCCGTCATCATGACACAGCTTGCAAAGAT TGCGGCGGCCTGA >gid:101325 BMEII0710 TRANSPOSASE TTGATGACGCGTCGTCGCTACGAACTAACTGACCACGAATGGTCGATTAT ATCGCCGTTGTTGCCCAACAAACCGCGCGGCGTTGCTCGCGTTGATGATC GGCGGGTGCTGAATGGCATCCTGTGGCGATTTCGAACGGGCTCGCCCTGG GCGGAAGTTTCCGAACGCTATGGCCCGCCGACGGCCTGTTACAACCGCTT CGTGCGCTGGCGCAAAGCCGGGGTCTGGGATCGGCTTCTTGAAGCGGTGT CCAAAGCCTACGATGGCGACATCGTCATGATCGACTCGACCTGTGTCCGC GTTCACCAGCACGCGGCCACAGGAAAAAAGGGGATGGAGACGATGGTGGC ATGGGACGTTCCGTAA >gid:101326 BMEII0711 TRANSPOSASE TTGGGATCAGTAGATGTCGACGAGAAGGCCTCACCGCATAGTGCTGATGA CAGACATCAGCACTATGCGGTGAGCAAAGTTGTCGATGATAGGCCGGCAC CTCGCCGTGTCGAGGTTCTCCTCGGCAAAGAGCGCCGGCGCCGTTGGAGC GCTGATGAGAAGGCGGAGATCACGGCGGCCAGCTTTGTGCCTGGAGCAAA TATCTCTGCCGTTGCGCGCCAATATGGCGTGAGCCAGGGGCTGCTGCACT ATTGGCGGCGCTGCGCGCGAGAGCACATGTCGGATGACGAGGAGATGCGC TTTGTGCCGGTTGTCAGAGCCGATGAAGGCTTGGGCGTCCCGGCCGCGGT GACGGCGCTGACGATCCGTGTCGAAATCAACGGCACCTGTGCCGTGATCG AGGGTGGCATCGATGAGCAGGCACTGTGCATGGTGTTCAAAGCGCTCAGG GCCTCGGCGTGA >gid:101327 BMEII0712 TRANSCRIPTIONAL REGULATOR GTGATCTCACTTGGATCGGATTTGCGGATCATGATTGCTTCAAAGCCGGT GGACTTCAGGAAGGGCATCAATGGGCTGGCGGCGCTGGTATCGACTGCGC TCGGCCCCAACCCATACTCAGGCGACATATATGTCTTCCGCAGCAAGCGT AACGATCGTCTGAAGATGGTCGTTTGGGATGGCAGCGGCATGGTTCTGTT GACCAAAGTTTTGGAGGATCGGCGTTTTATCTGGCCGGCTGTTCACGCTG GAGCCGTTCGTCTCAGCGCCAGCGAATTGGCGCTTTTGCTCGATGGCCTG GACTGGACAAGAGTGGAGAAGAAGCCAGTCAAACGGCCCGCAAAAACAGC GTGA >gid:101328 BMEII0713 TRANSPOSASE ATGCTCAATCGTGGCCAACATCTGCCGCGGGATCCTGACATTCTGGTCGG CATGATCCTGGAAAGAGACGCTGAAATCGAGCGTCTGAAGGTGCTGTTGA AGGCGGCCAATGCAAAGCCCTTTGGCCAACGATCCGAACAGTTGGCCCAT ATGGTCGAAAAGCAGATTCGTCTCGATCTGGGCGACGTGGTCCATGAACC TGAAGTGGCTTCGGCTAGCGAAGGTGCGGGCCTCCCCAAAATGCCGCGCC AGGCAAGCGCCCATTCTCGGCCTCGTCGCAACATCGGCGCTCTGCCGGAG CATCTTGAGCGGGTTGTCGAGGTCATCGAACCGTCATCGTTGGAATGTGC