Gene list
Applied filters:
COG category: Translation, ribosomal structure and biogenesis
Organism: Xylella fastidiosa 9a5c
Number of genes found: 145
Show UniProt / TrEMBL protein name | View as list | View in Fasta format (Protein) | ||||
# Xylella fastidiosa 9a5c >XF0223 queuine tRNA-ribosyltransferase GTGGGCGTACTGTTTGTAATCCGGGACAATGGAAGGCCGTTATCGTGTGC GTGCCGTATGTCTCGATTGCAGTTTCAGCTTCAGGCGACCGATGGTGCTG CCCGTCGTGGTCAATTGAGTTTCCCATGCGGTACTGTGCAGACGCCGGCC TTCATGCCGGTTGGCACGTATGGTGCTGTGAAGGGGGTGTTGCCAGGCCA GCTTTGTGATTTGGGTGCTGAAATCATCCTTGGTAATACGTTCCACTTGT TTTTGCGCCCAGGTCTGGAGGTGATTGCTGATCATGGCGGTCTGCATGGC TTCATGCGCTGGAATGGGCCGATCTTGACGGATTCTGGTGGCTTTCAAGT ATTTTCGTTGGCGCACCGGCGCAAGATCAGTGAGCAAGGTGTGACGTTTG CCGCACCGACAGATGGTGCTCAGGTGTTTCTTGGACCTGAGGAAAGCATG AAAATCCAGAAGGTGCTGAATTCGGATATCGTGATGATTTTCGACGAATG CACGCCTTATCCGGCCACTGAAGATGTGGCCCGTGACTCAATGGAGTTGA GTCTGCGGTGGGCGCAGCGTTCACGTGATGCCCATGATGCCTTGGACAAT GACGCGGCTCTGTTTGGGATTATTCAAGGCGGTGTGCATCCTGATCTGCG CGGTCGGTCGTTGGACGGTTTGCAGGCGATCGGCTTTGATGGCTACGGGA TTGGTGGTTTGGCCGTCGGTGAGTCGGAATCTGAGCGCAATGTGATTCTT GAGTACCTGCATCCACGTGTGCCGGCGGACCGACCGCGCTATCTAATGGG GGTGGGTCGACCGGAGGATCTGGTTGAGAGTGTGGCCCGTGGCGTGGATA TGTTCGATTGTGTGATGCCCACCCGTCATGCACGTAATGGGCAGTATTTT ACTGGATTCGGTACGGTTAAGATCCGTAATGCTTGTTATGCGAGGGATGT AGATCCCATTGAGCCGGGCTGTGGTTGTCCGGCTTGTGTTGGCGGCTATA CTCGTGCTTACCTCCGCCATTTGGACCGTTGTAACGAGATGTTGGCATCA ATGCTTGGTACCTTACATAACCTTTGGTACTACGAAACATTGATGGCTAA TATGCGTGCGGCGATTACAGCGGGGACTTTTTTTGCATTCCGGCGTTCTT TCTATCTGGCGCGTGGTCTTGATCTTCCGCCTCTGCCTGAGGTGGCTGGT TGCGCCGGGTGA >XF1175 30S ribosomal protein S4 ATGGCTCGTTATATCGGCCCTAGTTGTAAGCTTGCGCGCCGCGAAGGCGC CGACTTATCCTTAAAGAGTCCATCTCGTGCTTTAGATTCTAAGTGTAAAT TGGAACAGAGGCCTGGTCAGCACGGTGCTGTACGAAAGTCTAAATTGTCT GATTACGCTTCTCAATTGCGCGAGAAACAAAAAGTTAAGCGTATTTATGG TGTTTTGGAGCGTCAGTTCCGTAATTATTATAAAAATGCTTCTACTAAAA AAGGTAACACTGGGGAGAATTTGCTTCAGTTGTTGGAAACTCGTTTGGAT AATGTTATTTACCGCATGGGTTTTGCTGTTACCCGTCCTGCTGCTCGTCA GTTGGTCTCTCACCGTCGTGTGTTGGTCAATGGGAAGCTAGTGAATTTGC CTTCGTATCATGTTAAGCCTGGTGATGTAGTTGCTCTCTCTCAGAGAGCA CAAAAGTATTTGTGTGTTCAAGAGTCTTTGACTATAAAAGATCAGCATGG CTCCGCTTTTTCTTGGGTTGAGGTTGACTCTGAAAAGTTCAGTGGTGTCT TTAAGGCTTTTCCGGATCGTGCTGACTTACCTTCGGATATCAATGAAGCT TTGATTGTAGAGTTGTATTCAAAATAA >XF0939 ribosomal large subunit pseudouridine synthase D TTGTTGGTGTCTATGTCCGATGACCTCGCTGGATTCTCCCGTCAGACCAC TGTGCCGGATGGCGCTGCTGGCCGTCGTTTCGATGCTGTGTTGGCAGAGC TTTTTCCGGAATTCTCGCGCTCGCGCTTGACAGAATGGATCAAATCTGGG GATGTGCTGTTGAATGGAGTGTTGGTACGGCCGCGTGATCCGGTTTACGG TGGCGAGGTGGTTCGGTTGCAGGTCGTGCCAGATATCCGCACTGATGCGG TTCCGCAGGATATTCCGTTAGATATTTTGTACGAGGATGAGCATGTATTC GTCCTCAATAAGCCTGCGGGGTTGGTCGTACACCCGGGTGCTGGTAATCC CGATGGGACGTTGGTCAATGCGTTGCTGCATCGTGATCCGGCGTTAGCGG CGGTGCCGCGCGCTGGGGTGGTGCATCGTTTGGACAAGGATACGAGTGGG GTGATGGTCGTGGCACGTACGCTGCAGGCGCAGACTGCGTTGGTGGAGCA GTTGTCTTCACGTCAGGTACATCGCCAGTATTTGGCAGTCGTTGTGAGTG CGTTGGTTTCCGGTGGTACGGTGAATGCGGCGATTGAACGTCACCCGCGT GACCGGCTGCGGATGGCGGTGTCAGACACCGGGAAGGAGGCAGTCACTCA TTATCGGTTGCGGGAACGTTTCCGTGCGCACACGGCATTGGAGTGTCGTT TAGATACTGGGCGTACGCATCAGATCCGTGTCCACATGGCGCATCTGCGC CATCCAATTGTTGGTGATCGGTTGTACGGTGGGTCGTTGAAGCTGCCAAA GGTCGGCACGGATGCCTTGGTGGTCATGCTGCGTGGATTCAAGCGTCAGG CATTGCATGCTGAGGTGTTGGAGTTTCTGCATCCTGTAGGGGCACTGCCT GTGCGTATTGTTGCGCCGGTGCCAGAGGATTTATGTCAGCTTCTTGCGGT GCTGCGTGAGGACAGTGCGCTGTTCTTTGAGCGGGAGCGGCGTTGA >XF2440 50S ribosomal protein L36 ATGAAAGTTCTATCCTCCCTAAAATCAGCAAAGACGCGTCACAGGGACTG CAAAGTCATCCGCCGTCGCGGTAAGATCTTCGTGATTTGTAAGTCCAACC CTCGTTTTAAAGCGCGTCAGCGCTAA >XF1164 50S ribosomal protein L5 ATGACGCGTTTGGAAAACATGTATAAGAAAGAAGTAGTGCCTGCTTTAAT TAAGAGGTTTGGTTATTCTAATCCCATGGCTGTTCCTAGATTGGTTAAGA TTACACTCAACATGGGTGTAGGTGAGGCAGCTACGAATAAGAAGGTTCTA GAAAACGCTGTTGCTGATATGGCTAAAATTTCTGGTCAGAGGCCAATTGT TACTAAGTCTCGTATTTCGGTTGCATCTTTCAAGATTCGTAATGGTTGGC CTATTGGCTGCAAGACTACTTTGCGTCGCTCGAAGATGTATGAATTCTTA GATAGGTTGATTAATATTTCTTTGCCTTGTGTCCGTGATTTCCGTGGTAT CCCTCCTCGTTCCTTTGATGGTCGTGGTAATTTTAATATGGGTGTTAAGG AGCAGGTTGTTTTTCCTGAGATCGATTTCGATGCGGTTGATGCTATACGT GGAATGGATATTGCTATTACAACTACAGCTAACTCGGATGCTGAAGCTAA AGCTTTGCTTGATGCCTTTAACTTCCCATTCCGTAACTGA >XF2630 30S ribosomal protein S7 ATGTCTCGTAAAGGTTCTACTCCGCAGCGTAATGTTCTGCCAGATCCAAA ATATGGTAGTGAAACTATTGCGCGTTTCATCAATATGGTGATGAAAAGTG GTAAGAAGTCTGTTGCCGAAAAAATCGTCTATGGCGCGATGAATGTTATT GGTGAGAAAAATTCAAATGCTATCGAATTGCTTCAGAAGGCCCTTGACAA TGTCTCGCCTGCTGTTGAGGTTAAGTCGCGTCGTGTAGGTGGTGCGACTT ACCAAGTGCCAGTAGAGGTACGCGCTTCGCGTCGCATGGCGCTGGCGATG CGTTGGTTGATAGATTCCTCACGTAAACGTGGCGAAAACTCTATGCCACA TAAATTGGCGGCAGAATTGCTTGATGCATCTGAGAGTCGTGGCGGTGCCA