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

# Synechococcus sp. WH 8102, WH8102

>SYNW1514 conserved hypothetical protein
ATGACAGAGCAAGATCTCAGTCGCTTCCTGCACAAAGTGGACCAGCTGCA
GCAGTTGGCTCAGAGCCTTGAGGATGATGAGCAACGCAGACAATCGCTGG
CCGCCTGCACAAACCACAACCAAGTGGTGGCCCTCGCCAGGCGTTGGGGT
TTTGAGATTGCGCGTCGCTGGGGAGAACCCGAAAGTCGATTACACGACGA
CAACCTGTTGCAGGAGGCTTTGCCCTCCAGTGGAGGTGAAAGCGAGCGCA
TCCTGCTCGAAGGAGATCGTTGGTGGCTGACGCTGATCAACTCGAACGAG
GCATCAACCCCATCAGGGGAATGGATGAGCCAAGAAACGTTCGAATGGGT
TCTGTTGCTGCGGGGCAGTGCACGCATCCGATGTGAAAACCCTCCAGAAG
AGATCGATCTCAGCGTTGGAGATTATTGGTTCATTCCCCCGCATCGTCGG
CATCGGGTGGAACGGACCGATCCCGAGCCGGGAACGCTCTGGCTGACCCT
GCATTGGCGCGCTTGA
>SYNW0588 glutamyl-tRNA synthetase homolog
ATGCCCGTTCCGGATCATCTGTTGCTGGAGCTGGAACGTGGCCAGCGCTG
GCGAGCCGACGGCACCTACCGCGGTCGCTACGCCCCCTCGCCGACGGGCG
CCTTGCATCTCGGCAATCTCCAGACCGCCCTGTTGTCCTGGTTGCAGGCG
CGCCAGGCCGGTGGTGTCTGGCTGTTGCGCATCGATGATCTCGACACCCC
CCGCAACCGGCCCGGTGCCGTTGAGGCGATCCAGGCCGATCTGCACTGGC
TCGGGCTCGACTGGGACGGGGAGCCGATTCTGCAGAGCTGCCGCCGTGGG
CTTTATGCCTCCTGGCTCTCCTGGTTCCGCCGCAGCGGCGCCCTGTTCCC
CTGCCGTTGCTCACGACGGGAGCTGGCAGGTCTGGCGCGTTACCCCGGCA
CCTGCCGTGATGGCGGCGCTGGCTGGGGGTGGCGTGATCGCCGGTTGCCG
AGCTGGCGGTTGCGGGTTCCCAGCCGTGATCCAGATGGCAGCGGTGATGT
GGTGGTGCGCCGTGCCGACGGGTTCATCGCTTACCAGTTGGCCACCGTGA
TCGATGAACTGGCCCTGGGCATCACTGATGTAGTGCGCGGTGAGGACCTG
CGCGAGGCCTTGCCCGCTCAGCGGAGTGTGTATCGGGCCCTGCAGCAGCA
ACCCCCCCGCTTTCACCACGGTCCGTTGCGTTGTGACGCCGAGGGAAGGA
AGCTGTCGAAACGTGAAGCCAGCAGCGGACTGATGGCCTTGCGTGAGCTG
GGTCTGGATGCCCCTGCAGTGGTTGGTCTTCTGGCCTCTGGTCTGGGTTA
TGGGCCGCCTGGGGCCAGGCTCTCGGCGATCGAATTACTGGAGGACTTGA
CTCAGAAAGGGATCCGTGCTGGTCATTCTTAA
>SYNW0719 probable tRNA/rRNA methyltransferase
TTGACCGTCGTCGTTGTCCTCGTCGAGCCTGCCGGGCCTCTGAACATCGG
AAGTGTGGCCAGGCTCTGCGCCAATTTCGGCGTTGACGCTCTGCGCCTGG
TGAATCCCCGTTGTGAGGTTCTCTGTGACGATGCACTCCGGATGGCCGTC
CATGCCACCCCCCTGCTACGGCAGGCCACCATCCACCCTGATCTGGAAGC
TGCCATTGGCGACTGCAGTCGGGTGATTGCGACCTGTGGCCGACTGGATC
ACGGGGGCATACCGCTGCAAACCCCAGACACAGCGATCAACTGGCTTTTG
GCCGGAGATCCCCCTCATGCCCTGGTGTTTGGCCGAGAAGACCGCGGCCT
CACCAACGATGAACTCCGACTGTGCCAGCGGGTTCTGACGCTGCACAGCC
AGGCGGCCTACCCCTCGCTGAATCTGTCTCACGCTGTCGCCGTGGTGCTG
CACGACCTGGCTCGACATCAGCTGCAGGCCCGTGCTCCCCAGGCCAAAGA
TCCGTCACCAGCCCCTGCCGCGGATTTGACAGGGTTGCTGGACGATGCCG
CCGAGCTGCTGCTGGAAGCCGGATTCCTCCTGCCCCACACCCGGGCAGCG
CGCATGGGCAAGGTTCGGGATCTCTTGCAACGTGCGACCTGCAGAGCGGA
GGAGGTCGCATTGTTCCGAGGCATGGTGCGACAACTGCGCTGGGCCATCC
GGGCCGACCGCCCCTAA
>SYNW2288 probable pseudouridine synthase
TTGAAGCCAGCGGCGTTCAACGACGGCTGGACGTATCGCGACCGAGTGCC
GGTAGGGGCAGCTGGTACTTGGTTGAGTTGTTGGCTGGCGGAGCGCTATC
AGCATTCCGCTGGAGAGGTCTGGCGGCAAAGAATCCATTCCGGCGAACTG
GATTGCAATGGGCAACGCTTGACGGCGGATCGGCGGCTGGCTGGCGGTGA
AGCAGTCCTCTGGCGTCGTCCTCCCTGGCTGGAGGAGGCGATCCCCGATC
AATGGGAGACGATCCATGACGACGGCGATCTGCTGGTGATCAACAAGCCT
TCGGGTCTGCCGGTGATGCCTGGCGGTGGTTTTCTGCTCCACACGCTTAC
GGCACTGTTGGAGCCCACCGGTGCGCGGCCGGTGCATCGGTTGGGGCGGT
TCACCTCCGGCTTGCAGGTGTGTGCTCGGGATCCGATGACCCGCGCGGCG
CTGTCCAAACAGTTCAGGCCAGAGGGCAGCTGCCGCAAGGTGTATCAGGC
CTGGGCCCAGCGGGTGCCGGGTTTGGAGCAGGGGCAGACCCTGACGGTCA
CCAATGATGTGGTGGAGCGGCAGCATCCTCTGCTGGGTTGGGTCTGGGGG
CCGGAACCGCTCAAGCAGGAGCCGATCCGCAAACGCCTCACAGCTCGTTC
CGAGCTGGAGCTTTTGGAGCGAACGGCTGAGGGCGATCGCTTGCAGGTGA
CGATCACCACAGGCCGACCGCATCAGATCCGCATTCATCTGGCACAGCTG
GGCAGCCCGCTGCTGGGGGATCCGCTCTATTTGCTCAACCGGGAGATTTC
GGCGACGGCAACCCCTGGCGATGGGGGCTATCGGCTGCATGCCTGGCAGC
TTTCGGGTCTCCCTCACTTGGGGGAGACAACACTCCAGGTGGATCCCTCA
GTTGAGGGAGATCAGGCCTTGCGGAATTCGATCAACCGCGAGAAGTAG
>SYNW1679 Sun protein (Fmu protein)
TTGACGCAGCCGCAAACCAAAGGATTGGCTCCACGGAGACTCGCCTGGGA
GGTGCTGCAGGCGGTGGCGGCAGGGGCCTATGCCGATGTCGCTCTGGAAC
GGGCCTTGCGCGAGCATCCCCTGGCTGGAGCCGATCGGGGCCTGGCCACG
GAGCTGGCCTATGGAGCGATCCGCCGGCGTCGCCCCCTGGATGCCTGGCT
GGACCGGCTGGGCAGGATTCCGGCGTCGAAGCAACCGCCCAAGCTGCGCT
GGCTCCTGCACGTTGGCCTTTATCAGTTGCTCTGGATGGAGCGCATCCCC
GCTTCCGCTGCGGTGAACACCACTGTGGATCTGGCGAAGGCTGTTGGTCT
GGCCCGTCTGGCCCCTGTGGTCAACGGCATGCTGCGCTCCGCTCTGCGTG
CTCGCGAGTCTGGCCAGTTGTTGGACACACCCGCCGACTGGGCTGCTGCT
CTCGCCCTCGAGCATTCCCTGCCGGACTGGTTACCGCCGCTGCTGCTGCA
ATGGCGAGGGGCAGAGGGGGCTGCCGCCGTGGCGGCAGCCTGCAATCAGG
TGCCCTCCCTTGATCTCAGGGTCAATCCCTTGCGGGCATCAAGGGCGGAG
GTGATGGCTGCCCTGGAGAGTGCCGGGATCAGCAGCCATCCCATCGATGG
TTGTCCCCAGGGCTTGCAAGTGGAGGGTCACAAGGGTGATCTGCGCAGCT
GGCCCGGCTACGACGACGGCCACTGGTGTGTTCAGGATCGAGCGGCGCAG
TGGGTAACACCGCTGCTGGCTGCACAACCCGGTGATCGCATCCTGGATGC
CTGTGCCGCCCCAGGTGGGAAGACAACCCATCTGGCGGAGTTGGTCAACG
ATCAGGCTGAGATCTGGGCGGTGGACCGTTCGGCCGGTCGGTTGAAACGG
GTGGCGGCCAATGCGGCCCGGCTTGGCCATGGCTCAATTCAGGCTCTGGC
GGCAGATGCCGAGCAGCTGCTGAAGGATCGTCCCGAGTGGCGGGGCCGTT
TCCAGCGGATCCTGATCGACGCCCCCTGCTCTGGATTGGGCACCTTGGCC
CGTCATCCCGATGCGCGTTGGCGGATGACCCCTTCTGCGATTGAGGGCCT
CTTGCCCCTCCAGAGATCGCTGTTGGAGGGGCTGCTGCCCCTGCTGGCCG
AGACCGGAACTCTTGTGTATGCCACCTGCACGATCCACCCAGCGGAGAAC
ACAGCCCAGGTTCGTTGGCTGCTGGAGCTTCACCCTGCGCTCAAATTGCT
CGATGAAACCCAGCGCTGGCCTGATGCTGAAAGTGGTGGTGATGGTTTCT
ATGCCGCCGTGCTTCAGCGCCGTTGA
>SYNW0228 conserved hypothetical
ATGGTGGTGAAGGGCGAAAGGATTGCGGCGTGGACATTGCTTGTCTTGTC
AGCCTGCATCCTTATCCCTTCGCCTCGACCCCTGCGTGCGGACGTCCTGC
CCTGTTCCGGAACCAGGCTGAAACTTTCGGTGCAGGAGCGGGGCCGCAGT
GCAGTGGAGTGTTTCCGCTTTTCCCTGGCCGTTTCGGGTGAGGGAGCTGA
TGAGGCAACAGCACTGCAGCAGCTCAACCGCCGTCTGGCCAGCGTGCGCC
GGGAGTTGAAGCCGCTGGTGCAGGGTCAGCTGGTTGTGCCAGCGCCCCAC
ACCCACAAACGGGGACGAGCGTCAGAACAGCGCTACGTGGCTAACACAGG
CGTGTCCGGACACGTCAGCCTGGGCTCGTACGACCGTTTGATTCAAGCGG
TGGGTGCCATGCCAGGGGTGCGACTGCAGGGCATGGAATCCGTGGCGGCG
CCAGAGAAGGAGGCTGCCCTAAGGCAGCGCTTGATGACGGACGCGTTGAA
TCAAGGTCAGGCTGATGCTGCAACGACGGCCCGGGCCATCGGCCGGTCAG
AGGTCACTTTGCTGAGCATCGATCGTGCGGGGGCTATGGGCAGGCCGAGA
CCGCTGCGGATGGAGGCGGTCGCCAAGGGGTTTGATCCCATGGAAGCCCC
CGAACCAACCATCACCCTCCGCCTGCAACTGGAGTACTGCCTCAGTTGA
>SYNW2194 possible Fe-S oxidoreductase
ATGGCAGGCGGCGCAGTGATGACAAGCACCCCGACGAAACCAACGGTCGC
GTTCGCCCACCTGGGCTGCGAAAAGAATCGTGTGGACACCGAACACATGG
TGGGTTTGCTGGCGCAGGCCGGCTACGGCGTCAGCACCAACGAAAACGAT
GCGGCTGTGGTGGTGGTGAACACCTGCAGCTTCATTCAGGACGCCCGCGA
GGAATCGGTACGCACCCTTGTGGGCCTGGCGGAACAGGGCAAGGAACTGA
TCATTGCCGGCTGTCTGGCCCAGCATTTTCAGGATGAACTGCTCGAATCG
ATTCCTGAAGCGAAGGCGATCGTTGGCACCGGCGACTACCAACACATCGT
GGAGGTGTTGCAGCGGGTGGAGGCCGGCGAGCGGGTGAACCGCGTCAGCG
CCGTGCCCACCTTTGTCGGGGATGAACACCTGCCGCGTCAGCGCACCACG
GACCAGGCGGTGGCGTTCCTCAAGGTGGCGGAGGGCTGCGACTACCGCTG
CGCCTTCTGCATCATTCCCAAGCTGCGGGGCGACCAACGCAGCCGGCCGA
TCGAATCGATCGTGGCCGAAGCGCACCAACTGGTGGAGCAGGGGGTGCAG
GAGCTGATCCTGATCAGTCAGATCACCACCAACTACGGCCTGGATCTATA
CGGCAAGCCAAAGCTGGCGGAACTGCTGCGGGCCCTGGGAGAGGTCGAGA
TCCCCTGGATCCGCGTGCACTACGCCTACCCGACGGGTCTGACACCAGAG
GTGCTGGCGGCCTACCGGGAGGTGCCCAATGTGGTTCCCTATCTGGATCT
GCCGCTGCAGCACAGCCACCCGGAGGTGCTGCGGGCGATGAACCGACCCT
GGCAAGCGGATGTGAACGACCGGCTGCTGGATCAGATCCGCGACCAGCTC
CCCGATGCGGTGTTGCGCACCACCTTGATCGTGGGCTTTCCAGGCGAAAC
GGAGGAGCACTTCCAGCACCTGATGGAGTTCCTGAGGCGCCAACGCTTCG
ATCACGTGGGCGTGTTCACTTTCTCGCCAGAGGACGGCACCGCCGCTGCT
GAGCTTCCCAACCCGGTGGATCCCGACGTCGCCCAGGCCCGCAAGGACGC
CCTGATGGCGCTGCAGCAACCCATTTCCGCCGAACGTAACCACAGCTGGG
TGAGCCGCACCGTGGACGTGCTGATCGAGCAGCACAACCCCCAGACCGGG
CAGATGATTGGCCGGTGCGCCCGCTTTGCGCCGGAGGTGGATGGGGAGGT
GCATGTGCAGCCTGGAGAGGACGGCCAGAAGGCCGCCCCAGGCACAATGG
TGCCGGTGCAGATCACGGGTGCCGACGTCTACGACCTGAGCGGACGGATC
GTGGGGGCCCGCGACATGGTGGCGGCAATCAGAGCCGACGCTTGA
>SYNW0598 possible N-terminal part of IF-2
ATGACCAGCAGCGGCAAAGTCAGAATTTACGAGTTGTCCAAGGACCTGGG
CCTTGAGAACAAGGACGTGCTGGATGCGGCCGAGAAGCTTTCGATCGCAG
CGAAGAGCCACAGCAGCTCCATCAGTGACGCCGAAGCCGGACAGATCCGC
AGCCTGCTGAAGTCGAAAGGCAACGGCAGCAAAGCGTCTGCCCCTGCACC
GGCCAAACCAGCTCCTGGCAAGGCGATCCTGTCGGTCAAAAAAGCGGCTC
CCGCCAAACCGGCACCGGCTCAGGCGAAACCCGCAACACCAGCCAAGCCT
GCAGCATCAGCGTCTAAGCCAGCAGCACCAGCGAAGCCTGCAGCCCCAGC
AGCACCGGCCCGTCCAGCACCAGCGAGGGCAGCGGCCCCAGCAGCACCGG
CCAAACCAGTGCCGAGGCCTGCCGCCGCTCCGCCACCGCGTCCTCAGCCG
GCCAAACCTGAGGTCGTCAGCAAGCCGAAGCCGGCCACGCCCGCCACGGC
TTCTGCGCCGTCGAAACCAACGGCTCCACCTGCTCGCCCAACAGTCGTCA
AGCCAACGGTTGCTAAGCCAACGGTTGCTAAGCCAACGGTTGCTAAGCCA
ACGGTCGCAAAACCCGCGCCAGCAAAACCCGCTGCCGCCAAACCAGCCCC
GGCACGACCGGCTCCGGCCCGTCCAGCACCCGCGCGTCCCTCAGCCGATC
AACCCAAACCTCGGCCTGCAGCTGCCCCCAGCCGCCCAACGCCAGGCGCT
GGCCAGAAGCCACAGATCGTTTCCCGCCCCGGATCAGCACCTCGCCCCGG
TGCTCCAACCCGTCCAGGGGCTCCAGCACCAGCGCGTCCAGGAGCACCCG
TCAAAGCGGGGCCACCCACGCGCCCCACACCTCGCCCTGAGCTGGTGGGC
AAGCCTGTTCCACGACGTCCAGGCACCGGTGCACCCACCCGCAGTGGAGC
TGGTGCACCGCAACGCCCCGGAACCGGTGTCCCTCAGCGTCCCGGCAGTC
CTGGGCGTCCGACACGACCCGGCGCTCCGGCCCGCAGCGGCGGCAACACC
CTGGAGCTGGTGGGCAAGCCCATCCGCCGGGACGGCAGTTCCACTGGAAG
CGGCGGTCGTCCGGCCCCACCAACACGCCCCGGTGCCGGTAGCCCGCAAC
GCCCTGGCATGCCAAGCGGCATGCGCAAACCCGTGGCACCGGGCGAGCTC
ATGCAACTTCAGAAGCCCGTTGGACGCCCCGCGGCGCCTGCCCCCCGCCG
ACCCGATGCCCCCACCAAAGCTGGCGACGGTGCCGGAACTGCCACGCCAC
CGGTGGCCCGGCCCACACCCCCAACCGCACCGCGTCGCCCGGGGGGTTTC
CGTCCCGGTGCCCCCGGCGGTCAACGCCGCCTGGACGTCCGGACTGGGAT
GACAGCGCCAAGCTGGAAGCCCTGCGCAGCCGTTCGCCACAGAAGCAGCG
CCAGAAGGTCCACATCATCGGCGAGAACGACGATGCGCTGA
>SYNW1103 conserved hypothetical protein
ATGAACCACACCATCACCAAGAAGCGGCCATATAGCTTCAACGCACTGCT
CAGCTCACTCAGCTCACAAGTCCCAGACGAACAGGCCACTTGGGAGCAAA
ACTTGTCACTGCAGGCTGAGAAGTTCTACGGCCAGCACAGCATCCAGAAG
AAGCAGGAGAACGCGGCATTCATCCCAACCCAAAGGATGCTGCGCGATCT
GATCACAGGCACTGCCAGCAGCGGTGGTGACTTGGTTGCCACGTCGGTGC
AGAAAGTCGCAGACAGCGTCCGGCCTGTGACCGTCTTGGAGCGTGCCGGT
GTTGAGCGGATTGAAACCGGCGGAGAGAACCTGACCATCCCGCGCTTTGC
CAAGGCCGATGCCGGATGGATTGCAGAAGGTGCTGACTACACCGCACTCA
CCACCACAAGCACCAGCGTGGATGCCAGCCCGAAGCTCGCCAGTGCCCGC
CTGTCTTTCAGCCGCCGCCTGAAGGTGCTCGTCCCTGACGTTGAAGGGTC
AGTTCTGCAGGAAGTCGGCCGTGCTGTTGCCGGACTGATCGAGAAGGGAG
CGATTCAAGGCACTGGCAGCAACTCTCAACCGCTTGGCCTGCTCAACCTG
CCTGATGCGCTCAGCCAGACCTTTGCCTCTGCAACTCCCACCAGCGATGA
ACTGGCATCAATGCTGGAGAAGCTCGGTGATGCCGATGTGGACCTGAGCA
AGGTGGTGTTCCTGATGCACCCGAGCACTGCCGCTGATCTGATGAAGACC
CGCGTGGATGCCAGCAGTGGCGCGTTGGTGCTGAGTGACCTGAAGATTCA
CGGCCTGCCGGTATTCATCACAAGCAATGTCACCGAGGACAAGGTGATCG
CACTGGATCCGAGTTACAGCCGTCTCGTCTACTTCGGCAGTGCGCAAGTC
GTCGTGGATCCCTTCCGAGGAGCCGTCAGTGGTGTCACGCACACACAAAT
CCTGAACGCAGCGGACTTCGTTTGCTCGCATCAAAGCTCCGTTGTGGTGG
GTTCTGCTTAA
>SYNW1228 conserved hypothetical protein
ATGCCTGAGACCAACGGCACCGAGGCTGATTCGAGTGGGCCAAGGCCAGG
TCTTCGCCTGGAATTGCAGGCCATCGATCTGGATCGGGATGGCCACGGTC
TGGCCCGTTGGCAGGGGTGGGTGGTGGTGGTGCCGGGTCTATTACCGGGC
GAACGGGCGAAGGTGCAGCTTCAACAGCGGCAGAAGTCGCGATGGCTGAG
TCGCATCAGTGAACGACTGGACAGCTCGCCGACCCGCCGACGGCCTCCTT
GCATTCTTGCTCAGGATTGCGGTGGCTGCACTCTGCAGCACCTTGAGGAG
TCAGCCCAGCGGAATTGGAAGCAGAATCAGCTCCACCAGACGATGCTGCG
GCTCGGGGGCATCGACCATCCCCAAGCTCCTGCCCTCACGGATCAGCGTG
GCCTCGGCTATCGCAACCGCGGGTTGATTCCCCTGCGTCGTGGAGAGGAC
GACCGCCTACGCATGGGCTACTTCCGTCGCGGCAGCCATCGCATCGTCAA
TCTCTCCCGCTGTCCAGTGCTGGATCCACGCCTGGATGCTCTGGTCGAAC
CGCTCAAGCAGGATCTGGATACCAGTGGCCTCAGCGCCGATCACGATCTC
AGCCATTCCCAGGGACTTCGCCACCTTGGTCTACGGATCGGACACCACAC
CGGCGAGGTCTTGATCACTGTGGTGAGCAGTCAGCAGCTGCCTGCCTTGC
AACGGCTGGCCCAGCAATGGATCGAGCGCTGGGACCCGGTCAAGGGAGTC
ACCCTGAATCTTCAGCCCCGCCGGACCAACCAGATCCTGGGAGCAACAAC
CACTGTTCTGGCGGGTGCCCCCACGATTCGAGAACTGTTCTGTGGACTGC
AGCTTCAGCTCAGCACCACCACCTTTTTTCAGATCAACACGCCCCAGGCG
GAACGCATCGTGGCGTGCATCGTGAGCTGGCTGAGTCAGGCGGAGCTCGC
AGGCCCAATCGTCGACGCCTACTGCGGCATCGGCACCATCAGCTTGCCTC
TGGCTGCACAGGGTCATCACGTCGTGGGCCTTGAGATCAACCCCGACTCC
ATCGATCAAGCTCGCAGCAATGCCGATGCCAACGGTCTGGGGGCGCGGAC
CGAGTTCCAGGCCGGTGATGTGGCCAATTTGCTTAAGGAAACGCTGGCGA
CATGTTCAGCACTGGTGGTCGATCCACCACGGCGAGGTCTTGAGAGCAGC
GTGATTGAGGCAATCCTGAGTGATCCACCAGGCCTGTTGGCCTACCTCAG
TTGCGACATGGCAACCCAGGCCAGGGATCTGAAACGGTTGCTCCAACCGG
AGGGCCCTTACCGGTTGGAGCAGCTCCAGCCGGTTGATTTCTTTCCCCAG
ACCACCCATCTGGAGAATCTGGCGTTTCTGCGCCGAGTCAGCTCCTGA
>SYNW0977 conserved hypothetical protein
ATGGGATTGATCCAGACCCTTCAGAGCCGTCTGCTGCGATACGAATCCAC
GGCGCTACGTTATCGACAAGCTTATTTCAGCGCTGCACGCAATCTGGCGC
GGGCCCAGTTTCTGCTGGGGGATGCTGAACTCAGTCAGCGGTTGTGGCAG
GACGTCGCCGATCGAGGGCTGGATGTCGAGCGGATCGAACAGTTGATGTA
CGGCTGCTGGTTTCAGGACGATCCAGACGCCATGGCTGAGGCCGATGCGG
CGTATCTGAGCCGGACGGCTCCGCACGAATCTCCCGGCATCTTCGAGCAC
TGCTGA
>SYNW2420 conserved hypothetical protein
ATGGTGCTCGATCTCCACGTCACGGATCGCCTGGTGATTCCCTCAGGGGA
CTTGCAGTGGCGCTTCTCGCGGGCCTCGGGCCCGGGGGGGCAGGGGGTGA
ACACCACCGATTCACGGGTGGAGCTGGTGCTGGATCTGCAGACCTGTTCG
GTGCTGGGCCCCTTTCGGCGGGCGCGTTTGCTGGAACAGCTGGCATACCG
GTTGTCGGACGGTTGTTTGCGGGTGGTGGTGGCGGAGGAACGCTCGCAGT
GGCAGAACCGTCAGAAGGCTCTGCATCGCATGGCCGACCTGCTGCGGCAG
GGTCTGCAGCCCCCGCCACTATCGCGAAAGTCCACCCGTCCGGGACGCGG
TGCAGTGAAGCGTCGTTTGGAGGCCAAGAAAAAGCGCGGTGATCTCAAGC
GTCAGCGCAGCAACCGGCCAACACTTGAGGAGTAA
>SYNW0188 possible polyA polymerase
ATGGATCTGCCGGCTGTGCCGTCAGCCCTGCTGGATGCCCTCAAGGCGGC
AGCCACCGAAGCCGGTGTGCCGCGTCTGGCGCTGGTGGGGGGTGTGGTGC
GGGATTTGCTGCTGCATCAACGCCATGGCCGTCCCTGGACTGGCGTTCCC
GATCTGGATTGGGTGGTGGAGGGCAGCGCCGCCCATCTGGCGGATGTGCT
GCAAGAGCGTTGCGGGACTGAACGGGTGAGCGGTGTTCAGCATCACGGTC
AGTTCGGCACGGTGGCCCTGAACCTCGATGGCGTGCCCCTCGACCTGGCC
ACGGCGCGGCAGGAGCACTATCCGCGGCCAGCAGAGAACCCTGTGGTGCA
GCCCGGGTCGTTGGCGGCGGATCTGGTGCGGCGTGATCTCACGATCAATG
CCATGGCCCTCGATCTAATGTCCGGGGAGTTGATCGATCTCCACGGCGGC
CAGAGCGATCTGGCCGCAGGCCGTCTGCAGTTTCTTCATCCCGGCAGCAT
CAGCGATGACCCCACCCGGGTGATCCGGGCTGCGCGTTATGGCGCTCGGT
TGGGGATTGACCTGGGTTCCGAGGCCCTTGAACAGGTGGGTGCGACCGTC
GCGGCCTGGCCCTGGGCCTGGCATGTGGGGAATGCGCCGGAGACGGCACC
GCCGGCCCTGGCCAGCAGGTTGCGGATGGAGCTGGAGCGGCTGCTGGACC
ATGAACCGTGGCCCATCGCGTTGGACCTGCTGGAGTCCTGGCAGGCCATG
GCTCTGGTGGACCCCTGCTTGCAGCGTGATCCCGAACGAACCCGACGTCT
GCGTTGGGGGCAACGCCTCGGGCTGCCGCTGATGACGGCGCTGTTGGCGG
CTGCGGCTGATCCAGGGGCTGTGGCGCGCCGCCTGCAGATTCCCGGCGAG
CAGCAGCAATGGTTGGAACGGCTGCCATCGCTGCAGGGCTGGTTGGGGTC
GCATCCACTGCCCATCCATGCATCCCCAGATGCATGGACGACAGCACTTG
AGCGCGGTGGTTGGCCGCCGCAGACGGTGGCGCTGATGGTGACGCTGCGG
CCTGCGGCGTGGAGGCCACTTCTGCGTTGGTGGGGCCGCTGGCGGCACAT
TCCGTCGCCCCAGAGTGCGCGCCAGTTGATCGCTGAGGGATGGCAACCGG
GACCAGGTCTGGGTGAGGAATTGCGTCGCCGTCGCGGCGTGCTGCTGGAT
CAGGGGCGATGA
>SYNW0247 conserved hypothetical protein
ATGTCCAAGAAGCGCAAGCGCATCAGCCGCCGTCGTCTCGCGGGGCAACG
GGTCCTTGCCCATGTGTCCACTCATCATCTGGAAACCGGTGAGTACAAGC
CTGTGACGGCGGCTCGTCGCTACATCGCTGAGGCCGGTTTGGTACCTCCG
GCGTTGCTCAATGTGCGACGCAATGAACACACCACCGATCGCTTCTTCTG
GGGCGAAAAGGGACTATTCAGCGCTCAGTACGCCGAAGAGAATCACTTCC
TCTTTCCGTCCTTGCGCACCATCGTCGATTCGATCGGTGAAGACACCTTG
TTTGAGGGGCTCGATCTCTCTGCCGACGATTGGGAGGAGATGGAAGAGTA
CGAGTACGCGTTCGTTTGA
>SYNW1076 cytidine/deoxycytidylate deaminase family protein
GTGGAGGAACAACAGCTCTGGACAGAATGGATGGAAGTGCTGCTGGCGCG
AGCCTCCGTCAATGGAGACAGCGGCGAAGTGCCAGTTGCGGCCGTCATCC
TTGACGAGCAAGGGCGGTGCATCGGCCACGGACGCAACCGACGTGAGCGC
TGCCAGGACCCCCTCGGCCATGCGGAATTGGTGGCCCTGAGTCAAGCCGC
CACCATCCGTGGTGACTGGCGCTTCAATCCCTGCACCCTTCTGGTCACCC
TCGAGCCGTGTCCGATGTGTGCTGGGGCTCTGGTGCAGGCACGGATGGGA
ACCGTGATCTTTGGAGCTACCGACAGGAAACGGGGCGGGTTGGGGGGCTG
CATCAACCTGGCGGACGATCCCAGTGCCCACCACCACATGCGTGTGGTGG
GGCCACTGATGCAGGAAAGAGCCGCTGAACAGCTGGAGATCTGGTTCAGG
CAGCGGCGGCGACGGAACCGCTGA
>SYNW2386 conserved hypothetical protein
ATGGAAGACCGCAGAGATCGTCGCCTGGACACCTGGATTGAGACCGGCCG
TCAGTTTGTCGATGGCGTGTCGGGACGTCGTCCCGGCCAACGCCGCAGCA
GTTTTGATCTGGATTCCGTCGGCCGTTGGGTTGGCGACAAGGTCGAGTGG
TTGTTGGAGGAGGACGACGCCTGGCGGGAGCCCTGGCAGGACACGGATCG
CCCGCTGCGCAGCGGTAAACGACCCCTCGAGGCCATTTCCCGTCGGGGCC
GTCAGGTCACACCTGCGCCGTCGGTTCCTGCGATGACCTCTCCTGACCCA
GGCTCCGTGGATGACTGGCCGGAGGACGACAGCTTCCGGGTGGACCGCTG
GCAACGGTCTCGCAGCACGGCAACTCCCGCTGTTGACTCTCAACCTCCAG
CCCCAAGGCGGTCGTTGCCCCGTTCAAGTCGTCGCCGCGCCTGA
>SYNW0826 hypothetical
TTGACAGAATCCGTCCCTGATCAAAAAATCTCGAAGTCCTCAAATGATGG
GGAGAAGATGTCCATAGTTCGTCAGTGGGAATACAAGGTTATTCATATCA
ATATGAATTCAGTTAAACAGGCGGATCTCCCGAAGCAGGCGAATCCAGAG
GTGGCAAGCAAGAAGTTGCAAGGGTCATTAAGTCCGGACTTTATTCGGAA
AGAGTTTCCTGGGATGTACAAAAACCCCGGACAACCGCAACAACCGCGCC
ATCCAGCGGAGCAGCTCCAGGATTTTTTGAATGCCATGGGTCGCGAAGCG
TGGGAGCTCTTTGAGATCAGTGAAGTAGGCCCTCTGCAGATGTTTTTCTT
CAAGCGTCCAAAGCCGCCGAAACCCCCAGTTAATTCTGAGGAGAACAAGC
AGAACCAATCAAGTGACGAGGGCGAAAATCAGGGCTAG
>SYNW1052 putative rRNA (adenine-N6,N6)-dimethyltransferase
ATGGCTTTTCAAGGTCACCAGGCCCGCAAGCGCTTTGGCCAGCATTGGTT
GAAGGATCAGACGGTGCTGGATCGCATCGTGGCGGCCGCTGACCTGCAGC
CATCGGATCGCGTGTTGGAGGTGGGACCAGGGCGTGGTGCTCTCACAGAA
CGGTTGCTGTCCTCTCCGGCAGCGGCAGTTCAGGCCGTGGAATTGGATCG
CGACCTAGTGGATGGCCTGCGGGAACGCTTTGCCGGTGATCCGCGATTCA
GCCTGCGTCAGGGGGATGTGCTGGAGCTGCCGCTGCAGCTGGAGGACGGG
GTTGCAGCCAGCAAAGTAGTGGCCAACATTCCGTACAACATCACAGGTCC
GCTGTTGGATCGACTGGTGGGTCGACTCGATCGCCCTGTCGAGCCCCCTT
ATCAGCGTTTGGTGCTGTTGGTGCAGAAACAGGTGGCGGAGCGCATCCGG
GCTCGCCCGGGCCACAGCAGCTTCAGTGCCTTGAGTGTTCGGATGCAGTT
GCTGGCCCGTTGCACGACGGTCTGTCCTGTACCCCCACGCTGCTTTCAGC
CACCGCCGAAGGTGCAGTCGGAAGTGATTCAGATCGACCCTCTGCCGGCT
GATAAGCGGTTGCCTTCTGACATCGCCCGTCGGGTGGAATCGTTGCTCAG
GCAAGCCTTCCTGGCCCGTCGCAAGATGTTGCGAAACACCCTGGCATCAC
TTGCGCCGGAGCCACAGCTGCAGGCGCTGGCCGCCGCTGCAGGGTTTCAG
CTGCATCAACGGCCGCAGGAGCTGGCTCCGCAGGTCTGGGTTGCCCTGGC
CAGGGGTTTGAATCAGGGCATTGATGCGGCCTCCGCTGATGGGCACGATC
ACGGTGACGGCTCCGGCCAAGGTGAATCTTCACCTGGAGGTGCTCGGGAT
CAGATCTGA
>SYNW1029 possible tRNA/rRNA methyltransferase
ATGAGCCCTCGCTTTGAACGCCGTCCCGGCGGTTCGTCCAGGACTGGACG
ACCGGGGCGCAGCGACCGACGTCGTCCTGATGCCGACGCTGAGGCTGATG
CCGGCCGCCGCGAGTGGAACCGAGAGGCACCGGTCCGCCGGGGGCGCATG
GACGACCGTCGCCGGGGTCGCTCCGATGAAGAGCAGCGCGCCCGTCCTGA
TCGGGGCGACCGTGCAGGCCGTGGACGTTTCATGGCAGACCGGCGTCCTG
AGCGCCCCTCGCGTCGGGAGGGGCGTCAGGGCGATCAACGCCCTTACAGC
GATCGTCGTGATCCACCCCGTGACGAGCGTTCCGAAGGACGTTCCGAAGT
ACGTCGGGATGACCCTCGCATGGATCGCCGTTTCGATCGTCGAGATGAAG
CACAGGGGGACCGACGGGGTGACCGGCGTCCGTCCTTTCAACGGGAGCGC
TCGCGGCTCCCATTCAGGGATCGCACTCCGCGCAAGCCTGAGGGGGAGGC
TGCTGCTGCCACGCCGCCAGCGGATGATCTGGTCTGGGGCCGTCATTCAG
CACTCGCGGCCCTGGAAGCCGGTCGACCGATCCATCGCATCTGGTGCACC
CCGGAGATGCGAAGCGCCGCCAAGTTTCTGCAACTGCTTCGCGATGCCAA
GGCCTCCGGTGTGCTGGTGGAGGAGGTCACCTGGGCCCGCCTGGGGCAGA
TCACCGGAGGCTCGGTGCACCAGGGCATTGCCCTGCAGACAGCAGCGGCT
GAAACGATCGATCTGGAGAGCCTGATTGAAGGCTGTTCCGATCTGGGGGA
ACCGCCATTGCTGCTGGCCCTCGATGGCGTCACGGATCCCCACAACCTCG
GCGCTGTGGTCCGCTCGGCTGAGGCCATGGGAGCCCATGGCGTGGTGTTG
CCCCAACGACGCAGTGCCGGTCTGACGGGGTCGGCGGCGAAGGTGGCTGC
AGGAGCCCTTGAACACCTCCCCGTGGCGCGGGTGGTCAACCTCAACCGCT
CTCTTGAAAAGCTCAAGGATGCCGGCTATCGGGTGATTGGCCTTGCCGGT
GAGGGCGATGTGACCCTGCCTGATGTGGATCTGAGTGGGCCGCTGGTGCT
GGTGACCGGTTCGGAGGATCAGGGGCTATCCCTGCTGACACGCCGCCACT
GCGACCAATTGGTGCGGATTCCGCTGCGGGGGGTCACGCCAAGCCTGAAT
GCATCTGTGGCAACGGCGCTTTGCGTGTATGAGGTGGCCCGTCGCAACTG
GATGAAGGACATCCATGGTCAGGCTCCGTCGCCGCCGATTCAGCGGGCGC
GCATGGCTGGTCAGCGCGACGACGACTCGCCAGCACCACAGGTTGAGACG
ACGCAGCCTGAGGAGCGCATCGAACTGGACCTTGAACGCCGAGATCTCGA
TGCAGGACTCGAGTTTGATCAGAGCATCCAGCTTTCTCCCTGA
>SYNW0482 hemolysin-like protein
ATGGCTGCGAAACAGCGTCTGGATCTGGAGCTGCTCAGTCGCGGGCTGGT
GGTCTCGCGGCAACAGGCGCAGCAACTGATCCGGGCCGGCAAGGTGCGCG
ATGGCGCCGGCACCCTGCTGGACAAGCCCGGCACCGAGGTGGCGGCAGCT
CTGGAGCTGCGGGTTGAGCAGCCCCCCCGCTTCGTGTCGCGCGGCGGCGA
GAAATTACTGGCGGGCCTGAAGGCCTTCCCGATCGCCACGGAAGGCCGCG
TCTGCCTGGATGGCGGCATCTCCACCGGTGGCTTCACCGATTGCCTGCTC
CAGCACGGTGCCTCCCGGGTGTATGGCGTGGATGTGGGCTATGGCCAGAC
CGCCTGGAGCCTGCGCACCGATGAACGGGTGGTGTTGCGGGAACGCACCA
ACCTGCGCCACCTGCAGCCCGAGCAGCTGTACGGGGCGGAGGATCCCTGG
CCCAGCCTGGCGGTGACCGATGTGTCGTTCATTTCTCTGCGTCTGGTGCT
GCCGGCCTTGCGACGACTGCTGCAGCCAGCGGGTGGTCTCTGCCCTGAGG
CCCTGGTGTTGGTGAAACCTCAGTTTGAAGTCGGTAAGGATCGGGTGGGC
AAGGGCGGCGTGGTGCGCGATCCGGTAGCCCACCGCGATGCGATTGAGCT
GGTGATGGCGGCGGCCGCTGAATTGGGCTGGTATCCGCAAGGGATCGTGG
CTTCGCCGATCACCGGCCCAGCTGGCAACCATGAGTACGTGCTGTGGCTG