CTGCTGCCAGGGAAAGCTCCATTGTATCGGAGAAGACGAGAGCGAGGTCC TGGCTTCACGGCCGGCAACCCTCTATGTCCTGCGCACGGTGCGCCCGAAA TATGCCTGCCGGGCCTGCGAGGCCGGCATCGTTCAAGCCAAGGCGAAGCC TCGACTGTTCGACGGAGGGCTGGCCACGACATCCATGATCAGCAATGTCG TGGTATGGCGATATGCTTGGTATCTGCCGCTCAACCGTCAGGTTCAGATG TTGAAGGGTCAGGGTGTCCGGCTCGATACGTCAACGCTTTGCAGTTGGGT GAAACGTGCCGCCTGGTGGCTGAAATCGCTCTACGACAAGCTATTGGCCT ATATCCATAGTCATTCTCGGGTCTTTGTCGATGAAACCCGAATGCCGGTA CTCAAGCGAGACCGAACACGAACCAAGATTTGTCAGTTCTGGGCTCACGC CGTGGACGATCGGCCCTGGAATGGCCCAGCCTATCCGGCTGTCGCCTATG TCTTTGCGCAAGGTCGGGGAAAGACGGAGATCCAATCACAGTTGGTCCGC TATAGCGGGATTTTGCAGGTTGATGCGTACAAGGCTGTTGACGCGCCCGA GTGCGACGCTGCGCATATTGCGCTCGACGGTATTGGAATCGACTTCAAGT CTTCCATCCTCAAGGAAGAGGGTCAGGCCAGCCCAATGGCCCAGCGTGTA TTTGATGGCAGAGGCGACTGGGTCCTTGGCGGATATATCTTTGAGCGTAT CCATCAGGAGCATTTTTAG >gid:101329 BMEII0714 TRANSPOSASE GTGGCGCCGGCTCTGCCTTGTCGAACCATGTCTCCAACTGATCAAGCGTC AGAAGCTTTGCACGCTTGGGAGCCTTCACGCTGCTACCGCCATGTTCATA TCCGCATGCTCCTGTTTCCAATGCCAAGGCAGGCAACGCCAAAGCGAGGT CGACTTTATCTCCCCGGACACGATGCGTTCAAGAACGTCATTGAGCCAGG TATAGGGATCGAGCCCTTTCAATTTTGCCGTGGTCAGCAAGGAGCCCAAT ATGGCCCAGGTCTCGGCACCGCCATCACTGCCGGCGAACAGGCCTACAAG AGCCTGACCCGACCGGATCGTCGGGCCGGCAGCATTGCGCTTGCCTACTG CCTGGCCCATGCGCGTCGCAAGTTCGTTGATGTCTTCAAGAAGTACAAAT CCGAGCTGGCAAAGGTGGTGATTGAACGCCTGGCTGAGGTCTATGCGATC GAGGCCTCAATCCGCTCAACGAGCGCCGAACACCGGCTCGGTGTCCGGCA AGCGAAGAGTAAGGTCCTGATGGCTGATCTAAAAATGCTCCTGATGGATA CGCTCAAAGATATATCCGCCAAGGACCCAGTCGCCTCTGCCATCAAATAC ACGCTGGGCCATTGGGCTGGCCTGACCCTCTTCCTTGAGGATGGAAGACT TGAAGTCGATTCCAATACCGTCGAGCGCAATATGCGCAGCGTCGCACTCG GGCGCGTCAACAGCCTTGTACGCATCAACCTGCAAAATCCCGCTATAGCG GACCAACTGTGA >gid:101331 BMEII0716 TRANSPOSASE GTGTTTTCGCGCTGGGTCTATCGGCAACGCAATCTCGTGGAGCGCTTCTT CAACAGGATCAAGCAGTTCCGAGGCATCGCAACCCGATATGATAAGCGCC CGGAAAACTACCTCGCAGCCGTAAAGCTCGTCGCAACAAGAATATGGTGC CAAAGTTTATGA >gid:101333 