TCAAAAAACGGGAGGAAACTCACCGTATGGCTGAAGCAAATAAAGCCTTT GCCCACTACCGTTGGTGA >XF0919 conserved hypothetical protein ATGGCAACAACACTCACCCTCAGCGAAGCCGTCACCGCACTACAACAAGG CGGCGTGATCGCCTATCCCACTGAAGCAGTCTGGGGGCTGGGCTGCGATC CACGTCAGGAAACGGCAGTACATACCCTACTCAATATCAAGCAACGTGCA TCCGGGAAAGGATTGATCCTGGTCACGGCCGAACTCAATACACTGCAAGA TTGGCTAGATCTGGACACGCTATCACCAGAACGCCTGCATGAAGTCCAAA CCAGTTGGCCTGGTCCACATACCTGGGTCCTGCCAGCAAGCACACGTGCC CCCCATTGGATCACCGGACACCATAACGGCCTTGCTGTACGAATCAGCGC ACACCCATTGGTCAGTGCACTCTGCCGTGCCTGGAACATGGCCCTGATCT CCACCAGCGCCAACGTGGCAGGCCAGCCGCCAGCACGTCGCCGTGAAGAC CTGGATCCCTCACTCCTACCACACTTGGCAGGCATCGTAGACGGTCCAAC CGGTGGCTTGGCCCAACCAACATCCATCCGTGACGCACGCAGTGGGCACA TACTACGGCTATAA >XF2201 ribosomal protein L11 methyltransferase GTGTTGGGGGTGGGTGGTGACAGGTGGAACAATGGACGGTTTAAAGGGGA TGTGGTGATGGCGTTTTTAGAGGTCAGTGTGCAGTGTCAGGGGAGGAGTC AGGCGCGCTATGAGGAGGTATTGGAGAGTTTCGGTGCGTTGGCAGTGACG TTGTTGGATGCCGATGCGGATACGGTTCGGGAGCGGGGGGTGTTTGAGCC GGGGGTGGGGGAAACGGTGTTGTGGGATGTTGTGGTGTTGAGTGCGTTGT TTCCGGTGGAAACGGATGCGTTGGGGTTGTTGGCTGGGCTGGAGGGTGCG GAGCCGGGGTTGGATTGGGGGGGGGTCCGTTTCCGTGTGGTGGTGGATGA GGATTGGGAGCGGGTGTGGATGGATCAGTTTCAACCGATGCGTTTTGGGG AGCGTACGTTCATTGTGCCGTGGAATCAGGCGGTGCCTGTGGAGGCGTCG GGGATGGATGCGGCGGTGGTGCGGTTGGATCCGGGGTTGGCGTTTGGTTC GGGGACGCATCCAACAACGGGGTTGTGTCTGCGTTGGCTGGATCGGCTGG GAGGGGATGGGGTGTTAGGGGGGGGTGAGGTGCTCGATTTTGGGTGTGGT TCGGGCATTTTGGCGCTGGCCGCTCTGAAGTTGGGGGCGGTTTATGCGGT GGGTGTGGACAATGATCCGCAGGCGTTGTTGGCAAGTCGGGAGAATGCGC TGCGTAATGGGGTGGCGGAGCGGTTGGAGGTGTATCTGCCTGCGGAGGCG CCGGTACGCAGGTATCCGGTGGTGGTGGCCAATATTTTGGCGTCAACGTT GGTGGCGTTGGCGGAGCGGTTGGCGGGGTGTGTTGCGCCGGGGGGACGGT TGGCGCTGTCAGGGATTTTGCGGGGGGAGGAGAAGGAGGTGTTGCGCTGT TATGCGGTGTGGTTGGATGTGTTGGGTTGTGAGGAGGAGGATGGCTGGAT ACGGATTGATGGGGTACGCCGTTGTTGA >XF1165 30S ribosomal protein S14 ATGGCAAAGATTTCCATGATTAATCGCGACCTTAAGCGGAAAAGGTTGGC TAAAAAGTTTGCAGATAAGCGTCTTTCCTTGAAAAAGGTTATTTCAAGTG ATGCTTCTTCTTATGAAGAAAAGATCGAAGCCTCTTGCAAATTGCAGAAA TTACCTAGGGATTCTTCTCCCACTCGGTTGCGTAACCGTTGTGAAATTTC TGGTCGTCCGCGTGGTGTCTACTGTAAATTTGGTTTAGGTCGTAATAAAC TCAGGGAGGCAGCTATGAGGGGGGATGTCCCGGGTTTGCGTAAGGCAAGT TGGTAG >XF2580 30S ribosomal protein S2 ATGCCTCAAGTGACGATGCGTCAGATGTTGGAAGCTGGGGTCCATTTTGG CCACCAGACCCGTTACCGTCATCCCAAGATGTCACCTAACATCTTCGGTG CCCGCGGTAAAATTCACATCATCAATCTCGAAAAAACCGTTCCTCTGTTC AACGATGCGATGAACTTCCTTTCCGCAGTTGCACAGAAGCGCGGAAGCGT TCTGTTTGTGGGGACCAAGCGCAGTGCGCGGGATGCGATCAAGGAAGAGG CCGAACGTTGTGGGATGCCCTACATGATCCAGCGTTGGCTCGGTGGCACG TTGACTAACTTCCGTACGGTGAAGCAATCGGTTGCCCGTCTGAAGGAGCT CGAGCTAGCCGAGACAGACGGCACTTTCAGCAAGCTGGTGAAGCACGAAG TGCTGAGACTGCGCCGTGAGTCCGGTAAATTGCAGGCTTCGCTGGGTGGT ATTAAGGATATGAACCGTATTCCTGATGCAATCTTCGTGATCGATATTGG TCATGAGGATATTGCAATCAAGGAGGCTAAGAAGCTCGGCATTCCAGTTG TGGCAGTGGTGGATACCAATTACGATCCTTCACTTGTGGATTACCCGATT CCTGGCAATGACGATGCTATCCGTGCCGTACAGCTCTATGCGCGTGCCGC TGCCGATGCTGTTTTGGAAGGTAAGGCGGCGATGCCAAATGCTGCTGCTG TGCGCGAGGAAGAGTTTGCTTCTGCCCCAGATGCGGGCAAGAAGGGCCGT CAAGCTCAGCCCAAGAAGGGTAAAAGGGCTAGCGACGCTGCGGCTGAGTA A >XF0434 30S ribosomal protein S21 ATGCCAAGCGTTAAAGTCCGCGAAAACGAGCCTTTCGAATTTGCGCTGCG TCGCTTTAAGCGCATTTGCGAGAAAGCAGGCATCTTAGCCGAGACTCGAA AACGCGAGTTCTACGAAAAACCAACACAAGAACGTAAGCGAAAGGCTGCC GCAGCTGTAAAGCGCCAGATGCGCCGTACCTCTCGGGATGTGACCAAGCG TAAGCGCCTGTACTGA >XF0591 virulence factor ATGAAAGCACTGATCTTTGCCGCAGGCATCGGTCAGCGCATGCGTCCACT CACAAACCACACCCCAAAGCCACTCTTATGTGCTGGCGGTGAACCATTGA TCGTCTGGAACCTGCGCAAACTCGCCGCGTTGGGCATCAGTGAAGTTGTG ATCAACACCGCCTGGCTGGGCGAGCAATTCCCGGAGATCCTCGGAGACGG TCAACGTTTCGGCTTACGCTTGTTCTACAGCAACGAAGGCTCCCTACCAC TGGAAACTGGCGGCGGCATGCTACATGCGCTACCACTGCTGGGCAACGCG CCATTCCTCGCAATCAACGGCGACATCTGGACTGATGCCGACCTCACACG CCTACCGACGGAACCAGTAGGCGATGCGCATCTCATGCTGGTCAACAACC CTGAGTATCACCCACAAGGCGACTTTGTATTACAACCAGACAGCAGCGTA CTCGACCGCACCCCTGGAATTCCTACATTGACTTTTGCCGGACTTGGCAT CTACAGATCACAACTGCTGGCCGACTGGCGGAACATCATCGGCGATACGC CCGACACACATGCACAACCACCGCGCTTCAAGCTTGCGCCACTGTTGCGT GCAACCATGCGACGCGGCCGCATCCACGGCACCCACCACCGCGGCCAATG GACCGACGTTGGTACGCCGCAGCGTCTGCACGCACTAGATACATGGCTAA GATCACCAGCAGCACGCTTCTAA >XF0124 alanyl-tRNA synthetase TTGAATGTCCAATGCCTGTTACCCTTAATTGATCTAAGACCATATCCTCA TTCCGTGAGGTTGGCGCGTTTACAGTGCCAGCCTACTGTTAACTCCATGA ACATACCTACCAAATTCACCACTTCAAAGATTCGTAGCGATTTTCTAGAA TTTTTCAAGAATAAAGGCCACAAAATCGTGCCTTCCGCGCCGTTGGTTCC AGGCAACGATCCGACCTTGCTGTTCACTAATTCCGGGATGGTCCAGTTCA AGGACGTGTTTCTAGGGGCAGAGAAGCGCAGTGAGGTCCGTGTGGCTGAT GTGCAATGCTGCTTACGTGCCGGTGGTAAGCACAACGACCTGGATTCGGT TGGTTACACAGCACGTCATCACACTTTCTTTGAGATGCTCGGTAATTGGT CGTTTGGTGATTATTTTAAGAAGGAAGCGATCACGTGGGCCTGGGAGTTG