GCGGAAGCGGAGGGAGCCTTGCTGCCGGATCTCGAGCCATTGGTGGCGAC
CACTTTGGCCAGCTGA
>SYNW2282 conserved hypothetical protein
ATGCCAAAGGGCGGCTGGCAGGAATTCAGCACCAGTGAAAGTCTGCAGCG
AACGACCCCGGCGACCGAGCTGACGCCGAAAACACAGCAAATGGTGCGCG
TGCAGCCCACCCGTGGCGGCAAGGGCGGCAAGACCGTCACGATGATTCGC
GGTTTGGAGCTGGACGCAGCTGGGTTCAAGGCCCTGCTCAAGAAACTGAA
AACCAGGATCGGCAGCGGCGGCACCGCCAAGGACGGCGTAATCGAACTGC
AGGGGGATCAGGTGGAGCTGGCCCTGGACCTGCTGACCAAGGAGGGCTAC
CGCCCAAAGCGCGCTGGTGGTTAA
>SYNW2254 Poly A polymerase family
ATGCACATGCCCTCCAACCCACCAGCTACCGCCATTTTGGAGCGCCTGGC
ACCCGAGCGCTGGCCCCTTCCCCTGGATCTTCTGCCGGCGGAGGCGGTGC
TGGTGGGGGGAGCGGTCCGTGATGCCCTGCTGGATCGGCTCAAGCCCCAG
CCGGATCTTGATCTTGTGGTCCCCAGCGGTGCCCTCGCCCTGACGTGCAC
CCTGGCCAATCGGCTGGGGGGCAGTTGCGTGGTGCTCGACCAGGAGCGGG
ACATGGCCCGTCTGGTGCTGCGGGGCTGGACCGTGGACATCGCCCGACAG
GACGGTGCAAGTCTCGAGGCGGACCTGCAACGCCGGGATTACCGCATCAA
CGCCATCGCCCTGCCGCTGAATGGGCCTGCACAGCTGATTGATCCCACCG
GCGGCCTGGCTGACCTCCAGCAAGGCTGGCTGACGGCCGTACGCGAATCA
AACCTCACCGACGACCCGCTGCGGCTGCTGAGGGGCCTGCGGCTGATGGC
TGAGATCCCCCTCAGCCTCGATCCGATGACCGCTGGCTGGATGCGACGGC
ACCGGCAGCAACTGACGCAAGCAGCGCCGGAACGGATCCTGGCGGAACTG
CAGAAACTGGTGGCGGGTCCCCTGGCTGATCAAGCCATCGAGCAGCTCTG
CCAACTCGAACTGATCCAACCCTGGGCGGCCGATCAGCCACTGCCGACGT
CCGTCGACACGATTCAGATGACGACAGACGAACAGGAGCAGGCTCTGCCA
TTGGCCCGCCTGACCGCCTTGATCAGCGACCAGGGGCTGGAACAGCTGAG
GGGCAGTCGAGCCCTGCGTCAGCGTTGCCGGCGACTGCGCCAGTGGCAGC
GACGCTTACCGGATGACCCGGAGACGCTGCCGGAAGGGGAGCGGGTGCAA
CTGCATCTGGATCTCGATCGGGATCTGGCGGCATTGATCCTTCAGCTCGA
ACCAGCCCATCAGACCTGCTGGCTGCAGCGCTGGCGGGACTCGGAGGACC
CGTTGTTTCACCCGGCCAGCCCCGTGGATGGGACCACGCTGCAGCGTGAA
CTCAAGCTGGCTCCAGGCCCTCGGCTCGGGGACCTGCTGATGCATCTGCG
CCAGGAGAGAGCCTTCGGCCGCTTGCAGAGCCGCGACGATGCAATCCAGG
AAGCGCACCGCTGGACCAAACGGAATCAGAACGCTCTGTGA
>SYNW0899 probable glucose inhibited division protein
TTGCTTCAGCTTCTGTTGTCTGTTGAACGACCCGTCACAGTGCTGGGGGC
AGGCCTCGCCGGTACCGAGGCGGCCTGGCAGGTGGCCCGAGCCGGCATTC
CGGTGACCATCGTTGAGATGCGTCCGATGCGACGTTCCCCTGCCCATCAC
AGCAGTGATTTCGCTGAGTTGGTCTGCAGCAACAGTTTTGGTGCCCTGAG
CAGCGATCGGGCTGCAGGCCTGCTGCAAGAAGAAATGCGGCGCCTGGGCT
CCCTGGTGATTGAGACAGCGGACGCCCATGCCGTGCCCGCAGGAGGAGCC
CTGGCCGTCGACCGCGGCCGCTACAGCGCCGCTCTCACTGAAGCGCTGGA
TCAGCATCCTCTGGTGACCATCGAGCGGCGTGAACAGCAGGCTCTGCCAG
GGGACGATCAGATCACCGTGCTGGCCACGGGGCCGCTGACCAGTGAACCG
CTGGCCGAAGACCTCCGCGCCTTCACCGGACGGTCGGATTGTCATTTCTT
TGATGCCGCCAGTCCGATCGTCCATGGCGACAGCATTGATCTCAACGTTG
CCTTCCGCGCCAGCCGTTACGACAAAGGCGATGCGGACTACATCAACTGC
CCGATGGACAAGGAGCAGTACCTCGCCTTCCGTGAAGCCCTGCTGACGGC
TGAACAGGCTGAGCTCAAGGATTTCGACAAAAACGACGCCACCTTCTTCG
AGGGATGTCTGCCGATCGAAGAGCTTGCCCGTCGTGGCGAGGACACCATG
CGCTATGGCCCGCTCAAACCCATCGGACTGTGGGACCCCCGCTGGGGAGA
TGTGAACGACCGTGATGTGCGTCGTGCCAAGCGGGCTTATGCCGTGGTGC
AGCTGCGCCAGGAAGACAAGGACGGTCGGCTCTGGAATCTCGTTGGCTTT
CAGACCAACTTGAAATGGGGTGAGCAGAAAAGGGTGCTGCAGATGATTCC
AGGTCTGGCAGAGGCCGAATTCGTGCGTTTTGGGGTGATGCACCGCAACA
CCTTTTTGGAGTCTCCGCAATTGCTGGAGCCAACCCTGCAATTCCGCAGT
CGTTCCTCACTGCTGGCAGCAGGCCAGATCACCGGCACTGAGGGCTATGC
CGCCGCTGTAGCCGGTGGATGGCTTGCGGGCACTAATGCCGCTCGCCTCG
CCAGAGGATTGGCGCCGATTGATCTGCCTGCTACCTGCATGAGCGGCGCC
CTGACTCACTTCGTCAGTGAAGCTCCCACAGCCAAATTCCAGCCGATGCC
CCCCAACTTCGGCCTGCTGCCGGAGCTGCCGGAGCGGATCCGCGACAAGC
GCGCCCGCTACGGCGCCTACCGCGATCGGGCCCTGCGGGATCTTGAACGG
ATCAAGGCCCTGACGCCGAACGCCCTGGTGGCATGA
>SYNW0797 conserved hypothetical protein
ATGGACCAACGCCTGCTCTTCCCCGCCACGGAAAGCAACCGAGGGCCGAT
CGGTGATCTGCTCGAAACGATGCTGCCTGCGGATGGTTCAGTGCTCGAGA
TCGCGAGCGGCAGTGGTGAACATGCCATCACCTTTCAACGACGCTTCCCT
CAACTGCTGTGGCAGGCCAGTGATCCGGACCCCGACCACCGGGCCAGCAT
CAACGCCTGGATCCGCCACGCCGAACTGGCTGGCGTGATGCCTGATGCCC
TGGATCTGGATGTCGAGCAGCGCCCTTGGCCCCTCCCAGCCGCTGTTGTG
GAGGATCTGAAGGCCATGGTGTGCATCAACCTGCTGCACATCAGCCCAGC
CACCTGCACGGAAGCGCTGTTGCAGGAAGCCTGCGACCGCCTTCCAAAGG
ATGGCCTGCTGATCATCTATGGACCCTTTTGCCACAACGGCTGTCACACC
AGTGCCAGCAATGCGGCCTTTGACGCCTCCTTGCGGCAACGCGACCCTCG
CTGGGGATTGAGGGATCTGGACTGGATCGATGACCTGCTCACCCATCGCC
CGATGAATCTCGTTGGTCGTCACGCCATGCCTGCGAACAACACCACGCTG
GTTCTCAGACGACGCTGA
>SYNW2303 conserved hypothetical protein
TTGAAGTCAGATTCAGATACTGAAGGTACTGAGCTTTGGAAAGACAGTAC
TACAGGTTCACTCTTTATTGTTGATGATGGAAAGGAAAAATCAGATAGGA
AACAAATCCTGGATCAAGGAGGTTGGGAGCCTCAGCTTGAATTTTCTGAT
AATTGGGAGGGTGGGTCTCATACGTCCACTGTGTTTGCGGTCGAAGCTAC
TAATAATGGCTATGCCTTGGTAATCAAGCATGAAGATACTTTTAATGATC
ACGACACGATTTCTGGCGGAGAAGGTTATGACACGATTTCTGGCGGAGAA
GGTTATGACACGATTTCTGGCGGAGAAGGTTATGACACGATTTCTGGCGG
AGAAGGTTATGACACGATTTCTGGCGGAGAAGGTTATGACACGATTTCTA
GCGGAGAAGCTGAAGACACGATATTTGGCGGCGAAAGCAATTCAGTTCCG
CCGCCATCAGAGGCGCCAACTCCATTTGTTCAGGCCAAACCAGATGAAGA
TGACTCAAACTCGATGGTCTTCTGGGAAATTTTAAATCTTGATTCCGAAG
CAAGAATTGATTGGAGTCAGATCTCTGCATTTACAGAATCAATTGCCGGA
TACGAAAAAGTCTTCAATCAGGATCTTGATTTGGATGGCAAGATAGGAGT
TGATATTGGTGCATTAAGTTCACTTCAGACAGACACAACGGGGTATCAGT
TGAAGGTGTCCACTGCAGGCACTGTTCACATTTGGGATGGAACAAATTCT
GAATCGATTGTTGATGTTACTGATATAAATGGCGGTACACCATCGATGGT
CGTCTCAGATGATTGGGGAGAGTACGGTAGCTTTAATATTGCCCCCTATG
CAGTTGTCAAAATCGACGGGGGGTCGTCGCTCGATTATTATCAATTAGCT
GTTAAAATTCATGATGTTTATTCTTACTATGAAGGCTCTATTCTAGTTTC
GGAAGAACGCGTTGAGTGGGAGATCTACAAAGTCTCGTTGGACGGAGTTA
TTGATTCCTCTGAGAAGACCCATGCGTTCTCGATTATTCCGTGGGAGCCT
AAGTTTGGCCAGGATATGAATGGTGACGATGACTTCTCTGGAACCGTAAA
CATCAAATATAGACGCACTGATAGCTCTGGAGTTGATGGCGTTAGTATCG
GTGAAGCTGATGGTCAGCTTTATATCATTAATGGCGCCACACAGATTGCT
GTTCAAGACCCATGGATAGAAGATAATGTAAATTGGGGTGATGGGGGATA
TCAGTCAACTGCGTTGGCTGCTGAATTGAACGACAATGGCACTACGGTTA
CAACGGACGATTACTATCAACTTGCTGTTAAGCAGACCAATACTTGGACT
GATTACTGGGGAGGTGGCCAAACTCAGACCGATATTAATTGGCAGGTTTA
TGCGATTGATTCTGCTGGACGTATTGATTGGGAGAAGACGATTTGGACTC
AATCTATTGCTGGATTTGAGAATTTCTTCGGCGAAGATCTTAATAATGAC
GGTACAAAGGGCATCGATTCTGGCAATCTAAAAGATGCCGAGTTAGACAA
GTATGGCTACCGCTTGAAAAAAGATTCCGATAATTTGCTCTACATTGTTG
ATGAGAATGGTGAAAACACCATGCCTGTTAAGGATGAGTATGGTGGCTTC
CCTTCCTTTGATCATTCCCACTCCTATTGGGGTGGCTCCCATCTTTCATC
AGCGATTGCTGTGGAACAGAATGCTGACCTGAGTTTCTCCTTGGCTGTAA
AACGTCAGGATAGTTGGGATGGAGAAACGAATACCTCATGGGAAGTTCTG
AACATTTCTCAGGCTGGTGTCTTGTCTTGGGATAACGCCCAATGGTTGGA
CGACATCACTCTTCTTGAAACCACACTATTTAACGATGATCTCGACGGAG
ATGGGGCAACAGGTTTAGACCTCAGCGCTCTGAACGTTTTATCGACTGAC
ATAGAAACGACCTCTGGGCGTTTGTATTCCAATGCTGCTGAGGACCGTTA
TTACATTCGGGATGGCAATAGCACCCTCGCAATTGCTCATGAATGGGGCG
AACCAATTGACTTTAGTGGGAAAGAGAACTGGGGGTCTTTTGAGTTCTCT
AGAGAGCCGATCGCGGCTGAGTCCCATTCCTTCACTGGAAGTGATGGCAG
TACTTATGATGGCTATATCTTGGCAATTAAAAATACTTTTGTTGATTCAT
CAGGTTCTGAATTAGTTGAAAATATTGATTGGGAGATTGAGTATGTGAAG
CCTTCTGGTGTTGTTGATGACATGTTGAGAACTCACACCAATGGCATTAA
AGGTAAGGAGAAACTCTTCGCGCAAGACCTTGATGGTGACACCCAGATTG
GTCTAGATATAACGAAACTTGTTTCGGTGTCGACTGACACTACCGGCGAT
CTTCTTAAAACCCTTGGAGAATCTCTGTATATCTTCAACGACAAAAATAC
AACGACCACTGACGATGATGTTGTCATTGAAGTCGTGGACGCATCGGGTT
TCACGCCTTGGTTTGACTGGCAGGAGACTTGGGGTTACGGCGACTATGCC
CAAGTTGAGAGTGCCAGTGCATATTCAGTCGAGTCCTTGGAGGATTCTGA
AGGTAATACCAACTTCCTTCTAGGGATAAAGATCTCAAGCACATATGCAG
GAGTAGAGGACACCTTCTGGGAAACGTTCAAGATCAAGGAGTCCAATCCA
GGCGAGGGCGATTGGTACCTTGATTGGGATACCGGTTCTTTCTCTAAAGG
TTCCCGACGTCTCGAGTCAATCTTTAATCAGGATCTTAACGGCAACGGTG
TCGTGGACAGTGGATCGGTTAGCACTCAGAACGTCTCGACCGACACAAGT
ACTTCGGGATCGCGGGGTGCGGCCCTCGCCATCGATGATGAGGGTTCCCT
CTACATCAAACGTGGTACCAACAACCCAATTCTGATTGAAGACGACAATG
GTCCTGTCACTTTTGACTGGAATGATGCCTGGGGTGGTTACACCCGCACT
TCCTCTGCTTTTGCCGTCGAGGGTCTTCTCAATGATGCTGGAACGGCGAT
TGGGTCATACAAACTAGCTGTGAAATATCAGGAGACGGATCAAAGAACAG
ATACGACTTCCACATACTGGGAAACCTTCATCGTCTCTTCTGAAGGTAAG
TTGGATTGGGGTTCTGCCACCTGGGGGAAAATCAAGCGCCATGAAGGTGA
TCTGAACGAGGATATGGATGGTGATAATGCAATCTGGAGCGAGGCGAACG
TTCAATACACAGCTGTCGATACCGATACTATTGGCTCCAAGCCATACTTA
GATCCGGAAAATTATCTCTATGTACAGCCGTCGGGCTCGACCACCAAGTC
CGCAGTGTTGACAGAGTCTGGTGATGCCTTCCTAGCTACGGAGTCCTTTA
GCTACGGGAACTTCGCGTTTAGTCAGGCACCGCTCGCTGTTAAGGATGTC
ACAATTGGTTCTGGAGAATCAGCTTTGTCCTATTACAAGCTGCTGTTTGA
GCAGACGATTACTGAAGGCTCGAGTGATCCGGTTAAGGAGTATATGACCT
TGAATATTGATCAGGTATCGATGAAGGTTGACTGGGCTACTGAAACCTAT
TTCTTTAGCCATGAAACCCTTGAGGATCAGTTCCGGCTTGATCTGAATGA
TGACGGATCAGTATTTGAAGTCAACGCTAATTCCACGACTGCTATCGCGA
CTGATACGGCGGGAGCTAAATTGCGTCAAACATCTGACGGCTCTCTCTTC
ATTAAAGATGGTGAGAACTCAGCCTTTGCGGTGACTTATGCCGATGGATT
ACCCGTCGATCTCGATGTGCAAGAAACACTTTCTGACGTCCTGTCTCGCT
CCACCAAGGCGATAGCGGTTCAGAAGTCGGGTGATCTATACAAATTGGTT
GTGAAGGAAACGACAGGACTCACTGTTGATGGAGTTGAGACGTCGAGCGT
TGTTTACGTTGTGTATGACGTCACCACCGCTGGTATTTTCAAGCCGAGTT
CGGCGTTGTATCGCACAGAAGCCGAACTCAATGAGACGACCTGGTCTCAG
GACATTACTGGTGATGGTGTTGTTTCCCAAGGCTCCACCTCTTCAGCATC
CGATGCCTTCGCTGATGCAGTGGGGACCGATGTTAGTCAGGAGGTTGTCG
ATAAATTCCAAAACTCATCTGCATCCGACATCCTCTCAGTAAAGGCTGCT
GATGGATCGAATCCGCTGTCTATTTTTGTCCCAACAGGCTCAGGTGCCAA
AAGCAACGTTGACCTTACGGTCAAACAGGTGCAATCGGTTGACGCCCCAT
TGATGGCGAAAGCAGTTTATGACGCTGGTTTGACTGCACAAGTTCAATCT
CGACGTGCGAAGACAACCGATACTTCTTACGAGGCTGTAACCGGTCTTTT
GGATACTCAAATTACTGTGACTAATCAAGCCAAGTTTGGCAAGATTCAGT
CAGTTTCATGGGTGCTTCCCGAGGATGTTGGTGCAGATCCGACATACATA
GCTAAGAATTCTGTCACTGGTGAATTCACCAATCTTCAGTATGACGCTGA
AACCGGCGAGGGTGCTCAGTGGGATGAAACCGACCGTACATTGACCCTGT
TTGTGAGGGACAACGGTAAGAATGACGAGAGTGATGATCAGGGTACTATT
AGAACTCCGGGTTTTGTAGCGGCCAGGTCATCTGGTACGACTTCGGATTC
AACAACGCCGACTCCGACGCCATCAGTAACACCAACACCGACGCCATCAG
CAACACCAACACCGACGCCAACACCAACACCAACACCAACACCGACACCG
ACACCATCAGCAACGCCGACTCCATCTCCATCAGCAACGCCGACTCCATC
GCCATCAGCAACGCCGACTCCATCGCCATCAGCAACACCAACACCGACGC
CAACACCGACGCCAACACCGACGCCATCAGCAACGCCGACTCCATCGCCA
TCAGCAACGCCGACTCCATCGCCATCAGCAACGCCGACTCCGTCGCCATC
AGCAACGCCGACTCCGTCGCCATCAGCTACGCCGACTCCATCGCCATCAG
CTACGCCGACTCCATCGCCATCAGCTACGCCCACTCCATCGCCATCAGCA
ACGCCGACTCCGTCGCCATCAGCAACGCCTGATCCCACACCTACAGCCTC
AGATGAGCTGCCGGTTGATGTCTCTGACTTGGGCTCAGATGACATTTCTA
GCCTCACCCCAGATGCTGTCAGCGAGCTGACTGCAGAGCAGGTAAATGAT
CTGTCTCCTTCCGCAGTTCAGGGCTTCACCGCAGAGCAGGTTTCGGAACT
CTCTGAAGAAACAGTGGCAGGTTTCACTGCTCAGCAGGTCCAAAAGCTGG
CACCAGAAGCAGTCGCTGGTTTCTCGAAGTCTCAAGTGTCTGAGTTGACA
CCGACGTCGTTGAAAGGGCTTTCATCCGAGCAAATGAGAGTTTTGCCTGC
TTCTGCAGTGGAGGGTTTAACCGCAAAGCAGGTCTCAAAACTTTCTGAAG
AAGCAGTGAGTGCCTTCACTCCTAAGCAGTTCAAGAAGTTGGCTCCAGAG
GCAGTGGCAGGGTTCTCGAAGGCCCAGGTGTCTGAGCTGACTCCGAAGAC
GATCAAGGTGTTGGGTTCCGAGCAAGTGGAGCAGATGCCTAAAAGATCCT
TCCAGGCACTGGATACTGCCCAACTTGCAAAACTCAGCAAGGATGCGGTC
ACGGGTTTGACCAGCGGACAGTTGCGGACACTGAGCGGTGCCGAAATTTC
CGCCTTCAAGCCCGCCAAGATTAAGTCCCTCGATGCCGACGCCATCTCTG
GTTTCAAGCCAGCGACGCTGAATGATTTCAGCCGCCGTCAGGTCAAGGCA
CTCAGTGACGACCAATTGGCTGGCCTGACCAAAAAGCAGATTAAGAAGGC
GGGTGACTTCGTTGATGCCCTTACCGATCGGCAGATTGGTGCCCTCTCAT
TTGATCCAGGTCGTTCCAATCGTCTAATAGATCCACTGGATGATCAGAAC
TACTCGAGCCTGCTTTCCGGATTAGATCTTGAGACCCTCGCCTGA
>SYNW1432 hypothetical
ATGGCATGGCGGCAGCCAAGAGGAGATCAACTGTCCCATGGAACTGAACA
AGTCAGCGGCAGGGGCGGGGCTTCAAAAGTCGGGGGGCAGAGCGACGACG
GGAACGACGCTGGGGGCCATACAACGCTGGCCATGCGTCCGACCATTGCC
CGCATTGGAGACAGATGGAGCGTCGCGGAACTGGTGAATCCTTGGAATGC
CCCAGGTTCAGCTGATGGCAGTTCCGACAGATCACAACGAACTCAGGCAT
CACCGTTCCCCCGGAACTTATTTATTTCAACAGAGTGA
>SYNW0015 Uncharacterized protein family UPF0034
ATGACCGCCACCGAAACCGCTGCCTACCGCTTCAGCGTGGCGCCGATGCT
GGATTGCACGGACCGACACTTCCGCGTGTTGATGCGGCAGATCAGCCGCC
ATGCCTTGCTGTACTCCGAAATGGTGGTGGCTCAGGCTCTGCACCACAGC
AACCGCCGCGACAAGCTGCTGGATTTTGATGCTGTCGAGCATCCGATCGC
CCTGCAGGTGGGAGGAGACGATCCGGCCCTTTTGGCTGATGCCGCACGGC
TGGCCAGCGACTGGAACTACGACGAGATCAACCTCAACATTGGCTGCCCG
AGCCAGAAAGTACAGGCCGGCAACTTTGGTGCCTGCCTGATGGCGGAGCC
AGACCTCGTGGCTCGCTGCGTCGAGGCGATGTCCAACGCCACGTCACTCC
CGGTGACGGTCAAACACCGCATCGGCATTGATGATCTCGACAGCGATGAC
CTGTTAACAGCCTTCGTGGATCGGGTGGCAAGCGCCGGAGCAAGCCGTTT
TTCCGTACATGCCCGCAAAGCCTGGCTGGACGGTCTGGACCCGAAGCAGA
ACCGAACGATCCCACCGCTGCAGCACGACCGCGTACAGGCACTGAAGCAA
CGCCGGCCCCACCTCACCATCGAACTGAACGGAGGGTTGGAGTCACCCGA
AGACTGCATAGAGGCTCTAAGAACATGCGATGGAGCCATGGTGGGCCGGG
CGGCCTACTCCCATCCCCTGCGATGGGCAGCGATGGACCACCTCGTCTTC
GGCAAACCACCGCGAGATCTTCTGGCCTCCGATGTGGTGACCGGTCTGCT
TCCCCATGCTGCTGCCCACCTCAGCAGTGGCGGTCGACTCTGGGACCTTT
GCCGCCATCTTGTGCAACTGGTGGAAGGCGTCCGAGGAGCCAGACACTGG
CGGCGTGAACTTGGCGATCGCGCTCAACGGCCCGGAGCCGATCTCACAGT
GCTGGAAGAGGCCGGCAGGCAGTTGCGCGAGGCCGGCCTCTGA
>SYNW2207 possible Ribosome-binding factor A
ATGGCACAGGGGCGTCGAGTCGAGCGGGTGGCGGCCCTGATCCGCAAGGA
AACCAGTGAACTGCTGATCAATGGCATCCGCGATGAACGGGTGCATCAGG
GGATGGTCAGCATCACCAACGTGGAGGTCTCCGGAGATCTGCAGCACTGC
AAGATCTTCGTGAGCATCTTTGGCGATGAGGCCAGCCAACTACAGGTGAT
GGAAGGGTTGCAGGCCGCCAGCGGCTACCTGAAGGGAGAACTCGGCCGGC
GGCTGCAGATGCGTCGCGCACCGGATGTGGTGTTCCAGCTGGACCGCGGC
ATCGAGAGGGGCACCTCGGTGCTGGGTCTGCTCAACAAACTCGAGGACGA
GCGCAAGGAGCGAGGGGAGATTCCGGCGGGAAGCGATGAGCTGCCAGCCG
AGTGA
>SYNW1937 similar to tRNA-(MS[2]IO[6]A)-hydroxylase
ATGACCGTGTCCACTCCGGATAAGTCAGTCGCTTCGATCCGCTGGTTGAA
GGCACCCACCAGCTGGAGCTGGGTGGAACAGGCCAATGCCTGCCCAGTGG
AGGTGTTGATCGACCATGCCCATTGCGAACGCAAAGCGGCTGGCTCTGCT
GTCCAGATGATGTTTCGTTATCTGTGTGAGCCCGGTCTTGGTGAAGTGCT
GAGCCCCTTGGCCCGTGAAGAGCTGGAGCATTTTGAACAAGTTCTGGTTG
TGATCAAAGCCCGTGGACGTTACTTAGAGCCTCTTCCTTCCCCTGGCTAT
GGAGCGGAGCTTGCCAAGCACATTCGCAAAGCGGAGCCCCACCGAATGCT
GGATTCCTTTCTTGTAGCCGGCTTGATCGAAGCGCGCTCCCATGAGCGCA
TGGCTTTGCTGGCTGAGCACAGTCCAGATCCAGAGCTGCGCCAGTTGTAT
GGAGACCTGTTGACGAGCGAAGCACGCCATTTTGGACTTTATTGGACTCT
CGCCGAATCCCGATGGTCTAGAGAGGTGATCAAACCACGGTTGGAGGAGC
TGGCTGAACATGAGTCGCGGGCTCTTGATGGAAAGCTTGATGACCCACAG
GATGTGAGAATGCATTCGGTTGGAATACAGAGTTGA
>SYNW0682 N2,N2-dimethylguanosine tRNA methyltransferase-like protein
GTGGCGGTCAAAGCTCTGGTCGATCCGGGTCCTCACTATCGCGAGGGGGC
GGCTGAGCTGCTGCTGGGGGATGGCTTCTTCCGCCGCGACTCCCGGCTGG
CCAGGGATTGTTCTGTGCTGCTGGCCTGGCATCAGGCCAGCACAACAACC
TGTAAGTACCCCCTCCAGTGGCTGGATCTGATGGCGGGCTGCGGCATACG
GGGGCTGCGTTGGGGACTGGAGGCAGCTGGGGCTCAATCGATGCCACCGG
AGATCGTTGTGAACGATGCCGATGGCGATCGATGGCCCCTGCTGGAGCAC
AACCTCAAGCCATTGGCAGGGGCCACCTGCAGCAGTATTCCCGCCGAGAC
GTTGCTGTGTCAGGCCCAGCTCGAGGGGCGACGGTTTGACCTGATTGATC
TGGATGCCTTCGGACATCCCGGTGCTCTGATCCAGCCAGCCCTGCAGGTC
CTCGCCCCGGACGGAATTCTTGTGCTGGCAAGCACCGATGGTCGTTCTCC
TACCGGCCATGACCGCCCCGGCGCGATCCGCAGCTTCGGAGCAGCGGCTC
GGGCCCATCCCGCCAGCTGGGAGCTAGCCCTGCGTCAACAGCTGGGGTTG
CTGGCACGACAGGCCTGGTTGCTCGGCCGCGGACTCCAGCCGTTGATGAG
CTTCAGCGATGGCCGCACCTTCCGTCTGGCGGTTCGCCTGAAACGCCTTT
TGCAACCAGACGAGGAAGCGACGCTGGGCTTGCTGGCCCGCTGCGGGACC
TGTGGTGCCCAGCAAAGCCAGCCGCTGTTGCGTCTGCGTAACTGGTCGGT
CTGTCACTGCCCACCGGAGCAGGGGCGCTGGGCCATCAGCGGGCCGCTCT
GGCTGGGTCCGTTGCAGCAGGTCGACCTGCTCGAGGAGCTGATGGCCAGT
CCCGTGCCGGTGGCCTCAGCCACGCGGCGGTTGTTGCAGCGGCTCCAGGC
CGACCCGGGAGGTTTGGGCCATGTTTGGGCCACCGCCGAGCTGGCACGGC
GCTGTGGATCCGGCCCGCCACCACTGCAGCAACTGGTGGATGCCCTATGC
ACCCAGGGATATCAGGCCTGGCCCAGTGGGGTGATGGCTGGTCAGGTGCG
CACCGATGCCGATCTTCCCGAGCTGTTACAGATCTGCTCCAACCTTCGTG
GGGAAGGGCCTTTAATAGGTCCTTGA
>SYNW0920 probable ATP-dependent RNA helicase DeaD
ATGAATGACCAACAGCTCGGGGAGACCCCGTGCGCCGTCGATCTGTCCGC
ATCTTCGCTGCCTGAGCAGGCCACTTCAGAGCAGGGTTCTGCAGACGTCT
TCACCACAACGATCGACGCCCAGCAACCGGAATCGGGTTTCGATGGTTTC
GGATTCAGTGAGGCATTGCTGAAGACGCTGGCGGATAAGGGGTACAGCGA
GCCTTCACCGATTCAGAAGGCGGCCTTCCCTGAATTGATGCTGGGGCGTG
ACCTGGTGGGCCAGGCCCAGACCGGTACCGGAAAAACGGCGGCCTTCGCG
TTGCCATTGCTCGAACGGCTCGCCAGTGGCCAGAAAACTCCGCAGGCCCT
CGTGCTGGCACCCACCCGCGAACTGGCCATGCAGGTGGCTGATTCGTTCA
AGGCCTATTCCGCTGGGCATCCGCATCTGAAGGTGCTGGCGGTTTACGGG
GGCACCGACTTCCGTTCTCAGATCAACACCCTGCGCCGTGGCGTGGACGT
TGTGGTGGGGACACCGGGCCGGGTGATGGATCACATGCGGCAGGGCACCT
TGGACACCTCCGGCCTACGCAGCCTGGTGCTGGATGAGGCCGACGAAATG
CTGCGGATGGGCTTCATCGACGATGTCGAGTGGATCCTGGAGCAACTGCC
GCAGGAACGGCAGGTGGTGCTGTTCTCCGCGACCATGCCACCGGAGATCC
GTCGCCTGTCGAAGCGCTATCTGAAGGATCCAGCCGAGGTCACGATCCGC
ACCAAGGATCAGGAAGGCAAACGGATTCGCCAGCGTTCGATCACCGTGCC
GATGCCCCACAAGCTGGAGGCTCTGCAGCGGGTGCTCGATGCCTGCGGTG
GTGAAGGAGTCATTATTTTTGCCCGCACCAAGGCCATCACCCTCACCGTG
GCCGAGACGCTTGAGGCGGGCGGGCATCAGGTGGCCGTGCTCAACGGTGA
TGTGCCGCAGAACCAGCGGGAGCGGACGGTGGAACGGCTGCGCAGTGGTT
CCGTCGACATCCTTGTGGCCACCGATGTGGCCGCTCGGGGCCTGGATGTT
GATCGCATCGGGTTGGTGATCAACTACGACATGCCGTTCGACAGCGAGGC
CTACGTCCACCGCATCGGTCGTACCGGCCGGGCCGGTCGCACGGGGGAGG
CCGTGCTGTTTGTCACCCCGCGCGAGCGTCGCTTCATCAACAACCTTGAG
CGGGCAACAGGCCAGCCGATCGAGGCGATGGAGGTGCCAGGCAACTCCGC
GATTAACCAGGGTCGACTCGATCGTTTGCACAAACGCCTCAGCGAAGCAG
CCCACAACGAGCGGTCCTATGAGGAAGAAGCGGCGCTGCTGAAAGAGCTG
TTGCAACGCATCGGCACGGAACTGGAGCTCAGCCCTGAGCAACTGGCCTA
CGCCGCCCTCAGCATGGCCATCGGCCCAGACCCTTTGCTGCGCCAGAAGG
GCGACGACGAGTGGATTCACAACAACCAGCGCCGCGATCGTGATCGTGAC
CGTGATCGGGGCGGCGAACGGAGAGAGCGCCGCTCCGATCGTCCGGCCCG
TGCCCCGGAGGAGAACATGCAGCGCTACCGCGTCGAGGTTGGGCACCGTG
ATCGGGTCAAGCCCGGAAACCTTGTCGGGGCCATCGCCGGAGAAACCGGT
CTGCAGGGCCGTGCGATCGGCCGGATTCAGATTTTCGACAACCACAGCTT
TGTGGATCTGCCTAAAGGCATGCCGGAGGATGTCTTTAACAGCTTGCGGC
GGCTTCGGGTGATGAACCGGGAGCTACAGATCACTCAGGCGTCGTGA
>SYNW0655 putative nitrogen regulation protein NifR3 family homolog
ATGGTGACCATGCTCGCCTCCACTCCGCTGCAGCTTTCCGGGTCCGGCAC
GGCGCGGCGGCTGGAGTGCCGCGTGCTGCAGTCCCCCCTGGCCGGCGTAA
GCGACCGTGTCTTCCGTCATCTGGTGCGCCGCTGGGCTCCGGATGCCCTG
CTGTTCACAGAGATGGTGAATGCCACCAGCCTTGAGCTTGGCTTCGGGCG
CGGCAAGGTGAAGGAACTCGGCGACGAACAGGGCCCGATCGGGGTGCAGC
TGTTCGATCACCGCCCGGATGCCATGGCCGATGCAGCCCGCCGAGCCGAA
GACGCAGGAGCATTCCTGATCGACATCAACATGGGGTGCCCGGTGCGCAA
GATTGCCCGTAAAGGCGGCGGATCAGGACTGATCCGCGACCCCCACCTCG
CCAGCCGGATCATCGAAGCCGTGGCAAACGCCGTGCGGTTGCCCGTCACG
GTGAAGACACGACTCGGCTGGTGCGGCAGTGACGCCGCCCCTCAGACCTG
GTGCCGGCAGTTGCAGGAAGCCGGTGCGCAACTGCTCACCCTGCACGGCC
GGACCCGCGAGCAGGGGTTCAAAGGCAAGGCGGACTGGGCTGCTATCGCC
GCCGTTAAGCAGGCCCTCACCATTCCGGTGATCGCGAACGGAGACATCAA
TACTCCCGAGGATGCCCAGCGCTGCCTGGCCCAGACAGGCGCCGACGGCG
TCATGGTGGGTCGCGGAACCATGGGAGCCCCCTGGCTGGTAGGGCAGATC
GATGCGGCACTCAAGGGCCTGCCGATTCCAGCCACCCCTGGCCCCGCAGC
CCGCCTGACCCTGGCCCGGGAGCAGCTGCTGGCGCTGGTGGAAGCCCGCG
GTGAACACGGCCTGTTGATCGCCCGAAAGCACATGGGCTGGACCTGCACC
GGCTTTCCCGGAGCTCCGCAGCTGCGTCATGCCTTGATGCGCGCTCCCAC
CCCAGAGGACGCCCTAGCGTTATTGGAGAACCAACGTCTGGCCCTGGAGT
GA
>SYNW0704 probable GTP-binding protein
ATGCTCAAAGCCGGAATTGTCGGTTTGCCCAATGTGGGCAAGTCCACTCT
GTTCAACGCTCTCGTGGCCAACGCTCAGGCGCAGGCCGCCAACTTTCCGT
TCTGCACCATCGAGCCGAACGTCGGCACGGTGGCGGTGCCGGACGAGCGC
CTTGATCAGCTCACCAAGCTCAGCAGCAGCATCGACACCATTCCCACGCG
GATGGAATTCGTCGATATCGCCGGACTGGTGAAGGGGGCAAGTCAGGGAG
AGGGGCTCGGCAACAAATTTCTGGCCAACATCCGTGAGGTGGATGCGATT
GTTCATGTGATCCGTTGTTTTGAGGATGACGACGTCATCCATGTGTCTGG
TTCTGTGGGACCGGCCCGTGATGCAGAGGTGATCAATTTGGAGCTCGGTC
TGGCGGATCTGGCGCAGATCGAGAAGCGAAGAGAGCGACTGAAGAAGCAG
ATGCGCACCAGCAAGGAAGCGCAACAGGAAGATGCGGCCCTGGAGCGGAT
TCAGACCGTGCTGGAGGACGGTGGTGCGGCCCGAAGCGTGGAGTTGGGTG
AGGAGGAGGCACTGATGATCAAGCCCCTGGGCTTGTTGACTGCCAAGCCG
ATCATCTATGCCACCAATGTGAGCGAAGAAGATCTGGCAGAGGGCAATGC
TTTCTGCACTGAGGTGATCAACCTGGCGGCCAACGAGGGTGCGGAAACCG
TTCGGATTTCAGCTCAGGTGGAAGCAGAGCTGATTGAGCTTGGTGACGAT
GAGAGATCCGACTATCTCGAGGGGCTGGGGGTCAGCGAAGGCGGTTTGCA
GAGCCTGATTCAGGCGACGTACAGATTGCTTGGGCTGCGCACATACTTCA
CCACCGGTGAGAAGGAAACTCGTGCTTGGACGTTTAAAGCCGGCATGACG
GCACCGCAAGCCGCTGGTGTGATTCACACCGATTTTGAACGGGGCTTTAT
CCGCGCTCAGACGATTGGGTGGGAGAAGTTAATAGAAGCTGGATCCTTTG
CTGAGGCACGCAACAAGGGATGGCTTCGCAGTGAAGGAAAGGATTATGTG
GTGGATGAAGGTGATGTGATGGAGTTTTTGTTCAACGTTTAA
>SYNW1317 predicted exonuclease involved in mRNA processing (COG1782)
GTGATTGAACGCACCCCTGAGGGGCTGTACTGCCGAGCGGCCGATGCCTG
GGTCGACCCCTGGCGTCCGGTCCCCAGAGCCCTGATCACCCATGCCCATG
CCGACCATGCCCGTCCCGGATGCGGTGAGTACTGGGCCGTGGCAAACAGT
GAAGGCGTGCTACGCCAGCGCCTCGGGCAAGACATCAGCCTGCATCCGGT
TCAGTACGGAGTGGAACACTGGCTCGGGCAATGCCGCGTGTCGTTCCACA
GCGCCGGTCACGTGTTGGGGTCGGCCCAGATCCGCCTTGAGGTGGATGGT
GAAGTGTGGGTGGTGAGCGGGGATTACAAGCGGGATGCCGATCCCAGCTG
