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# Oligotropha carboxidovorans, OM5 = DSM 1227

>gid:1151198    methyl-transferase
ATGCCACGTCTGCGGCGATACAATCGCAGGCGACATGGGGCGATGAGCCA
GGCGGTACCAATGATTACAGGTGTCAGGAATCTTCTTTACAAAGACCCGG
TACTTTACGATTTGGCATACCCCGATGACGACGAAGCGCTCGCGGAAAAA
TGCTTGCGTCGACTGTCCTGCGTGGCCAGCTCGAATATCGATAGCGTACT
TGATCTTGGCTGCGGAACAGGCCGCGTGTTAGCGGGGCTCGCCGCTAGGT
GCGCAGTCGTCGCGGGAGTCGATATCAACCCGATCATGGTTGAAGCAGCA
TCCCAGCGATGCCCGAACGTACCGATTCTCGCAACCGACCTCAGGAGTGC
GAGGCTCGGGAGGACGTTTGACGCAATCATCATGTTGGGTAACCACTTCA
AATAG
>gid:1151213  rspD  rhizobiocin secretional protein RspD
ATGACCGGCGCTGCTGCCGCAAAATGGCAGGACGCGCACCGAGGCTATTC
CCACTTGCAGAGAAAGGCGGCTGACATCGCGGGTACACTCGCAGGCGCGT
CGCGCGCATTACGGTATGGGCTCCAGTCAGCGTCACTCGGAATTGGAGCC
TATCTTGTGTTGGGCAACGAGATGACGGCGGGGTCGATCGTCGCTGCATC
GATTATCGTATCGCGAGCGCTTGTGCCCGCTGAACAGCTCATCGGCAACT
GGCGGAATGTCCTGACCGCGCACCAAGCATGGCAACGATTGAGCGCTATC
CTCAACTACGTTCGGAGTGAGGATTTGGAGCGCATCCAGCTTCCCGAGCC
ATCCGCGGCAATTTCAGTCAGCGGAGTATACGTTGCACCGCCGGCCGATC
CGAAGAGACTTACAGTTCAAAATATCAACTTCAATCTCACGGCCGGGAAC
GTATTGGGAATCGTCGGGCCGAGCGGATCGGGAAAGTCGACTCTGGTTCG
TTGCCTGGTTGGTGTATGGCCTGCGTTGCGCGGGCGGGTGTGTTTGGACG
GCGCCTCGCTTGATCAGTGGCCATCATCGCTGCGAAAGCAGCACATCGGC
TATATGCCTCAGACCGTTGAGCTCTTCCCCGGCACAATCGCGGAAAACAT
ATCTAGATTACAATGTGGCGTTGACGATGCGGCGGTTGTCTGCGCCGCTA
AGGCGGCGGGCGTCCATGAGCTCATCGTTCAACTCCCTGACGGCTATAAC
ACGCGGGTGGGAGAGAGCGGGAACAATCTTTCTGCTGGCCAACGTCAGCG
CATCGCTCTGGCGCGTGCACTCTTCGGCAACCCATTTCTCGTTGTTCTTG
ATGAGCCCAACTCCAATCTCGATACAGAAGGTGAGCGTGCTCTGGCGCGC
GCGATCGCAGAGGTGCGAAAGCGAGCAGGGATTGTCATCGTTGTCGCTCA
TCGCGCAAATATCTTGGCCGAAATTGACTTTGTGCTCGTGATGGACAGAG
GTTTGATGCGGGCGTTTGGCCCGAAAGACGAGGTGTTGAAGTCATCGAAT
AAATCTCGCAGTGCTCCGCCATGGCGAGTGATAGAGCCCGGAGCTGCAAC
CGCATGA
>gid:1151214  rspE  rhizobiocin secretional protein RspE
ATGGCGAGTGATAGAGCCCGGAGCTGCAACCGCATGACGGAAAGCACACA
GCGACTGCTACGACGATCCATGCAACGCCATGTGCTGTTCGGCACTACTA
TTATCGCATTCCTTGTGGTTGGTGCTGGCGGTTGGGCAACCACGACAGAA
TTGGCCGGTGCCGTCATTGCAACAGGAACAGTCGTTGTCGAAGGCAACGT
GAAAGTGGTCCAGCATCCGACCGGCGGCGTCGTCGCGGATCTACGTGTTC
GCGAAGGGCAAATGGTTGAAGCGGGCGAGGTCGTCATCAGGCTCGACGAA
ACGACCCTCCGCGCAAACCTCATGGTTGTTTCGAAGGGTATCAACCAGAT
TCTGGCGCGGAAGGCGCGTCTCCTGGCAGAGCAAGAGAATCTTGAGGACG
TCCCGATATCCAGCGATCTGGCGGCTCGCGTTACGCCTGACGAAGCAAAG
ACCGTGACCGCGAATGAAATTCGTCTTTTTCGGGATCGACGCCTCAGTCG
TGAAGGCCAGAAAGACCAGCTTCGCGAACGTATCCAGCAACTCCAGGAGC
AGATAAGCGGTTATAAAGCGCAGCAAGGCGCCAAGACCGATGAAATTGCG
TTGATCGAAAAGGAGCTTGAGGGGGTTCGGTATCTCTATGAGAACGGGCT
AACACCTATTTCGCGGCTGCATAATCTTGAACGATCAAGCGCTCGTCTCC
GAGGGGAGCGAGGTCAACTGATTGCATCTATTGCAGCGGCGAAAGGAAAA
ATCGCCGAAACGGAACTAGAGCTCATTCAGATCGACCAGAATCTCCGGAG
TGAGGTGGCGACCGAACTTCGCGATCTCAATGTTCGAGAAGGGGAATTGA
TCGAGCGCGAGGTTGCCGCCCGTGACCAGCTCGAAAGAGTAGATATACGC
GCGCCAATCGCAGGAATTGTGCATCAACTTGCTATGCACACTGTGGGGGG
TGTTGTCCGGCCGGGCGAGGTTTTATTGCAGGTCGTCCCGATCAAGCGCG
AGTTAGACATTGAGGCACGAATCCGTGCGCAGGACATCGATCGCATCGCA
CTTGGGCACGAGGCAGTGTTGCGGTTCGTCGCCTTCAACCGAAATTCCAC
GCCAGAACTGATAGGTGCAGTGACGAAGGTTTCGGCCGATGCCATCGCTG
ACAGCCAGACCAGCACAAGCTTTTACAAGACCATCATTACATTGAGTGCC
GACGAGGCTAGGCGGCTTGGGCGCCGGACGCTGGTGCCGGGAATGCCCGT
CGATTGCTATATCCGCACCTCGGATCGTACGGTTTTGTCGTATCTCGTTA
AGCCCCTGGTTGATCATGCAACCCGCGCGTTCCGATACGACTGA