CTGACCCATGTTTGGGAGTTGCCCCCCGAACGTCTGTTGGTGACGGTGTA CCACACTGACGATGAGTCCTACGCATTGTGGCGTGACATGGTCGGGGTGC CGGAAGATCGAATCGTCCGTATTGGCGATAACAAAGGTGCGCCGTTTGCC TCGGATAATTTCTGGCAAATGGCCGATACCGGCCCGTGTGGTCCATGCAC CGAGATCTTCTACGATCATGGGGAGCACATCCCAGGCGGTCCTCCTGGTT CCCCGGATGAAGATGGAGATCGTTTCATTGAGATATGGAATTTGGTATTC ATGCAGTTTGATCGTCAGTCTGACGGTACGTTGGTGCCTCTGCCGGCACC CTGTGTGGATACAGGGATGGGCTTGGAGCGTTTGGCGGCGATCCTGCAGC ATGTACACACTAATTATGAGATTGATTTATTTCAGACCCTGATCCTCAAG GCCGCCGAATTAACTGCTGTTGCGGATGTGCAGAATAAATCGTTGCGCGT GATTGCTGATCATAGTCGTGCGTGCGCATTTTTGATCGTCGATGGGGTGC TTCCGTCCAATGAAGGCCGCGGTTATGTCTTACGTCGGATCATCCGCCGT GCGCTGCGTCATGGTTGGATGTTGGGTGTACGTCAACCGTTCTTCAACAA CATGGTGCCCACCTTGGTTGCGGTGATGGGCGATGCTTATCCCAAGCTAC AGGCTGCAGCTGAATCGGTGATGCGTACTCTCCTGGCTGAGGAAGAGCGT TTTGCCGAGACCTTGGATGTCGGGATGAAGATCTTTAACGAAGTGGCTGC CAAGGTTGCCAATGGTGTGATCCCGGGCAGCGATGCGTTCCGTTTATACG ATACCTATGGTTTTCCTGTTGATCTGACCGCTGATATTGCGCGTGAGCGT GGTATGAGCGTGGACATGGTCGGTTTCGAAGCCGCAATGACGCAACAGCG CAAGACTGCGCGCGCCGCGGGTAAGTTTGGGCGCGGCGTGCAATTGTCGG CTGAACGGGCTGCGATGTTGTCACCCACGGTGTTCCTGGGCTATGAGCAG CTTCAGGCCGATGGCCTGAGAGTGGTTGCGTTGTTGTCTGATGGTGGACT AACTGATTCGGCGTCGGTGGGTGATGAGGTGATTGTGTTGACCGACCGTA CACCTTTTTACGCTGAGTCTGGTGGTCAAGTGGGTGATATTGGAACGTTG ATGGCATCCGACGGAGTGCGTCTGGAGGTGACTGATACGCAAAAGTTAAT GGGTCAGTTCCACGGACATGTTGCTCGTATTGTGCAAGGTGGTGTGAAGG TCGGCGATGTGTTGTCCGGTAGCGTTGCTGTTGCCAGACGAAAAATGGTT GCTCTTAACCATTCAGCCACTCACCTGTTGCACTGCGCGCTGCGCAGCGT GTTTGGTACTCACGTGGTGCAAAAAGGTTCTTTGGTTGCGCCGGATCGCC TGCGTTTCGACTTTTCACATTTTGAGCCTATCGCGGCTGCACAAATGACA TTAATTGAACGGATGGTCAACGATGAGGTGCGTGCTAATCATCTGGTGAT GATCGAGCAGATGGGGATGCAGGCTGCGTTGGATGCTGGCGCGATGGCGC TATTTGGAGAGAAATATGGAGAGCATGTGCGCGTAGTAACGATGGGCACT TCGGTCGAACTCTGCGGTGGTACCCATATCAATCGTACGGGTGACATTGG TTTGTTTAAGATCATTTCCGAGTGTGGCGTGTCCTCTGGAGTGCGTCGTA TTGAGGCGGTGACGGGCGAAAGCGCGTTAAATCATGTGTTGGCCGAAGAG CATCGTTTGTACGAAGTCGCTGGCCTTATTGGTAGTAACGCGAACGACGT GGTCAATCATATTCGCCAACTCACTGATCGTCAGAAGACATTGGAGCGTG AACTCGAGAAGCTCAAAGGAAAGCTGATCTCGGGAACTATTACCGATTTG CTCAGCACAGCGGTCAATGTGGCCGATGTAAAAGTAGTCGCCGCGCGTCT TGATGGTTTGGATGGGAAGGCGCTACGTGAGGCGCTTGATCGACTTAAAT TGCAGCTGAGTGATGCCGTCATAGTCCTTGCGGGAGTGACTGGCGGCAAG GTGGCTTTGGTGACTGCCGTCAATGGTCGTCGCGCAATGGGTAAGGTGAA GGCCGATACATTACTTTCGCACGTTGCTACTCAAATCAACGGCAGGGGGG GGGGGCGTGTTGATTTTGCTCAGGGCGGCGGTGAGGATGGACCTTCTCTT CGTTCCGCTCTTGACGGTGTTGCTACGTGGGTCAAGCAGCATCTGAACTG A >XF0094 cell division protein ATGTCACATAGCAAGAGCAGTCAGCGTTGGCTTAAGGAGCATTTCTCCGA TCCCTTCGTGAAAAAAGCTCAAGCCGAGGGAATGCGCTCACGGGCCGCAT ATAAGTTAGAAGAAATACTTAAACGTGATCGAATCCTCAGACCGAACATG GTTGTGATTGATCTTGGTGCTGCACCTGGAGGGTGGTCGCAACAAATACG CAAGCAGATGGGTGATCGCGGCAGGGTCATCGCTTTGGATATCGTGAAGA TGGCGCCGCTGGTTGGAATAGAGTTCCTTCAAGGTGACTTCAGAGATAAA GCGGTCTTATCTCAGCTCGAGATAATGCTCAAAGGCCAACCCGTTGACCT TGTGCTTTCAGATATGGCCCCCAATAAGAGTGGAATGGACGCAATGGACC AACCGCGGATGATGTACTTAGCTGAGCTGGCAATGGATTTTGCAGACATC CATGTCAAACCGGGCGGTTCGTTCCTAATCAAACTGTTCCATGGAGTCGG ATCAGATGACTACATCCGTCAATTACGACACAGGTATAAAAAAGTTGCGA TCCGCAAACCACTTGCTTCCCGCAAGCGCTCCCCAGAGGTTTATATCCTT GGTGACGGCAAGCTCACTCAGAATGAAGTAAGCTGCTCGTGA >XF0353 translation initiation inhibitor ATGTCCTTCCAGACCATCCATACCGAAAAAGCGCCGGCTGCGATCGGCCC GTATTCTCAGGCCGTGCGTGTTGGCAACACCGTGTATTTTTCAGGCCAAA TTCCATTGGATCCAGCCACCGGTACCATTGTCGTTGGCGACCTTGCGGTG CAAGCCCGTCGTGCATTCGATAACCTCAGAGCAGTTGCTGAGGCTGCCAA CGGTTCTCTCTCTAAAATCGTCCGTTTAGGGCTTTACCTGACCGACTTGG AGCAATTTGCCGTGGTCAATGCGGTGATGCAGGAATACTTTCAGGCCCCC TTCCCGGCGCGCTCCACCATTCAGGTCTCCGGTTTACCCAAGGGCGCGGA TTTCGAGGTGGATGCAGTGATGGTGATCGACTGA >XF0927 methionyl-tRNA formyltransferase ATGAGAATTGTTTTTGCCGGTACACCGGATTTCGCGGTGCCATCGTTGCG CTCGGTGACTCAGCGAGCCGATGTTGTTGCGGTCTACACGCAACCAGATC GTCCCGCTGGTCGTGGTCGTGAACTGACTCCTTCGCCAGTCAAGCTTGAG GCGGTCGCGCGTGGTCTACCGGTGTACCAACCCCAGACTTTGCGCTCTCC CGAGATGCTGGAGCAGCTACGTGCATTGCGGCCAGATCTGATTGTTGTCG TTGCTTACGGGGTGATTCTCCCCGAGGCGGTGTTGGCGATTCCTGATGAT GGTTGCTGGAACGTGCATGCTTCCCTGTTACCGCGCTGGCGCGGCGCTGC ACCGATTCAGCGTGCGATTGAGGCCGGTGATACCGAAACCGGCGTTTGTC TGATGCAGATGGAAGCGGGTCTTGATACTGGCCCTGTGTTGATGTCCCTG AAGACTCCGATTAATGCGTACGAAACCAGTGGGCAGTTACATGATCGTCT TGCTGAGATGGGAGCACAGCTACTTTCTGATGGCCTGGGCTTGTTGCGTG CTGGGCTACGGCCTGTGCCACAGCCGCAGTTGGCTGCTGGTGTGACCTAT GCGCACAAACTGGGCAAGGTTGAAGCCCAGCTTGATTGGGAGCAACCGGC CGAACGGCTTGCCTGCCGGGTACGGGCGTTCCAGCCATGGCCGGTGGCTG AGGTCGTATTGTGTGGTGAGCGGGTGCGTATCCATGAGGCGTTGGCTCTG GATCTGGATCACAGCCAGCCGCCGGGTACGGTGTTGGCGGCGAGTAAAGA GGGGATTGATGTGGCCTGTCTGCAGGGTGCGTTGCGTTTGTGCAGGTTAC AGAGGGAAGGTGGGAAGGCGATCACCGCGGCTGATTACCTTAACGCCCGC CGAGACTTGCAGGTCCGTGCGTGA >XF0238 30S ribosomal protein