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