Gene list
Applied filters:
COG category: Translation, ribosomal structure and biogenesis
Organism: Synechococcus sp. WH 8102, WH8102
Number of genes found: 154
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