S15 ATGTCGATCGATACTCAGAGCATCATCGAGAACAATAAGCGCAGTGCCCA TGATACGGGGTCCCCAGAAGTGCAGGTTGCACTGTTGACGGCTCGTATTG AGTTACTGACCAAGCACTTCAAAATTCATAAGAAAGACCATCATAGTCGC CGTGGTCTTCTACAGATGGTTAATCGACGTCGTAGTTTGCTTGATTACCT TAATAAAAAGGACAACGAACGTTATAAGCTGTTGATAGAAAAACTCGGCT TGCGCCGCTGA >XF2631 30S ribosomal protein S12 GTGCTTTATTTAGAAGAATCTACGATGGCAACTATTAATCAATTAGTTCG CAAGCCGCGGCAAGCGAGTACTTACAAGAGCGCCTCCCCGGCACTTGATA AGTGTCCTCAGCGCCGTGGAGTGTGTACTCGTGTATACACTAGCACCCCT AAAAAACCTAACTCTGCATTGCGTAAGGTTGCTAAAGTGCGTCTAACCAA TCAAGAAGAGGTCATTAGCTACATAGGTGGTGAAGGTCACAATTTGCAAG AGCATTCTGTCGTTTTAATTCGTGGTGGTCGTGTCAAGGATTTGCCCGGT GTGCGATATCATACGGTGCGTGGTTCGCTTGACGCTGCTGGTGTCGCCAA GCGGCGTCAGGGCCGTTCGAAGTATGGCGCAAAGCGCCCGAAGAGTTAA >XF0095 conserved hypothetical protein ATGACCATCGCGCTCACTTCCGCTCAAAACCGTTTCCTGCGCGGCCAAGC CCATGATCGCAAAATTTTATTGCAAACTGGCGATAAGGGGTTGACTTCGG CATTTCTTTCAGAATTGAACGATCTCCTGGAACGGCATGAACTTATCAAG GTGAAGGTTGTTAATGAGGATCGCGAAATGCGCGATATGCTGATTGCTAC GCTGACTGCTCAGAGCGGTAGCGTATTGGTCCAGCGTATTGGTCACATCG CTATTCTGTACCGCTGCAATAAGGAAAGTTGTCAAATCGTGTTGCCTCGC GCTTAA >XF0107 30S ribosomal protein S16 ATGGTCAAGATTCGTCTGACTCGTGGTGGTGCCAAGAAGCGCCCCTTTTA CCAGATCATCGTTACTGATTCGCGTAACAAGCGCGACGGTCGTAACATTG AGCGCGTTGGCCACTATAACCCGGTGGCACAGGGCGCTGAATCGCGCGTG GTATTGAATATGGCTCGTGTCGAGCATTGGGTCAAAAACGGTGCCCAACT GACGGACAAGGTGCGTAGCTTGCTTAAGGAAGTCAGCAAAACCCAGGCGA CTGCGGCCTAA >XF1956 glutathione synthetase ATGCCGTTGGACGTCGTTGTTGTGATGGACCCCATCACAGGTATCAAAAT CGCCAAAGACACCACCTTTGCATTGCTGCTGGAGGGGCAGCGTCGCAGCC ATCGCCTTCATTATGTGCACCCTGGTAGCCTCAGCTTAAATGAGGGGCGT ACCTTCGCACAAATCGCACCGCTGCAAGTACGCGACAACAAGACCGACTG GTACACCTTGGGGGAGTTCAGCGAGACTCAACTCGGCCAAGGGCAAATAA TCCTGATGCGTAAAGATCCTCCAGTCAATGCTGAATTCATCTACGACACT CAGTTGCTTAGTATCGCCCAAGCCGCTGGTGCTCAAGTGATTAACCACCC ACAGGGCCTACGCGATCTCAACGAGAAACTAGCCGCGCAGCTATTCCCAC AATGTTGCCCACCAACTCTTATTAGCCGTGATATGAGAGCACTGAAGATG TTTGTTCAGAAGCAAGAGCAAGCGATTCTCAAGCCACTAGACGGGATGGG TGGGCATTCAATATTTCGCAGTAGCAACGGCGACCCCAATCTCAATGTGA TCCTGGAAACGTTGACAGATGGCGGACGCACACTGGCAATAGCGCAACGC TATCTGCAACAAATTATCGAAGGCGACAAACGCATCCTACTGATCGACGG AGTCCCTATAGACCATTGTTTGGCTAGAATCCCACAGGGTGACGAATTCC GCGGCAACATGGCTGCTGGAGGCCGCGGTGAGAGCCGCCCCCTCAACGAA CACGACCGCTGGATCGCTGCTCAAGTCGGGCCAGAGATGCGACGCCGTGG CATGCGTTTTGTCGGAATCGACGTGATCGGCGACTACTTGACTGAGATAA ACGTCACAAGCCCCACCTGCCTACGCGAATTAGACGCACAGTGCGGCCTG AACATCGCTGGCCAACTGTTCGATGCAATTGAAACTGGAGGCTGA >XF0111 methionine aminopeptidase ATGGTGGCTGTTAACCTGAAAACCAAAGAAGAGATTGAACAAATGCGCAT CGCTGGCCGCTTGGCTGCTACGGTGCTTGATGTGGTCGCGCCATACGTGA AGCCGGGTGTGACTACCGCAGAACTCGACCAGATCTGCCACGACTATATT GTGACGGTACAGGGCGCGATTCCGGCTAACCTTGGCTATCGCGGCTTTCC TAAGACGATATGTACTTCGGTCAATAATGTCATTTGCCATGGTATTCCTA GCGATGCCAAGGTCCTGAAAGACGGCGACATCATCAATATCGACGTGACT GTCATCAAGGACGGTTGGCATGGCGATACAAGTCGCATGTATTACGTCGG CAACCCCTCGGTGATGGCGCGCCGACTCGTGGAAACCACTTACGAGGCAA TGTGGCGCGGCATCCGTGCCGTTAAACCTGGCGCGACGCTTGGTGACATT GGCCACGCCATTCAAATCTATGCCGAAAACGAACGCTTTAGCGTTGTCCG CGAATACTGTGGTCACGGTATCGGCAAGGTCTACCACGACAATCCGCAGG TACTGCATTACGGTCGTCCTGGCGAGGGACTGGTACTGGAATCAGGAATG ACCTTTACAATCGAGCCAATGATCAATGAAGGAACCCGCCACCATAAGGT ATTGCCCGATGGCTGGACCGTGGTTACCAAGGATCGCAAACTGTCAGCGC AGTGGGAACATATGATTGCAGTCACTGAAGACGGCGTGGATGTGTTGACC CTATCGCCTAACGACATCGGCAATACATAA >XF2358 RNA methyltransferase GTGGCTCGCCAAAATCGTTTCGATCGTACGTCATTTCAAACGCAGATTAT CGATCTCAGTCATGATGGGCGTGGGGTTGCACGACCTCATGGTGAGGGAG ATAAGGTGACTTTCGTCACTGGTGCGCTTCCAGGTGAGGTGGTGATTGTT GAGCCAGTTGCGCGTAATCGTCATTTTGATGAGGCACGTGTCGTTGAGGT GTTGCAGGCATCGCCGCAACGGGTGATACCGCGTTGCTCGCATTTTGGTG TCTGTTCTGGTTGTGTATTGCAGCATTTGGCTGAAGATGCGCAGGTTGTG TCGAAGCAACGGGTGTTGTTGGAAAGTTTGGAACGTATTGGTCGTGTCAG TCCGGAGCGTGTGTTGCCGGCGTTGGCCGCGGAGAGCTGGGGGTATCGGC GTAAGGGGCGTTTTTCTGTACGTTGGGTGGAGAAAAAGGGGAGGACGCTG GTTGGTTTCCGGGAGCATGATCCGCGTTTTGTTGCCGATGTGTCGGTCTG TCATACAGTGGTTCCGCAGGTCGGTGAAAAAATTGCGCTTTTGGCAACGT TGCTTAACAGTTTGGACGGTAGGCGTGACGTACCGCAGATTGAGTTTATT GCCGGTGATGCTGTTGTGGCGTTAACGGTGCGTCATTTGCAGCCGCTGAG TGAGGCGGATCGTTTGGCGCTGATTGAGTTTGGCAAGGAGCATGGTATTG CAATTTTTTTGCAGTCGGGTGGGGTGGAGAGTGTGCGTTTGTTGTGGCCT GATGAGGTGTTGTTGGCATTTCGGTTGAAGCCTTGGGATGTGGAGTTTGT GTTCCGTCCGCTGGATTTCATTCAAATCAATGGGGGGCTGAATGAGAAGA TGATTGCGCATGCTTTGGATCTGCTCGGTGCTGGATTTGGGGAGCGTGTG CTCGATCTGTTTTGTGGTTTGGGTAACTTCACGTTGCCGTTGGCGCGTAC TGTGGATGAGGTGGTTGGAGTGGAGGGTGATATTGGGCTGGTGGAGCGGG CCAGGGAGAATGCACGGCGTAATGGTTTGGGTAATGCTGAATTTTTTGTT GCTGATTTGACCCGTGATCAACGCGATGCGCCGTGGATGCGTCAGGGCTT TGATAAGTTGTTGTTGGATCCGCCGCGTTCCGGAGCGATTGAGGTACTCA AGCAGTTGCCGTTAAAGATGTTCGAACGCATCGTTTATGTCAGTTGTCAT