CGATCCGTTTGAACCGGTTCCCTGCGACGTGCTGATCACCGAGGCCACCT
TCGGGCTGCCCATCTATCGCTGGCAAACCGGGGCGGAGGTTGCCAATGAA
ATTCGGGCCTGGTGGCAGGGTGATCGACAGAGACCATCACTGCTGTTCTG
TTATGCCTTCGGCAAGGCGCAGCGACTGATGGCGGAGCTAAACGCCATCG
GCGTGGACGACGAAGTGCTTCTGCACGGCGCCGTTGAAGCCGTGACCCGC
CACTACCGGGCCGCCGCTGTCTCCATGACACCCAGCCGGCCGGTGAGTGA
TCTCCCAAGATCGGACAACCTGGCCGGACGTCTGGTGCTGGCGCCACCAT
CCGCCCATCGCTCCAGCTGGATGCGGCGGTTCCGCTCTCCTCAAACGGGT
TTTGCCTCAGGCTGGATGGCCGTTCGGGGCGCCAGGCGTCGGCGGGGTTA
CGAACGCGGCTTTGTGCTGAGCGATCACGCCGACTGGCCTGGGTTGATTC
AGACGGTGCGCCAGTCCGGAGCACGCAAGGTTTATGTGACCCACGGTCAG
AGTGATGTTCTGGCCCGTTATCTGCGCGAAGTCGAGGGGATCGAGGCGGA
GCCCCTTGAAACCTTGTTCGAAGGGGAAGCGGATTAA
>SYNW1622 tRNA(5-methylaminomethyl-2-thiouridylate)-methyl transferase
ATGAGCAGCGCCACCAGCTCAACTGATCGCCTCCCCACCGCAGCAGGAGA
TGCAGCATTGCAGCGGCTGAGGACTTGGCCGGGCGAGCACCGCGTCGCCG
TTGGTCTCTCCGGTGGAGTGGACAGTTCCCTGACCGCAGCACTGTTGGTC
GAAGCGGGCTGGGAGGTTGAGGGCCTCACCCTTTGGTTGATGAGTGGTAA
GGGCGCCTGTTGCGCCGAAGGTCTCGTGGATGCAGCCGGAATCTGCGAAC
AGCTCGGCATCCCCCATCACGTGGTGGACACCCGGGACACCTTTCAACGG
GAAATCGTGCAGCGGCTAGTGGACGGCTACCGCGAAGGCATTACGCCCTT
GCCCTGCTCTCAGTGCAACCGTTCGGTGAAGTTTGGGCCGATGCTCGACT
GGGCCGCCGAGGAACGGGGGCTGCCCCGGATTGCCACAGGCCATTACGCC
AGGATCCGCCATGGCGGTGAGCAAGGCCGGCATCAGTTGTTGCGAGGGCT
CGACAGTCGCAAGGACCAGAGCTATTTCCTCTACGACCTGCCCCAGGAGG
TGCTGGGAAGGATAGTGTTCCCCCTCGGCGAACTCACCAAAGCCGACACC
AGAGGGGAAGCAGCCCGGCACGGCCTGCGCACCGCAGAAAAACCGGAAAG
CCAGGATCTCTGCCTTGCGGATCACCATGGCTCCATGCGGGCGTTTCTCG
ACGCCTATCTGCCTCCACGACAAGGCGAGATCGTGCTGAGTGACGGCACA
GTGGTTGGTGAGCATGACGGCATCGAGCACTTCACCATCGGTCAACGCAA
GGGGCTGGGTGTGGCCTGGCGGGAACCGCTCCACGTGATCCGGCTCGACC
CCGCCATGAATCAGGTGGTGGTGGCGCCCCGGGCGGAGGCGGGTCAACGC
AGCTGTGTGGTGGGGGCAATCAATTGGGTCTCCATCGCACCGCTCCAGCA
GCCACTGGAGCTGGAGGTTCAGGTGCGCTATCGCAGTGAGCCGGTTGCAG
CACAACTCACCCCGATTCCCCACACACCAGAGGATGAAGCGCGCCAGCGG
CCTCACCGCTGCCGGCTGCAATTCCTCGATGATCAGTTCTCCATCACCCC
CGGACAGGCCGCCGTCTTCTACAGAGGAGAAACGGTGCTTGGGGGAGGGT
TGATTCAGCGGGACGACCAGGCCCAGACCAACCGCGAATAA
>SYNW1681 putative tRNA (guanosine-2'-O-)-methyltransferase
ATGCCCCTGCTGCCCAGACGGTTTGAACGGCTGAAATCCGTTTTGAACCA
TCGCATGGCAGATCTGACCGTGCTGCTGGAGCACGTGGAGAAGCCCCACA
ACCTGTCCGCCATCCTGCGCAGTTGCGATGCGGTGGGCGCCCTCGAGGCT
CACATCGTCAGCCTGCAGGGACGAACGCGCACCTTCAACAGCACCGCCCA
GGGCAGTCAGAAATGGGTGCCCCTGAACGACCACCCAACCATTGAAACCG
CAATCGGCAGCCTGAAAGACAGGGGATTTCGGGTCTACGGCACCCACCTC
GGGGTTGAAGCGAAGGACTACCGGGACTGTGACTTCACCGGCCCTACCGC
TTTTGTGCTGGGGGCGGAGAAATGGGGCCTGACCGATCGAGCTCGGGATT
TGATGGATGAGGCACTGTTCATCCCGATGCGGGGCATGGTGCAGTCCCTC
AATGTTTCGGTCGCCACGGCCACCCTGCTGTTTGAAGCACTACGGCAGAG
GCAGGCGGCCGGAACAGCGCCAAGCCAGGGCGAGGGGTTGTCAGCAGACC
ACTACACAAAGTTGCTGTTCGAGTGGTCTTACCCCCAAGTCGCCGACTGG
TGCAGGGAGCAGGGGCGTCCTTACCCGGAACTCAATGCAGACGGAGAACT
GCTGGAAGACTTGCCACGAACGGTGAAGTTGCGCTGCTGA
>SYNW1215 putative tRNA/rRNA methyltransferase (SpoU family)
ATGACTATCCCTGAGCCGAACTCAAGCCTGCGGGTTGTCCTCTACGAGCC
CCAGATCCCCCCCAACACAGGCAACATCGCGCGCACCTGTGCGGCCTTTC
GGTTGCCGCTGGCATTGATTGAACCGCTCGGGTTCTGCATTGACGATCGC
GCCGTGCGGCGAGCGGGGCTTGATTACTGGCCTCACGTGCAGCTCTCAAT
TCACTCCAATCTGGACCATCTGCTGGGTCAGCTGCCGCATCCACACCGCT
TGATCGGCTGCAGTCGCCACGGAGGTGACAGCCTCGGCGAGTTTCAGTTC
CAACATGGTGATGTACTGCTGTTCGGCCGCGAAGACAACGGACTACCAGG
GCATGTGCGTGATCAGTGTGACCGCATCCTGACCATCCCGATGCCCGGGG
GTGTGGACGCTGATGGTCAAGGGGGTGTTCGCAGTCTGAATTTGTCTGTG
GCCTGTGCCCTGGTGTCTTACACAGCCGGTCACCAGCTTCAGATGTGGTG
A
>SYNW2266 Putative sugar-phosphate nucleotidyl transferase
ATGTCAGAAACGCCGATGAAGGCGATGATCCTGGCGGCCGGAAAGGGAAC
AAGGGTCCAGCCGATCACCCATGTGATCCCCAAACCGATGATCCCGATCC
TGCAGAAACCCGTGATGGAGTTTCTGCTTGAACTGCTCAAGGAGCATGGC
TTCAACGAGGTGATGGTGAACGTCTCCCACCTGGCTGAGGAGATCGAAAA
TTATTTCCGCGATGGGCAGCGCTTCGGCGTGGAGATCGCTTACAGCTTCG
AAGGGCGGATTGAAGATGGCGAACTGATCGGCAGCGCCCTGGGTTCAGCT
GGCGGACTGAAGAAAATTCAGGATTTCCAGAACTTCTTCGACGACACCTT
CGTGGTGCTCTGCGGTGACGCTCTGATCGATCTCGACCTCACCGAAGCGG
TTCGTCGCCACCGAGAGAAAGGTGCCCTTGCCAGCCTTGTCACCAAGCGC
GTCCCCAAGGAACAGGTAAGCAGCTACGGCGTCGTGGTCACAGACGCTGA
AGACCGGATCTCCCACTTCCAGGAAAAACCCAAGGTGGAAGAAGCCTTGA
GTGACACGATCAACACCGGCATTTACATCTTCGAACCTGGGATTTTTGAT
CACATCCCGTCGGGCGTATCCTTTGACATCGGCTCCGACCTGTTCCCGAA
ACTGGCGGAGCTCGGGGCACCGTTTTATGCCATTCCGATGGATTTCGAGT
GGGTGGATATCGGCAAGGTGCCTGATTACTGGCAGGCCATCCGCAGCGTT
CTTCTCGGGGATGTGCGTCAGGTGGGCATTCCCGGCAAAGAAATTCAGCC
GGGTGTTTACACCGGCCTCAACGTTGCCGCCAACTGGGACAAGATCAACG
TGAGCGGTCCGGTCTACGTGGGAGGCATGACCAAGATCGAAGACGGTGCA
ACGATTGTTGGCCCAGCGATGATTGGCCCCAGCTGCCACATCTGTGAAGG
AGCCGTGATCGACAATTCGATCATCTTTGACTATTCCCGGATTGGAGCCG
GTGTGCAGTTGGTGGAGAAATTGGTGTTCGGCCGCTACTGCGTGGGCAAG
GATGGCGACCACTTCGACCTTCAGGAAGCAGCGCTGGACTGGTTGATCAC
CGATGCGCGTAGACAGGACCTCGTGGAGCCTTCACCGCAGCAGAAAGCCA
TGGCCGAACTGCTGGGAACCGAGCTCACTCAGGCAGCCAGCTGA
>SYNW1975 conserved hypothetical protein
ATGAGCAGGCATCGACCAAGGGTGCTGGCTTCCCACGAGCTGGCAGACCA
CCTTCTTCAAGGTGGTGCGGCGGTGATCCCCACTGACACCGTGCCAGGGC
TCGCCATTGCTCCGCCGCATGCTGGTGACATCTGGCGACTCAAGCGCAGG
CCTGCCGATAAACCCTTGATTCTTATGGGAGCGACGGCGGAGGTGTTGCT
GCGCCATGCCCAGCCGTCCTGTCGCGACGATGCTCGCTGGATGGCTGAGC
GGCATTGGCCTGGAGCCCTGACCCTGGTGGTTCCGGCCCATGGGGCGGTC
CTCGAGGCGCTCAACCCAGGGGGAACCTGTCTCGGACTCCGTATCCCCAA
CTGTCGTCAGAGTCGCGAGCTGCTGCATCGCACCGGTCCCCTGGCTACCA
GCAGTGCGAATCCTTCTGGAGAGCCAGCAGCCATGACTCCGGAGCAGGCT
GCGGTCTACTTCCCCAACCTTCCCCAGTTGGGGCCTCAACCCTGGCTCCC
CCCGTCGGGGCAGGCCAGCACCGTCATCAGCTGGACGTCCTCAGGACGCT
GGAACGTGCTGCGCCAGGGTGCTGTGATTCCTCAGGGGATCACCGAAGGC
GGATGA
>SYNW0685 possible pseudouridine synthase
GTGGAGGGCTCGCGAAAACGCCGGTTGACCACCCTGCTGTTCAACAAGCC
CTACGGGGTCCTCAGTCAGTTCACCCCTGAAACGGCAAGTCGCTGGCGAT
GCCTGGCTGAATTCATCAATGTTCCTGGCGTCTACGCCGCAGGTCGGCTG
GATGCCGACAGCGAGGGATTGCTGCTGCTGAGCGATCAGGGTCGCCTGCA
GCAACGGCTGACCGATCCGCGTTGCGGGCACTGGCGCAGCTATTGGGTTC
AGGTGGAAGGTCACCCGGACGACCCGCAGTTGCAGAAACTGCGGGAGGGA
ATTGAGATCCAACACCAGCGGACCCTGCCGGCACGGGCGCGCTGGCTGCA
GGGCGAGGACATTCCGTTGCTCCCAGAACGGGACCCTCCGATTCGGGTAC
GCGCCACGATTCCCACCAGTTGGCTTGAGCTGTCCCTGCGGGAGGGGCGC
AACCGCCAGGTGCGCCGGATGACCGCCGCGGTGGGGCTTCCAACCCTGAG
GCTCGTTCGGTGCCGGATCGACCTGATGGACGGCGGGAAAGCGTTAGATC
TGAACGATCTACCGGCAGGGCGTTGGCGGTCGGTGACCAACGCTGAGCAG
GAGCGCCTGAACCGTCTGCTCAGCAGCAGGGTGCCCCGACCACGGAGTGC
TGGCCGGGGAGCTGACCGACGAGGGTGA
>SYNW1545 putative translation initiation inhibitor
ATGACCGCTCAAGCCGTTACGACCCCAGCAGCACCCGCTCCGGTGGGGCC
TTACAACCAGGCGGTGCTGGCCGGTGGCTGGCTGTACTGCTCGGGCCAGA
TCCCGCTGGATCCGGAGACGGGGGCCATGGTGGGCGATGGAGATGTGGCG
CTTGAGACGCGTCAGGTGCTGAAGAACCTCAGTGCCGTCCTCGAAGCCGC
TGGAGCGACCGCAGCCCAAGTGGTGCGGACAACGATTTTTCTGGCTGATC
TTGGGGATTTCCAAACCGTCAACGACATCTACGCAGAGATGTTTGGAGCG
GGCACAAGCCCAGCCAGAGCCTGCGTGCAGGTGGCAGCGCTGCCGAAGGG
TGCACGGGTCGAGATCGACTGCGTGGCCTGGCTCGGTGATGATTTGCAGA
CCGGGTGA
>SYNW2360 alaS,lovB, Alanyl-tRNA synthetase
ATGGCCGCCGCCGCATCGTCGTCTTCTGCAGCGTCTGCCCCCCGCAGCGG
GGAGGACATCCGCGAGGCCTTTCTCAACTTTTATGCCGAGCGCGGCCATC
AGCGCATGGCCAGCGCCTCGTTGATTCCAGAGGATCCGACGGTGCTGCTC
ACCATCGCCGGCATGCTGCCCTTCAAGCCGGTGTTTCTCGGGCAGCAGCA
ACGGCCGGCTCCACGGGCCACCAGTTCGCAGAAGTGCATCCGCACCAACG
ACATCGAGAACGTGGGCCGCACGGCTCGGCATCACACATTTTTTGAGATG
CTCGGCAACTTCTCGTTTGGGGATTACTTCAAGCAGCAGGCGATTGAGTG
GGCCTGGGAACTCAGCACCCAGGTGTATGGCATTGATCCCAGGAATCTGG
TGGTGAGTGTGTTCCGGGAGGACGACGAAGCCGAACAGATCTGGCGGGAT
GTGGTGGGGGTGAATACCAAACGGATCATCCGCATGGATGAAGCCGACAA
CTTCTGGGCCTCTGGCCCCACTGGCCCCTGTGGCCCTTGCTCGGAGATCT
ACTACGACTTCAAGCCCGAGCTGGGGGATGACGGCATCGATCTCGAGGAC
GACGACCGTTTTATCGAGTTCTACAACCTGGTGTTCATGCAGTACAACCG
CGACGCCGAGGGCAACCTCACGCCGCTGGCCAACCGCAACATCGACACCG
GCATGGGCCTCGAGCGGATGGCACAGATCCTGCAGAAGGTTCCCAACAAC
TACGAAACCGATCTGATCTTTCCGTTGATTCAGGCGGCGGCGGATCTGGC
GTGTGTCGACTACGCGCAGCTCGACGACAAGGGCAAAACGTCGTTGAAAG
TGATCGGTGACCACAGCCGTGCGGTCACTCAGTTGATCTGCGATGGCGTG
ACCGCCAGCAACCTGGGCCGCGGCTACATCCTGCGGCGGCTGCTGCGCCG
GGTGGTCCGCCATGGCCGCCTCCTTGGCATCGACAAGCCGTTCCTGGTGA
CCATGGGGGAAGCGGCGATTGACCTGCTGAAAGGGGCTCACCCGGGCGTG
ATCGAACGGCAGGAGGTGATCCTGGCCGAACTCCAACGTGAGGAGGCGCG
TTTCCTCGAGACGCTCGAGCGGGGCGAAAAGCTGCTGGCGGAGGTGCTAG
CCAGCAGGCCAACGCAGATCTCCGGCGCCCAGGCCTTTGAGCTCTACGAC
ACCTACGGCTTTCCCCTGGAGCTCACCCAGGAAATTGCAGAAGAGCAGCG
CATCACGGTGGACCTTGATGGCTTTGAGGTGGCGATGGAGGAACAGCGTC
AGCGGGCCAAGGCCGCGGCGGTGAGCATTGACCTCACCCTGCAGGATGCG
ATCGAGCAGGTGGCTGGTGATCAGCCCGCCACCGCGTTCAAGGGCTACGA
CGCCCTGGATCACCCCAGCACGGTGCAGGCGTTGGTGGTGAACGGGGCGC
CGGCCTCAACGGCGTCGGCTGGAGATGTCGTGCAGGTGGTGCTCGACAGC
ACCCCCTTCTACGGCGAAGGCGGTGGCCAGGTGGGGGATCGCGGATCGCT
CAGTGGTGTCGACGTGATCGTGGCCATCGACTCCGTGAGTCGCAGCCGCG
ATGTGTTCGTGCATTCCGGACGGATGGAACGCGGTCATCTGGCCGTGGGA
GACACCGTCAATGCCCAGGTGGATCGGAGCTGCCGGCGTCGGGCCCAGGC
CAATCACACCGCTACGCATTTATTGCAGGCTGCGCTCAAGCAGGTGGTGG
ATCCAGGAATTGGCCAGGCGGGCTCTTTGGTCGACTTCGACCGGCTGCGC
TTCGACTTCCATTGCCCGACGGCGGTCACGGCTGAGCAATTGGCGCAGAT
CGAAACGTTGATCAACGGCTGGATCGCTGAGGCCCACTGCCTCGAGGTGC
AGGAGATGGCGATTGATCAGGCCAAGGCGGCTGGTGCCGTGGCGATGTTT
GGCGAGAAGTATGCCGATGTGGTGCGTGTGGTCGACGTGCCCGGTGTGTC
GATGGAGCTCTGCGGCGGTACCCATGTGGCCAACACCGCCGAGATCGGCC
TGTTCAAAATCGTTGCGGAAAGTGGCGTCGCTGCCGGCATCCGCCGGATT
GAAGCTGTCGCTGGCCCGGCCGTTCTCGCTTATCTGAACGAGCGCGATGC
GGTGGTGAAACAGCTGGGGGATCGTTTCAAGGCCCAGCCGGCCGAGATCG
TTGACCGGGTGACGGCGTTGCAGGAGGAGCTCAAGGCCACCGGCAAGGCG
CTGGCAGCGGCGCAGGCGGAGCTGGCTGTGGCCAAGGCCGGAGCTCTGGC
TGCCAAGGCCGAGGCCGTGGGTGAGTTCCAGCTGCTGGTGGAACGCCTCG
ACGGCGTTGAAGGTGCCGGTTTGCAGGGGGCAGCCCAGAGCCTTGCCGAT
CAGCTTGGGGATGGTGCGGCCGTGGTGATCGGCGGTCTGCCAGATCCCGG
CGACCTGGGCAAGGTGATCCTGGTGGCGGCCTTCGGCAAGCAGGTGATCG
CCGCCAAGCTCCAGGCTGGCAAGTTCATCGGTGGCATCGCCAAGCAGTGC
GGCGGCGGCGGCGGCGGCCGCCCGAACCTGGCCCAGGCCGGGGGGCGCGA
TGGTGCTGCCCTGCCTGGTGCCCTTGCGGCCGCTCGCTCAGAGTTGGCGG
CAGCGTTGCCTCAGTCTTGA
>SYNW2319 argS, arginyl-tRNA synthetase
GTGCCGGATGTTCCGGCCCTGATGCTCAGCCTGTCCAACACCCTGGATGC
CCAGCTGCGGGCGGCGATGCAACGGGCCTTCCCGGTGGCCGATGCGGTGC
TGGACCCCCAGCTGGCTCCCGCCAGCAAGCCGGAATTCGGTGACTTCCAG
GCCAACGGTGCGCTGCCCCTGGCCAAGCCCTTGAAGCAGGCCCCCCGGCA
GATCGCCACCGCGATTGTGGAGCAGCTGCAGGCCGATTCTGGTTTCACAG
ACCTGTGCCTGGAGCCGCAGATCGCCGGGCCTGGATTCATCAACCTCACG
ATTCGGCCGGAGCGGCTGGCGGCGGAGGTGTCGGCGCGGCTGGGGGACGA
GCGTCTCGGTGTGCCTGCAGTGGAGCAGGCTGCTCCGGTGGTGGTGGATT
TCTCCAGCCCCAACATCGCCAAGGAGATGCATGTGGGGCATCTGCGCTCC
ACGATCATTGGTGACTCGCTGGCGCGGGTGCTGGAGTTCCGCGGCCATAC
GGTGCTGCGTCTTAACCACGTGGGCGACTGGGGCACCCAGTTCGGGATGT
TGATCACCCACCTCAAGCAGGTGGCGCCGGACGCGCTCGAGACCGCCGAT
GCAGTGGATCTAGGCGATCTGGTGGCCTTCTACCGCGAAGCCAAGAAACG
CTTTGATGACGATGAGGCCTTCCAATCCACCTCCCGGGAGGAGGTGGTGA
AACTGCAGGGGGGCGATCCGGTGTCGCTCAAGGCCTGGGGGCTGCTCTGC
GATCAGTCGCGGCGTGAGTTCCAGAAGATCTACGACCGGCTCGACATTCG
CCTCAATGAGCGAGGTGAGTCGTTCTACAACCCCTTCCTGCCCGCGGTGA
TTGATGGCTTGAAGGCCGCTGAACTGCTGGTCACTGACGACGGTGCCCAG
TGTGTGTTCCTCGAAGGTGTTCAGGGCAAAGACGGCAAGCCCCTGCCGGT
GATCGTGCAGAAGAGTGATGGCGGCTTCAACTACGCCACCACCGACCTGG
CGGCCATCCGCTATCGCTTTGGTGCAGCTCCGGATGGGGATGGTGCCCGC
CGTGTGGTGTATGTCACCGATGCCGGCCAGGCGAATCATTTTGCCGGGGT
ATTCCAGGTGGCCGAACGGGCCGGCTGGATCCCGGACGGTGCGCGCCTCG
AGCACGTTCCCTTTGGCCTGGTGCAAGGGGAGGACGGCAAGAAGCTCAAG
ACCCGCGCAGGCGACACGGTGCGGTTGCGGGATCTGCTCGATGAAGCCGT
CGAGCGCGCCGAAACCGACCTGCGTTCACGCCTGAAGGAAGAGGAGCGCA
GTGAGTCGGAGGAGTTCATCCAGAACGTGGCGGGCACCGTCGGCCTGGCG
GCGGTGAAATACGCCGATCTCAGCCAGAACCGGATCACCAACTACCAATT
CTCCTTTGATCGGATGCTGGCGTTGCAGGGCAACACGGCCCCGTATTTGC
TCTATGCGGTGGTGCGCATCGCCGGTATCGCCCGCAAAGGGGGTGACCTG
GAGGTGTCGACGGGGCAGCTGCAGTTCAGCGAACCCCAGGAATGGGCCCT
GGTGCGGGAGCTGCTCAAGTTCGATTCTGTGATCGCTGAGGTGGAGGAGG
AGCTACTGCCCAACCGCCTTTGCAGCTATCTGTTCGAGCTCAGCCAGGTG
TTCAACCGCTTCTACGACCAGGTGCCGGTGCTCAAGGCGGATCCTGAAGC
GCTGGCATCCCGCCTCGCCCTCTGCCGCTTAACGGCAGACACCCTCAGAC
TGGGTCTCGGACTGCTGGGCATCGCCACCCTGGACCGCATGTGA
>SYNW2426 aspS, Aspartyl-tRNA synthetase:GAD domain:tRNA synthetases, class I.
ATGCGCAGCAACGGTTGCGGCGACCTGCGCGAACAGAACATCGATCAGCA
GGTGCAACTGTGCGGCTGGGTGGACCGACGCCGCGACCATGGCGGCGTGA
TCTTTATCGACCTGCGGGATCGCTCCGGCACGGTGCAGATCAAGGTGGAT
CCCGATCTGGGGGCTGAGGCCTTTGCCGTGGCCGAGCACCTGCGCAGCGA
AACCGTGCTGCAGGTGGCAGGAAAGGTGCGGGCCCGTCCGGGCGAGTCTC
TGAACGACAAGCTGGCCACCGGTGCTGTGGAGGTCTTGGCCAGCGGCATC
ATCGTGCTGAACAACGTGAAGGGTAACCTGCCCTTCCCCGTGTCAGTGCA
CGACGAGGAGAACACCCGCGAAGAGCTGCGGCTGCGCCACCGCTATCTGG
ATCTGCGCCGAAAGCGCATGAACGACAACCTGCGCCTGCGGGCCCAGACG
ATTCAGGCCGCCCGCCGCTTCCTCGAAGACGAGGGCTTCATTGAAGTGGA
AACCCCAGTGCTGACCCGCTCCACCCCCGAAGGTGCCCGCGACTACGTGC
TGCCCAGCCGCGTCTGCGGCGGCGAGTGGTTTGCCCTGCCCCAGTCACCG
CAGCTGTTCAAGCAACTGCTGATGGTGGGCGGCATCGAGCGTTACTACCA
GGTGGCCCGTTGTTTCCGCGACGAAGACCTACGCGCCGATCGCCAGCCGG
AATTCACCCAGCTGGACATCGAGATGAGCTTCATGGATCAAGAGGAGATC
CTGCAGCTGAATGAATCACTGATTTGTTCGATCTGGAAAGCGGTGAAGGG
CATCGACCTGCCCAGACCCTTCCCGCGCATGACCTGGCATGACGCCATGG
AGCGCTACGGCACCGACCGGCCGGACACCCGTTACGGCATGGAGCTCACC
AACGTGAGCGACATCGTGAAGGACATGGGCTTCAAGGTGTTCAGCGGTGC
CGTGAAGTCCGGCGGCGCGGTGAAGTGCATCGCCGTTCCCGGTGGCAACG
ATGCCCTCTCCAATGTGCGCATCAAGCCCGGCGGCGATGTGTTCAGTGAA
GCCCAGAAAGCCGGTGCGGGTGGCTTGGCCTTCATCCGCGTCCGCAACGG
CTGCGAGATCGACTCGATCGGCGCGATCAAGGACAACCTCAGCGATGAGC
AGAAACAGGAGCTGCTCAGCCGCACCGGCGCGGAACCCGGCACGCTGCTG
CTGTTCGGTGCCGGAGACACCGCCACGGTGAACAAGGCCCTCGACCGGGT
GCGCCAGTACCTGGCCAAGGAGCTAGGCATGGTCAAGGCCGATCAGGACA
ACGACCAGTGGAACTTCCTCTGGGTGGTGGACTTCCCGATGTTCGAGTTC
AACAGCGAAGAGAACCGCTACGAAGCCCTGCATCACCCCTTCTGCGCCCC
CAATGCCGAGGATCTCAGCAGCGATGCGTCCCAGTGGGCCGACACCCTGC
CAGGCGCCCGGGCCCAGGCCTACGACCTGGTGCTCAACGGCCTTGAGCTT
GGCGGCGGCTCCCTGCGCATCCACGACTCCGCATTGCAGCGCCAAGTGCT
TCAGACCGTTGGCTTGCCGCTCGAGGAAGCCCAGGAGCAGTTCGGCTTCC
TGATGGATGCCTTGGATGTGGGCGCGCCACCCCATGGCGGCCTGGCCTTT
GGTGTGGACCGGATGGTGATGCTGCTCGCGGGTGAGGAATCGATCCGCGA
CACCATCGCCTTCCCCAAGACCCAGCAGGCCCGCTGTCTGATGACCAATG
CCCCAGGTGGGGTCGCGGACAAGCAGCTGGAGGAACTGCATGTGGCCAGC
ACCTGGGTGGACCCCAGCGGCGAGGACGACTGA
>SYNW0701 cysRS, cysteinyl-tRNA synthetase
GTGTCTCTGCGGCTTACCAACACCCTCACGCGCCGCACTGAACCGTTCAC
CCCTCTGACGCCTGGCAAGGCCAGCATCTACTGCTGTGGGGTGACGGTGT
ACGACCTTTGCCATCTCGGCCATGCCCGCAGTTACATCAACTGGGACGTG
CTGCGGCGCTTCCTGATCTGGCGGGGCCTTGAGGTGACCTTCGTTCAGAA
CTTCACCGACATCGACGACAAGATCCTCAAACGGGCTGCGGAACAAAACA
GCTCGATGACCGAGGTGAGCGAGCGCAACATCGACGCCTTCCACCAGGAC
ATGGATGCACTGGGGATTCTCAGGCCGGACCGCATGCCGCGCGCCACCCA
GTGTCTGGATGGCATCCGCTCACTCATCGGCGAACTGGAAGCGAAGGGTG
CGGCCTACAGCGCCGATGGGGATGTGTACTTCGCGGTGATGAAGCATGCC
GGTTACGGCAAGCTCAGCGGCCGCGATCTGAGCGAACAGCAGGACAACGC
TGCGGGACGGGTCGCTGATGCTGAGGAAGCCCGCAAGCAGCACCCCTTCG
ACTTCGCCCTTTGGAAAGGGGCCAAGCCTGGTGAACCCAGCTTCCCCTCC
CCCTGGGGTGAAGGGCGGCCCGGCTGGCACATTGAGTGTTCCGCCATGGT
GCGGGCGGAACTGGGGGACACGATCGATATCCACCTCGGTGGCGCCGATC
TGGTGTTCCCCCACCACGAAAATGAAATCGCCCAGTCCGAGGCGGCAACG
GGGAAGGAACTCGCCCGCGTGTGGATGCACAACGGCATGGTGAACGTGGG
CGGCCAGAAGATGAGCAAATCGCTCGGCAACTTCACCACCATCCGCGCCC
TGCTGGAGAGCGGTGTCTCCCCCATGACCCTGCGCCTGTTTGTGCTGCAG
GCCCACTACCGCAAACCACTCGACTTCACTGCGGAGGCCCTTGAAGCCGC
GGCCACGGGCTGGAAGGGGCTGAATGCCGCTTTAGGCCTGGGTGAGCGCT
ACAGCGACCAACTTGGCTGGCCCAGTCCCGCTGCCCTGTCAGAGGATGCC
ATCGGTCCTCAAACCAGTCCCGACGCTGAGGCGCTTCAGGCCCTCGAGCA
GCAATTCATCGGTTCCATGGAGGACGACCTCAACAGTTCTGGCGCACTGG
CGGTGTTGTTTGATCTGGCTAAACCCCTGCGAGCACTGGCCAATCGACTC
GAGCGTGGAGATGAGCCAGGCCTACCCGAAGCCGACATCCGAAACCTTGC
CCCCCGTTGGCAACTGCTGCGGGAACTCGCCGTTGTTCTGGGTTTGCGCG
GAGAAACCTCAGGGCAATCCAACATGGACGACGAGTCCATCGATGCGACT
ATCGCAGCTCGCAAGGCCGCCAAAGCCGCGAAGAATTACGCAGAGGCCGA
TCGGATCCGTAACGAGCTGACGGCCCAAGGCATTGAGCTGATCGACAAAC
CCGGTGGAATCACCGAATGGATCCGCAGCTGA
>SYNW0324 def, putative formylmethionine deformylase
TTGGCCGGGAGTTTTGCGCAGCTGGCCCGAGCGGCTGAACAGTCGCGGGA
CACGATGTTGGTCCCCAAGACTGCTCTCGAGACCCCTCCTCTTGAGATTC
ACACCCTCGGAGCTGAGGTGTTGCGTCAGTCGGCCCGACGCATCGGCAAG
GTGACGGAGCAGACCCGCGAGCTGGCTCGGGACATGCTCAGAAGCATGTA
CACAGCCAAGGGCATTGGGCTGGCGGCTCCGCAGGTGGGGATTCATCAGC
AGCTGCTGGTGATTGACCTCGACCTGGAGAACGCTGCGACACCTCCGCTG
GTGTTGATCAACCCTGAGATCAGTGCCGCCAGCGCCAGCATCGACACCTA
CGAGGAAGGTTGTCTCAGCATCCCCGGTGTCTACCTCGATGTGGTCAGGC
CGACTGCCATTGAGCTCAGCTTCCGCGATGAGATGGGACGGCCGAGAAAG
ATGAAGGCCGATGGTCTGATGGCCCGCTGCATCCAGCACGAGATGGATCA
TCTCAATGGTGTGTTGTTTGTGGATCGCGTCACCGATGAAGCCGGTCTTC
AGAAGGAATTGAAGGATCATGGTTTCCAGCGCCAGCACGTTCAGAGCGTG
TCCTGA
>SYNW1962 eIF2B, putative translation initiation factor eIF-2B alpha subunit
ATGCAGCGGCCGTCGTCCAAGGGATGCACCTCCTCCATCTTCTATACAGG
AAACAGCAGCTGCACTCCGTTGACGCTTCCCCCCAGCCTTCGATGGACTG
GAGATCATCTGGAACTGCTGGATCAACGGCGGCTGCCTGAGGAGGTCAGC
TTCCTGAAGCTGCACCAATGGCGTGATGTGGCAGAAGCCATCGCCACCAT
GGCGGTGAGGGGTGCACCTGCCATCGGGGTGGCGGCGGCATGGGGTGTCG
TGTTGGCTGCCCAGGCCAACGAGGATCTCGATCTGGCCGTTTCAGTGCTG
AAGTCTTCACGCCCCACCGCGGTGAATCTCGGCTGGGCTCTGGACCGGAT
AAAGGCATCCCCTGCCGCCCAAGAGCCGGTGGATCCGCAAGGGCTCGCGG
CCGTGGCAGCTGCTTTGGAAGCGGACGATCGCGCCCGCACGCAGACCCTT
GTGGACCACGGCGTTGGTCTTCTCGCTTCAGGCAGTCGCGTCCTCCATCA
CTGCCATACCGGCGCGATTGCCACGGCAGGGGTTGGAACCGCACTGGGGG
TGATCGCTGCTGGCCATGCTCGGGGTGTGGTTCGCCACGCCTGGCTGGAT
GAAACACGGCCCCGCCTCCAGGGAGCAGCCCTGTCGGCCTGGGAATTGGG
ATGTCTGGGTGTGCCGTGCACCGTGATCGTCGACGGTGCCAGCGGTCTTC
TGATGCGCCGCCAGGAGGTCGATGCCGTGCTCGTGGGGTGCGACCGCGTG
GCGGCCAACGGCGATGTGGCCAACAAGGTGGGCACTTACAACCTTGCCCT
GGTGGCCCGCGCCCACGGCATTCCCTTCTACGTCTGCGCCCCCGGCAGCA
GCATGGACCGCAGCACATCGGATGGTGATGCCATCACCATCGAAGAACGT
CCTCAGGAGGAAATCACCCAGCACCGGGGCCAGCGGTTGGCGGCACCTGG
CGCAGCGGCCTGGAATCCCGCTTTCGACATCACCCCCGCCCATCTGGTCA
CGGCATTGATCACAGAGTTCGGTGTGATCCGCCCGCCTTATCGCGACGCG
TTGCAAGCCCTCCCCCTGGATCGTCAGCCCTGA
>SYNW0033 efp, Translation elongation factor EF-P
ATGATCTCCAGCAACGACTTCCGAACCGGCACCACGATTGAGATCGATGG
TGCCGTCTGGCGTGTGGTGGAGTTCCTTCACGTCAAGCCTGGCAAGGGAT
CTGCCTTTGTGCGCTCCAAGCTCAAGGCGGTGAAGACCGGCAACGTGGTG
GAAAAGACCTTCCGTGCGGGGGAGATGCTGCCCCAGGCCTTGTTGGAAAA
GGCCTCGCTGCAGCACACTTACATGGAAGGCGAGGACTATGTCTTCATGG
ACATGTCCACCTATGAGGAGACGCGCCTCAGCGCCGATCAGATCGGGGAA
AGCCGCAAATACCTCAAGGAGGGAATGGAGGTGAATGTGGTGTCCTGGAA
CGGCAGTCCTCTTGAGGTGGAACTGCCGAATTCCGTGGTGCTCGAGATCA
CGGAAACCGATCCCGGCGTGAAAGGTGACACCGCCACCGGCGGCACCAAG
CCGGCCATCCTGGAAACCGGTGCCCAGGTCATGGTGCCCCTGTTCCTGTC
CATCGGCGAGAAGATCAAGGTGGATACCCGCAGCGACAGCTATCTGGGTC
GTGAGAACGGATGA
>SYNW1195 fmt, putative methionyl-tRNA formyltransferase
TTGCGCATCCTCTACTGGGGTACACCGGCCTATGCCGTGCCCACCCTGAG
ACAGCTTCATCAGGCCGGGCACACGATCGTTGGGGTGGTGAGTCAGCCGG
ATCGCCGCCGAGGGCGGGGGCAACAGCTTGTGGCTTCGGCCGTGAAACAA
GAGGCCCTGAACCTCAACCTGCCGGTGTTCACGCCAGAACGGATCAAGAA
AGATTCTGACTGCCAGGCGCAGTTGGCAGCCCTCAAAGCTGATGCATCTG
TGGTGGTGGCCTTCGGCCAGATCCTGCCGCTCGAGGTGTTGGAACAACCG
CCACTGGGGTGTTGGAACGGTCACGGTTCGTTGTTGCCGCGCTGGCGCGG
GGCGGCCCCAATTCAATGGTCGATCCTCGACGGTGATGCGGAAACCGGCG
TCGGCGTGATGGCCATGGAGGAAGGCCTGGACACTGGTCCGGTGCTGCTG
GAACGCCGATTGAGCATCGGGCTTCAGGACAATGCCCATGCACTGGCGGA
AAAACTCAGTGGCCTAACGGCGGAGCTGATGGTGGAGGCGATGCCGCTGA
TCGAAGCAGTTGGTGCGGGTCCAACCGATGAACGGTTGCATCGGCTCGGC
GTGCAGCACCAGGCCGAAGCCAGCTGTTATGCCCGAATGCTCTGCAAACA
GGATTACCAGATCGATTGGAGCAACTCCGCCCTGGCCATCCACCGCCAGG
TCATGGGGCTCTATCCCGGCGCACAGACCAGCTGGAACGGCAAACGTCTG
AAGCTGACGCAGACAGAACCCCTCATCGATCGTCTGAAGGATCAACTCAG
CCCAGAGGCTCAGGAGCTCGTCGGTCAGTGGCCCACAGGAGGTCATGCCG
GTGGCACCGTTTTGGCCTGCATTCAGGACCTGGGTCTTGTGGTGAGCAGT
TCCGGCTGCCCGCTATTAATCAGAGAGGCGCAACTGGAGGGCAAGTCCCG
AAGCCGTGGCCAGGCCCTCGTTCAACAAATGGCTGCCGCCGAACAGCAGT
CCATTGGAGATAACTGA
>SYNW2137 fusA, elongation factor EF-G
GTGGCTCGCGACTTCCCCCTGGAACGCGTCAGAAATATTGGTATCGCCGC
CCACATTGACGCCGGCAAAACCACCACCACTGAACGGATCCTGTTCTATT
CAGGCGTGGTGCACAAGATCGGTGAGGTGCATGACGGCGCCGCCGTGACC
GACTGGATGGCCCAGGAACGGGAACGTGGCATCACCATCACCGCGGCTGC
CATTTCCACTTCTTGGCAGGACCACCGGATCAACATCATCGATACACCCG