BMEII0718 TRANSPOSASE GTGAGCAGACGAAGCCTTACAGATGAGCAATGGAACCGGATCGAAGCATA TCTTCCGGGGCGAGTTGGTACGCCCGGCCGCAGTGGCGTTGATAACCGAT TATTTGTCGACGCCATCTTGTGGATGGCTGCCAATGCAGCGCACTGGCGC GATCTGCCTGCGACCTTCGGCAAATGGACAGCGGTTCATGCCCGCTTTCG GCGCTGGTCGCACGCCGGTGTATGGGAAAGGCTTTTCCATGCCCTGGCTG ATACGCCGGACTTTGAATATGTCCTCATTGACAGCACCATATCGAAAGTC CACGCAGATGCGGCGGGCGCAAAAGGGGGGCTGAAGCTGCCTGCATCGGT CGCTCGCGCGGGGGATTGA >gid:101334 BMEII0719 TRANSPOSASE TTGACGACCAAGCTGCATGCTGTTGTCGATGCTATCGGCCTACCGCTGCG AATAAAGCCAACACCCGGCCATTATGGTGACTGTCCGCAAGCTTCAAGCC TTCTATCCGGCTTAGAGGGTGTGGGGCATGTCATTGCTGATGCGGCCTAT GATGCCGATCACTTAAGGGCCTTCATTGCCAGCGATCTCAAGGCAACGGC TCAGATCCAAGGCCAATCCAACACGTTCCAGTGCCCCAACAATCGACTGG AGGCTGTACAAGGAACGCCATCAGATTGA >gid:101354 BMEII0739 ALKYLATED DNA REPAIR PROTEIN ALKB ATGAAAGACCTCTTTGACAATTTGAACACGCGCGAGATTATGGCGCCGGG GGCCGTGCTTCTGCGCGGTTTTGCGCTTGCCTGTGAAGAATCGATCCTGA GCGCGGTGGCCAGGGTTTGCGCAGCAGCACCTTTTCGGCATATGACCACA CCCGGCGGTTATCGCATGTCTGTCGCCATGACCAATTGCGGCCCTGTGGG ATGGGTGACAGACCGCACCGGATACCGATACAGCCCTGCCGATCCCGAAA CCGGCAAGCCATGGCCATCCATGCCCGATACGTTCCTTGCCCTTGCCCAG GACGCAGCGCGGCAAGCAGGCTATCCTGATTTTACGCCTGATGCCTGCCT CATCAATCGTTATAAGCCGGGCGCAAGGCTTTCGCTCCATCAGGACAAGG ACGAACGGAATTTTTCCAATCCCATCGTTTCCGTTTCACTTGGCCTGCCG GCAACGTTTCAGTTTGGCGGAATGAAACGGACGGACCCGATCACCAAATA TATCCTGCACCATGGCGACGTGGTTGTCTGGGGCGGGCCGTCGCGGCTTT TCTATCACGGTATTCTGCCATTGAAGTCTGGCGAGCATGAGCGGCTGGGG CCGTTTCGGCTTAATCTGACCTTCCGAAAGGCGTTCTAG >gid:101642 BMEII1026 DNA MISMATCH REPAIR PROTEIN MUTL ATGACAATCCGGCACTTGAGCGAAACCATCATCAACCAGATCGCGGCGGG CGAGGTTATCGAACGCCCTGCAAGCGTCATCAAGGAGCTTGTGGAAAACG CCATCGACGCAGGCGCAACCCGCATCGAGGTCGTAACCGCAGGCGGCGGG AAGACGCTGCTGCGCGTCACCGATAATGGCTCCGGCATTCCCGCTGATGA GCTTGCTCTCGCCGTTTCGCGCCATTGCACATCCAAGCTGACCGACGATG TGCATGATATTCGAGCGCTCGGTTTTCGCGGCGAGGCCCTGCCCTCCATC