CCTGGATCTCTGGCGCGTGATGCTGATTTCCTTGTCAATGAACAGGGCTT TGTGTTGCGTGCGGTTGGGGCGATGGACATGTTTCCGCATACTGCGCACG TGGAGAGTATTGCTGTATTTGATCGTTGCTGA >XF0995 cysteinyl-tRNA synthetase TTGCTCCTAGGATGGTCTGTGATGAGCCTGCACCTTTACAACACCCTTCA CCGGAGAGTCGAGCCGTTCGAACCGCTGGACCCTGCCTGCCCAACTATGT ATGTATGCGGTCCGACCGTCTACAACTATGTGCATATCGGCAACGCCCGC GGTCCAGTCGTGTTTGGGGTGTTGGCCGCGCTGCTGCGGCGGCGGTATGG GGCGCTGCGCTACGCACGCAACATCACTGACGTGGATGACAAGATCAACA CTGCTGCGCAGGAGCAGGGTGTTCCCATCTCGGCCATTACTGAACGCTTC TGCGCTGCTTACCGTGAGGATATGAAAAAACTCGGTGTGGAGCCGCCTGA TATCGAGCCGGAAGCCACTGCGCATATGCCACAGATCATCGCGATGATCG AACAGCTGATCGAACGCCAGCATGCATATGTCGCGATGGAGCATGTGCTG TTCGCGGTGAACAGCTTTGCCGATTATGGGCAACTGTCGCGCCGGGATCC GGAAGAGATGTTGGCCGGTGCTCGGGTCGAGATCGCTCCATACAAGCGTG ACCCAAGCGATTTCGTGCTGTGGAAACCTTCCAGCGATCAGCTTCCTGGC TGGGACTCGCCCTGGGGGCGCGGCCGCCCCGGCTGGCATATTGAGTGCTC CGCAATGGCCGCTGCGCATCTGGGGGAGACGATTGATATCCACGCTGGCG GGATCGATCTGCAATTCCCACATCATGAAAATGAAATCGCACAAAGTCGC TGCGCACACGGCAGCAGTACGTTCGCACGGGTCTGGATGCACAACGGGAT GCTCAATTTTGAAGGCGCCAAAATGAGCAAATCGCTGGGCAATATCGAGA CCGTGCATGGGTTGGTGGCAAAGCATCCTCCCGAAGCACTACGTTACGCG CTGCTGTCGGCACATTATCGGAAACCGCTGGACTGGTCAGAGGCACTCAT CGCGCAGTCGGTACGCACTCTCAACCGGCTGTATGGGACGCTGCGCGATT TAGCGGCGTATCCGGCGCACCCCTTTATCCCAGGGAATATCGAAGCAGCG TTGGATGACGATCTCAACACGCCGCAGGCGCTGGCCGAGTTGGCAACGCT GGCAAACGAGGCACGCATCCAATTGGCTGACACCACACATCACGCAGCAG CTGAGGTCACCGCCGCGCTCACCCGGCTGAAAGCCGAGTTGCTTGGCGCC GGACTGGCTCTTGGTCTGCTGCAGCAAACGCCGGAGGCATGGTTCAGCCA AGGTACCAACGAGAGCGATGAAACGCATATCCAGGCGCTGATTGATGCAC GCGGTGCCGCCAAGCAGGCGCGGGATTTTGTCCGTGCCGACGCAATCCGT GCACAACTGGCCGCAGAGGGTATTGTGCTTGAGGATACGCCGCATGGGGT ACGCTGGATGAAGCAGCACACGTAA >XF0428 tryptophanyl-tRNA synthetase ATGGGGCATTTCATGAGTATTCGTGTTCTGACTGGTATCACTACTTCCGG GACGCCCCATTTGGGGAATTATGTTGGTGCGATTCGTCCGGCGATCCGTG CTGCTGGGGCGCCTGGAACGGAAAGTTTTTATTTTTTGGCGGATTTGCAC AGTTTGATCAAAGTGCAGGATCCAGAGCGGACGCAGCGTTCGACGCTGGA GATTGCGGCGACTTGGCTGGCATGTGGTCTGGATCCGGAAAAGGTGTGGT TGTATCGGCAGAGTGATGTGCCGGAAATCACGGAGTTGATGTGGTTGCTG ACTTGTGTTGCCGGGAAGGGGATTCTTAATCGTGCGCATGCTTATAAGGC GGTGGTGGATAAGAATCGTAGTGAGGGGGGGGATGATGATGCCGGGATCA CGGCCGGTCTGTTTATGTATCCGGTGTTAATGGCGGCGGATATTCTTCTT TTTAATGCGCATCAGGTCCCGGTGGGACGCGATCAGATTCAGCATATCGA GATGGCGCGGGATTTCGCGCAGCGTTTTAATCATATTTACGGTGGGGAGT ATTTTGTGCTTCCGGAGGCCGCTATTGATGAGCAGGTGGCGACGCTGCCG GGTTTGGATGGGCGCAAGATGAGTAAAAGCTATGGCAATACGATGCCGCT GTTCTGTACGCGGGAGGAGTTAAAGAAGTACGTGTTTTCGATTGTCACCG ATTCGCGTGCGCCAGGGGAGCCGAAGGAGGCTGTTGGTTCGGCAGTGTTC CAGTTGTATCAGGCGTTTGCTGGTGTTGAGGAGTGCAGTATGTTCGCGCA GGCATTAGCTGAGGGTCTCGGGTGGGGGGAGGCAAAGGTGCGTTTGTTCG AGCGTATTGATGCGGAGGTTGCGCCGCTGCGGGAGCGTTATGAGGATTTC ATGAGGCGTCCAGCGGATATCGAAGCAATGTTGTGTGATAGTGCGGGGCG TTTGCGGGAGAGGGATGCAATCCCACTTTTGGCACGGTTGCGTGAGGCGG TGGGGTTGCGGAGTTTATCGCTCTGTATGGCCAGTGCGGTGCCGGTGCCG CAAGAAAAGGTGGCGTTACCGGTATTGAAGCAATATCGGGAACAGGATGG GCGTTTTTATTTCAAGTTGATTGATGGGCAGGGGGCGGTGTTGGTGCAGA GTCGGGGGTTTGCTTCGCCGCGTGATGCCGGTCAGTGGATCGCTTTGTTT AAGCAGGCGGTGTCTGCTGAGGCGTTGGTCTCTCCGATGTTGGAGCCGGT GGCTGATCCTGTTGTTGTGCTCGCTGCGCTGCGTCGGCTGCGTGAGGCTG GTTGA >XF1012 conserved hypothetical protein ATGACTGCCACACCCCCACCCCCCGCCTTGCCAGAACACATCCACTGGAT GCGCCATGCCCTGACCCTGGCCCACCGTGCAGCAACAGAATTCGATGAAA TCCCCGTCGGCGCCGTACTCATCAGCCCCGAAGGGACCCTCCTCGGCGAA GGATGGAACTACAACATCACCAGCCACGACCCCAGCGCACACGCCGAAAT CATGGCACTGCGCGCCGCCGGCCACCAACTGCGCAACCATCGCATGCCTG GCTGCACCCTCTACGTCACCCTGGAACCCTGCCTGATGTGCGCCATGGCC ATCATCCATGCACGCATCGCACACCTCATCTACGCCGCCGCAGACCCCAA AACAGGCGCATGCGGCAGCACATTCGACATCCTCAACGACCCACGCCACA ACCACCATGTCCACGTCTACGGCGGCCTCCTTGCCGAAGAAGCCTCACGG CGCCTGACAAACTACTTCCGTACCAAACGCGGCCAACCGCCACTGCCACA ATAA >XF1534 50S ribosomal protein L31 ATGAAGCCCGAAATTCATCCAATTTATCGTGAAGTTGTCTTTCACGATGT GACTTCCAATTTCAAGTTTCTCACCCGTTCCACCATGAGTACTAAGGAAA CTACTTTGTGGGAAGACGGACGAGAGTATCCGTTGGTCAAGGTTGAAATA TCCTCGGCCTCGCATCCCTTTTATACAGGTAAGCATAAACTTGTGGACAC GAGTGGTCGTATTGATAAGTTTAAAAAGCGTTACGCACGTTAA >XF1960 glycyl-tRNA synthetase alpha chain ATGTCTGATTCTCGGGGTGTACTGTCTATTTCTACCAGCACAACCTTTCA GGGTTTGATCCATACTCTCAATCGGTACTGGGCAGAGCAGGGGTGCGTGT TGGTTCAGCCGCTAGACCTGGAAGTAGGGGCCGGGACATTTCATCCGGCC ACCTTTTTACGTGCGTTGGGTCCGGAACCGTGGAATGCTGCTTATGTGCA GCCTAGTCGGCGTCCGACCGATGGCCGCTATGGGGAAAATCCGAATCGTT TGCAGCGTTATTATCAATATCAGGTTGCAATGAAACCCAACCCTGACAAC CTTCAGGAGTTGTATTTGGCTTCATTACAGGCCTTGGGTATCGATCCGTT GGTGCATGATGTGCGCTTTGTTGAGGACAACTGGGAGTCCCCGACATTGG GCGCTTGGGGCCTTGGTTGGGAGGTCTGGCTCAATGGCATGGAGGTGACG CAGTTTACGTATTTTCAGCAAGCTGGCGGGCTGGAATGTAAGCCCGTTTT GGGTGAGGTCACTTACGGGTTGGAACGGCTGTGTATGTATTTGCAGAGCT GCGATAACGTTTACGATCTGGTGTGGACGTATGGCCCGGATGGTACGCCA