GGCACGTGGACTTCACCATCGAGGTGGAGCGTTCCATGCGGGTGCTTGAT
GGAGTGATTGCAGTGTTCTGCGCCGTGGGTGGTGTCCAGCCCCAATCCGA
AACCGTCTGGCGTCAAGCTGATCGCTACTCCGTTCCGCGGATGGTGTTCG
TCAACAAGATGGACCGCACCGGCGCGGATTTCCTCAAGGTTCACGGGCAG
ATCAAGGATCGGCTCAAGGCCAATGCCGTGCCCATCCAGCTCCCCATCGG
AGCCGAAGGCGACCTGAGCGGCATCATCGACCTGGTCGGCAACAAGGCTT
ACATCTACAAGAACGACCTCGGCACCGACATCGAAGAAGCCGAGATCCCT
GCCGAAATGGCCGATGAGGCTGCCGAATGGCGCGCCACGCTGATGGAGAC
CATTGCGGAAACCGATGAGGCTCTGATTGAGAAGTTCCTCGAAACCGGCG
AACTGTCCACCGAAGAGCTCAAGAAGGGAATCCGCGAGGGTGTGCTCAAG
CACGGCTTGGTGCCGATGCTCTGTGGTTCGGCCTTCAAGAACAAAGGCGT
GCAGCTGGTGCTCGATGCTGTCATCGACTACCTTCCCGCCCCTGTTGATG
TGCCCCCGATTCAGGGTGTGCTCCCCGACGGGAAAGAAGCGGTTCGCCCG
TCCGACGACAAGGCACCCTTCTCCGCCCTGGCCTTCAAGGTCATGGCAGA
CCCCTACGGCAAACTAACCTTCGTCCGGATGTACTCCGGCATCCTTGAGA
AAGGCAGCTACGTACTCAACTCCACCAAGGGCGAGAAGGAGCGCATCTCC
CGTTTGGTGGTGCTCAAGGCTGATGACCGTGAGGAAGTTGATGCTCTGCG
GGCCGGCGATCTGGGTGCCGTTCTCGGCCTGAAGAACACCACCACCGGTG
ACACCCTCTGCACCCAAGACGATCCGATCGTCCTCGAGACACTGTTCATC
CCGGAACCGGTGATCTCTGTGGCTGTTGAGCCCAAGACCAAAGGCGACAT
GGAGAAGCTCTCCAAGGCTTTGGTTTCTCTGGCTGAAGAGGATCCCACCT
TCCGCGTCAATACCGACTCCGAGACCGGCCAGACCGTGATCGCAGGCATG
GGCGAACTCCACCTGGAAATCCTCGTGGACCGCATGCTGCGCGAGTTCAA
GGTGGAAGCCAACATCGGTGCACCTCAGGTGTCCTATCGCGAAACCATCC
GTGGTTCCGCAGGTGGCGAAGGCAAGTTCTCCCGTCAGACCGGTGGTAAG
GGTCAGTACGGCCACGTTGTGATCGAAATGGAGCCCGGCGAGCCTGGCTC
CGGGTTCGAATTCGTCAACAAAATCGTGGGCGGTATTGTTCCGAAGGAAT
ACATCAAGCCCGCCGAGCAGGGCATGAGGGAGACCTGCGAATCCGGTGTG
ATTGCCGGATATCCCCTGATCGATGTGAGATGCACCTTGGTGCATGGCTC
ATACCACGACGTCGACTCTTCGGAGATGGCGTTCAAGATCGCCGGATCCA
TGGCCTTCAAGGACGGCGTCAAGAAGTGCAATCCTGTTCTTCTTGAGCCG
ATGATGAAAGTCGAAGTCGAGGTCCCCGAGGATTTCCTCGGTTCGATCAT
CGGCGACCTGTCCTCACGCCGAGGCCAGGTTGAGGGCCAAGGCGTTGAAG
ATGGCACATCCAAGATCTCGGCCAAGGTGCCCCTTGCCGAGATGTTCGGT
TACGCCACCGAGCTCCGCTCCATGACCCAGGGCCGGGGCATCTTCTCGAT
GGAATTCGACAACTACGCCGAAGTTCCTCGCAATGTGGCCGAAGCCATCA
TTTCCAAGAATCAGGGCAACTAA
>SYNW1031 gatA, glutamyl-tRNA (Gln) amidotransferase subunit A
ATGACGATCAGCGCGTGGCGTCAGCGACTGCAGGCTGGTGGAGTCTCATC
CAGGGAGCTGGTAGATGAGCATCTGCAGCGTTTGGAGCAGTCAGAGCCGT
CGCTCAACGCCTTTGTGGAGGTCACAGCTGAACGGGCCCGCGCTGACGCC
GATCGTGTCGATCAGGCCCGTGCTGCCGGTGAGGACCTCGGTCCGCTCGC
GGGTCTGCCGCTGGCGATCAAGGACAACCTCTGCACCCGCGGTGTCCGCA
CCACCTGCTCGAGCCGCATGCTCGAACAGTTCGTGCCGCCCTACGAGTCC
ACCGTGACGGATCGGCTCTGGGGCGCTGGAGCGGTGTTGGTCGGCAAAAC
CAACTTGGATGAATTCGCCATGGGCGGCTCCACCGAGACATCGGCCTTTG
GTGCCACCAAAAACCCATGGAACATCGAGCACGTTCCCGGTGGCAGCTCC
GGTGGTAGTGCAGCGGCCGTGGCATCGGGTAGTTGTCTTGCATCCCTGGG
CTCAGATACCGGTGGTTCGATCCGCCAGCCGGCATCGTTCTGTGGTGTTG
TTGGCTTGAAACCCACCTACGGCAGGGTCAGCCGTTGGGGATTGGTTGCG
TTTGCCAGTTCCCTGGATCAGGTCGGTCCCTTTGCCGGCTGTGTGGCGGA
TGCGGCTGAGCTGCTTCAGGTGATCGCCGGTCACGACCAGCGTGATTCCA
CCTGTCTAACAGCGGATGTTCCCAATTACAGCGCTGGTCTGGCTGCATCG
ATCAAGGGGCTGAGGGTCGGTGTGATCCGGGAATGCTTCGAGGCGGAAGG
ACTGGATGCCGAGGTCAAGGCTTCGGTGCAGGCGTCTGCGGCTCAACTGG
AGGCTCTCGGTGCCGAACTGGTGGATGTGAGCTGTCCACGCTTCAACGAC
GGCATCGCCACGTACTACGTGATTGCTCCGTCGGAGGCATCGGCCAATCT
GGCGCGATACGACGGTGTGAAGTACGGCTTCCGTGCTGAGGAAGCCGAGA
GCCTGGCGTCAATGACGGCCCGAAGCCGGGCAGAAGGTTTTGGCGCGGAA
GTGCAGCGGCGGATCCTGATCGGGACCTATGCCCTTTCGGCCGGTTATGT
GGACGCCTACTACCGCAAGGCCCAGCAGGTTCGAACGCTGATTCGACGGG
ATTTCGATGCTGCGTTCCAGCAGGTGGATGTTCTGCTGACCCCCACGGCG
CCGTCGCCGGCGTTCAAGGCGGGTGCCCATGCCGATGACCCGCTGGCGAT
GTATCTGGCAGACCTGCTCACGATTCCGGTGAACCTGGCAGGCCTCCCGG
CAATCAGTGTTCCCTGTGGATTCAGTGCTGCTGGCTTGCCGATCGGGATG
CAGCTGATCGGCAATGTGCTCGACGAGGCGCGTCTGCTGCAGGTGGCTCA
CCAGTACGAGCAGGCTGCTGATGTGTTCGCGCAACGTCCTGAAGCCTCTT
TGGTCCCCTGA
>SYNW2356 gatB, glutamyl-tRNA (Gln) amidotransferase subunit B
ATGGCCGCAGCAGAACCTGCTTGGGAAGCCGTGATTGGCCTGGAAACCCA
CGTACAGCTGGGGACCGACAGCAAGATCTTCACCGCCGCTTCCACAGCCT
TCGGTGATGACCCCAACACTCACATCGACCCGGTGGTGTGTGGTCTGCCC
GGGACGCTGCCGGTGCTCAATCAAAAGGTGCTCGAGTACGCCGTGAAGGC
GGCGATGGCGTTAAACCTCAATATTGCTGAGCACAGCAAGTTCGACCGCA
AGCAATATTTCTATCCGGATCTACCGAAGAACTACCAGATTTCTCAGTAC
GACGAGCCGATCGCGGAAGAGGGCTGGATCGAGGTGGAGGTCGCAGAAAA
AGGCAAGGACACCTATCTCAAAAAGATCGGCATTGAGCGCCTTCATATGG
AGGAGGACGCCGGCAAGTTGGTTCATGCCGGCAGCGACCGCCTCGCCGGT
TCGACCCACTCCCTGGTGGACTACAACCGCGCTGGAGTGGCGCTGGCGGA
GATCGTCAGCAAGCCGGATCTGCGCACCGGTCGTGAGGCGGCGGAATACG
CCTCCGAAATTCGCCGAATCATGCGTTATCTCGGCGTATCCGACGGGAAT
ATGCAGGAGGGCTCCCTGCGTTGCGACGTCAACATCTCCGTGCGTCGGGG
TCCGGATGCTCCCTTCGGCACGAAGGTGGAGATCAAGAACATGAATTCGT
TCTCTGCCATCCAAAAGGCCTGCGAGTACGAGATCAAACGCCAGATCAAG
GCCTATGAGACCGGTGAGCCGATCGTGCAGGAGACCCGCCTCTGGGATGA
GGGCAAGCAGCTCACCAAGAGCATGCGAAGCAAGGAAGGCGCAAGCGATT
ACCGCTATTTCCCTGACCCTGACTTAGGCCCCATTGAGGTGAGCGTTGAT
CAGCGCGAGGCCTGGCGCTCGGAGTTGCCGGAACTACCCGCTGTAAAGCG
CCACCGCTACGCAGATGACCTGGGCCTTTCCCAGTACGACGCCCGTGTGC
TCACCGATGAGCGCCCGATGGCGGATTACTTCGAGGCGGTGGTGGCTGCC
GGTGCGGACGCCAAGCTTTCCGCCAACTGGATCACGGGTGACATCGCAGC
CCATGTGAACAGCAACCGGCTCAGTTATGCGGAGCTGCCTTTTCGGCCCG
AACAGCTGGCCGAGATGGTGCAGTTGATCGATGGCGGCAAGATCAGCGGC
AAGATTGCCAAGGAGATCCTTCCCGAATTGCTGGAGAAGGGCGGCTCACC
CAAAGCGATCGTTGATGAGCGTGGACTCGGAATGATCAGTGATCCCGCAG
CGCTTCAAGCAATTGTGGATGAGCTATTAGCTGCCCACCCCGATGAGGTG
AAGGCCTTCCGAGGCGGTAAAAACAAGCTGCAGGGTTTCTTCGTTGGGCA
ACTGATGAAGAAAACTGGCGGCAAAGCCGATCCCAAGCTGGCCAATCAGA
TTCTTAGTAAGAAACTCAAGGGTTAA
>SYNW0292 gatC, glutamyl-tRNA (Gln) amidotransferase subunit C
ATGAGCCGGATCTCCGCTGACGACGTACGCAAAGTGGCCAAGCTGGCCCG
CCTTGATCTGCCTGAAGAGAAGATCGCCACCTACACCGGTCAGCTGGAGT
CAATCCTCGAGTACGTCGGTCAGCTGGAAAGTATTGATACCGAAGGCGTT
CCTGAAACCACCCGCGCCGTGGAGGTCACCAACGTGACCCGTGAGGATGG
CGTCACCCCAACTCCCGTCCGAGAGGACATCCTGAATCAAGCTCCCCAGC
GGGAGGGGGATTTCTTCCGCGTCCCGAAAATTCTGGCGGATTGA
>SYNW1826 gltX, glutamyl-tRNA synthetase
ATGGTGCGCGTTCGTCTGGCTCCCAGCCCCACGGGCACGCTTCACATCGG
TACTGCGCGGACAGCCGTCTTCAATTGGTTGTATGCACGGCGCCAGCAGG
GGTCGTTCCTGCTGAGAATCGAAGACACCGATAAAGAACGATCCAAGCCT
GAATACACCCAAAACATTCTGGAGGGTTTGCGCTGGCTTGGGATCGACTG
GGATGAAGAGCCGTTGATCCAGAGCGAACAGGTGCAGCAGCACCGGGCCG
CGATCGAAACGCTCTTGCAGAAGGGTCTGGCCTACCGCTGCTATGCCAAC
GAGGCTGAACTGGACGCCATGCGCGAGGCCCAAAAGGCCAGCAACCAGGC
GCCGCGTTACGACAACCGTCACCGCAATCTCACCCCAGAACAGGAAGCGG
CCTTCCAGTCGGAAGGACGGGAAGCCGTGATCCGTTTCCGGATCGATGAC
AACGCTGAGATCCGCTGGAACGACATGGTGCGTGGCGCCATGTCCTGGCG
TGGTGCAGACCTCGGCGGTGACATGGTCGTGGCCCGCAGGGCTCCCGCCG
ATCAGATCGGAGATCCCCTCTACAACCTCGTGGTGGTGGTGGATGACGCC
GCCATGGCCATCAGCCACGTGATCCGCGGCGAAGACCACATCGCCAACAC
CGCCAAGCAACTGCTGCTCTACGAGGCCCTCGACCTGCCGGCACCGACCT
TCGCCCATGCCCCCCTGATCCTGAATGCCGAAGGCCGCAAGCTCTCTAAA
CGGGATGGTGTGACCTCAATCAATGACTTCCGCACGATGGGGTACACCGC
AGAAGCAATCGCTAACTACATGACCCTGCTGGGCTGGTCGGTGCCCGAAG
GGATGGAGGAGCGCTTCACCCTGCCTGAAGCGGCAGCGGTGTTCAGCTTC
GATCGGGTGAACAAGGCCGGCGCTCGCTTTGATTGGGACAAACTCAACTG
GCTCAACGGGCAGGTGCTGCACGCCCTGCCAGCGCAGCAGCTCCTGGATG
ACCTTCGTCCGCTCTGGGCCGAGCAAGGTTGGACGCTACCGGACGACAGC
AGCTGGGGGCTGGAGCTTTGCGAGTTGCTAGGACCATCCCTGACCCTGCT
CAAGGAAGGCGTGGAGCAGGCGACGCCATTTTTTAAATGTCCTGATCTTG
AAGACGATGGTGTGCGCCAGCTGGAAGCTGACGGAGCTCGGACCGCTGTA
GCTCAACTGCTGCAGATCCTCGAGGCCGAGCCCTGGGATGGCAAGGACAC
CGATCGCGCCAAACAGCTTCTGGCGGATGCCGCCAAGGGGGCCGGCGTCA
AGAAGGGCGTGGTGATGAAATCTCTTCGCGCAGCACTGCTCGGACGGCTG
CAGGGTCCTGATCTGATCACCACCTGGTGTCTATTGGCCCGGATCGGGGA
GGACCTCCCCAGGTTGCAGCGTTGCCTCGCCTGA
>SYNW1671 glyQ,glyS(a), glycyl-tRNA synthetase alpha subunit
GTGCATTTTCAGGACATCATCTCGACCTTGCAGCGCTTCTGGGCGGATCA
GGGATGCCTGCTGCTGCAGCCCTACGACACCGAGAAAGGGGCCGGCACCA
TGAGCCCCCATACGGTGCTGCGGGCGATCGGTCCGGAACCCTGGGCCGTG
GCCTATCCCGAGCCCTGCCGCCGGCCCACCGATGGTCGCTACGGCGATAA
CCCCAACCGGGCTCAGCACTACTTCCAGTTCCAGGTGCTGATCAAACCCT
CCCCAGACGGCATCCAGGAGACCTACCTGGCCTCCCTGGCAGCCCTGGGG
ATCAAGGCTGCCGACCACGACATTCGCTTTGTGGAGGACAACTGGGAATC
CCCCACCCTTGGTGCCTGGGGTGTGGGCTGGGAGGTGTGGCTGGATGGGA
TGGAGGTGACCCAGTTCACCTACTTCCAGCAATGCGGCGGGATCGACTGC
AAACCGGTGTCGATCGAAATCACCTACGGCCTCGAGCGCCTGGCCACGTA
TCTCCAGGACGTGGAGAGCATCTGGGATCTGAGCTGGAACGCTGAGCGCA
ACTACGGCGACATCTGGCTGCCCTTTGAAAAGGGGCAGTGCCACTTCAAC
TTCGAAGGCTCCGATCCCGAGCGGCTGAAGCAGCTGTTCGCCATCTATGA
GGCCGAGGCCTCTGACTTGATCGAGAAGAAGCTTCCGGCTCCAGCACTGG
ATTTCGTGCTCAAGTGCAGCCACACTTTCAACCTGTTGGAAGCCCGCGGC
GTGATCTCGGTCACCGAACGCACCGCCACCATCGGTCGGATTCGCACCCT
GGCCCGCAGGGTGGCGGAAGCCTGGCTGGCGGAGCGGGAAGCGCTGGGAT
TCCCGCTGCTGGAGGGGGGAACACTTCCGTCAGCAGCCTGA
>SYNW1096 glyS, putative Glycyl-tRNA synthetase, beta subunit
GTGACTTCAACCTTTCTTCTGGAGATCGGCACGGAGGAATTACCGGCCGA
TTTCGCCCGTCAGGCCCTTGATCAACTGCAGGATCGTGTGGGTCGTGATC
TGCTGGATAGCCGTCTCGATCACAAGTCAGTTCAGGTGTTGGGCACACCC
CGTCGCTTGGTGGTACGGGTGCATGGTTTGGCGGATCGCCAACCGGACCT
CGAAGAAGATCAAAAGGGGCCTCCGATCGCCCAGGCCTTCAAGGATGGAG
TTCCGGGGCCGGCTGCGATCGGCTTTTCCAAACGCTGCGGTGTGGATCCG
TCGCAGCTCGAGGTGCGCAATACCCCCAAGGGCGAATGTGTGTTCGCAAG
CGTGCGGACCGAGGGGCAGAACAGCGTTGACCTGCTGCAGGAGCTCATCC
CCGCCTGGATCAATGGTCTTCAGGGCAGACGCTTCATGCGCTGGGGAACG
GGAAGCCAACGCTTCAGCCGACCGATTCGCTGGCTGCTGGCCCTGAAGGG
TGTCGATCTGATCCCGGTGGAGATCCCCGGTGCGGATCCGCCGGTTCGCA
GTGATCGCTTCAGTCGCGGCCATCGCCTGCATGGTGATCAACCTCTGCCG
ATCGACACCGCAGAGGATTACGACGACACCCTCGCAGCGGCTGGCGTGAT
CGTTGATCGCCAGCAACGGGCTGCCCTGATTCGATCTCAGCTCGATGCTT
CAGCCGATCAGCTGAACGGTCTTCCGGATTGCCCCGAGTCTCTGTTTGAA
GAGCTTGTGGATCTCGTTGAATCACCGCGGCTGCTGCAGGGATCCATCGC
TGAGCGGTTTCTGTCACTGCCACCGGAAGTGATCATCACCGTGATGCAGG
CCCATCAGCGCTATGTGCCGCTGAAGGTTCCCGAGGTCACACCGGATCCG
CTGCAACTGGAGGCCACGGTGGTTCTCCAACGGGACTTTCTGCTTGTGGG
CAATGGTCTTGAGGCCGCGGATGCACTGATCACCCGAGGCAATGAACGGG
TTCTCGCTGCTCGGTTGGCGGATGCGGAGTTCTTCCTCTCCGTGGACCGA
CGTCAGCCCAGCAGTGCGCGTCGAGAGGCTCTGGATCGGGTCACCTTCGC
CGAGGGGCTGGGCAGCCTGCTCGATCGTTGCCAGCGGATCGAGCGCACTG
CCCGTCAGTTGGTGGACCAGCTCAACCTGGATGCGCATCAAGGGGAGGCG
GCCATCCGAGCTGCCCATTTCTGCAAGCACGATCTTGTAAGCCAGATGGT
TGGTGAGTTTCCTGAGCTTCAGGGACTCATGGGTGGCAAATACTTGCTTG
AGGAGGGGGAGCCAACGGAGGTCGCCCTGGCGGTGGTGGAGCACTATCTG
CCGCGCGGCGCAGGTGATCAGCTCCCCAGCAGTGATGCGGGTGCCGTGGT
GGCGCTGGCGGAACGCCTGGAATTGCTGTTAAGCATCTTTGCCAAGGGTG
AACGTCCCAGCGGTTCATCGGATCCCTATGCCCTGCGGCGCGCTGGCAAT
GGCCTGTTGCAGATCGTCTGGGACCGTGGCTGGAGGCTCGATCTGAGCCG
CTTCCTGGGCTCAGCGGTGGAGGACTGGGCTGCTTTGTTCCCGGAGTTCG
CCATCGACAGCTCAGCACTCCACCAGGATCTTTGCCAGCTGCTGCGGCAG
CGGATTGTTTCCCAGTTGGAGGACGAGGGCTTTGTTCCGGATCTTGTCCA
GGCGGTCTCCGCAGAGTCGGTGGCGACGGAGCGGTTGCTGGCTGACCCCA
TGGATGTACGCGAGCGGCTCGACCTGCTGAATGCTCTGCGTCAATCGAAG
GCGTTGCCGGGATTGATGGCCGTGGTTCAGAGGGCTGCGCGGCTGGCGGA
GAAGGGTGATCTGGTTGAGACCGATCTCACGGTGTCGGCGGTGGTGTCAC
CCGAGCGGTTTGAGTCTCCCAGTGAAACGGCGATGTACGAGGTGCTCGTG
CAGCTCGAGCCCCTTGCCTCAGGACGCCGCTATCGCGAGCTAGCTGAGGC
ATTGGTGCAGGCCACCCCAGTGCTGGAAGCCTTCTTCGATGGCGATGACA
GCGTGATGGTGATGGCTGATGACCCCGAACTGCGCCGGAACAGGCTCAAT
CTTCTTGGGGTGCTGCGCAATCAAGCTGGCGTGCTGGCACGGTTCGATCT
GATCCAGATCTGA
>SYNW2309 gshB, putative glutathione synthetase
ATGCGCCAGCTGTTCGTGCTGGATCCGCTGTCGCAGATCCGGCCGGAGAA
GGATTCCACCGCCGCGTTGATGCAAGCGGCCCAGCGGGCCGGGGATGACA
TCTGGTCCTGTACGCCTTCGGACTTGATCGCCCGAGGGGATGAGCCCATG
GCGGTGGCGTTGCCTGTGACACCGGACCCCTGGATCGCTGTTGGAGCGCC
AGAACGTCAGTCTCTGGCCGGGTTTGACGTGATCTGGATGCGGAAGGATC
CACCTGTTGACGAGGCGTATCTCTATGCCACCCATCTCCTGGAGGTGGCG
GAGCGGGCTGGTGTTCGTGTGTTGAACCGTCCCAGTGCCCTGCGGGCCTG
GAACGAAAAACTCGGTGCCCTGCGCTTCAGCCGCTGGATGGCGCCCACCC
TGGTGGCCGGCCGGGTCTCCGAGTTGATGGCCTTTGCCCGGGAGCAGGGC
GACGTGGTGCTCAAGCCCCTCGGCGGTCGAGCGGGACTTGGCGTGATCCG
CGTGCAGGCCGAGGCACCGGGCCTCAAGGCCTTGTTGGAGTTGGTGACGG
AGCAGGAACGGCTGCCTGTGATGGCCCAACGCTTTCTGCCTGACGTGACG
GAGGGTGATAAGCGGATCCTGCTGGTGGACGGCGACCCCCTTGGTGCGGT
GAATCGTCGCCCGTCGGAGGGGGAGTTCCGCAGCAATCTGGCGGTGGGTG
GACAGGCCGAAGCAACGGAATTGAGCGAGCCTGAGCGTCAGATCTGTGCA
GCGTTGGCACCGGCTCTGCGGGCAGAAGGGTTGTTCTTCGTTGGCATCGA
TGTGATCGGCGGCATGCTCAGCGAGATCAATGTCACCAGTCCCACCGGCG
TGCGGGAAGTGGAACGCTTGATGCAGGAGCCCTTGGCGGATCAGACGATC
GAACGGTTGCGCTCACTGGTCTGA
>SYNW1976 hemK, possible protoporphyrinogen oxidase
GTGACCACCGCCCAGCAGCTGGAGGGGGCATCGCTGCTGAGTTGGCGACG
TCGGCAGCTTCAGCGAGGGGGGCGTCGTGTTGACTTCGATTGGCTTTTGG
ACCTCGCCGGGGGGCTGTCATGGTCGTCTCTCCAGCGCCTGCTGGTGGAG
CCGCAGCGCACTGTGCAGTTAAAGGTTTCGCTGAAGGATCTCGAGCAGAT
CTGGGGGCATCATCTCGACCAAGCCATTCCCCTGCAGCATCTTGTTGGCC
GCTGTCCCTGGCGCGATCTTGAACTGGCGGTGTCGGCCGCAGCCCTGATC
CCGCGCCAGGAAACGGAAGTGCTTGTGGATCTGGCGCTGGAGACGATCGC
CGGGATGTCCATCGAACGTTGGGCCGATCTGGGGACAGGATCTGGAGCCA
TCGCCGTTGCCCTTAGTCGGGCGATGCCGGCGACCCCGGGCCATGCTGTC
GATCTCAGCCCCAATGCCCTTGCATTAGCCAGGACCAATCTTGAGGCTCT
GGCTCCCGAGGGGGAGTGGCATCTGCACCAGGGCCGTTGGTGGGAACCGC
TGGAGCCGTGGTGGGGACACATCGATCTTGTGGTCTGCAACCCCCCTTAC
ATCCCGTCCGACCTGATCCTCAATCTCGATCCTGTGGTCCGTGATCATGA
ACCCCATCTGGCCTTAGCCGGTGGAATCGACGGTTTGCAGGCGATCCGTG
AGGTTGTGGCGGGAGCTTGTCGTGCTCTGGCTCCGGGAGGGTGGATCCTG
ATCGAGCATCACCACGATCAGAGTGCGCCAGCGCTCAACCTGTTGAAACA
GGCTGGCTTGAGCTCCATCCGTGCGGCCCGAGATCTCGAAGGCGTCAACC
GCTTCGCTCTGGCCCGCCGATCGCTCTCCCCTTGCTCATGA
>SYNW0197 hisS,hisS1, histidyl-tRNA synthetase
GTGAGTCAGCTGCAGAGCCTCAGGGGCATGGTGGATCTGTTGCCGGAGAC
TCTGCAGTGCTGGCAGGCCGTCGAAGCAGTCGCCCGGGAGCATTTCCGCC
GCTCCGGTTTCGGCGAGATCCGAACACCGTTGTTGGAAACCACCGATCTG
TTCTGCCGTGGCATCGGCGAAGGCACCGATGTGGTGGGCAAGGAGATGTA
CAGCTTCACCGATCGCGGTGAGCGTGCCTGCACACTGCGGCCAGAGGGCA
CCGCGTCGGTGGTGCGGGCGGCGCTGCAACACGGCCTGTTGAGCCAGGGC
GCCCAGAAGCTTTGGTACGCCGGCCCGATGTTCCGCTATGAGCGGCCACA
GGCCGGTCGCCAGCGTCAGTTTCATCAGATCGGTGTGGAGTGGTTGGGGG
CGGAGAGCGCCCGCAGCGATGTGGAAGTGATCGCTCTGGCCTGGGATCTG
CTGGCTCAGTTGGGCGTTGGTGGCCTCGAGCTGGAAATCAACAGTCTTGG
TACGCCTGAGGATCGGCAGGCCTACCGCACAGCGCTGGTGGCCTGGCTGG
AGCAGCGGCTGGATCAACTGGATGACGACTCCCGCGCCCGACTCAGCACC
AATCCCCTGCGCATTCTCGATTCCAAAAACAAGGACACCCAGGCCTTGCT
CGAGCAGGCACCCACCCTGGCCGATGCCCTCAGCTCAGAGAGCCGGCAAC
GCTTTGATGCGGTTCAGCAGGGGCTGACCGCCCTGGGCATTCCCTTCCGG
CTCAATCCGCGGCTGGTGCGGGGTCTGGATTATTACGGCCACACCGCCTT
CGAGATCACCAGTGATCAACTGGGGGCGCAGGCCACCGTCTGCGGTGGTG
GGCGGTACAACGGTTTGATCGCTCAACTGGGTGGAGCCCCCACGCCGGCC
ATCGGCTGGGCCTTGGGTATGGAAAGGCTGTTGCTGGTGCTGGAGGCGGC
GGCGACGGCCGATCCGGATGGGGCAGCGGCGCGGCTGGTGGCCACGTCCG
CACCTGATGCCTATGTGATCAACCGTGGTGACCAGGCGGAAACCATGGCG
CTGACCCTCACGCGCGGTCTGCGGGCTGCTGGTCTGGCCGTGGAGCTGGA
TGGGTCGGGCTCCGCCTTCGGCAAGCAGTTCAAGCGGGCGGATCGTTGCG
GTGCCCGTTGGGCTCTGGTGCTGGGCGATGACGAAGCAGCCCGGGCTGAG
GTGCGGCTCAAGCCACTGCAGCACGAGGGCGAGGACCGGTCCTGGGCAGT
TGCGGACATTGCCGCGATCGTGGAGACGCTGCGCACCCCTTGA
>SYNW1833 hli8, possible high light inducible protein
ATGGCTGAGCAACTCGAAAAGACCGGTGGCGTCGCTGAGCCCGTCGGGTC
AGATGAATTGAATGCCTGGAAGCGCGGGTTCACGCCTCAGGCTGAAATCT
GGAACGGACGACTGGCCATGATCGGTTTGTCGGCTGGTTTGGCGGTTGTG
CTGCTCGTTCGGGTGTTTGCCGGGAACTGA
>SYNW0289 ileS, isoleucyl-tRNA synthetase
GTGAGCAAGGAGACGCGCGACGCCGCCGCTGAGGGACGTCCCTCCTACAA
GGACACGCTCAACCTGCTGCAGACCGGTTTCGGCATGCGCGCCAATGCGG
TGAAGCGCGAACCGGAACTGCAGGCCTTCTGGAGCGACAACGGCATCGAT
GGACAGCTGGGGCTCCAGAACGACGGGCCCACGTTCACCCTTCACGACGG
ACCGCCCTATGCCAACGGGGCCCTGCACATGGGGCATGCCCTCAACAAGG
TGCTCAAGGATGTGATCAATAAGTATCAGGTGCTCAAGGGCCGCAGGGTG
CGCTACGTGCCCGGCTGGGACTGCCACGGCCTGCCGATCGAACTCAAGGT
GCTGCAGTCCATGGATCAGGAACAGCGCAAAGCGCTGACACCGATCAAAC
TGCGCAAGAAAGCCGCTGCTTACGCCCGCAAGCAGGTGGATGGCCAGATG
AAGGGCTTCCAGCGCTGGGGCATCTGGGCCGACTGGGAGCAGCCCTATCT
CACGCTGCAGAAGGAGTACGAAGCCGCCCAGATCAAGGTGTTCGGCGAGA
TGGTGCTCAAGGGCCACATCTACAGGGGCCTGAAGCCCGTGCACTGGAGC
CCCAGTTCCCGCACCGCCCTGGCCGAAGCCGAGCTGGAATACCCTGACGG
CCACACCAGCCCCAGCGTCTATGTGGCGTTTCCGGCGATGGAGGTTCCTA
CCCCCTTGCGGGATGCACTCAAGGCGGAGGGCCTGGAACTGCCCACCGAG
ACGGACGCCCTTAGGCAGGCCCTTCAAGTGGCGATCTGGACCACCACCCC
CTGGACCTTGCCGGCCAACCTGGCGGTGTCCGTCAACGAACGGCTCGACT
ACGCCCTGGTCGACGATGGCAGCGGCCGGATGCTGGTGGTGGCAGCCGAT
CTGATCGAGTCGCTTTCCACAACCCTGGAGCGTCCTCTCAAGCACCGCGC
CACGGTGAAAGGTGCCCTGCTTGCTGGGCTCATCTATCGGCACCCGCTGC
TGGATCGCACCAGCCCCGTCGTGATCGGCGGCGAGTACATCACCACCGAA
TCCGGCACGGGCTTGGTGCACACCGCCCCGGGGCACGGCGTCGACGACTT
TCATACCGGCCAGAAGCACGGCCTGCCCGTGCTGTGCCCCGTGGATGAAG
CCGGCACCCTCACCGCAGAGGCAGGTCCTTTCGCAGGCCTGAACGTGCTC
AAGGACGCCAATCCAGGGATCATCGAGGCCCTCGAGCAAGCCGGAGCACT
GCTCAAGCAGGAGGCCTACAGCCACCGCTACCCCTACGACTGGCGCACCA
AGAAACCCACCATCTTCCGCGCCACGGAACAGTGGTTCGCGTCGGTGGAG
GGCTTCCGCCAGGACGCCCTCGACGCCATCGACCAGGTGCAGTGGACCCC
TGCATCAGGCCGCAACCGGATCGAGGCAATGGTGAAGGAGCGGGGGGACT
GGTGCATCTCCCGCCAACGCACCTGGGGAGTGCCGATCCCGGTCTTTTAT
CACCACAGCAACGGCGAGGTGCTGCTCAACGCCGACACCCTGAGCCATAT
CGAAACGCTGATCGCCTCCCACGGTGCCGACGTGTGGTGGGAAAAAGACG
AAACCGATCTGCTGCCACCCGCCTACGCCAACCAGGCCGATCAATGGCGC
AAAGGCACCGACACCATGGACGTGTGGTTTGACTCAGGATCCAGCTGGGC
TGCCGTGTCAAGCCAGCGAGAGTCGCTGAGCTACCCCGCCGACCTCTACC
TCGAGGGATCCGATCAGCACCGCGGCTGGTTCCAGAGCTCGTTGCTCACC
TCCGTGGCCGTCAACGGCCATGCCCCTTACAAACGCGTGCTCACCCATGG
TTTCGCCCTCGACGAGAAGGGGCGAAAGATGAGCAAATCCCTCGGCAATG
TCGTTGATCCGATGGTGATCATCGAGGGGGGCAAGAACCAGAAGCAGGAG
CCTCCCTACGGCGCTGATGTGCTGCGGCTCTGGGTGAGCTCGGTGGACTA
CTCCGCCGATGTGCCCATCGGCGCCGGAATCCTGCGTCAGCTCGCGGACG
TCTACCGGAAAGTGCGCAACACCAGCCGATACCTGCTCGGCAATCTGCAC
GACTTCAACCCCGCCTCCGATGCCATTGCGGTGGCGGACCTGCCGCTGCT
GGACCGCTGGATGCTGCAGCGCACCGCCGAGGTGATGCATGAGATCACAG
AAGCCTTCGAGAGCTACGAGTTTTTCCGCTTCTTCCAGCTGCTGCAGAAC
TTCTGCGTCACCGACCTCTCCAACTTCTACCTCGACATCGCCAAAGACCG
CTTGTATGTGAGTGCCCCAACTGACCAGCGCCGACGCAGCTGTCAGACCG
TGATGGCTTTAATCATTGAGCGGCTGGCAGGTTTCATTGCTCCGGTGCTG
TGCCATATGGCCGAGGACATCTGGCAGAACCTCCCCTACCCGGTCCAGGA
AACTTCCGTGTTTCAGCGCGGTTGGCCCACAATTCCGAGCGACTGGCGGA
ACGACACGCTCTCTGCACCCGTGCAGCAACTCCGCGATCTACGGGCGGCG
GTCAACAAAGTGCTGGAGGATTGCCGCGGCCGGCAGGAGCTTGGTGCCTC
CCTGGAGGCAGCTGTACGCATCGACGCTCGTAGCCCCGAGCTGCAAGCGG
CCCTGTCCTGGCTCAACGACAACGGTGATCCTGACGTGGATGGTCTGCGG
GATTGGCTGCTGGTGTCCCAGTTACAGCTGGGGGGAGAGCCCTGGGCTGA
AGTGCTCTCCAACCACGAGGACGAGCTCGCGTTGATCGAGGTGAGCCGAG
CGCGGGGAACCAAATGTGAGCGCTGCTGGCACTACGAGGGAGACGTGGGG
CAGCATCCAGACCATGCCCACATCTGCGGTCGCTGCGTCGGCGTTCTGGA
GCGCCGGACTCACCAGTTGGTCTGA
>SYNW0686 infA, translation initiation factor IF-1
ATGATCGAAACCTCGGGCGTGATCGAGAAGGAACAGGGAAACGGGTTCTA
TCTGGTCACCCTTGAGCAGCCAGCCGGTCACCAATGCCTGTGTCGGGCCG
CAGGAAAACTCACCAAGTTCCGCATCAAGCTGCTTGCGGGTGACAAGGTG
CTGGTGGAGATCAGTCCCTATGACCTGACCCGTGGTCGGATCACCTATCG
GGAACGGAATGCTGGTGCCCCCGGTGGACGGCCGGGTGGCAACCGTCCAG
GGGGACCGCGTCGTCGTTAG
>SYNW0597 infB, translation initiation factor IF-2
ATGGTCCTGTCCGCCAGCCTGGCTCGCCCCGCCAAGCCGAAGTCGCAGAG
AAAGGCCGCTCCCAAGCCGATGGCGGCGATGCGGAAGCGGAAGAAGGAAA
CCACCCGTCAACGCCAGCGGCGTCGGGCGATGGAACTGCGCGCTGCCCGC
GAGGCCAAGCAGGTGCGGCCGGAAATGCTCATCGTTCCGGAGGACAACCT
CACGGTGCAGGAGCTCGCCGACATGCTCAGTGTCGAAAGCTCCGAGATCA
TCAAATCTCTGTTCTTCAAGGGAATCATTGCCACGGTCACCCAGACCCTG
GACATGAACACCATCGAGACGGTGGCCGAAGAATTCGGCGTGCCGGTGCT
CCAGGACGACGTGGAGGAGGCGGCCAAAAAGACCGTCGAGATGATCGAAG
AGGCCGACAAGGAACACCTCATCCGTCGTCCACCCGTGGTCACGGTCATG
GGTCACGTCGACCACGGCAAAACGAGCCTTCTCGATGCGATCCGCAAGGC
GCGGGTGGCTGCCGGCGAGGCCGGCGGCATCACCCAGCACATCGGTGCTT
ATCAGGTCGAGATCGACCACAACGACGAAGCGCGCAAGCTCACCTTCCTC
GACACCCCGGGCCACGAAGCCTTCACGGCCATGCGGGCCCGCGGCACCAA
GGTGACGGATGTGGCCGTTCTGGTAGTCGCCGCTGACGACGGCGTGCGTC
CCCAGACGCTGGAAGCCATCAGCCACGCCAGGGCTGCAGAGGTACCGATT
GTGGTAGCGATCAACAAAATCGATAAGGAAGGGGCTTCCCCTGACCGGGT
GAAGCAGGAGCTGTCCGAGCAGAACCTTCTGGCGGAAGACTGGGGCGGCG
ATGTGGTGATGGTGCCGGTGAGCGCCATCAAGGGCGAGAACATCGACAAG
TTGCTGGAGATGCTCCTGCTGGTCACCGAAGTGGAAGACCTGCAGGCCAA
TCCGGATCGCCTGGCCCGCGGCACTGTGATCGAGGCTCACCTCGACAAGG
CCAAGGGTCCTGTGGCCACACTGCTGGTGCAGAACGGCACCCTCAAGACC
GGCGATGTCGTGGCGGCCGGGCCGGTGCTTGGCAAGGTGCGAGCCATGGT
CGACGACAACCGCCAACGTCTCAAAGAGGCTGGTCCTTCGTTTGCCGTTG
AGGCTCTCGGTTTCAGCGAGGTTCCGACCGCTGGCGACGAATTCGAGGTG
TATCCCGACGAGAAATCGGCACGGGCTGTTGTGGGAGATCGTGCGTCGGA
TGCACGCGCCACACGCCTGGCGCAGCAGATGGCCTCGCGCCGGGTGTCGC
TCACAGCGATGTCAGGTCAGGCCAATGAAGGCGAGCTGAAGGAGCTGAAC