GGCTCGGTGTCGAAGCTGACGCTCAAGTCCCGCCCGCAGGATGCCGATAG CGGCTTTGAAGTGTGCGTTACCGGCGGGCATCTCGATGGACCGCGCCCGA CGGCGCTCAATCGCGGCACGATCGTGGAAGTGCGCGACCTCTTTTACGCC ACGCCCGCGCGCCTGAAATTCATGAAGACGGATCGGGCTGAGGCCACGGC CATAACCGACGTGGTAAAGCGCATTGGCATCGCCTTTCCGCATATCCGTT TTTCCCTCGCCGGAACCGACCGCACCCCCTTTGAAATGCCCGCCACCGGC ACTGGCGCAGAGGCGACGCTGGAGCGTATCGGGCAGGTGCTGGGCCGGGA ATTCGGTGAAAACGCGCTTGCCATTGATGCCGAACGCGATGGCGTAAGGC TCGCAGGTTTCGTGGGCATCCCCTCCTTTAATCGCGGCAATGCCCTGCAC CAGTTCGCCTATGTGAACGGGCGGCCCGTACGCGACAAACAGATTTTCGG CGCCCTGCGCGGCGCTTATTCGGATGTGATCGCACGGGACCGGCACCCGG TCGCCGTCCTGTTCCTGACACTCGATCCGGCTTTGGTGGATGTAAACGTT CACCCGGCAAAGGCCGATGTGCGCTTTCGCGATCCGGGCCTCGTGCGCGG GCTGATCGTCGGTGCGATCAAGCAGGCGCTGGCACAATCCGGCATTCGCC CCGCCACCAGCGGCGCGGAAGCAATGCTTCAGGCCTTTCGCGCTGAAGGT TTTGGCGCGCAGCAATCTGCCCCGCGACCGGCAAATAGCTATTCACCGGC AAGCTGGCGCACCGCGCCGCCTGCACCCCGCAGCGAATGGTCGCCACAAA CCGCGCATCCCGCCCACCGCCCGCTGGACCTGCAAGCTGCCCCGGCACTC CGGGAAAACGGACAGGCTGTCCTGGGTGACGTTGCCGTGCCGGCAGCAGA TGCACGGGCAAGCGTGGCGGAAGCCCCCGTTGAACTTATGCAAAAGCCGC TGGGTGCGGCACGCGCGCAAATTCATGAAAACTATATCGTCGCCCAGACG GAGGACAGTCTGGTCATTGTGGACCAGCACGCAGCGCATGAACGCCTTGT CTATGAAGCCTTGAAAAATGCGCTTCATGCACGGCCCATCGCCGGGCAAA TGTTGCTGATTCCCGAAATCGTCGATCTGCCGGAAGAAGATGCACAGCGG CTGGCAGGCCATGCCGAAACATTGGCCAGGTTCGGGTTGGGGGTGGAGCA GTTCGGCCCCGGAGCAATCGCCGTGCGCGAAACACCGGCCATGCTCGGCG AAATGAACGTGCAGCAGCTTATTCGCGATCTTGCCGATGAGATTGCGGAA CACGACACGGCAGACGGACTCAAGGCCATGCTGCATCATGTGGCGGCCAC CATGGCCTGCCATGGTTCGGTTCGTTCAGGCCGACGGCTGAAACCGGAAG AAATGAACGCCCTCCTGCGCGACATGGAGGCAACACCCGGTTCCGGCACC TGCAACCATGGACGCCCGACCTATATCGAGCTGAAACTCACCGATATCGA GCGGCTCTTCGGCAGACGCTAA >gid:101654 BMEII1038 METHYLTRANSFERASE ATGACGGAAAACCGGGCGGTAAGCCAGGTGGCAAGCCAACTGGCAGACCC GGTGGCAAACCGGGTACCAAGCCGGGTGGTGGGGGCAGGTCGGGAGGCGG CGGTGCGGATCGTCGGCGGTAAGTTTCGCGGGCGCGCGCTCGTAACACCG