GTAACGTATGGCGATGTCTACCACCAGAACGAGGTGGAGCAGAGCGCTTA CAATTTCGAGCACGCAAATGTGACTGAGTTACTCCACACTTTCGATGCTT GCGAGCGCGAGGCTAAAGCATTGGTCGAGGCTGTTTTGCCACTCCCTGCC TATGAGAAGGTGATCAAGGCAAGTCACTGCTTCAATTTACTTGATGCGCG TCGCACAATTTCCGTCACTGAGCGCCAGCGGTACATTCTTCGGATACGTA CACTGTCACAAGAGGTGGCGAAGGCTTATTACGCTCAGCGTGAGAAACTG GGTTTTCCGAACTTGAGGCGCTAG >XF1338 glutaminyl-tRNA synthetase ATGTCCGAAATCACCAGCACCGACGCCCGAGCCCAGCCTGAGAAGAAAGA CTTTATCCGGCAGATCATCAGAGAAGACTTAGCCCACGGCACACACACTC ACATCCGCACCCGTTTCCCCCCAGAACCCAACGGTTACCTGCACATTGGC CACGCCAAAGCAATCTGCCTGGATTTTGGCGTCGCCGCGGAATTCGGCGG ACACTGCACCCTCCGCATGGACGACACCAATCCGAGCAAAGAAGACCCCG CGTTCGCCGCTGCAATCCAGGACGACGTCTCTTGGCTAGGCTTCCATTGG AACGCACTACGACATACATCGGATTATTTCGAAGTGCTGTACCTGGCCGC AGAAAAACTCATTACCGATGGAAAAGCCTACGTCTGTGACCTCAATAGCG AACAGGTACGCGAATACCGCGGCACCCTGACAGAAGCGGGCCGTCCCTCA CCATGGCGTGAACGCAGCCCTGATGAAAATTTAGAACTATTCCGACAGAT GCGCGCCGGCACGTTTCCAGACGGAACACGTACCCTGCGAGCCAAAATCG ACATGGCTAGCGGCAACATCAACCTGCGGGACCCAGCGCTCTACCGCATT AAACACGTCGAACATCAAAACACCGGCAACACCTGGCCGATCTACCCCAT GTATGACTTCGCACACGCACTGAGCGATGCGATCGAAGGCATTACCCATT CATTATGCACCCTCGAGTTCGAAGACCACCGCCCCCTGTACGACTGGTGC GTCAACCACGTCGACCTACCGAACAACTCACACCTACTCAAACCGTTACT GGACAAAGGCTTTCCTCAAGAACCCAGCCAACCTCGGCAAATCGAGTTTT CGCGCCTGAACATCAACTACACCGTGATGAGCAAACGCAAGCTCACCGCA CTGGTGGACGAAAAACTCGTCGAAGGGTGGGACGACCCTCGCATGTACAC TCTGCAAGGCCTACGCCGCCGCGGCTACACCCCAGCGGCCATGCGCCTAT TCGTAGAGCGGATCGGCATCAGCAAACAGAACTCGATCATTGATTTTTCA GTACTAGAAAACTGCTTACGCGAGAACTTGGACACCATTGCACCACGCCG GATGGCAACCATTGCACCACTGAAACTCGTGCTGACCAACCTACCCGAAG ACCATGAAGAACAGCTGATTTTCCCCAACCATCCCAAAGACGACACACAA GGCACCCGAACAATGCCGTTCTCACGCGAACTATGGATCGAACGCGACGA TTTTTCAGAAATCCCCCCCAAGGGCTGGAAACGGCTGGTTCCAGGCGGAG AAGTACGCCTACGCGGCGCCGGCATCGCACGTGTAGATGAGGTGGTGAAA AACGCAGCAGGCGACATCATCGCACTACACGGCTGGCTTGATCCGACCTC ACGTCCCGGTATGGAAGGCGCTCACCGCAAAGTCAAAGGCACCATCCACT GGGTCAGCGCACCACACGCTGTAGCAGCAGAAATCCGCCTGTACGACCGG CTGTTCTCCGTTGAAAAACCTGACGACAACACCGACGGAAAAACCTACCG CGACGTCCTCAACCCAGATTCCAAACGCGTCGTGCATGGCTACATCGAAC CAGCGGCGGCACAAACCGCACCAGAACACGCATTCCAATTTGAACGCTTG GGCTACTTCGTCACAGACCGGCATGACCACGATGCCGCACACCCCGTCTT TAATCGCAGCGTCACGCTACGCGACACCTGGCAACGCGACTGA >XF0926 polypeptide deformylase ATGGCTTTATTGCCGATTCTTGAGTTTCCTGATCCTCGCCTGCGGACCAA GGCGGTGCGTGTAGGGGTTGCCGAGGTGGTTTCATCGTCGTTCCAGACTC TGCTTGATGACATGTTCGAGACGATGTATGCCGCCCCTGGTATTGGCTTG GCGGCGACTCAAGTGAATGTGCATCAACGCTTTATGGTGATTGATGTCAG CGAGGAAAAAAATGTGCCGATGGTCTTTATTAATCCGGAGATCGTCACCA GGGAGGGCGATCAGGTGTTTCAGGAAGGCTGTTTATCGGTGCCTGGAATC CATGCCGATGTGACCCGTGCTCTTAGCATTGTGGTGCGCTTTCTGGACCG CCACGGCGACGAACAACAGCTCACCGCTGAGGGGCTGTTGGCGGTATGTA TCCAGCATGAGATGGACCATCTGGATGGCAAGCTTTTCATTGATTATCTC TCTCCTCTCAAGCGTGACATGGTGCGTAGGAAGCTTGAGAAGCAGCGTCG GCGCGCCTCCTGA >XF0445 prolyl-tRNA synthetase TTGCTTAGGAATCGCTGGCAGAATACGAGGTTTATTTTCCTTGGGGAGCT TCCGATGCGTTTGTCTGAGTTTCATCTGCATACCACCAAGGAAATCCCCG CTGATGCCGAGTTGGTGAGTCACCGGTTGATGTTGCGTGCCGGGATGATT CGCAAACTGGCTTCTGGTCTGTATACATGGTCGCCTTTGGGATTGCGTGT TTTGCGTAAAGTGGAAGCAATCGTGCGCGATGAGATGAATCGTGCCGGTG CGGTAGAAATGTTGTTACCCACAATTCAGCCTCGTGAATTGTGGGAAGAA TCCGAACGCTGGGAGAAGTTTGGTAACCAGTTACTCAAGATCAAGGACCG TAAACAAGCCGAGTACTGTTACAGCCCCACTGCAGAAGAGGCAGTGACTG ATTACGTACGACAGGAGTTGACCAGTTATAAACAGTTGCCGGTCAATCTT TACCAAATTCAAACGAAGTTCCGTGATGAGATTAGACCCCGTTTCGGGGT GATGCGTGCGCGTGAATTTGTGATGAAGGATGCTTACTCGTTCCATCTGA ACGATGCTGATTTGGTACGTGAGTACGAAAATATGAGGGCGACGTATACA CGTATCTTTACCAGGCTGGGGTTGGAGTTCCGTGCAGTGCAGGCTGATTC TGGTGCGATTGGCGGTGATGCTTCGCAGGAGTTTCACGTGATTGCTGATT CTGGAGAAGATGTACTGGCTTTTTCTACGGGATCGGACTATGCGGCCAAT ATCGAGGCTGCCATTGCTGCTACGCCTGGTCCGCGCTTGACCGCAAACGA AACGTTACAGAAAGTCAGTACTCCGACGCAGAAGCGTTGTGAAGATGTTG CTGCTCTGTTGGATATTCCACTGCAGCGTGTGGTGAAGTCTATCGCGGTG ATGACCGATAGCGGCTTTTTTCTGGCCTTGTTGCGAGGCGATCATACGCT TAACGATATTAAATTGAGCAAGCTACCGGGCTTGGCCAACTTTCGTTTGG CTAATGAGGTCGAAATAGCCAGACATCTGGGGAGTGAGCCGGGTTTTCTT GGTCCGGTTTGCCCAGGTATGCCGATCCGCATTATTGCTGATTGTGAGGT TGCGGTGATGGCTGACTTCGTGGTCGGTGCTAACGAGGTTGGCTTTCATT TGGTTGGAGTGAATTGGGGTCGAGATTTGCCTGAGCCGGAAGTTGTGGCT GACATCCGTAATGTGATCGAAGGGGATCGCGCTGTCGATGGTGGGAAGAT CTGTATTGCGCGCGGTATCGAAGTCGGTCATGTGTTCCAGCTTGGTCGTA AGTATGCCGAAGCAATGAAAGCGACGGTGCTGGATGAGTATGGCAAAGCT GTCACCATGACGATGGGTTGTTATGGCATCGGTGTGTCACGGATCGTTGC TGCCGCAATCGAACAGAACCATGATGTCGCTGGCATCATTTGGCCCGCTT CCATTGCACCATGGCAGGTAGCGGTTTGTGTGATTAATCCCAAAAAAGAT CCGGTCATTACTGCTGCTGCAGAAGTGCTTCTTGCTGAGTTGCAGTCTGC CGATGTTGATACAGTATTGGATGATCGTGGTTTGCGTCCTGGCGTGATGT TTGCGGACATGGAATTAATCGGTATTCCTCACCGTATTGTGGTTTCCGAA CGTGGATTAGCTGCTGGGACTTATGAATATCGCGCACGTCATACTGCAAT