TTGATCCTGAAGGCGGATGTCCAGGGCTCTGTGGAAGCAATCCTTGGCTC
CCTTGAACAATTGCCCAAGGACGAGGTCCAGGTTCGTGTGCTGCTCTCGG
CACCGGGTGAGGTCACCGAAACAGACGTCGACCTGGCGGCCGCCTCCGGC
GCCGTGATCGTTGGCTTCAACACCTCGATGGCCTCGGGCGCCAAGAAGGC
AGCAGATGCCACCGGCGTGGATGTGCGCGATTACGACGTGATCTACAAGC
TGCTGGAGGACATCCAGTTGGCGATGGAGGGCTTGTTGGAGCCCGAACTG
GTGGAGGAAGCCCTCGGCGAAGCCGAAGTGCGGGCGGTGTTTACCATTGG
TAAGAGCGCTGTTGCGGGCTGCTACGTCACCACCGGCAAGTTGCAACGCA
ACTGCAAGGTGCGTGTCCATCGCGGCTCCCAGGTGGTGTACGACGGCGAC
CTCGACTCGTTGCGCCGCAACAAGGACGACGTCAAGGAGGTGGCCACCGG
CTTCGAGTGTGGTGTCGGCACCGATCGCTTTGCCAACTGGGAAGACGGCG
ACCGGATTGAGGCCTTCAAGATGGTCACCCAGCGCCGCAAACTCACCACC
TAA
>SYNW0093 infC, translation initiation factor IF-3
ATGCCCCCACGCCCCCGTTTTGACCGTCGTGCTCCTGTTCGGGAGCTGCC
CAACATCAACGACCGGATCAGCTACCCCCAGTTAAGGGTGGTCGACTCAG
ATGGCAGTCAGCTCGGGGTGATCAGCAGGGAGGAAGCCCTGGAGGTGGCC
AAGGAGCGCGAGCTGGACCTGGTGCTGGTGAGCGAGAAGGCCGATCCACC
GGTTTGCCGGATCATGGACTACGGCAAGTTCAAATTCGAGCAGGAAAAGA
AAGCCAAGGAAGCCAAGAAGAAGTCGCATCAGACCGAAGTCAAGGAGGTC
AAGATGCGCTACAAGATCGACCAGCACGACTACGACGTGCGCATCGGCCA
GGCCGTGCGCTTTCTTAAAGCTGGCGACAAGGTGAAGTGCACGGTGATCT
TCCGCGGCCGGGAGATTCAGCACACGGCGCTCGCGGAAACCCTGTTGCGC
CGCATGGCGAAGGATCTGGAGGAGAAGGCTGAGATCCAGCAGGCTCCCAA
GCGCGAGGGTCGCAACATGATCATGTTCCTCACACCGCGTAAGACTCCGC
TGGTGAAGAAGGAGGAGAAGGAGGCTGCACCGACCAAGGCGGTGCGCACC
ATCCCGGCTCCGCCTCGACCCACCGCCGCCAAGGTAGCCGCCCAACAGGC
CTAG
>SYNW1255 leuS, leucyl-tRNA synthetase
GTGAACAGCCGTTACTCGCCTGCGGACCTTGAACAACGCTGGCAGACGAC
CTGGCGATCAGAGGGGTTGGATGTCACTCCGGAGCCTGAAGACGGAAAGG
GTTTCTACGCCCTGTCGATGTTTCCCTACCCCTCAGGGACCTTGCACATG
GGCCATGTGCGCAATTACGTCATCACCGATGTGATCGCCCGCGTTCAACG
GATGCGTGGCCACTCGGTGTTGCACCCGATGGGATGGGATGCCTTCGGTC
TTCCCGCCGAAAATGCCGCGATAGAACGCAACGTTGATCCCGGCGATTGG
ACCGATCGCAACATCGATCAGATGCGATCGCAGCTGGATCGCCTCGGCTT
GTCGATCGACTGGGACCGTGAGCAGGCCACCTGCCACAGCGATTACTACC
GATGGACCCAGTGGTTGTTCCTGGAGCTCTTCGATGGCGGTCTGGCCTAC
CGGAAGAACGCAACGGTCAACTGGGATCCAGTCGATCAAACCGTTCTTGC
CAACGAGCAGGTCGATGCCGACGGACGTTCCTGGCGATCCGGTGCACTGG
TGGAACAGCGACAGTTAAATCAGTGGTTCCTGCGGATCACGCAGTACGCC
GAAGCCCTGCTCAATGACCTCGATCAGCTGAGCGGATGGCCTGAGCGCGT
TCGCACGATGCAGGCCAACTGGATCGGTCGTTCCGAGGGTGCTGAGATCC
AGTTCAAGGTGTCCTCCGATTCCGACACAACCATCACAGTGTTCACCACA
AGGCCAGACACCTTGGCTGGTGCCAGCTGCGTGGTGCTCGCCCCGGACCA
CCCGTTGGTGAACAGCCTGACGAGCCCGGATCAGCAGGATGTTGTGCAGG
CCTTCCAGGCAGAGGTGGCTCGCCTCAGTGCCTTGGAGCGCACCAGTGAT
GACGCTCCCAAGCGTGGAGTCTTCACTGGCGCCACCGTCCTCAATCCACT
CAACGGCAGGGCATTGCCGGTGTGGATCGCGGACTATGTGCTGGTGGATT
ACGGCACCGGCGCCGTGATGGGAGTCCCCGCCCATGACCAGCGGGACCGA
CGCTTTGCGCAGAGCTACGGGCTGGCCGTTCAGCAAGTGATTGAGGCCGA
GGGGGCCGCCGCTGCGATCGCGGCCGGAGAGGCCTGGACGGATCCTGGAG
TGCTGATTCATTCAGGAGACTTCGATGGTCTGAATTCCATCGAGGCCAAG
GAGCGGATCACGCGCCACGGGGAGCAGCAGGGATGGGCAGTAGCGAAGGT
CACCTATCGGCTGCGCGATTGGCTGATTTCAAGACAGCGCTACTGGGGCT
GCCCGATTCCGATCATCCATTGCCCTAGCTGCGGTGCCGTTCCCGTGCCT
CGCGAGGACCTACCCGTGGTACTCCCACGCGGCATTGATCTGTCAGGGAA
AGGAGGCTCACCACTTGAGCAGCAGCAGGATTGGGTCAACGTCCCCTGTC
CCTCCTGTGGCGAACCGGCCAAACGCGAAACCGACACGATGGACACCTTC
ATGTGTTCGTCCTGGTATTTCCTCCGTTTCGCGGATCCACACAACACGGA
ACAGCCGTTCAGCCGTGAAGCCGTGAATCGCTGGCTGCCGGTGCAGCAGT
ACGTCGGCGGCATTGAGCACGCCATTTTGCATCTGCTGTATTCCCGCTTT
TTCACCAAGGCGTTGAAGGATCGGGGCTTGATCGATGTGGCTGAACCATT
TGATCGTCTGCTGACCCAGGGAATGGTTCAGGGAACGACATATCGCAATC
CCAGCACCGGCAAATACGTCGCCTCTGCGGATGTGTCGGACCCGGAGACA
CCGACCGATCCGACCAGCGGTGAACCTCTGGAGGTGTTATTCGAAAAGAT
GTCGAAGTCGAAGTACAACGGCGTCGACCCTGCGGCAGTGATCGATCGCT
ACGGCGCCGACACCGCTCGCATGTTCATTTTGTTCAAGGCACCGCCCGAG
AAGGACCTCGAATGGGATGACTCTGACGTGGAAGGTCAATTCCGCTTCCT
GCAGCGGATCTGGCGGCTGGTGGAGTCCGCCGACTCCCGTATCGACAGCC
TCGAGCCAGAGGAGCGTCCCGAGCCGTTGGCCGACACCGACGCCAAGGTT
CGTCGTGCCATCCACATCGCCATCGATGCGGTGAGTGAGGACCTGCAGGA
CGAGATTCAGTTGAACACCGCCATCTCGGAGCTGATGAAGCTCACCAATG
CGATCACTTCCGTTGGTGTTGCGGAGTTGAGCACGTCAGTGCTGAAGGAA
GCCCTCTCAACACTGCTTCGGCTTCTGGCACCCTTTGCTCCCCATCTTGC
CGAAGAGCTTTGGCATCAGCTCGGGGGTACGTCCAGCGTGCATCGTGCCG
GTTGGCCAGAACTGGACCCCAGTGCTTTGGTTCAGGATTCCGTGGACCTG
GTGATTCAGATCAAGGGGAAGGTTCGGGGGACCATTCAGGTTCCCGCCGC
CGCCGACAAAGAACAGCTTGAGGCCTTGGCACTGGCCAGTGAGATCGCTG
CCAAATGGCTGGAGGGACACCCCCCCCGACGCGTGATTGTGGTGCCGGGG
AAGTTGGTCAACCTGGTGCCCTGA
>SYNW0667 lrtA, light repressed protein A homolog
ATGAAGTTGCTGATCCATGGTCGCAACCTTGAGATCACGCCGGCCCTGAG
GGACTACACCCAGACCAAACTCGAGCGGGCCACTCACCATTTCGGCAATG
CCGTCCGCGAGGCGGACGTGCACCTTTCCGTCGCCCGCAACCCCAGGGTT
CCGCAACAGACCGCTGAGGTCACGGTGTTCGCCAATGGCACCGTGATCCG
GGCCCAGGAACGCAGCGAGAACCTGTACGCCAGCATCGACCTGGCGGCCA
GCAAGTTGGCGCGTCAGCTGCGGCGCTGGAAGGAGCGACACAGCGATCAC
CACCACAGCCACGGTCACAGCGCCAGCACCACCCCCGCCACGGAAGCCGT
CACCGATGACAGCCAGGTGGATGGCTCCCTGCTGCAGGGCCGTGAGGCCG
AGCTTCCCGACCCCGGTGTTCGCCGCAAGTATTTCGCCATGCCGCCGATG
AGCCTCGAGGAGGCCCGGCGACAACTGGATCTGATCGATCACGACTTCTA
CCTGTTTCGCGACAAGGACAGCGATCAACTCCAGGTGATCTACCGCCGGA
ACCATGGCGGCTACGGCGTGATCCAGGCTCGAGGCTGA
>SYNW0127 lysS, lysyl-tRNA synthetase
GTGTCTGAGCTGCGCGACACCCGTTTGGAGAAGTGCCAGGCACTGTCTGA
TCTGGGCCAGGGTCCCTACGCCCTCAACTTTGAGCCGACCCATCGCATGG
CGGCCTTGCATGAGGCCCATGCCGACCTCCCCAATGGCGAGGAACGTGAG
GTGACGGTGTCCGTCGCCGGGCGGGTGATGACCCGGCGGGTGATGGGCAA
GCTCGCCTTTTTCACCCTGGCGGATGAGACCGGCACCATTCAGCTGTTTC
TGGAGAAAGCGGGCCTGGAGGCGCAGCAGGAGGGCTGGTTCAAGCAGATC
ACCGGTCTGGTCGATGGCGGCGACTGGCTTGGGGTGAGCGGCACGCTGCG
CCGCACCGATCGCGGTGAGTTGTCGGTGAAGGTGAGCGATTGGCGCATGC
TCACCAAGGCGCTGCAACCGCTGCCGGATAAGTGGCACGGCCTGGCCGAT
GTGGAGAAGCGCTACCGCCAGCGCTATCTCGACCTCATCGTGTCGCCGGA
CAGCCGGGAGACTTTCCGCCGCCGGGCACGGTTGGTGAGCGGCATCCGCC
GCTGGCTGGATCAACGTGATTTTCTCGAAATTGAGACTCCGGTGCTGCAG
AGCGAACCGGGCGGTGCCGATGCTCGGCCCTTCGAGACCCACCACAACGC
TCTTGATCTTCCCCTCACCCTGCGCATCGCCACCGAACTGCATCTCAAAC
GCCTGGTGGTGGGTGGCTTCGAGCGGGTGTACGAGCTGGGCCGGATCTTT
CGCAATGAAGGGGTCAGCACCCGCCACAACCCGGAATTCACCTCGGTGGA
GATCTATCAGGCCTACTCCGATTACATCGGAATGATGGAGCTCACTGAGC
AGATGGTCAGCGCCGTTTGCCAGGAGGTGTGCGGCAGTTGCCAGATCACG
TACCAGGACACCGAGATTGATCTCAGCCCCCCCTGGCGACGGGCCACCAT
GCATGAGCTAGTGGAGGAAGCCACCGGTCTTGATTTCAATAGCTTCAGCA
GTCGGGAGGCGGCGGCTGTAGCGATGACCGGCAAGGGCCTGCATGCACCT
GAACTGGCCGATTCCGTGGGGCGTCTGCTGAATGAAGCGTTCGAGCAGGC
GGTGGAGACAACGCTGATTCAACCCACCTTTGTGACCGATTACCCGGTGG
AGATTTCACCGTTGGCCCGGCCTCACCGCAGCAAACCCGGCCTGGTGGAA
CGTTTTGAGCTGTTCATCGTTGGCCGCGAGCATGCCAATGCCTTCAGTGA
GCTCACCGATCCGGTGGATCAGCGGCAGCGCCTGGAGGCCCAGCAGGCCC
GTAAGGCTGCCGGGGATCTCGAAGCGCAGGGGTTGGATGAAGACTTCGTC
ACGGCCCTCGAGGTGGGCATGCCTCCCACCGGTGGGTTGGGTATTGGTAT
CGATCGTTTGGTGATGCTGCTCACGGATAGCCCATCGATCCGTGATGTCA
TTGCCTTCCCGCTTCTGCGGCCGGAGCCCAGGGCGGCGGATGCCCCCGCA
ATGGGATAA
>SYNW1822 map, putative methionine aminopeptidase
ATGAATTTATTCGCAGACTTACTGGCGACCACTCAGGCTCCGAGCGCAAC
AGCCACTGGACCCCGGATTCAGAAGCGTCGGGGAGTGGAGATCAAATCGG
CCCGTGAGATCAAAATCATGCGCGAGGCCAGTCGCATCGTCGCCACGGTG
CTGCGCGAAGTGATGTCCATGGTTGAGCCGGGACAGACAACCGGCGAGCT
TGATGCCTTTGCCGAAAAGCGGATCCGAGAGATGGGCGCCACTCCGAGTT
TCAAGGGTTACCACGGCTTTCCCGCAAGCATCTGCGCCAGCATTAACAAC
GAAGTGGTGCATGGCATTCCCAATGCCAAGCGGGTGATTCACAAAGGAGA
CCTTCTGAAGGTGGATACCGGCGCCTACTTCGAGGGGTACCACGGCGACA
GCTGCATCACTGTCTGTGTGGGTGAGTCATCGGCTGAGGCTCAGACCCTT
AGCCGTGTGGCCCAGGAATCGCTGATGGCTGGATTGAGTCAGGTCAAGGC
TGGGAACACCCTTCTGGACATCGCTGGTGCCGTTGAAGACCACGTCAAGG
CCAACGGATTCAGCGTCGTCGAGGACTACACGGGTCACGGTGTGGGCAGA
AATCTGCATGAGGAGCCTTCGGTGTTCAACTTCCGCACCGATGAACTGCC
GAATGTCACGTTGCGTCCAGGCATGACGCTGGCGATCGAGCCGATCCTGA
ACGCCGGCAGCAAGACCTGCCGCACGCTGAAGGATCGCTGGACAGTGGTG
ACCCGTGATGGATCACTCTCGGCTCAGTGGGAACACACCGTTCTGGTCAC
CAGTGACGGCTGCGAAATCCTCACGGATCGGGGTGACTGA
>SYNW1222 metG, putative methionyl-tRNA synthetase
ATGCCCTACACCCTCACGACTCCGCTTTATTACGTCAACGATCGGCCGCA
CCTGGGCAGCACCTACACAACCCTGGCCTGTGATGCCCTGGCGCGCTTCC
AGCGGTTGAACGGCAAGGCTGTGGTGTTCATCACCGGAGTTGACGAGCAC
GGACAGAAGATCCAGCGAACGGCTGAAGCCCGGCAGCTGAGCCCGCAACA
GCACTGCGATGCAATCAGTGGCAGCTACCGCGACCTCTGGTCTCGCTGGG
GGATCAGTCAGGACCGCTTCGTTCGCACCACCGATCCCCGTCATCTGCAG
CTGGTCGATCAGTTCTTCGCTCGCGTTAAAGGATCAGGGGACGTCATCAG
CGGCCGGCAGACCGGTTGGTACTGCGTCGGGTGCGAGGAATACAAAGACG
ATTCAGCCGAGGCCGTCGATCCCAGCTGCCCGATCCACCAGAAGCCGCTG
GAGTGGCGGGATGAGGAAAACCTGTTCTTCCGCCTCTCCCACTACCAGTC
GCAGATCGAAGAGCTGGTGGCTAGGGACGACTTCATCCAACCGGCGAACC
GACGCCAGGAGGTGAGGAATTTCGTCGCCCAGGGGCTGAGGGACTTCTCA
ATCTCGCGGGTGAATGTGAGCTGGGGCCTGCCCGTGCCAGGCCATGAAGG
CCACACCTTCTACGTGTGGTTCGATGCCTTGCTGGGCTATCTCACAGCGC
TGCTGGATGACGGGGGGCCGGTTGCGCTGGAGCGTCTGGAGCAGTGCGGC
TGGCCGGCATCCGTGCATGTGATCGGCAAGGACATCCTGCGTTTCCATGC
CGTGTTCTGGCCGGCGATGCTGATGTCTGCAGGACTGCCTCTGCCGAAGA
CCGTGTTCGGCCACGGCTTTCTCACCCGAGAAGGCCTGAAGATGGGCAAG
TCGCTGGGCAATGTGCTCGACCCGGAACGACTGCTGGAGCGCTGCGGATC
AGATGCCGTTCGTTGGTATCTGCTGCGCGACATCCAATTCGGGGACGACG
GCGATTTTCAACAGCAGCGCTTCGTTGATCTGGTGAACAACGACCTCGCT
AACACCATCGGCAACCTGCTCAACCGCACCTCATCCATGGCCAGGAAGTG
GTTCGCTGATGCCGTTCCACCCCACACCGATGCCGTGGGACCTCACCATC
CCCTTGCCGTTGCGGCCAACACTGCCGTCACAACGGTCCTGACATCCATG
CCATCCCTTGGCTTCAAGCCGGCGGCGGAGGCTGTTCTCCAACTGGCGAT
CGCAGCCAATGGTCATCTCAACGACACAGCGCCATGGAGCAGGATGAAGC
AACCGGGTAAGGAAGCCGAGGTCGGCGATGACCTCTATGCCGTTCTGGAA
GCCACCCGGATTGTGGGACTGCTTCTCAGCCCATTGCTGCCCGAGTTGAG
CACACGAATTCTGGAGCAGCTCGGTACCAGCATCAATCCCGATGGCTGGA
CCGAAAAGCTGAGCTGGGGTGGCCTGGTGAGTGGGGCGTCTCTTCCCAAA
CCATCTCCGGTGATGCAGCGCCTCGAACTCGAGGAGTCCCTCTGA
>SYNW0094 miaA,trpX, tRNA delta-2-isopentenylpyrophosphate (IPP) transferase
TTGACGCAGCCAGAACCCTTGGTGATCACGTTGCTGGGGCCCACCGCCAG
CGGCAAAACAGCCCTGTCGCTGGAGATCGCTGAACGGCTCAATCTGCCGG
TGATCAACGTGGATTCCAGGCAGCTGTACCGGGAGATGACCGTGGGCACC
GCCAAACCGACGGCGGAGCAACGGGCGCGGGTGCCACACCATTTGCTGGA
TCTACGCAACCCCGATCAGCCGATCACCCTGCAGGAATTTCAGGCGGAGG
CCGAGCCCTGCATCCAGCGTGAGCTGCAAAGCAGGGGCATGGCACTGCTG
GTGGGGGGTAGTGGCTTGTATCTCAAGGCCCTCACCAGTGGCCTCAAACC
ACCGGCGGTGCCACCGCAGGCGCAGCTGCGTGAGCAGCTGAGCCAATTGG
GTCAAGCGATCTGCCATCCGCTGCTCCAGCAGGCCGATCCAACGGCCGGC
GCCAAGATCGCCCCCGCTGATGCCGTACGCACCCAACGGGCTCTGGAGGT
GCTGTACGCCACCGGTCGACCGATGAGCAGCCAGGCCACAGCTACACCAC
CGCCCTGGCGGGTTTTGGAACTGGGGCTAGATCCTGCCAACCTGCGCCAG
CGCATTCAGCAGCGCACCGACCAGCTCTACAGCGACGGGTTGGTGGAGGA
GACCCGGCAACTTTCGGAGCGCTACGGCGCTGATCTGCCATTGCTGCAGA
CCATTGGCTACGGCGAGGCCCTGCAGCTCCTCGAAGGAACGATGAACCAG
GCGAAAGCCAACCGAATCACCACCCAGCGCACGCGGCAATTCGCCAAGCG
TCAGCGCACCTGGTTCCGGCGCCAGCACCAGCCCCATTGGCTGGCGCCGG
CTACAGAACTTGATCAGGCGATGACGTTGATCGAGCAGCATCTAAGGTGA
>SYNW1640 miaB, 2-methylthioadenine synthetase
GTGCCAGCTGCAAACGCGCAGAGCCGCGGCAGCTACTGGATCACCACCTT
CGGCTGCCAGATGAACAAGGCGGATTCCGAGCGGATGGCCGGGATCCTCG
AGTCCATGGGGTATCGCGCAGCCAACGCCGAACTGGAGGCGGATCTGGTC
CTCTACAACACCTGCACGATCCGCGACAACGCCGAGCAGAAGGTTTACAG
CTACCTCGGTCGACAGGCACAGCGCAAACGGCTGGATCCGAACCTCACCC
TCATCGTGGCGGGATGTGTGGCCCAACAGGAAGGCGAATCACTGCTGCGG
CGGGTGCCCGAACTCGACCTTGTGATGGGTCCCCAGCATGCGAATCGGTT
GGAGGTGCTGCTCAACCGGGTGGACAGCGGTCAGCAGGTGGTTGCTACTG
AAGACCATCACATCCTTGAAGACATCACGACTGCACGGCGGGACAGCAGC
ATCTGCGGTTGGGTCAATGTGATTTACGGCTGCAACGAGAGATGCACTTA
TTGCGTGGTGCCCTCAGTGCGTGGCAAGGAGCAATCACGGCTTCCTGAGG
CCATCCGCTTGGAAATGGAAGGCCTTGCCGCCCAGGGTTACAAGGAGATC
ACCCTGTTGGGACAAAACATCGATGCCTACGGACGAGATCTCCCGGGGAT
CACACCGGAGGGGCGCCGGCAACACACGCTGACGGACCTCCTGCATCAGG
TCCATGACGTGAGCGGTATCAAGCGCATCCGCTTCGCCACCAGTCATCCG
CGTTATTTCACAGAGCGGCTGATCGATGCCTGCGCCGACCTTCCCAAGCT
TTGCGAGCACTTCCATATCCCCTTCCAAAGCGGCGACAACGACGTCCTGA
GGGCCATGGCCCGTGGCTACACCGTGGAGCGCTATCGAAGGATCATTGAC
CGCATCCGTGAGCGCATGCCCGATGCCTCGTTGAGTGCGGACGTGATCGT
GGCCTTCCCAGGTGAAACAGACCTCCAGTACCAGCGCACCCTGGATCTGA
TCGAGGAGATCGGCTTCGACCAGGTGAACACCGCGGCCTACTCGCCGCGG
CCCAACACCCCTGCGGCAACCTGGGACAACCAATTGCCGGAGGAGGTGAA
GGTGATACGCCTCCAGACGATCAATGCCCTGGTGGAACGCTGCGCCCGTG
AGCGCAACGCGCGGTATGCAGGCCGCACCGAGGAAGTGCTAGCGGAGGGC
ATCAACCCCAAGGATCCCAGCCAGCTGATGGGGCGAACACGCACCAACCG
ACTGACCTTTTTCCAGGCAGCAGGCCCTGATGGTCATCAACACAATCCAG
GTGATCTGGTGAACGTCCGCATCGACGCGGTCCGATCGTTCTCGTTAAGC
GGAACCCCCCTGCCCTGCGTCGAACAACGCTGA
>SYNW1600 pheS, Phenylalanyl-tRNA synthetase
GTGAGCGCCCCGGTCACCCTGCAGCAGCTCACCGATCAGCTGGATGCGCT
CGAGCAGCAGGCCACAACCGAAATCTCCGAGGCCTCCGATGCCGCAGCCC
TCGAACAATTGCGGGTAGGTCTGCTGGGCAAAAAGGGACGGATCTCGGGG
GTGCTCTGGGCCATGGGCAAGCTGCCGGGCAGTGAACGACCGCTGGTGGG
TCAGCGGGCCAATGTGCTCAAAACCCAGGTGCAGAGCCTGCTGGCTGAGC
GTCTTGCGGCGGTGAAGCAGGCGGCGATGGCGGAACGCATCGCCCGCGAA
AGCATTGATGTGACGGCGCCGGCGTCGGGGATCCCGATGGGGCATCGCCA
CCCCTTGATCACCACCACCGAGGAGATCGTCGATCTGTTTCTCGGCCTCG
GATACAGCGTTGCCGAAGGGCCCGAGGTGGAGAAGGACTACTACAACTTC
ACGGCGCTGAACATTCCCGAGGATCATCCAGCCCGGGACATGCAGGACAC
CTTCTACCTGCAGGGTGATCTGCTGCTGCGGACCCACACCTCACCGGTGC
AGATCCGCCACTTGGAACAGAACCCCCCACCGGTGCGCATCGTCGCCCCT
GGACGGGTGTATCGACGCGATGCCGTCGATGCCACCCACTCGCCGGTCTT
CCATCAGGTGGAGGTGCTGGCCATTGATGAGGGACTCGACTTCAGCCACC
TGCGCGGCACGGTGATGGCCTTCCTCAAGGCTTTCTTCGGTGATCTGCCG
GTGCGTTTCCGGGCCAGTTACTTCCCGTTCACGGAGCCTTCAGCCGAGGT
GGACGTGCAATGGAGGGGACGATGGCTGGAGGTAATGGGCTGCGGCATGG
TTGATCCCGCTGTGCTGGAAGGTCTCGGCCTCGATCCCGAGCGCTACAGC
GGCTTTGCTGCAGGTCTCGGCGTTGAACGCTTCTGCATGGTGCGTCACGG
CATTGATGACATCCGCCGGCTTTACACAAGCGATCTGCGCTTCCTCGAAC
AGTTCTGA
>SYNW1897 pnp, polyribonucleotide nucleotidyltransferase
GTGCAAGGACAAACCCAGTCGATCTCCTTTGATGGACGCGAGATTCGACT
GACCACCGGACGTTTTGCCCCCCAGGCGGGCGGATCCGTTCTTGTTGAAT
GCGGAGACACCGCCGTGCTGGTGACCGCCACCCGCTCCGGCGGACGGGAG
GGCATCGATTTTCTGCCTCTGATCTGCGATTACGAGGAGAGGCTCTACGC
CGCTGGTCGGATCCCCGGCAGCTACCAGCGGCGTGAGGGTCGTCCCCCCG
AGCGGGCCACCCTCACCGCCCGTCTGATCGACCGGCCGATGCGGCCCCTG
TTCCCAGCTTGGCTGCGGGACGACCTTCAGGTGGTCGCCACCTGTCTGTC
CCTGGACGAACGTGTCCCGGCGGATGTGCTTGCCGTGACCGGTGCCTCCA
TCGCCACGCTGCTGGCGGGCATTCCCTTCAATGGTCCGATGGCGGCCGTG
CGGGTGGGCCTGCTCGGCGATGACTTCGTGCTCAACCCGAGTTATCGCGA
AATTGAACGCGGTGATCTCGATCTGATCGTCGCCGGCACCCCGGATGGTG
TGGTGATGGTGGAGGCTGGTGGCAACCAGCTACCCGAACAGGATGTGATC
GAAGCGATCGACTTCGGTTACGAAGCGATCTGCGAATTGATCAAAGCCCA
GGAGCAACTGCTGAAGGATCTGGGCATCGAACAGGTGAAGCCGGAGACCC
CCACGCAGGACACCACAGTGCCGGCTTACCTGGAGAAGCAGTGCACCAAG
GCGATCAGCGAGGTGCTCAAGAAATTCGACCAGACCAAGGATGAGCGCGA
CAAGGCCCTTGATGCCATCAAGGCGGAAGCCGCTGAAGCCATCGCCGGCC
TGAAGGAGGACGATGCCATCCGTGTGGCCACCGCCTCCAATTCGAAGCTG
CTCGGTAACAGCTTCAAGGCGCTGACCAAAACCCTGATGCGCCAGCAGAT
CCTCAAAGACGGCAAGCGAGTAGACGGTCGCGCCCTGGATGAGGTGCGGG
CCATCAGTGCCTTGGCTGGGGTCCTCCCTCGACGGGTCCATGGTTCCGGC
CTATTCCAGCGTGGTCTCACCCAGGTGCTCTCCACCGCCACCCTGGGCAC
ACCCAGCGATGCCCAGGAGATGGATGACCTCCATCCCAGCACCGAGAAGC
TGTACCTGCACCACTACAACTTCCCGCCTTATTCCGTCGGCGAAACCCGA
CCGATGCGCTCCCCAGGACGCCGCGAAATTGGTCATGGCGCCTTGGCCGA
ACGGGCCATCCTGCCGGTGCTTCCCGCCAAGGACACCTTCCCTTACGTGG
TGCGGGTGGTGAGTGAAGTACTCAGTTCCAACGGCTCTACCTCGATGGGC
TCCGTCTGCGGCAGCACCCTGTCGCTGATGGATGCCGGAGTCCCCCTCAA
GGCACCAGTGAGCGGTGCGGCCATGGGCTTGATCAAGGAGGGCGATGACA
TCCGCATCCTCACGGACATCCAGGGAATCGAAGATTTCCTCGGCGACATG
GATTTCAAAGTCGCAGGCAGCGAGAAGGGCATCACGGCCCTGCAGATGGA
CATGAAGATCACCGGTCTGCCGGTGAAGACGATCGCCGAGGCGATCAACC
AGGCCCGTCCAGCCCGTCTGCACATCCTTGAAAAGATGCTGGAGGCGATC
GACACACCACGCGAAGGCCTGTCCCCCCATGCCCCGCGCCTGCTGAGCTT
CCGGATCGATCCCGAGCTGATTGGCACGGTGATCGGTCCCGGTGGCCGCA
CGATCAAAGGCATCACCGAGCGCACCAACACCAAGATCGACATCGAGGAC
AGCGGAATCGTCACCATCGCCTCCCATGACGGTGCGGCGGCTGATGAAGC
TCAGAAGATCATCGAAGGCCTCACCCGCAAGGTGAATGAAGGCGAGGTGT
TCTCAGGATCGATCACCCGGATCATCCCCATCGGTGCCTTCGTCGAGATC
CTGCCTGGCAAGGAAGGCATGATCCACATTTCTCAACTCTCCGAAGCCAG
GGTGGAGAAGGTGGAGGACGTCGTGAAGGTGGGTGACGAGGTCACCGTGC
GTGTTCGGGAAATCGACAACCGCGGCCGGATCAACCTCACCCTGCGGGGC
GTGCCCCAGAGCGGCGACGGTGCCGGGGAGGAGCCTCAGCCCACCCCTGT
GGCACCGCTGAGCTGA
>SYNW2096 prfA,sueB, peptide chain release factor RF-1
ATGGACGCCTCGACCCTTCTCGCGCGGCTTGAGGCCGCCACAGCCAGCTT
CCGAAACCTCGAGCGGCAGCTGGCTGACCCAGATGTGGCCGCAGACCCCA
CGCGGCTTGAAAAAATTGCGCGTGAACGGGCTCGGCTCGAGCCGTTGGTG
CTCGACTTCGAGGAGCTGCAAGTTCTGGAAGGGGAACAAAAGCAATCCCG
CGAGCTGCTGAAGGAATGCCGCGGCGATGCCGCGATGGAGGAGCTGGCCC
AGGACGATTTAGCCAGCCTCAACCGACGCCACGCCGAGCTCACCGAAAAA
CTCACGGTGGCCTTGCTGCCTCGCGACCCCCGCGATGAACGCAGCGTCAT
GTTGGAGATCCGTGCCGGAGCCGGAGGCGATGAAGCCTGCATCTGGGCCG
GCGATCTGGCGCGGATGTACGAGCGCTACAGCCAGAAGCTCGGCTGGAAC
GTGCAACCCATCAGCAGCAATGAAGCCGATCTGGGGGGGTTCCGGGAACT
GATCCTGTCGGTGAAAGGCGACAGCGTGTTCAGTCAGCTCAAGTTCGAAG
CCGGTGTGCATCGGGTGCAGCGGGTCCCCGCCACCGAATCCCAGGGTCGG
GTCCACACCTCCACGGCCACGGTGGCCGTGATGCCGGAAGCCGATGCGGT
GGAGGTGCAGCTGGACCCCAAGGATCTGGAGATCAGCACCGCCCGTTCTG
GTGGCGCCGGTGGTCAGAACGTCAACAAGGTGGAAACCGCCGTAGACCTG
CTGCACAAACCCAGCGGCATCCGTGTGTTCTGCACCCAGGAGCGCTCTCA
GCTGCAGAACCGGGAACGGGCTCTGGAAATCCTGCGAGCCAAACTGCTGG
AACAGGAGCAACGGGAGGCGGCGGCCCGGGAAAGCAGCGACCGTCGCGCC
CAGGTGGGCAGCGGTGATCGCAGCGAAAAAATCCGCACATACAACTACAA
AGACAACCGCACCACCGATCACCGGCTGGGCAGAAATTTTTCACTCGATC
CGGTGCTGGATGGTCAGCTTGAGGATTTGATCGGCGCCTGCATCGCAGAA
GAACAGCGGCAGAAACTGGAAGCCCTCAGCCAACAGAACGAGGACTGA
>SYNW2311 prfB, peptide chain release factor RF-2
CTGGATCTCACCGACTTCAAGCGCGATCTCTCCGAGCTCACTGACCGCCT
GGGCCATGCCCAGGACTGTCTTTGACGTCCCCGCACTGAAGGCCAGACAA
CAAGATCTAGAACAACTCGCCGCCCAGCCTGATTTCTGGGATGACCAGCA
GGCGGCCCAGAAGCAGATGCGCCGCCTGGATGAGGTGAAGGCGCAGCTGC
AGCAGCTGGCGGACTGGGGCGGTGCTGTGGACGATGCCAAGGCAACGCTG
GAGCTCTACGAGCTGGAACCGGACGAGGAGATGCTCACCGAGGCCCAGGA
GGGCCTCAATCAACTGCGCCAGGGCTTGGACCGCTGGGAGCTGGAACGCC
TGCTCAGTGGTGATTACGACAAGGAAGGCGCTGTGCTCACCATCAATGCT
GGCGCCGGTGGCACCGATGCTCAGGACTGGGCACAGATGCTGCTGCGCAT
GTACACACGCTGGGCGGAAGACCACGGCATGAAGGTGACCGTGGACGAAC
TCTCCGAGGGTGAGGAAGCAGGCATCAAGAGCTGCACGATCGAGGTGGAA
GGCCGTTACGCCTACGGCTATCTACGGAATGAGAAGGGCACCCACCGACT
GGTGCGGATCTCACCGTTCAACGCCAACGACAAGCGTCAGACCAGCTTTG
CCGGCATCGAGGTGATGCCCAAGATCGATGAGGAGGTCGACATCGACATT
CCCGAAAAGGATCTGGAGGTCACCACCAGTCGTTCCGGTGGTGCGGGCGG
ACAGAACGTCAACAAGGTGGAAACAGCGGTGCGCATCCTCCACATCCCGA
CGGGCCTGGCGGTGCGTTGCACCCAGGAGCGATCGCAGCTTCAGAACAAG
GAAAAGGCCATGGCGCTGCTCAAGGCCAAGCTGCTGGTGATCGCCCAGGA
GCAACGGGCCGCCGAAATCGCCGACATCCGTGGCGACATCGTTGAAGCGG
CCTGGGGCAACCAGATCCGCAACTACGTGTTCCATCCGTATCAAATGGTC
AAGGACCTGCGCACCAGCGAGGAGACCAATGATGTGCAGGCGGTGATGGA
CGGGGCCCTCGACCCCTTCATCGACGCCTCGTTGCGCCAGGGTGTAGACA
GCCCCGGCGCCGACGCCGATTCCTGA
>SYNW1149 prfC, peptide-chain-release factor RF-3
ATGAGCGGCACGACGGCGACTGAAACGGACCTTGCCGGATTGGTGGCGCA
GGCGGTGGATCGTCGCCGCAACTTCGCGATCATTTCCCATCCGGATGCTG
GCAAGACAACCCTGACGGAGAAGCTGCTGCTCTACGGCGGTGCGATTCAG
CAGGCCGGTGCGGTGAAGGCCCGGGGCGAGCAACGCAAGGTGACCTCCGA
CTGGATGGAGCTGGAGAAACAGCGGGGCATCTCGATCACCTCGACGGTGC
TGCAGTTCGATTACGACACCACCACGATCAACCTGCTCGACACGCCTGGT
CACCAGGACTTCTCCGAGGACACTTATCGCACCCTGGCGGCGGCCGATAA
CGCCGTGATGCTGGAAGACGCCGCCAAGGGCCTGGAGCCTCAGACGCGGA
AGTTGTTCGAGGTGTGTCGGATGCGCAACATCCCGATCTTCACCTTCATC
AACAAGATGGATCGTCCCGGCCGGGAGCCCCTGACGCTTCTGGACGAGAT
TGAATCGGAACTTGAGCTGACCCCCTGGGCTGTCAACTGGCCGATCGGCA
GCGGTGAGCAGTTCCGCGGGGTGATCGATCGCCGCAGCCGTGAGGTGGTT
CTGTTCAGTCGGGCTGAACGGGGCAAACAGGCCGCGGAACAGAAATTGTC
CCTGGATGATCCGGCCCTGCGGGAGCTGGTGGAGGAGGAGTTGTTGGATC
TGGCGATCGAGGAGATGGAGTTGCTCGATGCCGCCGGAGCTGAGCTGGAC
ATCGAAATGGTGCATGCCGGTGAGCTGACACCGGTGTTCTTCGGCTCAGC
GATGACGAACTTCGGGGTGAGGCCGTTTCTGGATGCCTTTCTGGAAATGG
CCCAACGTCCGATCGCCCGTTCCAGCAGCGAGGGATTGATCGATCCGCTG
CGGGAAGGGTTCAGCGGCTTCGTGTTCAAGCTTCAGGCCAACATGGATCC
CCGTCACCGGGACCGGGTCGCGTTTGTGCGCGTCTGCAGCGGTCGCTTCG
AGAAAGACATGACGGTGAAGCACGCGCGCACCGGCAAGGCGATCCGGTTG
TCCAGACCGCAGAAGCTGTTCGGACAGGACCGGGCGGTGGTCGAGGACGC
CTACCCCGGCGATGTGATCGGCCTGAACAATCCGGGAATGTTCTCGATCG
GCGACACCCTATACGTGGGCCCGAAAGTGGAATTTGAGGGCATTCCCTGT
TTCAGCCCGGAGATCTTCAGTTGGTTGCGCAATCCAAACCCGTCCGCCTT
CAAGAACTTCCGCAAGGGGGTGAATGAATTACGGGAAGAGGGTGCGGTTC
AGATCCTTTACGACACCGATGAGAGCAAACGCGATCCGATCCTCGCGGCG
GTCGGTCAGCTGCAGCTGGAGGTGGTTCAGCACCGTCTTGAAAATGAATA