TCCACAAACGCCATTCGCCCGACCACGGACCGCACACGCGAAAGCCTGTT CAACATTCTTGCCCATAGTTTTCCTGACAAGGTGGAAGGTGTGCGGGTGC TCGATCTTTTTGCGGGTACGGGCGCGCTGGGGTTGGAAGCCCTGTCGCGT GGCGCGCGCTATGCAACCTTTGTAGAGGAATCCGCAGACGGGCGGGGAAT TCTGCGCCAGAATATCGAGGCGCTTGGCCTGCAAGGACACACCAAGATCC TGCGGCGCGATGCCTGCCAGCTTGGCATTGTCGGGACGATGGAGCCATTT GATCTGGTCTTCGCCGATCCGCCCTATGGGCGGCGCATGGGTGAAAAGGC ATTTTTATCAGCACTCCAGGGCGGTTGGCTTAATCCTGACGCACTTTTGG TGCTTGAAGAGGACGCGCAGGCGGCACTTGAGCTGGACGATCGATTCGCC GTGCGCGAAGAACGCAACTATGGGGGCACGGTCATTCGGCTGATTGAGTT GAAAGCCGCCAGTTAA >gid:101674 BMEII1058 DNA-3-METHYLADENINE GLYCOSYLASE I ATGAATGAAGCGGAGAGCCGGGAAATGAGCGATATGGCCGAGGCAAGGGC AGGGCTGGTCGTTGGGGCCGATGGCAGGACGCGCTGTTTCTGTCCGGGCG AATTGCCGGATTATCTCGCCTATCACGATAATGAATGGGGCGTGCCTGTT GCCGATGATTTCCGGCTTTTTGAGAAAATCTGTCTTGAAGGGTTCCAGTC GGGATTGTCGTGGCTTACGATTTTGCGCAAGCGCGAAAATTTCCGCGCGG CCTTTGATGGTTTCAATTTTCATCGCATTGCCACCTATGACGAAAGCGAT GTGGAACGCCTTCTGGCGGACAAGGGCATCGTGCGCCATCGCGGCAAGAT CGTTTCGGTCATCAACAATGCCGGGCGCGCCATCGAGCTGATCGAGGAGA AGGGGTCGCTTGCCGCCTATTTCTGGTCGTTCGAGCCGGGCGCGGAAAAC AGGCCCGCAGTGGTCGATTATCCCACGCTTGTCGCAAACCCCATAACCGC AACCTCGACCCGCATTTCAAAAGACCTGAAAAAACGCGGCTGGTCTTTCG TCGGTCCAACCACGGTCTATGCCTTCATGCAGGCGATGGGCCTCGTGAAC GATCATATCGAGGGTTGCCATTGCCGTGCAACGATCGAAAAATTACGACA GAATTTCAAAAGGCCGGGCAAAAAGCTTTAA >gid:101713 BMEII1097 PROBABLE TRANSCRIPTIONAL REGULATOR SYRB ATGTATACGCCGGAAGATGTTATAAAAAATTTTAAAGATCATTCTTCACA GTCCCGGTCGCGCGGGACGAAAACTTTGGAAAATGAGAAACATACTGCGA ATGGGCGTATGGTAAAGAGATACACGCCTGAAGAACGCAGGAAAGTATTT TCTGAAATTGCGACGAGCGTTAAAAGCGGCCAGTCGAGCCTCAAGGACGC CCTGGCCACTGCGGGCATTAGTGAGCAAACATACTATAATTGGAAAAAGA TATTCACCGGAAACGGGCCTGCAAGTTCAACGACATTAGGCAAGGACTTG CAGGAATTGATTGAGCTTGAAGCTGAAAATCAACGGCTCCGTCAGGAACT TGCAGATAAGTTGCGAATGGAGAATGCAGAGCTTCGCCGTCGTCTTGGGA AAGTGTGA