GGTTGAGAATCTGGATAAGACGACTTTGCTGATGCGAATAAAAGCCTGA >XF1972 tRNA/rRNA methylase GTGCTGCTGTACCAGCCCGAAATCCCCCCTAACACCGGCAATGTCATCCG CCTGTGTGCCAATACTGGCGCGCGGCTACATTTGATCGAACCACTCGGTT TTGATCTCGACGACCGGCGACTCAAGCGTGCTGGATTGGACTATCACGAA TACGCCCGGATGCAGGTACATCCCAACCTGAGCAGTGCACTGGCTGCAAT CGCACCACGACGCCTATTTGCGCTCAGTACACGTGGCCAAATGCGCTATG ACACCCCGACTTTCAGCACGGGAGATGCTTTTATTTTCGGTCCGGAAACC CGCGGTTTGCCAGACACTGTGTTGCATACCATCCCGGAATCTCAACGCCT GTATTTACCGATGCAACCACAAAGCCGCAGCTTAAACCTCTCCAATGCCG TCGCGGTGATGGTATTTGAGGCATGGCGGCAACAGGGCTTTCAATGA >XF1816 50S ribosomal protein L32 ATGGCTGTGCAAAAATCCCGGGTTACCCCTTCCCGTCGTGGTCAGCGCCG TTCTCATGATGCATTGACTGCTAAAAAGTTGTCGATTGATCCAACGAGCG GTGAGGTGCATATACGTCACCACGTGACTGCTGATGGTTACTACCGTGGC AAGAAGGTAATTGCGATTAAAGCTTCGGTCGTCGAAGAAGATTAA >XF1174 30S ribosomal protein S11 ATGGCTAAACAGTCTGTTGTAAAAATTAAGAAGAAGGTTAAGCGTGTTAT CACCGATGGCGTTGCCCATATTTCCGCTTCTTTCAATAATACTATTGTTA CCATTACTGACCGACAGGGTAATTCGTTGTTCTGGTGTACTTCCGGTGCT TCTGGTTTTCGCGGGTCACGTAAATGTACTCCTTTTGCTGCGCAGGTAGC TGCCGAGAAAGCTGGGCGTGCTGTCTTAGATTATGGAATGAAATCTTTGG AAGTTCGGATCAATGGTCCCGGTCCTGGTCGAGAATCGGCAGTCCGTTCT TTAAATAACGTCGGTTATAAAATTACAAATATCATTGATGTGACGCCAAT CCCTCATAATGGCTGTCGTCCTCCAAAAAAGCGTCGTGTCTAA >XF2561 30S ribosomal protein S6 ATGGGTCGTCATTACGAAATCGTGCTATTGGTCCATCCGGACCAGAGCGA ACAAGTGCAAGCCATGCTCGAGCGCTACAAAGCGCTGATTGAGAACGGCC ATGGCAAAATTCATCGTTTAGAAGACTGGGGACGCCGTCAGCTGGCTTAC CCCATTCAGAAACTCGTCAAAGCGCATTACCTCATGATGAACATTGAGGT TGAGCAGTCTGTATTGAACGAACTAGTCGATTTATTCCGGTTTAACGATG CGATTTTGCGTCACTTAGCAATCAAACGCAGTGGCCCGGATACCGAGCAG TCGTTCATCATGAAGAGCAAGGATGATAAAGGCGACAAGCCGGAGCGCCG CCGCCGTGACGACGATGAAAATGGTGATGTCGGCGTCTCTAACGATAGTG ATAACGATGGCGGCAACGCCGAAGCTGCTTAA >XF1155 50S ribosomal protein L2 GTGCCGTTAATAAAATTTAAACCAACTTCTCCAGGTCGCCGTTCTGCTGC ACGCGTGGTCACTCCAAATATTCATAAGGGATCTCCGCATGCTGCCTTGT TGGAACCACAAAGTAAAACTGGTGGCCGTAATCATCATGGTCGTATTACT GTTCGTCACATAGGTGGTGGTTGCAAGCAGCGCTATCGTGTTATCGATTT TAAGCGTGATAAAGAAGCTATTCCTGCGCGTGTAGAGCGGATCGAATATG ATCCTAATCGTACTGCTCATATTGCTTTATTATGTTACGTGGATGGTGAG CGTTGTTACATTATCGCTCCAAAGGGGTTAAAGGAAGGCGATAAAATAAT TTCTGGCCCGAATGTACCTATTAAGCTTGGTAATTCTCTTCCCCTACGTA ATATCCCTGTTGGTACTACTGTTCACGCTGTTGAATTGAAACCAAGTAAA GGTGCCCAAATGGCGCGTTCTGCGGGTTCTTCTGTTCAATTGGTGGCGCG TGAAGGTGTATATGCGACGCTGCGTTTGCGTTCTGGGGAAATGCGTAGAG TGCTGGCTGAGTGTCGAGCCACTATCGGTGAGGTTGGTAATGAAGAACAT AATTTGCGGAAACTTGGTAAGGCTGGTGCTAAAAGGTGGCTTGGGGTTCG TCCTACTGTGCGTGGTGCTGCTATGAATCCTGTTGATCATCCTCATGGTG GCGGTGAAGCTAAGTCAGGCCAGGGTAATCCTCATCCCGTTACTCCTTGG GGCGTTCCTACTAAAGGTTATAAAACGCGTAAAAATAAGCGTACTCAGCA ATTCATTATTCGTGGTCGCAGAGGTTAA >XF1959 glycyl-tRNA synthetase beta chain ATGACTGAACTAAAACCACTGCTGATCGAACTTGGGACCGAGGAATTGCC GGTCAATGCTTTGCCGAACTTGTCGCGAGCATTTTTCGAGGGGGTGCTGG CTGGGCTGGAGAAGCGTGGCATTGTGGTCGATCATGGTGAGGCCAAGTCT CTGTCGACTCCGCGTCGGCTTGCTGTGTTACTCACGGCTGTGGCAGTGGA GCAGCCAAAGCAGTATCGCGAATTGTTTGGCCCTTATCTGAATACTGCGT TTGATACCGAAGGTAAACCCACGAAGGCGTTGGAGGGGTTTGCTGCTAAA TGTGGTGTCAATTGGAGGACATTGGAGCGTATTCGTGATACCAAGGGCGA GCGTTTCGTACATCGGGTGGTGGTGCCTGGCGAGCGTACGGATGCGTTGT TGCCAGGAATATTGACTGAAGCAATTGCGGGGATGCCTATTCCCAAGCCG ATGCGCTGGGGCGCTCATGAATATCTATTTGCACGTCCAGTCCATTGGTT GGTGATGCTTTTGGGGCAGGATGTGGTTGAGGCTGAGATCATGGGGGTGA AGGCTGGTCGTATCAGTCGTGGTCATCGCTTTTTGTATGACAAGCCGGTG TCGTTGAGTGATCCGCAGAATTACATTGATGTTCTTCAGGCTGCGTATGT GTTGGTGGATCCTGCCGCACGTCGTGCTCGCATTGTTGCTGAGATTGAGG CCGTAGCGCGTCAGGTTGGTGGAGTTGCGCGGATCACTGAAGATAATGTG GCGCAGGTGGTGAATTTGGTGGAATGGCCGTCGGCGGTGCTATGTAGCTT CGAGCGTGTGTTTCTTGAAGTGCCACAGGAGGCGTTGATCCAAACAATGG AGGTGAATCAGAAATTTTTTCCTGTACTCGATAGTTTGGGGAAGTTGACG GAGAAGTTCATCGGTATTGCCAATATTGAGTCCAATGATGTTGCTGAGGT CGCAAAGGGCTATGAACGTGTGATCCGTCCGCGTTTTTCTGATGCTAAGT TTTTCTTCAATGAGGATCTCAAGCAAGGTTTGAAGGCAATGGGGGAGCGA CTAAGGACGGTCACCTATCATGCGAAGTTAGGTACGCTGGCTGACAAGGT TGCGCGAGTTCTGGTACTGGCTGAAGCGATTGCGCCACAGATTGGGGTAG ATCCATTGCTTGCCAGGCGTGTTGCGTTGCTCAGTAAAAACGACTTGCAA TCTCGCATGGTCAATGAGTTTCCAGAATTGCAGGGGATTGCGGGTCATCA CTATGCCTTGATTAGTGGTGAGTTACCCGAGGTCGCAATGGCGATTGAGG ATGCTTATCGGCCTCGCTTTTCTGGTGATGAGATCGCACGTTCGCCGTTG GGTAAGGTGCTCGGACTCGCCGAGCGTCTGGATACGTTGGCGTGTGGTTT TGCTGTGGGAATGAAGCCAACGGGTAACAAGGATCCGTTTGGGTTGCGCC GCAATGCGTTGGGATTGGCAAGAACGATGATTGAGAGTCGGTTCGATCTG GATTTAAAAGTGCTACTGGATCAAGCGTCAGACTGGGTCGCGTTTGCGAC GACGATTGAGCAGGAGCGTCATGCACAGGAATCAGTGAAACAGTCGAAAA AAGAAGCGGCTGTTAAGCATTCGGTGCCCCAAGTCAGTGACGAGAAATCT GCAAGAATTGAAGAGCTTTACGATTTCATCGTAGAGCGTTTGCGTGGTTA CTATGCGGATAAGGGCATTCCAACAACGCACTTTAATGCAGTCGCTGAGC TTAAACCTGTCTCTTTATACGATTTTCATCGCCGTCTTGATGCGATCGGC AGATTTGCTGCTCTTCCAGAGGCAGAGGCGCTGGCAGTTGCCAACAAGCG