CGGCGTTGAAACGCGGCTGGAGCCCCTTGGTTTTCAGGTGGCGCGCTGGG
TCGCCGGCGGTTGGTCGGAACTGGAGAAGGTGGGCAGGATTTTCAACTGC
AAAACCGTGCGCGATGCCTGGAACAGGCCTGTGCTGTTATTCAAGAACGA
GTGGAACCTCAATCAACTGAAAGAGGACCATCCCGATTTTGAGCTGAGCA
ATGTGGCTCCAGTGGTGAGTGGGGTGGAGCCGATCAGCCTCTGA
>SYNW0534 prmA, putative methyltransferase for Ribosomal protein L11
ATGGCGTGTCCTCCTGAGCTGGAGGAGTCGCTCGTTTGGAAACTGACTGA
CCTGGGCCTGCACCGCCATGCGGTGCAGCACGCGCCGGAGACGCCGGATC
GGAAGCAGTTGTTGCTGTGGTTGCCGCAGCCGGAATGGCCTGAAGCGGAA
CGTCAGCAGCTCCTGGCCAGTCTGGAGCCCCTGGCGGAACCCTTCGGCTT
ACCGCTGCCGCAGGGCCACTGGGATGACGTGGCGGATGAGGACTGGAGCC
TGAGCTGGAAGCAGCACTGGCAGCCGGATCCGGTGGGGGAGGGGCTGCTG
ATCCTGCCGGCCTGGCTGGAGGTGCCACCCGAGCACGGCGAACGGCTGGT
GATCCGCATGGATCCCGGCAGCGCCTTCGGCACCGGCAGCCACCCCACGA
CGCGCCTTTGCCTCGAGGCGCTGGAGAAAGCTCCACCCGTCGGCGCCCTT
GTGGCGGATCTGGGTTGCGGCAGCGGGGTGCTGGGGTTGGCGGCCCTGGG
ATTGGGAGCCACGGCCGTGGTGGCGGCCGACACCGATTCCCTGGCGGTGC
GGGCCACGGGCGACAATCGCGAGCTCAACGGACGCCCCGCCGATCTGCTG
AAGGTGAGCCTGGGATCGGTGGAGGCCCTGCAGCACCTGCTGGAGGGGCG
TCGGGCCGATCTCTTGCTGTGCAATATCCTGGCGCCGGTGATCGAAGCGC
TGGCTCCAGGATTCGAGGCTCTGGTGGCCCCTGAGGGTCGTGCGCTGCTG
AGTGGCCTGCTGGTGGACCAGGCCCCCAGGCTGGAGCAGGTGCTGGGGGA
TCTGGGCTGGCGGGTGTCGGCACGGGGCTCCCAGGGCCGTTGGGGCCTGC
TCGAGATTCAGCGCCGTTGA
>SYNW1771 proS,drpA, Prolyl-tRNA synthetase
ATGCGCGTCTCCCGCCTGATGCTGGTGACATTGCGCGATGTGCCAGCTGA
AGCCGAAATCACATCCCACCAGCTGCTGTTGCGTGGAGGGTTCATTCGCC
GAGTCGGCTCTGGGATCTACGCCTATCTGCCGATGATGTGGAAGGTCTTG
CAGCGCATCACCACGATCATCCGCGAGGAAATGAATCGTGCTGGTGCTCT
TGAAACTCTGTTACCCCAGTTGCACCCCTCAGAGCTCTGGCAACGCAGTG
GCCGTTGGCAGGGGTACACGGCCGGCGAAGGGATCATGTTTCACCTGGAG
GACCGCCAGGGGCGCGAACTGGGTCTGGGACCGACCCATGAGGAGGTGAT
CACCAGCCTGGCGGGCGAGCTGCTGCGCTCCTACCGGCAACTTCCCGTGA
ACCTTTATCAGGTGCAGACGAAGTTCAGGGATGAGATCCGCCCCAGGTTC
GGCCTGATGCGGGGGCGTGAATTCATCATGAAAGATGCCTACTCCTTTCA
CGCCGACGAAGCCGATCTGCAGGCGACCTACGCCGTGATGGATCAGGCCT
ACCGACGCATCTTCGAGCGCTGCGGACTCGAGGCAGTGCCTGTGGATGCC
GACAGCGGCGCCATCGGTGGTGCCGCCTCCCAGGAATTCATGGTCACGGC
GGAAGCTGGCGAAGACCTGATCTTGATCAGCGATGACGGTGCCTACGCCG
CCAACCAGGAGAAAGCCGTGTCGATCCCCGACGCGGTCGCTTCCCTACCC
CCTGCAGCACTCACCCTCCTCAAGACCCCGGGACAGACCACGATTGAAGG
GCTCTGCACAGCCCAGGCCTGGCAGCCCGGGCAGCTGGTGAAGGTGCTGC
TGCTGTTGGCACAGCTTGAGGATGGCCAACAACAACCCGTATTGGTGTCC
CTGCGGGGGGACCAGGACCTGAATGAGGTGAAGCTGGTGAATGCGGTGAG
TCGCCGCAGCGAGCAGGGCGTTCTCGACTGCCGACCGATCAGCCCAGACG
ATCTTCAGCGACAAGGGATCAACACCATTCCCTTCGGATTCATCGGCCCG
GATCTTGCCGATAAGGTGCTGGCTGACGCCTCCAGCTGGACGACCTCATT
TCTTCGCCTGGCCGACACCACTGCAACGGAGCTGGAGCAGTTCCACTGCG
GCGCCAATGCTGAAGACCAGCACCGCAGCCACTGCAGCTGGGGTGACCTG
GGTGGGGCTCCACAGGGTGAAGACCTACGCAAGGCCCGTGCAGGGGAGCG
CTGCGTGCACAACCCGGACGCCCGACTGCAGGAGAAGCGGGGCATTGAGG
TGGGCCATATCTTCCAACTTGGGCGTAAGTATTCCCAGGCTCTCGACTGC
TGCTTCACCAACGAGAACGGCCGTGATGAACCGTTCTGGATGGGTTGCTA
CGGCATCGGCGTCTCACGCCTGGCCCAGGCAGCGGTGGAGCAGCACCACG
ACGATGGCGGCATCCGCTGGCCCGCCGCCATCGCTCCCTATGAAGTCATC
GTGGTGATCGCAAACAATCATGATGACGCCCAAACCGATCTCGGAGACAC
GGTGTACGCAACGCTCCTTGAGGCGGGCATCGATGTGCTGCTGGATGACC
GCAAGGAACGGGCTGGGGTGAAATTCAAAGATGCCGATCTGATCGGCATT
CCCTGGAGGCTGGTCATCGGCCGCGACGCCGCCGAAGGCACCGTTGAACT
GGTTCAACGGTCCAATCGCGAGATGCGCAAACTGCCCCACGGCGAAGCGA
TCGGCGAACTGCTGAAGGCCCTGCGCCCTTAA
>SYNW0271 pth, putative peptidyl-tRNA hydrolase (PTH)
ATGGCCGATGTGCTCCGGCTGGTGGTCGGCCTGGGCAATCCAGGCACGAA
GTATGAGGGAACCCGTCACAACATCGGCTTCATGGCATTGGAGCAGATGG
CATCACGCGAGGGGTTCAGTTTTCGTCAGCAGAGCAAGTTGCATGGCTTG
GTGGCGGAGCACGGCATCGGTGAAAGCCGACTGAGGCTGCTCATGCCGCA
GACCTACATGAACGACAGCGGTCGGTCCATCCGCGCAGCGCTCGACTGGT
TTGGCTTCACGCCGGAACAACTGCTGGTTCTGGTGGATGACATGGACATC
CCCCTGGGGCGTCTGCGGTTGCGGGGCCAGGGCAGTGCTGGAGGCCATAA
CGGTTTGCGGAGCACAATTCAGCACCTGGGCACTCAGGCCTTTCCGCGCT
TGCGCATCGGCATTGGTGCTCCTGCTGACAATCCCGCGGAACGGCGGGCG
CGCACCGTGTCCCACGTGCTCGGTTCCTTCAGTCGTGCGGAGCAGCCTGA
GGTGGATGTCGTGCTGGACGGTGTGTTGGAGGCCATCCAGCGCATTCAGC
GCCAGGGTCTGGACCGCGCCGGCAACTGGATCAACGGCTTCTGTCCGGCT
TCAGTGGAATGA
>SYNW0672 queA, Queuosine biosynthesis protein
GTGCCCGATCCCAGGGACCTGCAGCTGAGTAGCTACGACTATCCGCTGCC
GCAGGAGCGAATCGCCCAGGTACCGGCCGAGCCACGCCACAGTGCCCGGA
TGTTGATGGTGCCCCCGGCGACGCAAGCCCTCGAGGCTGCCAGGCATGGG
GTGGTCTGGGATCTGCTGGAGGAGTTGCAACCCGGCGACCTTCTGGTGGT
GAACAACACCCGTGTGCTCAAGGCACGGTTGAAGGTGCGTCGCTCCGGTG
GTGGGTTGTCGGAGCTGTTGGTGCTCGAGCCCCGCGGTGAGGGGCGTTGG
CTCTGCCTGGCGCGACCGGCGAAACGCATGCGGCCCGGCGATGTGCTGAC
GATTGATGGCACGTCCATCGGCCTAACGGTGTTGGAGGACGACGCAGCCA
GTGGTGGGCGTTTGGTTCAGTTCCCGACGGACTGCCGTGATGCGGAGACG
ATCGAGACGCTGCTGAACCAATGGGGCGAGGTTCCGCTCCCCCCTTACAT
CGACCGGCATGACCCCGACGATGTCGAGCGTTATCAGACCCGCTACGCCG
ATCGACCGGGAGCCGTTGCGGCTCCGACGGCGGGGCTGCATTTCAGCGAT
GAACTGCTGGCAGGCCTCCAGCTCAAAGGAGTCGAGCTGGCCAGGATCAC
CCTGCATGTGGGCCTGGGCACGTTCCGTCCTGTGGAGACGAACGATCTGA
CCCGACTGGAGCTCCACAGTGAGTGGGTCGAGGTGAGTGCGGCGGTGGTG
GAGGCCATCCAGCGGTGTCGCGGCCGGGTGATTGCCGTGGGTACCACAAG
TGTGAGGGCCCTGGAGGGGGCGGCTCAACAGAATGGTGGAGTGCTTCAAC
CCTTCACCGGGCCCGTCAACCTTGTGATTCAGCCGGGCTATCGCTTTGCG
GTGGTGCAGGGCCTGATGACCAACTTCCACCTCCCCAAAAGTTCGCTGTT
GTTGTTGGTCAGTGCGCTGATCGGACGGGAAAAGCTGTTGGCGATTTACA
CCGAAGCTATTGAACGCAACTATCGCTTCTTTTCCTACGGCGATGCGATG
TGGATTGCTCCGGAGGCAGTGTTGTCACAGGCGGAGCCTGTGGGGCATTA
A
>SYNW1384 rimK, possible ribosomal protein S6 modification protein
TTGACCAGAAAAATCATTGTCGGCAGTGAGGAGTGGTGCTCCTTGCCAGG
GCTTGGCCTGCCGGCAATCAAGGCCCGGGTTGATTCCGGCGCAGCAACAT
CCTCATTGCATGCCTTCAACATCGTGCCGTTTCAGCGCGATGAAGCTCGG
TGGATCAGTTTTGAAGTGCATCCGCTTCAGAACGATCGTTCCGTGGTGAT
CCGCCGTGAGTCGCCTGTGCTGGAACAACGCGGTGTGCGCAACACCAGTG
GCATCACCGAAACGCGCTACGTGATTCGTGAACAGCTGGTGCTCGGTGAA
GAGAGCTGGCCGATTGAGCTGACTCTCACCAATCGCGATGCGATGGGCTA
TCGCATGCTGCTCGGCCGTGAAGCCATGGTGGGGCGCGTGTTGGTGGATC
CTGAGGGCAGCCATCAACTCGGCGATCTCCGTCAGGACCAGCTCGAGGCG
ATGTACGCCCCTCTGCGCACGGAGCGCAATGGCCTGCGGATCGCCCTGCT
GGCCTCGGACCCAGAGCTTTACAGCAACCGCCGTCTTCTGGAGGCCGGAG
AAGAACGGGGCCACCGCATGGAGTTCCTCAATGTCAAGCAGTGCTACATG
CGGTTGGATCCTCAGAATCCTGAGATGCACTACCGGGGAGGCAATGTGCT
TGAGCGCATCAATGCGGTGATTCCGCGGATTCGCCCCAGTGTCACGTTCT
ACGGCTGTGCGATCACGCGCCAGTTCGAGGCGATGGGCATCAGCGTGCTC
AATGCCGCAGAACCGATCAAGCGCTCACGCGACAAGCTTCTGGCTTCCCA
GTTGTTTGTGCGGCATGGCCTGAACATGCCGGTGACTGGCTTTGCCAGCT
CACCTCTCGACACCAAGGACCTGATCAAAATGGTTGGTGGTGCCCCGTTG
ATCCTCAAGCTGCTGGAGGGGGCCCAGGGGCGTGGAGTTGTGTTGGCTGA
GACTCAGAAAGCGGCGGAAAGTGTGATCAACGCCATGAAAAGCCTGAATG
CCAATCTTCTGGTGCAGGAGTTCATCAAGGAAGCCGGCGGCAAGGATCTG
CGTTGTTTCGTGATCGGAGGAAAAGTTGTTTCAGCGATTGAACGGACGGC
TGCGGTCGGAGATTTCCGCTCCAACATTCATCAAGGAGGGTCGGCCCAGG
CTGTGCGCATCCGCCCGGAAGAACGCAAATTGGCTGTGTCGGCGACCCGT
GCCCTCGGGTTGGATGTGGCCGGCGTTGACATCATTCGCTCCGAGCGAGG
CCCGCTTCTGTTGGAGGTGAATTCAAGTCCTGGATTGGAGGGCATTGAAA
CCGCTACAGGAAAGGATCTGGCTGGCTTGATGATTCAGGAAATCGAGCGA
AAACTGGGTTGGGTCCGCACACGTTTATCGGAACCTCAGGTCGCTTGTTG
A
>SYNW0149 rimM, possible 16S rRNA processing protein RimM
ATGGTCGAGAGCGAAGACTGGCTGATCGTCGGCAAGCTGGTGGGCGCTCA
GGGGCTGCAGGGTGAACTGCGGGTGAACCCCGCCAGCGATTTCCCGGAAC
GCTTCACCACCCCTGGCAGCCGTTGGCTGCGGGGACGCAAGGGCGGAGAA
CCCAAGGAAGTTCAACTCAAGAAAGGACGCCAGCTTCCGGGCAAGTCGTT
GTTCATCTTGCGCCTGGAGGGCATCGACAGCCGCGATGCAGCAGAGGCGC
TGGTGGGTCAGGAGCTGCTGGTGCCCGCCAGCGATCGCCCCGAGCTTGAG
GAAGGCGAATTCCATCTGTTGGATCTTGTTGGTCTGGAGGCCCGCTTGCA
CGCCGACGAGCCCGCCATCGGAGTCGTGACCGACCTGATCAGTGGTGGCA
ACGATCTGCTGGAGCTGAAGACATCCGCAGGTCGAACGCTGCTGATTCCC
TTTGTGGAATCGATCGTGCCTGAGGTGCATCTTGAGAAGGGCTGGTTGCT
GCTCACCCCGCCGCCTGGACTGCTGGATCTCTGA
>SYNW0737 rluA, putative pseudouridylate synthase
GTGCGGAGCGGCTCAAGCCCTGACGATCTGACGATCGCGCATTGGGATCC
CTGGTTGCTGGTGGTGCTGAAACCGTCGGGGTTGTTGTCGCAACCCGGCC
GCGGCTCTCATCTGCAGGATTCTTTGATCACCAGATTGCAGCATTGGAGT
GGGGATCACCATCTGGTGCATCGACTTGATCGAGACACGTCGGGTTTGGT
GCTGGTCGCCCGGGGACTGGAAAGTCTGCGTCGCTGCAGTGCCATCTTTG
CCGCCCGGAGAGTCAACAAGCTCTACGAAGCCGAGGTGGTTGGGCAGCTC
CAAGGTCGAGGTCGAATTGATTCGCGTTTGGCTCGCCTGGATCGCGATCC
GCCTCGCTATGGCGATCATCCCAAGGGGCGACCCTCGACGACGCTGTGGA
GAGTCCGTGCAAGACAACCGAACTCAACGCAACTCTGGCTGCGTCCATTG
ACAGGACGATCGCATCAGCTGAGGGCCCACTTGGCCGGTATGGGCCATCC
AATTGTCGGAGACCCGATTTACGGTGAGGCTTCAACGACTCCGATGCGCT
TGCATGCCCGGGCCCTGGGGTTTGAACACCCATTCACAGGTCTCCGACTT
CGGGTGTCCACGCGACAAGAGGATGTTCCCCATGCCAGCTGA
>SYNW2326 rluD, putative pseudouridylate synthase specific to ribosomal large subunit
ATGAGCCCCACCTGGAAGCGACCCCCATTGCCGGAGGAGACCTTCAGCGC
GTCCTTCGGTGAGGGGGAGGGTGAACTGCTGACCCTCGTTTATCCCAAGC
CGCTGCCGATGCGGTTGGACCGCTGGTTGGTGAGTCAGCGCACCGAGCAG
AGCAGGGCCCGGATCCAGAAATTTATTGATGCCGGCTATGTGCGGGTGAA
CGGCAAGACCGGCAAAGCCAAAACCCCCCTGCGCCAGGGCGATGAGGTGC
AGATGTGGATGCCGCCACCGGAGCCGTTGCCGTATCTCAAGCCGGAACCG
ATGGCGTTGGACGTCCTGTTCGAGGACGATCATCTGATCGTGATCAACAA
GCCCGCCGGCCTCACGGTGCATCCAGCTCCAGGCAACAAGGACGGCACGC
TGGTGAACGGTCTGTTGCATCACTGCCCTGATCTGCCGGGGATCAGCGGC
AAGCTGCGCCCCGGGATTGTTCACCGGTTGGACAAAGACACCACCGGATG
CATTGTGATTGCCAAATCCCAGCAAGCGCTGGTGCGGCTGCAGGGGCAGA
TCCAGAAGCGGATCGCCTCACGGGAATATCTGGCGGTGGTGCACGGCGTA
CCTGGTGGTGACAGCGGCACGATCGTGGGTGCCATAGGCCGCCATCCCGC
TGATCGCAAAAAGTACGCCGTTGTCAACGATGACTCCGGCCGTTACGCCT
GCACCCATTGGACGTTGCAGGAACGGCTTGGTGATTACTCGTTGCTGCGT
TTCAAGCTGGATACCGGTCGCACCCATCAGATCCGGGTGCACTGCGCCCA
CATAAACCATCCGGTGGTGGGGGACCCCACCTACAGCCGCTGCCGCAAAC
TGCCGATGGAGCTGCCAGGGCAGGCCCTGCATGCGTTTCAGCTGGGCCTG
GATCATCCGATCAGTGGGGAACGGATGGCTTTTCAGGCGCCGTTACCGCC
GGTGATGGAGCGGTTGCTGGGGGTCTTGCGGCGGCGAATCGGTTGA
>SYNW2036 rnd, putative ribonuclease D
ATGGCCGATTCGCTTCCTGCTCCCGCTGAATTCGCGGTCTTTGACGGCGA
TCTGGATGCGGATTGGACCGAGCGATACCTGCGCATGTCCGCCCTGGCGG
TGGACACCGAGGCGATGGGTCTGATCCATGGCCGTGATCGTCTCTGCCTG
GTTCAGATCGCTGATGCCGACGATCGGGTCTGCTGCATTCGGATCGGACT
TGGTCAGACCTCGGCGCCCAATCTGCAGCGGCTCCTGGAGGCCGCTTCCG
TGGAAAAGGTCTTCCACTTCGCCCGCTTCGATGTGGCAGCGCTGGCCAGC
GGCCTCGGCATCGCCGTCAGCCCCATCTTCTGCACCAAGGTGGGTAGCCG
TCTTGGTCGCACCTACACACCCCGCCATGGTTTGAAGGACCTGGTGATGG
AGCTGGTCGGGGTTGAACTCGACAAGGGTGCCCAGAGCAGCGACTGGGGC
CGGGTGGATGAGCTCAGCGATGTTCAGCTCGCCTACGCCGCCAATGATGT
GCGCTATCTGCTGCCGGCACGTCAGAAGCTGGAAGCCATGCTGCGTCGTG
AGGGGCGCTGGGATCTGGCGCAGCGTTGCTTCGGATGCATTCCTGTGATC
GCGGATCTGGATCGGATGCGCTTCAACCAGACCTTCGAGCACTGA
>SYNW2145 rne, ribonuclease E
ATGGGATTTGAGCCTCGCGCGGGCTTGCCACGTCCATTTATGCCCCAGCA
AATTGTCATCGCGGAGCAGCTGCGCATCGCGGCTGTGCTCACCGATGAAC
GAGTTGATGAACTGATCGTTGCCCAGGGTCGTTACCAGATCGGTGACGTT
TACCTCGGCACCGTTGAGAACGTTCTCCCCGGCATTGATGCAGCCTTCGT
CAACATTGGAGAAAGCGAAAAGAATGGGTTCATCCACGTCACGGATCTGG
GCCCACTGCGCCTGAAGAAAGGCTCTGCCGGCATCACCGAATTGCTGGAA
CCGCGGCAGAAGGTTTTGGTGCAGGTGATGAAGGAGCCAACCGGCACCAA
GGGGCCGCGACTTACCGGAAATCTGGCGCTCCCCGGGCGCTATCTGGTGT
TGCAGCCCCATGGTCAGGGGGTGAACATCTCGCGCCGGATCAGCTCTGAG
GCGGAACGCAATCGTCTGCGGGCTCTGGGTGTGCTGATCAAGCCGCCTGG
AGCCGGGTTGCTGATCCGCACAGAAGCCGATGGCATTGCTGAAGATCAGC
TGATTGATGATCTCGAATCCCTTCTGCGGCAGTGGGAAGCGATCCAACAG
GCTGCCGAGACCGCAGCTCCTCCAGTGCTGCTCAATCGGGACGAGGATTT
CATTAACAGGATCCTGCGGGATCACACCAGCACCGACTTGGTTCGAGTGG
TGGTGGATGAGCCTGCCGCCGTCGCCCGCGTCAGCAGTTTTCTAGGCGCC
GAGGCGGACAAGGTGCTGGTTGAGGCCCACAGCGAGCCAAGCGAGCTGTT
GGAGCACTTCAAGGTCAACGCCGCCATCCGTGACGCCCTGAAGCCTCGGG
TCGACCTGCCTTCCGGCGGGTACGTGATCATCGAACCGACAGAGGCTCTC
ACCGTCATTGACGTGAACTCGGGCTCCTTCACCCGGTCTGCCAATGCACG
GGAGACCGTGCTGTGGACCAATTGTGAGGCGGCCATCGAGATCGCCCGCC
AGCTGAAGCTACGCAATATCGGCGGCGTGATCATCATCGATTTCATCGAT
ATGGATTCCCGTCGGGATCAGCTGCAGCTGCTGGAGCACTTCACCACGGC
GGTTCGGGATGACGCTGCTCGGCCGCAGATTGCCCAGTTGACTGAGCTTG
GTCTGGTGGAACTGACCCGCAAGCGCCAGGGCCAGAACATCTACGAGCTC
TTCGGTCGTGCCTGCCCCAGCTGCGGCGGTCTTGGGCACGTGGCGGTTCT
GCCCGGCAAGGATCTGCTGCAGCCTCTGGCGACGGCGACCGGTCTGGTGC
GGTCGGCAGCATCGGCCCGCGCTGAGGTGGCCCCTCCTTCGGAGACTTCC
GGCAATGGGCGACGGCGTCGCGGCGGTCGAGGTCGTGCCGCCCAGGACAA
CCTGCCTGTGCTGAGCGACACCGATGCAACCGAGGCTCCAGAGGTCTCCA
CGGAGGAGGCACAGGAACCGGCCCTTGCCCGCCGCCAGGATCCTGAGTTG
GTGGCGGTGCCCATGACACCGGAGCAGGAGGAGGTGTACGGAACCCTGGG
CCTCAACCCGATTCTGTTGCTGGATGAGCCGCCTGAATCCGAGAATGTGA
TGGTGCGGGTGGTCCGGCCGGGAGAAGACGCCGATGCCGTGCTCGAGCAG
GCTCGCCAGCAGTTGGCGGCCACCGCTGGCCGCCGCCGCCGGCGTGGTGG
CCGCGGTGGCCGTGGCTCCTCCCGGGGCAACAGCGGCGCTTCATCACCAG
CTCCGCTCGATGCGTCTGAGGTGGTTGTGGCGGAACCACCCGTGGTTGAA
GAGCAGCCGTTGATGGTGGAGATCACACCGCTCGAGGCCGATCAGTCTGT
GGTGCTGGATGAGGTGCCGCCATTGCCTGAGCCCACGCCGGCTGTCGTTG
TTGATGGGTCTGAAGCCACCGCTGAAGACACGGAATCCGAGGAACCCCGC
CGTCGCCGGCGTCGGTCTTCGGCCTCAGCCTCTCCTGATTGA
>SYNW0276 rph, ribonuclease PH
ATGCCTGCACCCACGCCCAAGCGGGCAGACGGCCGGGGAGCCACAGAGCT
GCGCCCCTTCTCCGTGGACTGGGATCCGATGTCCTTCGCCCTCAGCTCCC
TCATCGTGCGTACGGGCCGAACCGCAGTGCTGTGCAGCGTTTCCCTGGAG
GAGGACGTCCCCCGCTGGCGCCGGGGGAACGGTTGCGGCTGGCTCAGCGC
TGAATATCGACTGCTTCCCGGTTCAACTCCGCAACGGCAGTCGCGAGAGT
TGATGAAGCTCTCGGGCAGAACGCAGGAGATCCAACGCCTGATCGGTCGC
AGTCTCCGGGCTGTTCTTGACATGGACGCCCTGGGCGAGCGCACGCTTCT
GATCGACTGCGATGTGATCCAGGCCGACGCCGGCACCCGCACCGCTTCGA
TCACCGGCGCCTGGATCGCCTTGCGCCGGGCCTGTGATCTACTCCGCTCC
CAGGGTGTGTTGACGCAGGATCCGATTCGCCAGCAGCTGGCGGCGGTTTC
GGTGGGGTTGATCGATGGGACGCCCCTGCTGGATCTCGACTACAGCGAAG
ACAGCCGTGCCGACGTGGACCTCAATGTGGTCACCGCCGGAGATGGCCGC
CTGCTGGAACTGCAAGGGACGGCAGAGCAAGCACCCTTCAGCCGCTCCGA
ACTCGATGCCATGCTCAACCTGGCTGAATCGGGACTTCAGGAGCTGATGC
AAGGTCAGCGTCACGCCCTGGCCACAGCCGCCGGTTCAGCGATTTCGTAA
>SYNW2342 rpl1, rplA, 50S ribosomal protein L1
ATGCCCAAACTCTCCAAGCGACTGGCAGGTCTTGCCAGCAAGATCGAGGA
TCGCGTCTACGAACCCCTCGAGGCGATTGCCCTGGTGAAGGACAACGCCA
CCGCCAAGTTCGACGAAACGATGGAGGCCCACGTGCGCCTCGGCATCGAC
CCCAAGTACACCGACCAGCAGCTGCGCACCACCGTGGCGCTGCCCAATGG
AACTGGCCAGACCGTTCGCATCGCGGTGGTGACCCGTGGTGAGAAGGTTG
CCGAAGCCAAGGCCGCCGGTGCCGAACTGGCCGGTGATGAAGATCTGGTG
GAGACCATCGCCAAAGGCGAGATGGAGTTCGACCTGTTGATCGCCACTCC
GGACATGATGCCCAAGGTGGCGAAACTGGGTCGTGTCCTCGGTCCCCGGG
GCTTGATGCCGAACCCTAAGGCCGGAACGGTGACCATCGATCTGGCCGGA
GCTATCCAGGAATTCAAGGCCGGCAAATTGGAATTCCGAGCTGACCGCAC
CGGTATCGTCCACGTCCGCTTCGGCAAGGCGAGCTTTACTGCCGAAGCTC
TGCTGCAGAACCTCAAGACCCTGCAGGAGACCATCGACCGCAACAAGCCC
AGCGGTGCGAAGGGCCGCTACTGGAAGTCTCTGTATGTGACGTCCACCAT
GGGCCCGTCCGTGGAGGTGGACTTCTCCGCACTTCAGGACATTGAGCAGG
GGAGCTGA
>SYNW2341 rpl10, rplJ, 50S ribosomal protein L10
ATGGGCCGCACGCTGGAGAGCAAGCAGCAGATCGTCGGAGAGCTCAAAGA
GCTCCTCGCCGAGTCCGAACTAGCGCTGGTTCTTGATTACAAGGGCCTCT
CCATCAAGGAAATGTCCGACCTGCGGGATCGTCTGCGGGCTGGTAACGCG
GTGTGCAAGGTGACCAAAAACACCTTGATGCGCCGTGCCATTGATGGTGA
CAGCGCCTGGTCGAATCTCGACTCTCTTCTGACAGGCACCAATGCCTTCG
TCCTGATCAAGGGCGATGTCGGTGCCGGTGTGAAGGCCGTTCAGGCGTTC
CAGAAGGAGACCAAGAAGTCCGAAACCAAAGGCGGCCTTTTCGAAGGCAA
GCTGCTGTCCCAGGACGAGATCAAGGCCATTGCCGATCTCCCCTCCAAAG
AGCAGCTCATGGCTCAGATCGCCGGTGCGATCAACGCTGTGGCCACCAAG
GTTGCTGTGGGCATCAACGAGGTTCCCTCCGGTCTCGCGCGGGCGCTCAA
GCAGCACGCCGAAGGCGGCGACAGCTGA
>SYNW2343 rpl11, rplK, 50S ribosomal protein L11
ATGGCCAAGAAAGTCACCGCTGTTATCAAGCTGGCCCTCCAGGCCGGCAA
AGCCAACCCCGCGCCGCCGGTGGGCCCTGCCCTCGGTCAGCACGGTGTGA
ACATCATGATGTTCTGCAAGGAGTACAACGCTCGGACGCAGGACAAGGCC
GGTTTTGTGATTCCGGTGGAGATCTCGGTCTATGAAGACCGCAGCTTCAC
CTTCATCACCAAGACGCCCCCGGCGTCGGTGTTGATCACCAAGGCCGCCA
AGATCGAGAAAGGTTCCGGCGAGTCCGCCAAGGGCAATGTTGGATCGATC
AACCGAGCTCAGCTCGAGGAGATCGCCAAAACCAAGCTTCCCGATCTCAA
CTGCACAAGCGTTGAGTCCGCGATGCGGATCATCGAAGGAACCGCCCGAA
ACATGGGCGTGTCCATCAGCGACTGA
>SYNW2340 rpl12, rplL, rpl7, 50S ribosomal protein L7/L12
ATGTCTGCAAAAACCGACGAAATTCTCGAATCACTGAAGTCCCTCTCTCT
GCTGGAAGCTTCCGAGCTGGTCAAGCAGATCGAGGAAGCCTTCGGTGTGT
CCGCCGCCGCGTCCGCCGGCGTCGTGATGGCTGCCCCTGGCGCTGCTGCC
GGCGGCGGTGGTGGTGAAGTCGCCGAGGAAAAGACCGAATTCGACGTCAT
CCTCGAAAGCTTCGACGCCGCAGCCAAGATCAAGGTGCTCAAGGCTGTGC
GCAACGCCACCGGCCTGGGTCTTGGCGACGCCAAGGCTCTGGTGGAAGCT
GCTCCCAAGCCCATCAAGGAAGGCATCTCCAAGGACGAAGCCGAAGCTCT
CAAGAAAGAGATCGAAGAAGTGGGCGGCAAGGTCACCCTCAAGTGA
>SYNW2093 rpl13, rplM, 50S ribosomal protein L13
ATGAACAAGACCTCCCTTCCTCAGATTGATTCTCTCGAACGCCAGTGGTA
TCTGGTGGACGCTGAGAACAAGACCCTCGGTCGCCTGGCCACCGAGGTTG
CCGCCGTTCTGCGCGGCAAGAACAACCCGAGCTTCACTCCCCATTTGGAC
ACCGGCGATTTCGTCGTGGTAGTGAATGCCGAGAAGATCCGGGTGAGTGG
CAGCAAGCCCACTCAGAAGCTGTATCGCCGTCACTCCGGGCGTCCCGGCG
GCATGAAGACCGAAACCTTCGAGGCGCTGCAGGACCGCATTCCCGAGCGA
ATCGTTGAAAAAGCGATCAAGGGCATGCTTCCCCACAACGCCCTGGGCCG
TCAGATGTTCCGCAAGCTCAAGGTGTACAAGGGCAGCGAGCATCCCCATG
CCGCCCAGAAGCCTCAGCCTCTTCAGCTCAACCCCTCTGCATCCGCCCAA
TGA
>SYNW2084 rpl15, rplO, 50S ribosomal protein L15
ATGACGACTCTCCGACTCGAATCCCTCAAAGCCAACAAGGGCGCCCGTCG
CCGCAAATTGCGCAAGGGCCGCGGCATCGCCGCCGGCCAGGGCGCCAGCT
GCGGCTTCGGCATGCGTGGCCAGAAATCCCGCTCTGGCCGTCCCACGCGC
CCAGGTTTTGAGGGTGGCCAGATGCCGCTCTACCGCCGGGTGCCGAAGCT
CAAGCACTTCCCCCTGGTCAACCCCAAGCACTTCACGGTGCTCAACGTCT
CGGCTCTCAACAGCCTCAAGGACGGCAGCACCGTGAACCTGGATTCCCTC
GTCAAAGATGGGGTTGTCACCAGTCCGAAGCATCCCCTGAAGATTCTCGG
CAACGGTGATCTGACCGCCAAGAAGCTGACGGTTCAGGCCGCTGCCTTCA
CTGCATCAGCCCGCACCAAAATCGAAGCCGCCGGCGGCAGCTGCGAAACC
CTCGACTGA
>SYNW2074 rpl16, rplP, 50S ribosomal protein L16
ATGCTGAGTCCAAAACGCGTCAAATTCCGGAAAATGCAGCGAGGCCGCAT
GCGCGGCGTCGCCACCCGGGGCAACACCATCGCCTTCGGTGAATTCGCAC
TGCAGGCCCAGGAATGCGGCTGGATCACCTCGCGCCAGATCGAGGCCAGC
CGTCGCGCCATGACCCGCTACGTCAAGCGTGGCGGCAAGATCTGGATCCG
GATCTTCCCGGACAAATCGATCACCATGCGCGCCGCCGAAACCCGGATGG
GTTCCGGTAAGGGCAACCCAGAATTCTGGGTGGCGGTGATCAAGCCAGGT
CGCATCCTCTTTGAGATGGGCGGTGCCGAAATCACCCCCGAAATCGCCAA
GGAGGCCATGCGTCTGGCGCAGTACAAGCTGCCCGTGAAGACCAAGTTCA
TCGCTCTTGATGAACAGCAGAAGCAATCGGCTGCGGAAGCACCGGCTGCT
GCTGAAGCCGTCAACGTGGAGTCCTGA
>SYNW2091 rpl17, rplQ, 50S ribosomal protein L17
ATGCGTCACCAATGCCGAGTACCCCAGCTGGGTCGCCCCGCTGACCAGCG
CAAGGCGATGCTGCGCGCACTGACAACCCAGCTGATCCGCGAAGGTCGGG
TGACCACCACCAAGGCCCGTGCCAAGGCCCTGCGTGACGAGGCCGAGCGG
ATGATCACCCTCGCCAAAGACGGCAGCCTCGCGTCCCGTCGTCGCGCCCT
TGGCTACATCTACGACAAGCAGTTGGTGCACGCTCTGTTCGACAAGGCCC
CCGACCGCTACAGCGACCGCAAGGGTGGTTACACCCGCATCACCCGCACC
GTCCCCCGTCGTGGTGACAATGCCGAGATGGCGATCATCGAACTGGTCTG
A
>SYNW2082 rpl18, rplR, 50S ribosomal protein L18
ATGTCCAAACTGTCCCGCAAACAGCAGACGCAGAAACGCCACCGGCGCCT
GCGTCGCCACCTCACCGGCACCTCCGACCGTCCGCGGCTGGCGGTGTTCC
GCTCCAACAATCACATCTACGCCCAGGTCATCGACGACGACGCTCAGAGC
ACCCTGTGCTCGGCTTCGACCGTCGACAAAGAGCTGCGTGCCGGCCTTGA
GGCCAACGGCGGCAGCTGTGATGCATCCGTCGCCGTTGGCGAACTGGTCG
CCAAGCGCGCCATCGCCAAGGGGATCCAAAGCGTGGTCTTCGACCGTGGC
GGCAACCTGTACCACGGCCGGATCAAGGCCTTAGCCGATGCCGCCCGGGA
AGCGGGCCTTCAGTTCTGA
>SYNW1824 rpl19, possible 50S ribosomal protein L19
ATGGCAGCCGATCCGAAGGACACGACGGTGACGGACGAGAACACCGAAAC
CGCAGCTACGGCTGAGGTGGAGACCGTGGCAAGCGCTCCGACAAGCCCAG
CTCAAAAGCTCAGCGCCGAAGCCTTGATCAAGGCCTTCGAAACCGAGCAG
ATGAAGAGCGATCTGCCTGAGATCTACGTCGGCGACACCGTTCGTGTTGG
CGTCCGCATCAGTGAGGGCAACAAAGAACGAGTTCAGCCCTACGAAGGGG
TGGTGATCTCCAAGCGCCACGGCGGGATGAACCAGACGATCACAGTGCGC
CGCATTTTTCAGGGCATCGGCGTGGAGCGGGTGTTCATGCTCCACAGCCC
TCAGGTGGCCAACATCAAGGTTGAACGCCGCGGTAAAGTTCGTCGGGCGA
AGCTTTTCTATCTGCGGGAACGGGTGGGCAAGGCCACCCGCGTGAAGCAG
CGCTTCGATCGCTGA
>SYNW2070 rpl2, rplB, 50S ribosomal protein L2
ATGGCAATCCGTAACTTCCGCCCCTACACCCCCGGTACCAGAACCCGGGT
GGTCACCGACTTCAGTGAGGTCACCGGCCGCAAGCCGGAACGGTCCCTGG
TGGTGTCCAAACACCGCCGCAAGGGCCGCAACAACCGTGGTGTGATCACC
TGCCGCCATCGCGGTGGCGGTCACAAACGGCTGTACCGCGTGGTGGACTT
CCGCCGTAACAAGCACGGCATCACCGCCAAGGTGGCTGCCATCCACTACG
ACCCCCATCGCAACGCCCGTCTGGCGCTGCTCTTCTACGCCGACGGCGAG
AAGCGCTACATCCTTGCCCCGGCAGGGGTTCAGGTGGGGCAGACCGTGGT
CTCCGGACCCGACGCCCCGATCGAGAACGGCAACGCCATGCCGCTGTCGG
CCGTGCCCCTGGGTTCCAGCGTTCACTGCGTTGAGCTCTATGCCGGCCGC
GGTGGCCAGATGGTCCGCACCGCTGGTGCCAGCGCTCAGGTTATGGCCAA
AGAAGGCGACTACGTCGCCCTCAAGCTGCCTTCCACCGAGGTGCGCCTGG
TCCGCCGTGAGTGCTACGCCACCCTCGGTGAAGTGGGCAACTCAGAAGTC
CGCAACACCAGCCTTGGCAAGGCCGGTCGTCGCCGCTGGCTGGGGCGTCG
TCCCCAGGTTCGAGGCAGTGTGATGAACCCCTGCGACCACCCCCACGGTG
GTGGTGAGGGTCGGGCACCGATTGGCCGCTCAGGCCCGGTGACCCCTTGG
GGCAAACCCGCCCTCGGTCTCAAGACCCGCAAGCGGAACAAGCCCAGCAA
CCGATACGTGCTCCGGAAGCGTCGCAAGACCTCCAAGCGGAGCCGTGGCG
GACGCGATTCCTGA
>SYNW0057 rpl20, rplT, 50S ribosomal protein L20
ATGGCTCGCGTCAAGAGAGGCAACGTCGCCCGTAAGCGCCGTAACAAGAT
CCTGCGGCTTGCCCGTGGCTTCCGCGGCGGCAACGGAACCCAATTCCGCA
CCGCCAATCAGCGGGTGATGAAGGCGTTGTGCAACGCCTACCGCGACCGT
CGTCGCCGCAAGCGCGATTTCCGTCGCCTCTGGATTGCTCGCATCAATGC
AGCAGCACGCATCAATGGTGTGAGCTACAGCCGTTTGATGGGTGGCCTGA
AAAAGGCCGACGTTCGCCTGAACCGCAAGATGCTGGCGCAGCTGGCTGTC
GTGGATCCCGGCAGCTTCAGCAACGTGGTCGCCACCGCCAAAGGCTGA
>SYNW0547 rpl21, rplU, 50S ribosomal protein L21
ATGGCTGACACCAAAACCGCCACTCCCGCCACAGACGCGGAAGAAGCGAC
CGCCACCCCCCCTGCTGCAGCGCCTTCTTCTGAGGCCTACGCCATCGTCG
AAGCCTCCGGCACACAGATGTGGGTCCAGGCCAACCGCTATTACGACGTT
GATCGGCTTCACGCTGAAGTCGACGAGACCATCAAGCTCGAAAACGTTCT
GATGGTGAAGGATTCCAAGGGAACCACCCTTGGACAGCCCTTTGTCAAAG
ACGCCACGGTGGCCCTGAAGGTGATGGCCCATCGCCGGGGTCCCAAGGTG
ATCGTGTACAAAATGCGCCCGAAAAAGAAGACGCGGCGCAAGAATGGCCA
CAGACAGGAACTCACCCGAGTGATGGTTGAATCCATCACCGTGGGCGGCA
AGGCCATCAGCTGA
>SYNW2072 rpl22, rplV, 50S ribosomal protein L22
ATGACCACGTCATCCACCACGGCCCCGATCGCACAGGCCCACGGACGCTT
CATCCGGGGCTCCGTGTCGAAGGTGCGCCGTGTTCTCGATCAGATCCGAG
GTCGCACCTACCGCGACGCCCTGATCATGCTCGAGTTCATGCCGTATCGC
TCCACCGGACCGATCACCAAGGTGCTCCGGTCCGCTGTGGCCAATGCCGA
GCACAACCTGGGTCTTGATCCCGCCTCCCTGGTGATCTCCAGTGCCAGTG
CCGACATGGGACCGTCCATGAAGCGCTACCGCCCCCGGGCTCAGGGTCGC
GCTTTCCAGATCAAGAAGCAGACCTGCCACATCAGCATTGCTGTGGCGGC
TCAGCCCGATTCCTGA
>SYNW2069 rpl23, rplW, 50S ribosomal protein L23
ATGACTGAGCGTTTCCAGGGCCGCCTGGCTGACGTGATCCGTCGGCCGCT
GATCACCGAGAAGGCCACCCGGGCCCTCGAGTTCAACCAGTACACCTTCG
AGGTGGACCACCGCGCCGCAAAACCCGACATCAAGGCCGCTATCGAGCAG
CTCTTCGATGTGAAGGTGACCGGCATCAGCACCATGAATCCCCCCCGTCG
CACGCGTCGGATGGGTCGCTTCGCCGGCAAACGAGCCCAGGTGAAGAAAG
CCGTGGTGCGCCTGGCGGAGGGCAACTCGATCCAACTCTTCCCTGAGTCC
TGA
>SYNW2078 rpl24, rplX, 50S ribosomal protein L24
ATGGCCACCGCAACCAGCAAGGCCAAGCCCAGCGATCGCATCAAGATGCG
CATCCGCAAAGGCGACACCGTTCAGGTGATCGCCGGCAAGGACAAGGGCA
AAACCGGCGAGGTGCTGCGCACCCTGCCCAACGAGAACCGCTTAATCGTG
GAGGGCGTCAACATGCGCACCCGCCACGAGAAGCCCACCCAGGAAGGTGA
GACCGGACGCATCGTCAACGAGGAAGCATCCCTGCATGCCTCCAACGTGA
TGCTCTATTCCACCGCCAAGAAGGTGGCGAGCCGCGTCGAGATCGTCGTC
GAAAAGGACGGCAGCAAGAAGCGCAAGCTCAAGAAAACCGGTGAAGTCCT
CGACTGA
>SYNW0546 rpl27, rpmA, 50S ribosomal protein L27
ATGGCACATAAGAAAGGCACAGGCTCCACACGCAACGGTCGCGATTCCAA
TGCCAAGCGCCTTGGCGTGAAGGCCTATGGCGGCGAAACCGTCACCGCCG
GTTCGATCCTGATCCGTCAGCGCGGCACCTCGGTTCTGCCTGGCATCAAC
GTGGGCATCGGCAAGGACGACACCCTGTTTGCCCTCACCGCTGGCGTGGT
GAAGTTCGAAACCATTCGCCGCGGCCTGCGCAACCGCAAACGGATCAACA
TCACTGCAGCTGTCTGA
>SYNW1279 rpl28, rpmB, 50S ribosomal protein L28
ATGTCTCGGGTGTGCCAGCTCACCGGTACTCGCGCCAACAACGGCATGGC
AGTGAGCCATTCCCACATCCGAACCAAGAAGCTGCAGCAGGCGAATCTGC
AGAATCGTCGTCTTTGGTGGGCTGAGGGTAAGCGCTGGGTGAACTTGCGC
GTCACCACCCGCGCCCTCAAGACCATCCAGAAGAAAGGCCTGGGCCCCTA
TGCCAAGTCTCTGGGCATTAACCTGGCCAAACTCTGA
>SYNW2075 rpl29, rpmC, 50S ribosomal protein L29
ATGGCCCGTCCCAACGCCGCTGAGGTCCGCCAGCTGTCCGATACGGACAT
CACTGAACAGATCAATGGTCTTCGCCGCGAACTGTTTCAGCTCCGCTTCC
AGCAGGCCACCCGCCAACTGGCCAATACGCACCGTTTCAAAGAGGTCCGC
ATCAAGCTGGCCCAGCTGATGACGGTGCAATCGGAGCGTCAGCGCTCCGC
CGCGTCCTGA
>SYNW2067 rpl3, rplC, 50S ribosomal protein L3
ATGTCAATCGGCATTCTCGGGAAGAAGCTGGGCATGTCCCAGTTCTTCGA
CGAGCAGGGCAGAGCCGTCCCCGTCACCTTGATCGAGGCCGGTCCCTGCC
GCATCACCCAACTCAAAAGCAGCGACACCGATGGCTATGCCGCGGTGCAG
ATCGGCTTTGGCGACACCCGCGAAAAGCTGATCAACAAGCCTGCCAAGGG
TCACCTCAACAAAACCGGTGAAACCCTCCTCCGCCACCTGCGTGAATACC
GCGTTGATGGCCTGGACGGTTTCGAACTGGGCGGATCGATCACCGTCGGT
GATTTCGAAGCCGGCCAGAAGGTTGATGTCAGCGGTGACACGATCGGCCG
TGGTTTCTCCGGTTATCAGAAACGCCACGGTTTCAGCCGTGGACCGATGA
CCCACGGTTCCAAGAACCACCGCGAGCCCGGTTCGATCGGACCCGGCACC
ACGCCTGGTCGCATCTACCCCGGCAAGCGCATGGCCGGTCGCTACGGCGG
CAAGAAGATCACTACCCGCGGCCTGACCATCCTCAAGGTGGACAGCGAGC
GCAACCTACTGGTGGTGAAAGGGTCGGTCCCCGGCAAGCCGGGCGCCCTG
CTGAACATCCGACCCGCCCTGCGGGTGGGTGCCAAGCCCGCCAAAGGAGG
ACAGTGA
>SYNW2095 rpl31, rpmE, 50S ribosomal protein L31
ATGCCCAAGCCCGATATCCACCCCACCTGGTATCCCGACGCCAAGGTGAT
CTGCAATGGCGAAGTCGTGATGACCACCGGCTCCACCCAGCCGGAGATTC
ACGTCGACGTCTGGAGTGGCAACCACCCCTTCTTCACAGGAACCCAGAAG
ATTCTCGACACCGAGGGTCGCGTCGATCGCTTCATGAAGAAGTACGGCAT
GGGCCAGAAGAAATCCGGCGACAAAGCCAAGGCTGAGGCCAAGGCGGACG
CCAAATCCTGA
>SYNW1210 rpl32, rpmF, 50S ribosomal protein L32
ATGGCCGTCCCGAAGAAGAAAACCTCAAAGGCCAAGCGCAACCAGCGCAG
TGCCACATGGAAAGGCAAGGCTGCCGTGGCTGCTCAGCGAGCGATGTCCA
TCGGTAAATCTGTTCTCAGTGGACGCGCCCAGGGCTTCGTCTACCCCGTG
CGTGAAGCCGACGACGAGGAGTCCTGA
>SYNW1226 rpl33, rpmG, 50S ribosomal protein L33
ATGGCCAAGAACAAGGGCGTCCGGATCGTGATCACTCTCGAGTGCACCGA
ATGCCGGTCCAATCCCGCCAAGCGTTCACCCGGCGTGTCCCGCTACACGA
CCGAGAAGAACCGCCGGAACACCACCGAACGGCTGGAGATCAAGAAGTTC
TGTCCCCACTGCAACAAGATGACTCCCCACAAGGAGATCAAGTGA
>SYNW1887 rpl34, rpmH, 50S ribosomal protein L34
ATGACGAAGCGCACTCTGGGTGGAACCAGCCGCAAGCGGAAGCGGGTCTC
CGGTTTCCGGGTCCGCATGCGCTCCCACACCGGCCGTCGCGTGATCCGCA
CCCGTCGCAAGCGGGGCCGGTCCCGTCTGGCCGTCTGA
>SYNW0058 rpl35, rpmI, 50S ribosomal protein L35
ATGCCCAAGCTGAAGACCCGCAAAGCTGCCGCCAAGCGGTTCAAGGCAAC
CGGCACTGGCAAATTCACGCGTCGTCGTGCGTTCCGCAACCACCTGCTGG
ACCACAAGACCCCCAAGCAGAAGCGTCACCTCGCCACCAAGGCTGTGGTT
CATGAGACCGACGAACTGCGGGTGGTGCGCATGCTTCCGTACGCCTGA
>SYNW2068 rpl4, rplD, 50S ribosomal protein L4
ATGGCTGACTGCGTGATTCGCGACTGGCAGGGGAAGGAAGCCGGCAAGGC
GACCCTCGATCTGAAAGTGGCCAAGGAGACCACGGCCAACGACCTGATGC
ACCGTGCGGTTCTGCGCCAGCAGGCCCACGCCCGTCAGGGAACCGCTTCC
ACCCTCACCCGATCCGAGGTGCGCGGTGGTGGCCGTAAGCCTTACAAGCA
GAAGGGAACCGGCCGAGCCCGTCAGGGTTCGATCCGCACACCTCTGCGCC
CCGGCGGCGGCATCGTCTTCGGGCCGAAGCCCCGCACCTACAACCTTGCG
ATGAACCGCAAGGAACGTCGTCTGGCCCTGCGCACCGCGCTCATGGCCCG
CGTTGAAGACGTAACGGTGGTGAAGGACTTCGGCACGAGCCTCGAAGCCC
CCAAGACCAAGGAGATCACGGACGCCCTCGGCCGGCTTGGCATCGCTGCC
GACGCCAAGGTGCTGATTGTGCTCACCGAGCCTTCCGATGTGGTGCGCCG
CTCCGTGCGCAACCTCGAAAAGGTGAAGCTGATCGCCGCCAATCAGCTCA
ACGTCTTCGATCTGCTCCACGCCAACGCCCTGGTGCTCGGCGAGGACGCC
CTTGCAACCATCCAGGAGGTCTACGGCGATGACTGA
>SYNW2079 rpl5, rplE, 50S ribosomal protein L5
ATGTCACTCAAGAAGCGCTACCGGGAGACCATTCAGCCCAAGCTGCAGAA
GGATCTCTCCCTCACCAACATCCACGAAGTCCCCAAGGTGGTGAAAGTCA
CCGTCAACCGGGGCCTCGGCGAAGCCGCAGCCAACGCCAAGTCCCTCGAG
GCCTCGGTGAACGAGCTGGCACAGATCACCGGTCAGAAAGTGGTCGTCAC
CCGTGCCAAGAAGGCCATTGCCGCCTTCAAAATTCGCCAGGGCATGCCGA
TCGGTTGTGCCGTCACCCTGCGCGGTGACCGGATGTATGCGTTCCTGGAG
CGCCTGATCAACCTGGCGCTGCCCCGCATCCGCGACTTCCGCGGGGTGAG
CCCGAAGAGCTTTGACGGGCGCGGCAACTACACCCTGGGGGTGCGGGAGC
AGATCATTTTTCCTGAGATCTCCTTCGACAAGATCGATGCCATTCGTGGC
ATGGACATCACCATCGTGACCACCGCCCGTTCAGACGAAGAGGGCCGGGC
CCTCCTCCGCGAGATGGGAATGCCGTTCCAGAGCAACTGA
>SYNW2081 rpl6, rplF, 50S ribosomal protein L6
ATGTCACGCATCGGCAAAAATCCTGTTCCTGTACCCGACAAGGTGACCGT
CTCCCTCGACGGCCTCACCGTGAAGGTCAAGGGACCGAAGGGCGAACTGG
AACGCACCCTTCCTGACGGCGTCAGCGTCAGCCAAGACAACAACTGCATC
GTGGTGGCTCCATCCACCAGCAAGCGCTTCTCCCGCGAACGCCACGGCCT
GTGCCGCACCCTCGTCGCCAACATGATCGAGGGCGTCAACAACGGCTACA
GCAAGAGCCTCGAAATTGTGGGCGTGGGTTCGAGGGCCCAGGTCAAAGGC
AAGACCCTGGTGGTCAGCGCCGGCTACAGCCACCCCGTTGAAATGGAGCC
GCCTGAGGGCATCACCTTCAAGGTGGAAAACAACACCAAGGTGATCGTCT
CCGGAATCGACAAGGAACTGGTGGGCAACGAGGCCGCCAAAGTCCGCGCC
ATTCGCCCGCCCGAGCCTTACAAGGGCAAGGGCATCAAGTACGAGGGCGA
GCGCATCATGCGCAAGGCGGGCAAGTCCGGCAAGAAATAA
>SYNW2378 rpl9, rplI, 50S ribosomal protein L9
ATGCCCAAGCGTGTTCAAGTCGTTCTGAATGAGGACGTCCTCAGCCTCGG
CAAGGACGGAGACCTGGTGGAGGTCGCCCCCGGTTACGCCCGCAACTTCC
TGCTTCCCTTCGGCAAGGCGGTGCCTGTAACACCTGCCGTGATGAAGCAG
GTTGAGCACCGTCGGGCCAAGGAAGCCGAACGCCAGGCGGCGCTGAAGCA
GGCGGCCCTTGACTTCCGTACGGCCCTGGACACCATCGGTCGCTTTACTG
TGAAGAAGCAAACCGGCGAAGACAACGTGCTCTTCGGAACGGTCACCAAT
GGCGATGTGGCAGAAGCCATCCAAGACGCCACCAAGAAGGAGATTGACCG
CCGCGACATTGTGGTTCCCGAAATCCATCGCACCGGCAAGTACAGCGTCA
CGGTGAAACTTCACAGCGAGGTCACCGCTGAGATCAACCTGGAAGTGGTC
AGCTACTGA
>SYNW2077 rplN,rpl14, 50S ribosomal protein L14
ATGATCCAGCAGGAGAGCTATCTGAGCGTCGCCGACAACAGCGGCGCCAA
GCGCATCCAGTGCATCCGTGTGCTGGGCACCAACCGTCGCTACGCCCATG
TGGGCGATGTAATCGTCGCTGCCGTGAAGGACGCCATGCCCAACATGGGT
GTGAAGAAGTCCGATGTGGTGAAAGCCGTGGTGGTTCGCACCAAGGCAAC
CCTCCGTCGCGACACCGGTAACTCCATTCGGTTCGACGACAACGCAGCGG
TGATCATCAACGCTGACAACAACCCCAAAGGCACCCGCGTCTTCGGACCG
GTGGCCCGTGAATTGCGCGAGCGCAACTTCACGAAAATCGTGTCCCTCGC
TCCGGAGGTGATCTGA
>SYNW2087 rpmJ,rpl36, 50S ribosomal protein L36
ATGAAGGTGCGCGCTTCAGTCAAGAAAATGTGCGACAAGTGCCGGGTGAT
CCGTCGCCACGGCCGGGTCATGGTGATCTGCACCAACCCGAAGCACAAGC
AGCGCCAGGGCTGA
>SYNW2139 rps10, rpsJ, 30S ribosomal protein S10
ATGTCCACTGCCATTGCTCAGCAGAAGATCCGCATTCGCTTGAAGGCGTT
TGACCGCCGCATGCTGGATCTCTCCTGCGACAAGATTATTGAGACGGCCG
ATCAGACCGCTGCAACAGCGATCGGCCCCATCCCTCTCCCCACCAAACGC
AAGATCTACTGCGTTCTGCGTTCTCCTCACGTGGACAAGGATTCCCGCGA
GCATTTCGAGACCCGGACCCACCGCCGCATCATCGACATCTACAGCCCAT
CGGCGAAGACCATCGATGCCTTGATGAAGCTGGACCTCCCCAGTGGTGTC
GACATTGAAGTGAAGCTCTGA
>SYNW2089 rps11, rpsK, 30S ribosomal protein S11
ATGGCCAAACCCGCCAAGAAAACAGGCCCCAAGAAGGCCAAACGCAACGT
CCCGAACGGCGTTGCCCACATCCAGAGCACCTTCAACAACACGATCGTGT
CGATCACCGACACGTCTGGCGAAGTCATCTCCTGGTCATCCGCTGGTGCC
AGCGGCTTCAAGGGTGCTCGCAAAGGCACGCCCTTCGCTGCCCAGACGGC
TGCAGAAGCAGCGGCACGTCGAGCACTTGATCAAGGCATGCGCCAGATCG
AAGTGCTGGTGAAGGGTCCTGGATCCGGTCGTGAGACCGCAATTCGTGCC
TTGCAGGTGGCTGGTCTTGAGATCACCCTGATCAGAGACGTCACTCCGCT
GCCCCACAACGGTTGCCGGCGGCCCAAGCGCCGTCGCGTCTGA
>SYNW2135 rps12, rpsL, 30S ribosomal protein S12
ATGCCAACCATCCAACAGCTGATCCGCACGGAGCGTTCACGCCTCAAGGC
CAAGACGAAATCGCCGGCCTTGAAGTCCTGCCCAGAACGCCGCGGGGTCT
GCACCCGTGTGTACACCTCCACGCCAAAGAAGCCCAACTCGGCGCTGCGC
AAGGTGGCTCGTGTACGCCTCACCTCCGGCTTCGAGGTCACCGCCTACAT
CGGCGGCGTCGGACACAACCTTCAGGAGCACTCCGTGGTGCTGATTCGCG
GCGGTCGTGTCAAGGACCTGCCAGGTGTCAGGTACCACATCATTCGAGGC
ACCTTGGACACCGCTGGCGTCAAAGACCGCCGGCAGTCTCGCTCGAAGTA
CGGCGCCAAGACTCCGAAGGAGTGA
>SYNW2088 rps13, rpsM, 30S ribosomal protein S13
GTGGCACGGATCGCCGGCGTTGACATTCCCCGCGACAAGCGGGTTGAAGT
GTCCCTCACCTACATCTATGGAGTCGGCCCGACCCGGGCTCGCACCATCC
TGGCTCAGACCGGTGTGAGCCCCGACATCCGGGTCAAGGATCTGGAGGAT
GGTGACCTTCAGAAACTGCGCAACGCCGCCGACGATTTCACCCTCGAGGG
CGATCTGCGCCGACAGGAAGGCATGGCCCTGAAGCGCCTGCAAGACATCG
GCTGCGTGCGCGGACGTCGTCATCGCATGAGCTTGCCCGTCCGTGGCCAG
CGCACACGGACCAATGCCCGTACCCGTCGGGGCGCGCGCAAAACCGTGGC
CGGCAAGAAGAAGTAA
>SYNW1896 rps14, rpsN, 30S ribosomal protein S14
ATGGCTAAGAAGTCGATGATCGCCCGCGACGTCAAGCGCAAGAAGATGGC
CGAGCGATATGCGGCCAAGCGTGCAGCGCTGATGGCGGCGTTCAATGCAG
CGGACGATCCCATGGATCGTCTGGAGATTCATCGCAAGATTCAGGCGCTG
CCCCGCAACAGCGCCCCTAGCCGCATCCGCAATCGTTGCTGGGCAACCGG
CAAACCCCGTGGCTACTACCGCGACTTCGGCCTCTGCCGTAACCAGCTGC
GCGAGAGGGCCCACAAAGGCGAACTTCCTGGCGTTGTGAAGTCCAGCTGG
TGA
>SYNW1034 rps15, rpsO, 30S ribosomal protein S15
ATGTCGCTTGATACCACCGAGAAGCAACAGCTGATCAACACCCACCAGAC
CCACGGCACCGACACCGGTTCCGCGGAGGTCCAGGTCGCCATGCTGAGCG
AGCGGATCAGCCGTCTCAGCAGCCACCTCCAGAACAACATCCACGACTTC
TCCTCGCGCCAGGGGTTGCTGAAGATGATTGGTCGCCGTAAGCGCCTGCT
CAGCTACATGCGCAACAAGAGCGAGCAGCGGTACACCGAGATCATCGCCA
AACTGGGCATCCGCGGCTGA
>SYNW1617 rps16, rpsP, 30S Ribosomal protein S16
ATGATCAAGCTCCGCCTGAAGCGGTTCGGTAAGAAGCGGGAAGCGAGCTT
CCGCCTCGTGGCCTGCAACAGCACCTCCCGCCGGGATGGGCGTCCGCTCC
AGGAGCTTGGCTTCTACAACCCTCGTACCAAAGAGACCCGTCTCGACACC
GAGGCGATTCGTGAGCGTCTTGGCCAAGGTGCTCAGCCCACCGATGTGGT
GCGCACGCTGCTCGAGCGCGGTGGCCTGATTGAAAAGACGATCCGCCCTG
CGGAAACCGTTGGTAAAGCCAAGCAGGCTGCCAAGCGCGAGGAAGAGGCC
AAGCAGGCCGCCAAGGAAGCTGCTGAAGCCAAGGCAGCCGCGGAAGCGGA
AGCCGCAGCCGCTGCTGAGGCTGCCAAGGCTGAAGACGCCCCTGACGGTG
AGACCGAATCCAGCGAAGGCTGA
>SYNW2076 rps17, rpsQ, 30S ribosomal protein S17
ATGGCAGTCAAGGAAAGGGTCGGCACCGTCGTCAGCGACAAGATGGAAAA
AACGGTGGTTGTGGCGGTGGAAAGCCGCTTCCCCCATCCCATCTATCAAA
AGACGGTCAGCCGCACCACCCGTTACAAAGCCCACGACGAAGACAACTCC
TGTCGCGTCGGAGACCGTGTTCGCATCACGGAAACCCGTCCGATGAGCCG
GCACAAGCGCTGGGCCATCGCCGAGGTCCTGAGCCACAGCCCAAAAGCTG
ACAAATCAGCCGGAAGCACTGCTCCAGCACCTGAGGCTGCGGCCAAGGAG
GTGAGCGAATGA
>SYNW1225 rps18, rpsR, 30S ribosomal protein S18
ATGTCCAGCTCCTTCTTCAAGAAGCGCCTTTCTCCGATCAAGCCTGGCGA
TCCCATCGATTACAAGGATGTGGATCTGCTCAAGAAGTTCATCACTGAAC
GCGGCAAGATCCTTCCCCGCCGACTGACGGGTCTCACTGCCAAACAGCAG
CGTGATCTCACCAATGCGGTGAAGCGTGCACGCATCGTTGCCCTGCTGCC
CTTCGTGAATCCCGAGGGCTGA
>SYNW2071 rps19, rpsS, 30S ribosomal protein S19
ATGGGACGTTCACTCAAAAAAGGTCCGTTTATTGCCGACAGCCTGCTTCG
CAAGGTTGAAAAGCAGAACGACACCGATGACAAGTCCGTGATCAAGACCT
GGTCTCGGGCCTCCACGATCCTGCCGATGATGATCGGCCACACGATTGCC
GTTCACAACGGCAAGTCCCACGTGCCGGTGTTCATCACCGAGCAGATGGT
GGGTCACAAGCTGGGGGAGTTCGCTCCCACCCGCACCTTCAAGGGCCACA
TCAAAGACAAGAAAGGAGGCCGCTGA
>SYNW1985 rps1a, rpsA1, 30S ribosomal protein S1, homolog A
ATGTCCGCGACTCCCACGGAAGAGCAGCTTCAGGACGTCCAAACCGCAGC
GACCGAAGAGGTCAGCCAGGACGCCGCCGCAGCTGTCGCCAGCGTTGATG
AAGCCTTCGAGGCCGCAGAAGATCTCGGCATCCCCGAGGACGTTCCCACC
GCTGATGATCCGGGCAGCCGAGCCAGCAGCCGCAATCTCGATGACGCTGG
ATTCACCATTGATGAATTCGCTGCGCTGCTGAGCAAGTACGACTACAACT
TCAAGCCTGGCGACATCGTTAACGGCACCGTCTTCGCCCTGGAAGCCAAG
GGCGCGATGATCGATATCGGGGCTAAGACCGCTGCCTTCATGCCTCTGCA
GGAGGTGTCGATCAATCGGGTGGAAGGGCTGAGCGATGTGCTGCAGCCCG
GCGAGATCCGCGAGTTCTTCATCATGAGTGAAGAAAACGAGGATGGACAG
CTCGCGCTCTCGGTGCGGCGCATCGAATACCAACGGGCCTGGGAACGGGT
GCGCCAGCTGCAGAAAGAGGACGCCACCATCTACTCCGAGGTGTTTGCCA
CCAACCGCGGTGGTGCCCTGGTTCGGGTGGAAGGCCTGAGGGGCTTTATC
CCTGGCTCCCACATCAGCACCCGCAAACCGAAGGAAGAGCTGGTGGCCGA
CTTCCTGCCTCTGAAATTCCTCGAGGTGGATGAAGAGCGCAACCGCCTGG
TGCTCAGCCATCGCCGGGCCCTGGTTGAGCGCAAGATGAATCGCCTCGAG
GTCGGCGAAGTGGTGGTCGGCACCGTTCGCGGCATCAAGCCCTACGGCGC
CTTCATCGACATCGGCGGCGTCAGCGGCCTGCTGCACATCTCGGAGATCA
GCCACGAACACATCGAGACCCCCCACTCGGTGCTCAACGTGAATGATCAG
ATGAAGGTGATGATCATCGATCTCGACGCTGAACGAGGCCGGATCTCACT
TTCAACCAAGGCGCTGGAACCGGAGCCCGGCGACATGCTCACCGACCCCC
AGAAGGTGTTCGAGAAAGCAGAGGAAATGGCTGCCCGCTACAAGCAGATG
CTGCTGGAGCAGGCCGAGGAAGGAGAGGATCCGATCGGTTCCATGATGAT
CTGA
>SYNW1740 rps1b, rpsA2, nbp1, 30S ribosomal protein S1 homolog B, putative Nbp1
ATGGCCGCAGCTGGCAGTTCGCAGCCCAATCGCCCCAAGGCACCGCGAGC
GGCTGCGACCCCACCGCTCCAGGTGATGAAGATCAACCGCAAGGAGGAGC
AGGAACAGCTGCAACGCGAGGCCGCAGAAGCTCGCGCGGCAGCCGAAGCA
GCAGCCGAAAAGGCACGCCTGCTGGAGGAGCGGGCGGGATTAACGGGTCC
ACCCCGAGCGGCCGAGGCCGATGACGATCGCTTCGACATGGGTGCCATGG
AGGGGATGACCATGGCGGATCTGATGGGATCCCCTGATAAGGCACCCCGC
CGCCAGGACGACAACAAACCCCGCAGCGTTGACGACTTCGACTTCGACGA
AGAAGCCTTCCTGGCCGCCCTGGATGAGAACGCTCCCGTGGGCACCACGG
GAGATGTGGTGCAAGGCACCGTGATCGGGCTTGAAAGCGATGGGATCTAC
GTGGATATCGGCGGCAAAGCGCCGGGATTCATGCCCAAAAGCGAGGCCGG
CCTGGGGGTGATCACCAACCTTGGTGAGCGGTTCCCCAAAGGACTGCAGG
TCGAGGTGCTGGTCACCCGCGAACAGAACGCCGATGGCATGGTCACCATC
AGCTGCAGGGCCCTCGAACTGCGCAAGAGCTGGGACAAGGTCAAGGAACT
CGAGAAACACGGCAAGGTGGTGCAGGTGATCGTCAACGGGTTCAACCGTG
GCGGTGTGACCTGCGATCTCGAGGGCCTGCGGGGGTTCATTCCCCGATCC
CAGCTGCAGGAGGGCGACAACCACCAGGAGCTAGTGGGCAAGACCCTCGG
GGTGGCCTTCATCGAGGTCAACTCGGAAACCCGCAAGCTGGTGCTGTCGC
AGAAACGTGCTGCGGTGGCTGCCCGTTTCCAGGAACTGGAGGTTGGCCAG
TTGGTAGAGGGCGTGGTTGCCGCGGTGAAGCCCTATGGGTTGTTCATCGA
CTTGGGGGGTATTAGCGGCCTGCTGCACCAGTCCTCCATCACCAATGGCA
GCCTGCGGTCCATCCGCGAAGTGTTCGATCAGGGCGACCGTGTTCAAGCG
CTGATCACGGAGCTGGATCCTGGCCGTGGCCGCATCGGATTGAATACTGC
GCTGCTGGAGGGTCCTCCCGGCGAATTGCTGATTGAAAAAGACAAGGTGA
TGGCAGAGGCCAGTGATCGGGCCAGCCGCGCCCAGAGCATGCTCAAACAA
CGGGAACAGGACGCCGGATGA
>SYNW1090 rps2, rpsB, 30S ribosomal protein S2
ATGGCTGTTGTCACCCTCGCCGAGATGATGGAGGCGGGTGCCCATTTTGG
GCACCAGACCCGTCGTTGGAACCCCAAGATGTCGCGCTACATCTACTGCG
CGCGCAATGGTGTTCACATCATCGATCTCGTGCAGACCGCCGTCTGCATG
AACAACGCCTACAAATGGACCCGTTCCGCTGCCCGCAGCGGCAAGCGTTT
CCTGTTTGTCGGCACCAAAAAGCAGGCCTCTGAAGTAGTTGCACTCGAGG
CAGCTCGCTGCGGAGCCGCCTATGTGAACCAGCGCTGGCTGGGCGGCATG
CTCACCAACTGGACCACGATGAAAGCCCGGATCGACCGCCTCAAGGATCT
TGAGCGGATGGAGTCCAGCGGCGCCATCGCGATGCGCCCCAAGAAGGAGG
GTGCTGTGCTGCGCCGGGAACTGGAACGGCTCCAGAAGTACCTGGGTGGT
CTCAAGACGATGCGTCGTCTCCCCGATGTGGTGGTGCTGGTGGACCAGCG
CCGCGAGTCCAACGCCGTTCTCGAAGCGCGCAAACTGGACATCCCTCTGG
TGTCCATGCTCGATACCAACTGCGATCCGGACCTCTGTGAGGTGCCCATC
CCCTGCAACGACGACGCTGTGCGTTCGGTGCAACTGGTGTTGGGGCGTCT
CGCCGATGCCATCAACGAGGGCCGCCACGGCAACAACGAGCAGCGCGGCG
GCGGCGACGCCGAAGGCTGA
>SYNW1442 rps21, rpsU, 30S ribosomal protein S21
ATGAGTCAGGTCACAGTCGGCGAAAACGAAGGGATTGAATCCGCATTGCG
TCGTTTCAAGCGTTCTGTGGCCAAAGCCGGGATCTTTTCCGACCTGCGTC
GGATCCGCCACCACGAGACTCCCGTTGAGAAGTACAAGAGCAAGCTGAAG
CAGCGCTCCCGTAACCGCCGCCGCTGA
>SYNW2073 rps3, rpsC, 30S ribosomal protein S3
ATGGGACACAAGATCAACCCAACCGGTCTGCGCCTGGGGATCACCCAGGA
ACACCGGTCACGCTGGTACGCCTCCAGCAAGAGTTATCCGGCCCTCCTTC
AGGAGGACGATCGGATTCGCAAGTTCATTCACAAGAAATACGGTTCTGCC
GGCATCAGCGATGTGCTGATCGCCCGCAAGGCCGATCAACTCGAAGTGGA
GCTCAAAACCGCACGCCCCGGCGTGCTGGTGGGCCGCCAGGGCAGCGGAA
TCGAGGAACTCCGTTCCGGAATCCAGAAGACGGTCGGCGATCGGAGCCGC
CAGGTTCGGATCAATGTCGTCGAAGTGGAGCGCGTTGACGGTGACGCCTT
CCTGCTGGCTGAGTACATCGCCCAGCAACTGGAAAAACGTGTGGCGTTCC
GCCGCACCATCCGCATGGCCGTCCAGCGCGCCCAACGCGCTGGTGTTCTC
GGCCTGAAGATCCAGGTGTCCGGCCGCCTCAACGGCGCCGAGATCGCCCG
GACCGAGTGGACCCGAGAAGGTCGCGTTCCCCTGCACACCCTGCGGGCGG
ACATCGATTACGCCACCAAGGTGGCCAGCACGACCTACGGCGTGCTGGGC
ATCAAGGTGTGGGTCTTCAAGGGTGAAGTGCTGGGCGACGAAGCCCCGCT
GATACCGGTGGGGGCTTCCCCTCGCCGCCGGGCCAGCCGTCGGCCCCAAC
AGTTCGAAGACCGCTCCAACGAGGGTTGA
>SYNW2511 rps6, rpsF, 30S ribosomal protein S6
ATGACGCTCGATCCGTACTACGAAACCATGTACATCCTTCGTCCGGATAT
TCCGGAGGAGGAGGTTGAGAGCCATCTCACCAAATACCGCGACATGCTGG
TCGAAGCTGGCGCGGATGTTCTGGATAATCAGATGCGCGGGAAGCGCCGC
CTGGCCTATCCGATCGACAAGCACAAGGAAGGCATCTACGTGCAACTGAG
CCATAACGGCGATGGCCAGCAGGTGGCCGTGCTGGAGAAAGCGATGCGCC
TCAGTGAAGACGTGATCCGTTACCTCACCGTGAAGCAGGAAGGCCCACTT
CCCGCCCCACGCGTCGTACCGGGCAGTGAGCCCGCTGCTGCTCCTCAGGA
GCAGCCCGCTGCCAACTCAGAAGCCGCGTCCTGA
>SYNW2136 rps7, rpsG, 30S ribosomal protein S7
ATGTCCCGCCGCAACGCCGCTGAAAAACGTCCGGTTCTTCCTGATCCGCA
GTTCAACAGTCGTCTGGCCACGATGATGGTGTCCCGTCTGATGCAGCACG
GCAAGAAGTCCACGGCGCAGCGGATCCTGTCCGATGCGTTCGGTTTGATC
AACGAGCGCACTGGTGGTGACCCTCTCGAACTGTTCGAGACGGCGGTGAA
GAACGCCACGCCCCTGGTCGAAGTCCGTGCCCGTCGCGTCGGTGGCGCGA
CCTACCAGGTTCCGATGGAAGTACGTCAGGAACGTGGCACCGCCATGGCC
CTGCGCTGGCTGGTGAGCTTCTCCCGCGCCCGCAACGGCCGGAGCATGGC
TCAGAAGCTCGCCGGCGAATTGATGGATGCAGCCAATGAGGCCGGAAGCG
CGGTTCGCAAGCGCGAAGAAACCCACAAGATGGCTGAAGCCAACAAGGCT
TTCGCCCACTACCGCTATTGA
>SYNW2080 rps8, rpsH, 30S ribosomal protein S8
ATGGCCAACCACGACCCCATTTCCGACATGCTCACCCGCATTCGCAATGC
GAGTGAAAAGCGTCACGAGACCACCAAGATCCCTGCATCCCGCATGACCC
GCAGCATCGCCAAGGTGCTGCAGCAGGAGGGCTTCATCTCCGAGATCAGC
GAACAGGGCGAAGGCGTGCGCACCGAACTGGTGCTCTCCCTTAAGTACAG
CGGCAAGCACCGGCTGCCCACCATCCGCTCCATGCAGCGGGTGAGCAAGC
CAGGTCTGCGCATTTACAAGAACACCCGTGGCCTGCCCAAGGTCCTCGGC
GGTCTTGGCGTTGCGATCATCTCCACCTCCAAGGGTGTGATGAGTGATCG
CGATGCCCGCCGCGAGGGCGTCGGGGGCGAGGTGCTCTGTTACGTCTACT
GA
>SYNW2094 rps9, rpsI, 30S ribosomal protein S9
ATGAGCAGCAATTCCGTCGTCTACTGGGGCACTGGTCGCCGCAAGACATC
CGTCGCCCGTGTGCGCCTCGTCCCCGGCAACGGCACGATCACCATCAATG
GTCGTCCCGGTGACAACTATTTGAACTACAACCCCGCCTACATCGCAGCG
GTGAAAGCTCCCCTCGAGACCCTTGGTCTCGGTACGGAATACGACATCCT
GGTGAATGTCCACGGAGGCGGGCTCACCGGTCAGTCCGGTGCCATCAAGC
AAGGTGCGGCCCGTGCTCTCTGTGAGTTGTCAGCTGACAACCGCAAGCCC
CTCAAGACCGAAGGCCACCTGAGCCGCGACCCGCGTGCCAAGGAACGCCG
CAAGTACGGTCTCAAGAAAGCTCGTAAGGCTCCTCAGTTCTCCAAGCGCT
GA
>SYNW1694 rpsD,rps4, 30S ribosomal protein S4
ATGGCTCGATACCGCGGCCCTCGTCTGAGGATCACGCGGCGCTTGGGAGA
CCTCCCCGGTCTCACCCGGAAGGCCGCAAAGCGGTCCTATCCCCCCGGTC
AGCACGGCCAAGCCCGTCGCAAGCGCTCTGAATACGCGATCCGTCTCGAA
GAGAAGCAAAAGCTTCGCTTCAACTACGGCGTCTCCGAGCGTCAGCTCGT
GCGCTACGTGAAGAAAGCGCGCGCCCAGGAGGGTTCCACCGGAACCAACC
TGCTCAAGCTGCTCGAGAACCGTCTCGACAATGTCTGTTTCCGCCTCGGC
TTCGGTCCCACCGTGCCCGGCGCCCGTCAGCTGGTGAACCACGGCCACGT
GACCGTGAATGGCCGTGTCACCGACATCGCCAGCTACCAGTGCAAGCCCG
GCGATGTGGTCGCCATCCGCGAGCGCAAGTGCAGCAAACAGCTGGCTGAA
GGCAACCTGGAGTTCCCCGGTCTGGCCAACGTGCCGACCCACCTGGAACT
GGACAAGGCCAAGCTCAGTGCCAAGGTCACCGGTCGCTGTGAACGCGAGT
GGGTTGCTCTGGAAATCAATGAGCTGCTGGTGGTGGAGTACTACTCCAGA
AAGGTCTGA
>SYNW2083 rpsE,rps5, 30S ribosomal protein S5
ATGACAGATTCCTCTCCCCAGTCCAACCCCAACGCGGTGCCAGGCGCCGC
CGATGTCCCCGCAGCCGCGGAGGGCCAGCAACAGGAACAGCGTCGCGGCG
GTGGCCGTGGTGAACGTGGCGACCGCCGTGGCGGACGCCGCGGTGATCGA
CGAAATCAGGAGCGCGACTCCGAATGGCAGGAGCGCGTGGTACAGATCCG
CCGCGTCTCCAAGACCGTCAAGGGCGGCAAGAAGATGAGCTTCCGGGCCA
TCGTCGTTGTCGGCAACGAGAAAGGCCAAGTCGGCGTCGGTGTCGGCAAG
GCCGGTGATGTGATCGGTGCTGTCCGCAAGGGCGTCGCCGATGGCAAGAA
GCACCTGGTCAAGGTGCCGCTAACCCGTCACAACTCGATCCCGACCCTCT
CCAATGGCCGTGACGGTGCCGCCAGCGTGCTGATCCGTCCCGCCGCACCC
GGTACCGGTGTGATTGCGGGCGGCTCGATCCGCACCGTGCTCGAGCTGGC
CGGCATCAAGAATGTCCTGGCCAAGCGTCTGGGCAGCAAGACCCCCCTCA
ACAACGCCCGGGCTGCCATGGTGGCCCTGTCGCTTCTCCGCACCCACAAG
GAGACGGCCAAGGAACGGGGAATCTCCCTCGAACAGATCTACTCCTGA
>SYNW0611 rpsT,rps20, 30S ribosomal protein S20
GTGGCCAATAACCAAGCAGCGAAAAAGCGGATTGAGATCGCTGAACGCAA
CCGCCTTCGCAACCGCACCTACAAGTCCGCCCTGCGCACCCTGATGAAGC
GTTGCTTCGTCGCCTGCGAGGCGTACAGCAAGGAACCCGGAGACGCAGCC
AAGGCCACCGTCTCAGCCTCGATGAATGCTGCTTTCAGCAAGATCGACAA
GGCCGTGAAGGTGGGTGTGCTGCATCGCAACAACGGCGCCCATCAAAAGT
CTCGTCTCAGCGCTACGGTCCGCCAGGTTCTCGAGCCCTCCAGCTGA
>SYNW1753 rrf, ribosome recycling factor protein Rrf
ATGTCGACCCAGGACCTCGAAGCCAGCATGCGCAAGTCGGTGGAGGCCAC
CCAGCGCAACTTCAACACGATCCGCACCGGCCGGGCAAATTCCTCCCTGC
TCGATCGGATCAGCGTGGAGTACTACGGCGCCGAGACACCGCTGAAATCC
CTCGCCACGTTGTCGACCCCGGATTCCCAGACGATCCAAATCCAGCCCTT
CGACATCAGCGCCCTGGCCTCGATCGAAAAGGCGATCGCCATGAGCGAGC
TGGGCTTCACCCCCAACAACGACGGCAAGATCATCCGGATCAACGTGCCG
CCCCTCACCGAAGAACGCCGCAAGGAATTCTGCAAGCTTGCCTCCAAATA
CGCAGAGGAAGGCAAGGTGGCCCTGCGCAACCTGCGCCGCGACGCGATCG
ACAAAGTCAAGAAGCAGGAAAAAGACGGCGACTTCTCGGAAGATCAAAGC
CGTGATGAACAGGATGCCGTTCAAAAGACACTCGACAAGTTCATCGCCGA
ACTGGAGAAGCACTTGGCCGACAAGGAAGCCGACATTCTCAAGGTCTAG
>SYNW0949 rsuA, putative pseudouridylate synthase specific to ribosomal small subunit
GTGACCCGGCAGCGGTTGCAGAAACTGATCGCCGCCGCTGGCCTGTGCTC
GCGGAGGACCGCTGAAGATTGGATCGATGCCGGTCGGGTCAAGGTGGATG
GCCGCATCTCAAGCCTTGGTGATCAGGCGGACCCTGAAAGCCAGCTCATC
CATGTGGATGGCAGGCCGTTGAGTTTCCGCGGGGAGCCCACCGTGCTGCT
GATCAACAAACCAGCTGGCGTGATCAGCACCTGCCGCGACCCCCGCGGGC
GGTCCACCGTTCTGGATCTGTTGCCGCAGCAGCTGCGCCAGGGACTCCAC
CCCGTCGGTCGTTTGGATGCCGACAGCCGCGGCGCCCTGCTGCTGACGGA
CTATGGCGATCTGACGTTGCGGTTGACTCACCCCCGCTATGACCATGCCA
AGACCTATAGGGTCTGGGTGGAGGGGACCCCGCTTGATACCAGCCTGCAG
CGCTGGCGGCAAGGGGTCACGCTGGATGGCACACGCACCCGATCCGCCGA
GGTTCGGGTGCTGCAGCGTCGCTCCGACCGCACGCTGCTTGAGGTGGTTT
TGCTGGAGGGTCGTAACCGTCAGATTCGTCGTGTTGCCGAGCTGCTAGGC
CATCCGGTTGTTGACTTGCAGCGAGTGGCCATTGCCGGTTTGCGCCTTGG
GGCGTTGCCGGAAGGTCGTTGGCGGCGGCTGAGCAGGGGAGAATGGACGC
CAATGCTTGATCGGGGCGAACCCCGCGCCTCTCAGCACGGTTCATGCGCC
TGA
>SYNW1894 serRS, putative seryl-tRNA synthetase
GTGCTCGACCAGCGCCTGGTGCGTGAGAATCCCGATGCCATTGCCACCGA
ACTGGGGCGTCGGGGCAAAGCCGTTGATCTCACCCGGCTTCAGGTGATCG
CACAGCAGCAGCGCAAGCTGGAGGAAGAGCGCAGTGGACTCCAGGCCGAA
GGCAACCGCATCGGCAAGGAGGTTGGCCAGAAGATCAAAGGGGGTGCCGA
CCCCAAAGGTGAAGAGGTCGCTGAACTCAGGCAGCAGGGCAATGCCATCA
AGCAGAAGGTGGCTGTGTTGGAAGAAGAGGAGAAGCACCTCTTCACGCAG
CTGAAGGAACAACTCCTCACCTATCCCAACCTGCCTTCACCGGACTGTCC
TGAGGGAAAGGACGAAACCGACAACGTTGAGCTGCGCCGCTGGGGCAGCC
CAAGACAGGAGGAAGGGCTGGAGGAGCACTGGCAGATCGCCGAACGACTC
CACCTATTTGACACCGAGCGATCCGTCCGCATCGCCCAGAGCCGTTTTGT
CACCTTGATGGGACAGGGCGCCCGATTGGAACGGGCACTGATCAATTTCA
TGCTGGACCTGCACACCAGCAAGGGCTACCGGGAAGTGATGCCTCCGGTG
CTGGTGAACAGCGCCAGCCTCACGGGATCGGGGCAGCTGCCCAAATTCGC
CGATGACTGTTTCCGTTGCTCGGAGGACGACCTCTGGCTGACCCCCACCG
CCGAGGTGCCGGTGACCTCACTGCATCGCGACGAGATCATCCCCGCCGAT
CAGCTGCCGCTCCGCTATGCGGCCTACAGCCCCTGTTTCCGCCGGGAAGC
CGGCAGTTACGGACGGGATACCCGAGGCCTGATCCGTCTGCACCAGTTCA
ACAAGGTGGAGCTCTACTGGTTCGCCCACCCGGACCACTCCGCAGAAGCC
CACGCTCAGATCACCGCCGATGCCGAAGCCGTTCTTCAGGCACTGGAACT
TCCCTACAGGGTTCTTGATCTCTGCACGGCAGATATCGGCTTCTCAGCGC
AACGCACCTACGACCTCGAGGTCTGGTTGCCGGGCGCAGAGGCTTACCGG
GAGATCTCCAGCTGCAGTGTCTGCGGAGATTTCCAGGCCCGGCGTTCTGC
CATTCGCACCAAGGAAGGTAAATCCACCAAACTCGTGCACACTCTCAACG
GCAGTGGTCTAGCTGTCGGCCGCACGATGGCGGCTGTGCTGGAAACCGGC
CAGCAATCCGATGGCAGCGTTCTGCTGCCGAAAGCTCTGGTGCCCTACGT
CGGCGATGAACGACTCCAGCCAGAATGA
>SYNW1631 spoU, tRNA/rRNA methyltransferase (SpoU)
TTGATCAGCAGCCGCAGGAACCCTCTGGTCAAGCGGTTGCGCTCCTTGTC
CAGCCGTGCAGGACGCGAGGAGGAAGGACTTCTGTTGCTCGAGGGCACCC
ATCTTTTGCAGGAGCTGGTGCGACTCAAGCTTCAGCCGGCTGAGTTGATT
GCGACAGAGCGCTGGTATCAGCGGCACGCTCAGCTCCTGGTGGGCGTGAA
CCAGGCAATACCCCGTCGCCTTGTCACCGATGAGGTGCTCACAGCGGCGT
TGAGCACCGTCACTCCCGATGGCGTGGCCAGCTTGTGCCCTTACAGCGCT
CTGCCGTTGGCACCGAAGGATGCCCATTTCCTGCTGGTGCTGGATCGAAT
TCAGGATCCGGGGAACCTTGGAACGTTGTTGCGTACGGCGCTGGCTGCTG
ATGTTCAGAACGTCTGGTTGGGCTCGGGCGTTGACCCTCTTGGCAGCAAG
AGCCTGCGTGCTTCAGCTGGAGCGCTGCTGCAGTTGCCACACCACCGCTT
TGGCCCTGATGAAGACACAGCAATCAGCCAACTAACGGACGAACTGAAAC
GTCTTGCCGCCGGTGGGATGCAGGTGGTGGCCACCTTGGTTCCTGGTTCT
CAAGTTCCGATCCGTCCGGTGCCGTATTGGGAGCTCAACTGGCGGCTGCC
GACAGCTCTTGTGCTGGGTACGGAGGGGGCTGGACTGCACCCTGAGCTGC
TGGCCTGCTGCACCCATGCCGTGACATTGCCCCACAGTTCCCGGGTGGAG
TCGCTGAATGTGGCGGCGGCAGCTGTCCCCCTCCTGCTGGAGCGACGACG
GGCGACAATGACTGCCACAACGCAGCAGTCCGGGTGA
>SYNW0244 tgt, tRNA-guanine transglycosylase
TTGTTCGGCTTCGAGATCAGCGCCCATTGCGCCAACACCGCTGCCCGCTG
CGGCTGTTTTCACACACCCCATGGACCGGTGCACACGCCCCGTTTCATGC
CCGTTGGCACCCTGGCCACCGTCAAAGGGATCAGCACGGACCAACTCGCC
CGCACAGGGGCACAGATGGTGCTGTCCAACACGTATCACCTGCACCTTCA
GCCCGGCGAGGAGATCGTTGCGGCCGCCGGGGGGTTGCACGGTTTTATGG
GGTGGGACGGCCCGATGCTCACCGACTCCGGCGGCTTTCAGGTGTTCAGC
CTTGGAGACCTGAACAAAATCGATGACCGCGGCGTTGTCTTCCGCAACCC
CCGGGACGGCCGGATCATCGACATGACCCCGGAACACGCCACGCAGATTC
AGATGGCCCTGGGGGCTGACGTGGCGATGGCCTTTGATCAGTGCCCGCCC
TATCCGGCCACCGAAAACGATGTGATCGATGCCTGCCGGCGCACCCATGC
CTGGCTGGCCCGTTGCGTTGAAGCCCACAGCCGAGACAACCAGGCCCTGT
TCGGCATCGTGCAGGGCGGATGTTTTCCCCATTTGCGCCGGGAGAGTGCG
CGGGCCGTCGCCGATTTCGACCTGCCGGGAATTGCCGTTGGTGGCGTCAG
CGTGGGCGAACCGGTGGAGGAGATGCACCGGATCGTGCGGGACGTCACAC
CGCTGCTGCCGACACACAAACCGCGCTACCTGATGGGCATCGGCACATTG
CGGGAGATGGCCGTGGCGGTGGCCAACGGCATCGACCTCTTCGATTGCGT
TCTCCCCACACGGCTCGGCCGTCATGGCACAGCCCTCGTGGGTGGTGAAC
GCTGGAACCTGCGCAATGCGCGTTTCCGCCATGACCACACTCCCCTGGAC
CCGTCGTGCCCCTGTCCCACATGCAGCGGAGGGCACACCAGGGCCTACCT
GAACCATCTAATCCGCAGTGAGGAACTGCTCGGGCTCACCCTGCTGAGCC
TCCACAACATCACCCATCTCCTGCGCTTCACCACAGCGATGTCCCAGGCA
ATCCGGGATGGCTGCTTTTCAGAGGATTTCGCTCCCTGGGAGCCGGACTC
ACCAGCTCATCACACGTGGTAG
>SYNW1478 thrS, threonyl-tRNA synthetase
ATGGCGGGCCCCGACCGCAAACCGGTGAGCAGCGCTGCAGCAACCACCCC
AGCCCCTTCAGCTCCGGTGGTCCTGCCCAAAACCAGCGAAAGCTCGCAGC
TGCTCAAAATCCGCCACTCGATGAGCCATGTGATGGCCATGGCGGTGCAA
CAGCTCTTCCCCAAGGCCCGCGTCACCATCGGGCCCTGGACGGAATCCGG
GTTCTACTACGACTTCGACAACCCCGATCCCTTCACCGAAGCCGATCTCA
AGGCGATCAAGAAGGGGATGATCAAGATCATTAATAAAAAGGTCCCGCTC
GAGCGTGTCGAGGTGACGCGCGCTGAGGCGGAAACCAAGATCAAGGCCCA
GAACGAGCCCTACAAGCTGGAGATCCTGGAAGGCCTCCAGGATCCGATCA
CCCTCTACACCCTCGGAGAGGACTGGTGGGATCTCTGCGCTGGCCCCCAC
GTGGAGCACACCGGCCAGCTCAACGCCAAAGCTTTTGAGCTGGAGAGCGT
GGCAGGGGCGTACTGGCGCGGTGATGAAACCAAGGCCCAGTTGCACCGGA
TCTACGGCACGGCCTGGGAAACCCCCGAACAACTGGCCGAGCACAAACGC
CGCAAGGAAGAGGCCTTGCGCCGGGATCACCGCCGCATCGGAAAAGACCT
GGATCTGTTCTCAATCGAGGATGAAGCTGGTGCTGGATTGGTGTTCTGGC
ACCCCCGTGGCGCCCGCATGCGTCTGCTGATCGAGGAGTTCTGGCGCCAG
GCTCACTTCGAAGGGGGCTACGAGCTGCTCTACACGCCCCACGTGGCCGA
CATCAGCCTCTGGAAGACCTCCGGCCACCTCGATTTCTACGCCGAGAGCA
TGTTCGGCCCCATGGAGGTGGACGAGCGGGAGTACCAGCTCAAGCCGATG
AACTGCCCGTTCCACGTGCTCACCTACGCCAGCAAGCTGCGCAGCTACAG
GGAATTGCCGATCCGCTGGGCCGAGCTGGGCACGGTGTACCGCTACGAGC
GGCCGGGCGTGATGCACGGTTTGATGCGTGTGCGCGGCTTTACCCAGGAC
GATGCCCACGTGTTCTGCCTGCCCGAGCAGATCAGCGACGAGATACTGAA
GATCCTCGACCTGACTGAGCGGATTCTCTCCACCTTCGATTTCAACACTT
ACGAGATCAACCTCTCCACCCGCCCGGAGAAGTCCATCGGCGATGACGCC
GTCTGGGACCTCGCCACCAAGGGCCTGATCGAAGCACTGGAACGCAAGGG
CTGGAAATACAAGATCGATGAAGGTGGCGGTGCCTTTTACGGCCCCAAGA
TCGACCTCAAGATCGAAGACGCCATCGGCCGGATGTGGCAGTGCTCCACC
ATCCAGCTCGATTTCAACCTGCCGGAGCGGTTCAAGCTCGACTACGTTGC
TGCTGATGGCAGCAAACAGCGGCCGATCATGATCCACCGGGCCATCTTCG
GCTCGCTGGAACGATTCTTCGGGATCATGACCGAGAACTACGCCGGCGAT
TACCCCTTCTGGCTGGCCCCTGAGCAGGTGCGGCTGCTGCCGGTCACCGA
TGAGGTGCAGCCCTATGCCGAAAGCCTGCTCGACCAGCTCACCCAGGCGG
GCGTGCGGGCCACGATCGATCGCAGTGGCGACCGGCTCGGAAAATTGATC
CGCACCGGCGAACAGATGAAGATCCCGGTTCTGGCAGTGATCGGTGCCAA
GGAAGCTGAGCAAAACGCCGTGAGCCTGCGCAGCCGCAGGGATGGTGATC
TAGGTGTGGCGGCTGTGGCCGATTTGCTCCGAGCTGCAGAGAGCGCCAAC
AGCCAACGTGCCGCAGGGCTGGGGCTGAACGGATGA
>SYNW1475 trpS, t-RNA synthetase, class Ib:Tryptophanyl-tRNA synthetase
ATGGGGAGACCGAGGGTTCTCTCCGGTGTGCAGCCGACCGGTGCCTTGCA
CCTCGGCAACTGGCTTGGAGCGATTCGCAACTGGGTTGATCTCCAGGACA
CCCACGACACCTTTGTGTGCGTGGTTGATCTCCATGCCATCACCGTTCCC
CACGACCCGGCCCGGCTAGCGGACGACACCCTCAACACCGCTGCGCTCTA
TCTGGCCTGCGGGATGGATCCGCAGCGGTGCTCAATTTTCATCCAGAGTC
AAGTCGCCGCCCACAGTGAGCTGTGCTGGCTGCTGAACTGCGTGACACCG
CTCAACTGGTTGGAGCGGATGATTCAGTTCAAGGAAAAGGCCGTGAAACA
GGGGGACAACGTCTCCGTCGGCCTTCTGGATTACCCCGTTCTGATGGCGG
CAGACATCCTTCTCTATGACGCGGACCTCGTTCCAGTCGGGGAAGACCAG
AAGCAACACCTGGAGCTGGCGCGTGACATCGCCCAACAGCGGATCAATGC
GCGCTTCGGAAGCGAAGAACGTCCGGTACTGAAGGTACCCAAGCCGCTCA
TCCTCAAAGAAGGCGCACGGGTGATGAGCCTCACGGATGGACGCAGCAAG
ATGAGCAAAAGCGACCCGAACGAGGGCAGCCGCATCACCCTGCTCGACCC
GCCTGAACTCATCACCAAAAAGATCAAACGGGCAAAGACCGATCCGAAGC
GAGGTCTCGAATTCTCCAATCCTGACCGTCCGGAAACAGACAATCTCCTG
GGTCTCTACGCGATCCTCAGCGGCAAGGGCCGTGAAGCAGCTGCAGACGA
GTGTGCAGACATGGGCTGGGGACAGTTCAAACCCCTTCTGGCTGATGCAG
CAGTGGCGGCTCTGGAACCGATTCAGGCTCGCCACAAAGAGCTGATGGCA
GACCGCGTCGAGCTCGATCGCGTCCTGGCCAAGGGTCGTGATCAAGCTGA
ATCCGTGGCCAACGCATCGCTGGAACGTGTGAGAGATGCTTTGGGATTCG
CGAAGTGCAGCTGA
>SYNW2092 truA, tRNA pseudouridine synthase A
TTGAGCTCCGAACCCTCTTCTGCAGCCCCTGAGTCCACGATCCCCCGCCG
GATCGCCCTCAGCCTGCAGTACGAGGGTTCCGCCTTTTGCGGCTGGCAGC
GTCAACGCAACGGCAACAGTGTGCAGGCCCAGCTAGAGGCGGCGATCGAG
CAGCTGGATCCATACCGCCCGATCCAGACCTTCGCCGCGGGACGAACCGA
TACCGGCGTCCATGCTGCTGGCCAGGTGGTGCATTTCGACTGTGGGGACA
GGATCCCCCCTGCCAAATGGGCACCGGCCCTGAACGGACGGCTGCCATTC
ACGATCCGGGTAAGGGAGTCAGTGCTGCGGCCCAAGGATTGGCATGCCTG
CTATTCGGCCACCTACCGGCGCTATCGCTACACCATTCACAACGGGCGGC
GACCCAACCTGTTCCTCGCCCCATGGAGCTGGCACCGCTACCAACTCCGA
TTGGATGAGTCCCGCATGCGGGATGCCCTCAACGGCATGCTGGGTCTTCA
CGACTTCAGTGCTTTCATGCGGGCTGGAAGTCGTCGGGCCCATGCCAGAA
CCACCGTTCAGGAGGTGGACTTAGTGCGCCAGGGCGACATGGTGCGGGTT
GAGATCCAGGCCAGTGGTTTCCTTTACGGCATGGTTCGCCTGCTGATAGC
TCAGCTGGTGGCGGTGGGCGAGCACCGTCTATCCGTCCAGGATTTCGAGC
AGCGCTGGCGTCAACGCCGGCGCCACGAGGTCCGGGAAGCAGCTCCAGGC
CATGGGCTATGCCTGCTCAGAGCTGGTTATGAGCAAGAAATCTTCACCAG
AGCTGGCTGGTACGATTGTCAACCGTGGTTTTTTCTGGCGGAGAGTGATC
CACCACCGGATCCTCCGCCTCTGCCGGAAGCAAGCGGATCTGAACTCTGA
>SYNW0544 truB, putative tRNA pseudouridine 55 synthase
TTGGACGGCCCCTTCGGCTTCGTGGTGATCGACAAACCCGCCGGCCACAC
CTCCCACAGCTGCGTCAGCCGTCTACGGCGCTGCTATGGCCTCAAACGGG
TGGGCCACGGCGGCACCCTGGACCCTGCGGTGACAGGGGTTCTGCCGATC
GCCCTCGGCCCCGCCACGCGGTTGCTGCCCTACCTCCCCGGGGACAAGAC
TTACCGGGGGGTGATCCAGCTCGGCAGCATCACCAGCAGCGACGACCTGG
AGGGGGAGCTGCTGCGCCAGGCCCCCTGGCCCGACCTCCAGCCCGAGGAG
CTGGAGGTCGCCCTTGCCCCGTTCCGTGGCCCGATCCAGCAACGCCCTCC
CCAGGTATCGGCCGTTCATGTGGACGGCGAACGGGCCCACGCCCGCGCCC
GGAGAGGGGAACAGATGGTCCTGCCGCCGCGGCCGGTGACCATCCATCGC
CTCCAGCTGTTGCACTGGGACCCCAACCAGGGACAGCTGACCCTGGAGGT
GCACTGCTCCGCCGGCACCTACATCCGCTCCCTCGCCAGGGATCTCGGCG
AGCAACTGGGCTGCGGAGGCTGCCTGGCCCAGCTGCGCCGCACCCAGGCC
CTCGGCTTCTTGGAATCCCAGGCCCAGGCCCTGCCGGAGGCGGACGCCAC
ACCACCGCCCCCCCTGTCACCGCTGCTGGCCCTGGAGCACCTGCCCCGCC
GTCAGCTCACTGACAGCGAGGAGGCCGACTGGCGCTGCGGCCGGCGACTC
AGCCTGGACCCAGGCCCAGGCGACGCCGTGGTGGTCTGCAACGCCGACGG
CAGCATGGCGGGCATCGGCCTGCGCCAGGAGGACGATCAACTGCAGCCCA
AGGTGGTGTTTGATGCCAGCGGCTAG
>SYNW1091 tsf, putative elongation factor EF-Ts
ATGGCAGCCGTATCCGCCAAGCTTGTCAAAGACCTGCGCGACAAGACCGG
CGCGGGAATGATGGATTGCAAGAAGGCCCTGGCGGCCACCGATGGTGACG
CCAACAAGGCGGTCGAGTGGCTGCGACAGAAAGGCATCGCCAGCGCCGAG
AAGAAGTCCGGCCGAACCGCTGCCGAAGGTGCCATCAGCAGCTACATCCA
CACCGGCTCCCGGGTTGGTGTGCTGATCGAAATCAATTGCGAGACCGACT
TCGTCGCCCGTGGCGACATGTTCCAGGAGCTGCTGAGGGATGTCTCGATG
CAGGTGGCGGCTTGCCCCAACGTGGAATACGTCAGCACCGATGACATTCC
CGATGAAATTCGGGAGCGTGAGAAGGCCATTGAGATGGGTCGCGATGACC
TGGATGGCAAGCCGGAGCAGATGAAGGTGAAGATCGTTGAAGGCCGGATC
GGCAAGCGCCTGAAGGAGCTCGCGCTGATGGAGCAACCCTTCATCAAGGA
CAGCTCGATCACGGTGACTGAACTGGTCAAGCAGACCGCCGGCAAAATCG
GTGAAAACGTGCAGGTGCGTCGCTTCACCCGTTACACCCTTGGCGAGGGC
ATCGAGGTGGAGGAGTCCGATTTCGCTGCGGAAGTCGCCTCCATGAAGGC
TGCTGGCTGA
>SYNW2138 tufA, elongation factor EF-Tu
ATGGCACGCGAGAAGTTCGAAAGGAACAAGCCCCACGTCAACATCGGCAC
CATCGGCCACGTTGACCACGGCAAAACCACCCTCACCGCTGCGATCACAA
ACGTGCTCGCCAAGAAAGGACAGGCTGAGAAGCAGGACTACGCCGATATC
GACGGTGCTCCAGAGGAGCGTGAGCGCGGCATCACCATCAACACCGCCCA
CGTTGAATACGAGACCGACACGCGTCACTACGCCCATGTGGACTGCCCCG
GTCACGCGGACTACGTGAAGAACATGATCACGGGTGCTGCCCAGATGGAC
GGCGCCATCCTGGTCTGCGCCGCCACCGACGGCCCTATGGCTCAGACCAA
GGAGCACATCCTGCTGGCCAAGCAGGTGGGTGTTCCCGCTCTGGTGGTTG
CACTGAACAAGTGCGACATGGTCGATGACGAAGAGATCATCGAATTGGTT
GAAATGGAAGTGCGTGAGCTGCTGGACAGCTACGACTTCCCCGGTGACGA
CATCCCTGTTGTACAGGTGTCTGGCCTGAAAGCTCTCGAAGGCGAAGCCG
AGTGGGAAGCAAAGATCGAAGAACTCATGGCTGCCGTTGATGAGGCCATC
CCTGAGCCCGAGCGTGAGGTTGACAAGCCTTTCCTGATGGCTGTTGAGGA
CGTCTTCTCCATCACCGGTCGTGGCACCGTGGCCACCGGTCGGATCGAGC
GTGGCAAAGTCAAGGTTGGCGAAGAGATCGAAATCGTTGGTATCAAGGAC
GCTCGCAAAACCACCGTCACCGGTGTGGAGATGTTCCGAAAGCTCCTCGA
AGAAGGAATGGCTGGCGACAACTGCGGCCTTCTGCTCCGCGGTATCCAGA
AAGAGGACATCGAGCGCGGCATGGTGCTGGTGAAGCCCGGTTCCATCACC
CCTCACACCAAATTCGAAGGTGAGGTTTATGTGCTCAAGAAGGAAGAAGG
TGGCCGCCACACCCCCTTCTTCGCCGGCTATCGACCGCAGTTCTACATCC
GTACAACGGACGTGACCGGTCAGATCACCGCATTCACCGCCGATGACGGC
AGTGCTGTTGAGATGGTGATGCCCGGTGACCGCATCAAAATGACCGGTGA
GCTGATCTGCCCTGTGGCCATGGAAAACGGCATGCGCTTCGCCATCCGCG
AAGGCGGCCGCACCATTGGTGCCGGCGTGGTCTCCAAGATCATCGAGTGA
>SYNW0568 tyrS, t-RNA synthetase, class Ib:Tyrosyl-tRNA synthetase
ATGCCGGAGTCCACACCGTCCCTGCCGGATTGGCTGTCTCGGGGCATGGC
CGATCTGTTCCCGGCCGGTGATCCAACCGATGCGGATCAGGCCCTGGCGG
CACGGTTGGCGCAGGCGGAAAAGGAGGGCCGGCCGCTGCGGGTGAAATTG
GGCATCGACCCCACCGGCAGCAACATTCATCTGGGCCACAGCATCCTGTT
CCGCAAGCTGCGGGCCTTTCAGGATGCGGGCCACACGGCGGTGCTGATCA
TTGGCGATTTCACCGCGCGGATCGGCGACCCCACCGGCAAGTGCGCCACG
CGGGTGCAGTTGAGCAAGGAAGACGTGGCCGCCAATGCCTCCACCTACCT
GCGCCAGCTGGGCCAGGACCAGCCCAAGGAGACGGCGCTGCTGGATTTCG
AAACCCCCGGCCGGCTGGAGGTGCGATACAACTCCGAATGGCTGGAGGGG
ATGGACCTGCCCGCGGTGATCGGCCTGCTCGGCACCGGCACGGTGGGGCA
GATGCTGGCCAAGGACGACTTCTCCAAGCGCTACGGCAGCGGCACGCCGA
TTGCCCTGCATGAATTCCTCTACCCATTGCTGCAGGGGTACGACTCGGTG
GCGGTGAACGCTGATGTGGAGCTGGGCGGCACCGATCAGAAGTTCAACGT
GGCGATGGGGCGCGATTTGCAGCGTCACTTCAACAAGGGCACCCAGTTCG
GCCTGCTGCTGCCGATCCTGGTGGGTCTGGATGGGGTGCAGAAGATGAGC
AAGAGCCTCGGCAATGTGGTGGGGCTTGAGGAGGACCCGCTGTCGATGTA
CTCCAAGCTGGAGAAGGTCGGCGATGGGGCGATCAACGACTACGTGACGT
TGCTGACCGACCTGGATCTGGCGACTTTGCCGGAGAATCCGCGCGAGAAG
CAGAAGGCGATGGCCTTGGCGGTGACCGCCAGCCGCCATGGGATGGAGGC
AGCGCAGAAGGCGCAGCTGGATGCGGCGTCGTTGGTGGGCGGTGCCGGAG
ATGCGGCGACGGAGGTGCCGGGGGCGTCGCTGGCGGAGGTGAACTTCCCT
GCAAAGGCCTTTTATCTGTTGAGTGCCGTGGGCATCTGCGCCAGCAGCAG
CGAGGCGCGGCGTCAGATCAAGGGCGGTGCCGTGCGCCTGGAGGGGGAGA
AGATCGGCGACCCCAACCAGGAGTTCGCCTCGGCGGCGGAACTGGAGGGC
AAGGTGCTGCAGCTGGGCAAAAAAACCTTCCGTCGGCTCACCGCTTGA
>SYNW2396 valS, valyl-tRNA synthetase
GTGCCCGAACTGGCCAAGACCTACGACCCGGTTGGCACGGAAGCCCGCTG
GCAGCAGGCCTGGGAGGACCAGGGAGCGTTCCACCCCGACCCAAAGGCCC
CCGGTGAACCGTTCTCGGTGGTGATTCCGCCGCCAAACGTGACCGGCAGC
CTGCACATGGGCCATGCCTTCAACACGGCCCTGATCGACACGATCGTCCG
CTACCAGCGCCTGGCGGGAAAGAACGTGCTCTGCCTGCCCGGCACCGATC
ACGCCTCGATCGCGGTGCAGACGATCCTCGAGAAGCAGCTCAAGCAAGAG
GGCAAGACCCGCCACCACCTCGGCCGCGATGGTTTCCTGGAGCGGGCCTG
GCAGTGGAAGGCTGAAAGCGGTGGCCGCATCGTGGGCCAGCTGCGGCGGC
TGGGTTATTCCGTGGATTGGCAGCGCCAGCGCTTCACCCTTGATGAAGGC
CTCAGTGAAGCGGTGAAGGAGGCCTTCGTGCGCCTGCACGAGCAGGGGCT
GATCTACCGCGGTGAATACCTGGTGAATTGGTGCCCCGCCTCCGGTTCGG
CGGTGAGCGATCTGGAGGTGGAGATGAAGGAGGTGGACGGCCACCTCTGG
CATTTCCGCTACCCGCTCAGCAGCGGCGATGGCCATCTGGAGGTGGCCAC
CACTCGGCCCGAAACGATGCTTGGTGACACGGCGGTGGCGGTGAATCCCA
CCGACGAGCGCTATGCCCATCTGGTGGGCCAGACCCTCACGCTGCCGTTT
GTGGGGCGGGAGATTCCGATCGTGGCCGACGACCACGTGGAGAAAGACTT
CGGCACCGGCTGCGTCAAGGTGACGCCAGCCCACGACCCCAACGATTTCG
CCATCGGCCAGCGCCACGGTCTGCCTCAGATAACGGTGATGCGCAAGAAC
GGCACGATGAACAAGGAGGCCGGCCAGTTCGAGGGGCTGGATCGTTTCGA
GGCCCGCAAGGCCGTGGTGGCTGGTCTCGACGAGCTGGGTCTGCTGGTGA
AGGTGGAGGACTACCGCCACAGCGTTCCCTATTCCGACCGCGGCAAGGTG
CCGGTGGAGCCGCTGCTTTCCACCCAGTGGTTTGTTAGAACCGAGCCCTT
GGCGGCCCGTTGCCGTGAGGCCCTCGAGAAGCAAGATCCCCGCTTCATCC
CCGAGCGCTGGGAGAAGGTCTACCGCGACTGGCTCACCGACATCCGCGAC
TGGTGCATCAGCCGCCAGCTCTGGTGGGGCCATCGCATCCCCGCCTGGTT
CGTGATCAGCGAGACCGGCGGCAAGTACACCGACACCACGCCCTACGTGG
TGGCCCGCAACGAAGTTGAAGCCCTGGAGAAGGCCAAGGCGAAGTACGGC
GCCGCGGCGGTGATCGAGCAGGACGAAGACGTGCTCGACACCTGGTTCTC
CAGCGGCCTCTGGCCCTTCTCCACCCTGGGTTGGCCTGATGCCGAGAGCG
CTGACCTGCAGCGTTGGTACCCCACCAGCACCCTGGTGACGGGCTTCGAC
ATCATCTTTTTCTGGGTGGCCCGGATGACGATGATGGCCGGCGCCTTCAC
CGGTGAGATGCCCTTCCAGGACGTGTACATCCATGGCCTGGTGCGGGACG
AGCAGAACCGCAAGATGAGTAAGAGCGCCGGCAACGGCATCGATCCGCTG
CTGCTGATCGACCGCTACGGCACCGATGCCCTGCGCTTCGCCCTGGTGCG
CGAAGTGGCCGGTGCGGGTCAGGACATCCGCCTCGATTACGACCGCAAGA
CCGACACCTCCGCCACGGTGGAGGCCTCGCGCAACTTCGCCAACAAGCTC
TGGAATGCCACCCGTTTCGCGTTGATGAACCTGGGCGACGAAACGCCGGC
CCAACTCGGTGACCCCGACCCCGCAGCCCTGCAGCTGGCGGACCGTTGGA
TTCTTTCGCGCCTGGCCCGAGTGAACCGGGAGACGGCCGAGCGCTACAGC
AATTACGGCCTGGGTGAAGCTGCCAAGGGGCTTTACGAGTTCGCCTGGAA
CGATGTCTGCGACTGGTATCTGGAGCTGAGCAAGCGCCGGCTTAACCCCG
GTGAGAACCCTTCAGCCGAGGCCCTGGCTGATCAGCGGGTGGCCAAGCAG
GTGCTGGCCAAGGTGATCAGTCAGATGCACCAGATGCTGCATCCGCTGAT
GCCCCACCTCACCGAGGAGCTCTGGCACAGCGTCACGGGCAAATCGGAGA
CCACCTTCCTGGCCCTGCAGCCCTGGCCGGCCCTGCAGGAGAGCGCCCTC
GATGACGCGTTGGAAGCCTCCTTCGCAGACCTGATCGGTGCCATCCGTGT
GGTGCGCAACCTTCGGGCGGTGGCCGGTCTCAAGCCCTCCCAATCGGTGC
CGGTGCGCTTTGTCACCGGACGCGGCGAGCTGGCGGCGGTGCTCAACCAG
GGCACGGCCGACATCACGGCGTTGACGCGGGCGGAGTCGGTGGCGGTGAT
GGCGCCGGCGGAAGCGGATGCGGCTCCAGTGGCCAAGGCCCTGGCGGGGG
TGAGCGGTGAGCTGCAGGTGCTGCTGCCGATCGAAGGCCTGGTGGATCTC
GATGCGCTCAAAGGGCGCCTGGAAAAAGATATCGCCAAGGCGGAGAAGGA
GATCAAGGGCTTGGCGGGCCGGCTGGGCAATCCCAACTTCGCCGATAAGG
CTCCGCCGGAGGTGGTGGCGGAATGCCAGGCCAACCTCGATGAGAAACAG
GCCCAGGCCGATCTGGCGCGCAAGCGCCTGGCGGATCTGAGCTGA
>SYNW2317 yccC, putative L-asparaginase
ATGAGCCGCCGGCTGCTGTTGCTGGCCACGGGCGGCACCATCGCCGGCCA
GGCAAGCGACCCAACCCGTTTGAACGACTACACCGCCGGTGCCATGGCGG
GAGACGCGTTGCTGGCGGCGGTCCCCCAGTTGCAGAACCTGGCGACGATC
AGCGTCGAGCAGGTGGCCAATGTCGACAGCGCCGAACTGTTGTTTGAGCA
TTGGCGAGCGCTGGTGGCGCGCATTCGTGCTGTCTTCGCGGCGGACGCCG
AGCTGACGGGTGTGGTGATCACCCATGGCACCAACACCCTGGAGGAGACC
GCCTGGTTGCTGCAGCTGCTCATTGATGATCCTCGGCCGGTGGTTCTGGT
GGGGGCGATGCGACCGGCCACGGCCCTCAGTGCCGATGGTCCGCTCAATC
TGTTCCAGGCGGTGCAGGTGGCTTTGAGTCCTGAAGCCCGTGGCCACGGC
GTGCTGGTGGTGATGGATGGCCAGATCCATCCATCTCGCCATGTCGGCAA
AGTGGCCACCCAGGGGGTGGGGGCCTTCGCCAGCCCCGGGTATGGGCCTT
TGGGCTGTGTGGATGACATGGGCGTTCATTTGCCAACGGCGACTGGATCA
CGCCAGGTGCCCTTCGCTGCGCTGGCTCTACCGGAGCAATGGCCCCAGGT
GCCCATCGTCTACGGCTGTGTGGAGCCCGATCCGTTGATCCTCCAGGCCT
GTCTCAACGCCGGTGCTCCGGGCTTGGTGTTCACCGGTACCGGAGCCGGC
CAGCTGTCGGCGGGTGAGCGTTCTGTTCTGCAGGCCTGGGCTGGGTCGCG
GCCGTTGATGTTGCGGGCCAACCGCTGTGGTTCTGGCCCCGTGCACCACC
ATCACGAGGATGAACGGCTCGGGCTGTTGCCTGCTGGCAACCTGAGCCCG
CAGAAGGCCCGGGTGCTGCTGTTGCTGGCCTTGATTGCCGGACTGAGTCG
GGATGATTTGGCCGAATTGATCAGCGCAGCACCTGTTACCGCAACACCCA
TTATCGCAACACCTATTATCGCAACACCGTGA