TATCCGTAATATTTTGCGTAAGGCTGAAATTAAGATTCCAGCATCAGTCG ATGCGACATTGTTCGATCAACCAGCAGAGAGCGGGTTACTCGTGGCGTTG GAAGGTGTGATCACCGATACCCGCAGTGCATTGGATTGCAAAAATTATGT CAGTGTCCTTACCTGTCTAGCACGGTTACGGCCACCCATTGATGAGTTCT TCGACAAGGTGATGGTTAACGATGAAAATCTGATGCTGCGTGCTAACCGC TTAGCGTTACTGCAACGCTTAGGGGAGTATCTGTGTTGTGTTGCGGCCAT TGAACACTTGTCTAATTGA >XF2345 outer membrane protein GTGTATCATCGTGCAAATATTTACCTGTTGACTGCTAAAATTCCAATGCG CAATCTCCTCCTAGCCGCTGCCCTTCCTCTCCTCTTTACCGCCGGTTGCA GCATCATCTACAAACAGCCAATTTATCAAGGCAACTTGATCAAAAAGGAA GCTGTTGACCAATTAAAAGTTGGCATGAATAAACAAGAGGTCGCCTTGCT GCTCGGTACACCGTCGATCTCCGACATATTTCACACAGACCGCTGGGACT ATACATCTGCGCAACGCATTGACCGCATAGCACACACTGAAATCAAGAAT CTCACTATTTACTTTCAGAACGACCTAGTCACCCGATGGGAAGGAGACTA CTTCCCGAACCAAGATGAGAAACTGGCAGAATCGGCACGCAAGCAATTCG GTCCAAACCTCTCCAGAAAAGAACACGGTAATCGCTGA >XF2642 peptidyl tRNA hydrolase ATGTTAGGGTTGCGTTTGATAGTTGGGCTCGGCAATCCGGGTAGCGAGCA CACCAAAACCCGGCACAATGCCGGGTTTCGCTTTGTTGATGGTTTAGTTC AGCGTGAGGGGCAGCGCTGGATGTTGGAGTCTAAGTTGTTTGCTCACGTT GCTCGTGTATTTATCGCTGGGCAGTGGGTATGGTTATTACGCCCAGTCAC TTTTATGAATTTGAGCGGCAAGTCGATTTGTGCAGGTTTGAGTTTTTGGA AGATTAAACCGGAGCAGATGTTGGTTGCTCACGATGAGTTGGATTTTCCG CCGGGGGCTGTGCGCTTGAAGTTTGATGGTGGTCATGGTGGTCAGAATGG GTTGCGTGATATTACCAAGTTGCTTGGTCACGGACGTTTTCATCGGCTGC GTGTAGGTATTGGTCATCCTGGTCATAAAGATCGTGTGGTGAATTGGGTG CTAGGTTGTCCAACGTGCGAAGAAAATATTGCTATCGACGCTGCTTTGGA ACGAGCCAGTGCAGTGTTACCTTTAGTGGTTGCTGGTGACTTTGATGAGG CGATGAAAAAGCTACATACGGTGGTGTGA >XF2563 asparaginyl-tRNA synthetase ATGACGGTGGCCAGTGTTGAGCAAATGTTCTCCGGGAAAATTCAGGTGGG CAGTGAAGTGACAGTCCGTGGCTGGGTACGAACCCGGCGCGATTCTAAAG CGGGCCTCAGTTTTGTCAGTGTCAGTGATGGTTCCTGCTTCGCTGCAATT CAGGTCGTCACTCCAGCGCATCTTCCCAATTACGAAACAGAAGTACGCAA ACTCACTACAGGTTGCGCAGTCATCGTGATCGGCACCCTGGCACCCTCCC TGGGCCAGGGTCAACAGTTCGAAATCCAAGCCCAGAGTATTGAGGTCGTC GGTTGGGTCGAGGATCCGGAAACATATCCGATCCAACCCAAACAACATTC ATTGGAATTCCTGCGGGAGGTGGCGCACCTGCGTCCACGCACCAATCTGT TTGGTGCAGTCGCTCGTATCCGCCACTGTCTATCGCAGGCGGTACACCGT TTTTTTCACGAGAATGGTTATTACTGGATCACCACACCGATCATCACCAC TTCCGACGCCGAAGGTGCCGGACAAATGTTCCGCGTCTCTACGCTGGATT TAGTCAATCTACCGCGCACGGAGACCGGCGGAATCGACTTTTCGCATGAT TTCTTTGGAAAAGAAACGTTCTTGACCGTCTCCGGGCAACTCAACGTAGA AGCCTACGCACTGGCACTAAGCAAGGTGTATACCTTCGGCCCGACGTTCC GGGCTGAGAATAGTCACACGCCGCGTCACCTTGCGGAATTTTGGATGATT GAGCCAGAAATCGCCTTCGCGGATCTGGCTGAGGATGCACGTGTGGCCGA ACAGTTCCTCAAGTTTCTGTTCAAAACGGTACTGGAGGAACGTACCGACG ACTTGGCATTCATTACCGAACGGGTAGAGAAAACCACGATCAGCAAGCTG GAAGGGTTTATCAAGTCACCATTCGAACGGATCGAGTACACAGACGCCAT CAAGCTGTTGGAAAGGTCGGGGAAAAAGTTTGATTTTCCGGTTGAATGGG GACTGGATCTACAAACCGAGCACGAGCGCTGGTTGACCGAGAAACACATC GGCCGCCCGGTGGTGGTGACGAACTATCCCGAACACATCAAAGCGTTTTA CATGCGGCTGAACGACGATGGGAAAACGGTCGCAGCGATGGATGTGTTGG CCCCGGGCATCGGCGAAATTATTGGCGGCAGCCAACGTGAGGAGCGCTTG GAAATGCTTGATATACGGATGGCGCAATTCGGTCTGGACCCGACACATTA CCAGTGGTATCGGGATTTCCGCCGCTACGGCTCGGTGCCACACGCGGGGT TCGGCCTGGGGTTTGAACGTCTCATGGTCTACGTCTGCGGGCTGAGCAAT ATACGCGATGCAATCCCCTACCCGCGTGCGCCAAGCAGTGCCGAGTTCTG A >XF0739 50S ribosomal protein L35 ATGCCCAAGATAAAAACTAACCGGGCGGCGGCCAAGCGTTTCCGCAAGAC TGCCTCTGGAAAATATAAGGCTGGACACGCTAATCGCAGCCATATTCTTA CTAAGAAAGCGACTAAGCGGAAACGTAACCTCCGGCAACAGAACCATGTT CGTGCTGAAGATGCGGGTCGCTTGGACCGCATGTTGCCCTACCTCTGA >XF0740 50S ribosomal protein L20 ATGGCACGAGTTAAGCGTGGCGTGCAGGCACGCCGCCGTCATAAGAAAAT CCTGAGTCTAGCGAAGGGTTATTACAATGCTCGCCGCAAGGTGTTTCGCG TTGCCAAGCAGGCTGTTATCAAAGCGCAGCAGTATGCTTATATTGGCCGC AAACAGAAAAAGCGTAATTTCCGATCTCTATGGATCGTCCGTATTAATGC GGCGGCTCGTATTAATGGGCTGAGTTACAGCCGTTTCATGAATGGCCTCT TGAAGTGCGGTATTACCTTGGACCGTAAGGTGCTTGCTGACATTGCTGTG CATGATCCTGCTGGTTTTACGGCCCTTGCTGAAAAGGCGAAAAGTATACT TGCGGCATAA >XF2637 50S ribosomal protein L11 ATGATGGGGAGCCTGTTTCTAAAGCGCTATTACCCGGAGATATTTCAGGT GGCAAAGAAAGTTATTGCTTACATTAAGCTTCAGGTGAAGGCCGGTCAGG CGTCTCCTTCACCGCCCGTTGGTCCCGCTTTGGGGCAGCGTGGTTTGAAT ATTATGGATTTTTGTAAGGCGTTTAATGCTGCAACTCAAAAGGTTGAGCA GGGTTTGCCGATTCCGGTAGTAATTACTGCTTACTCGGATCGTACTTTCA CCTTTATTACAAAAACTCCTCCAGCGTCGATTTTGTTGAAGAAAATTGTC GGTATACAATCCGGCTCCAAGCGTCCCAACACAGAGAAGGTGGGCAAAGT CACTCGCAAGCAGCTTGAGGATATCGCTAAGACTAAGGAGCTCGATATGA CGGCTGCTGATTTAGATGCTGCTGTACGTACGATTGCAGGTTCGGCTCGC AGTATGGGTTTGGTGGTGGAGGGTTGA >XF1711 conserved hypothetical protein GTGCTTGGAATGTTGCAACGATTCGAAACCGGCGTTCGTATGTCCGAGAT GACGGTGTACCGTGGGGTTTGCTATCTGGCGGGACAGGTGTCTGAAGATG CCAGTGTTGGTATCCGGGGGCAGACTGAGCAAGTGCTGGCGGAGATAGAC CGACTCTTGGCGCTTGCGGCTAGTGACAAGAGTAAGATATTGAGAGCTGA AATATTTCTGGCCGACATCAATGATTTTTCTGGTATGAACGAGGTTTGGG ATGCCTGGGTACCGCAGGGCTTCACGCCGGCGCGTATGACGGTACAAGCC AAATTGGCCGATCCGGCATGGAAGGTTGAAATTATGGTGACTGCGGCAGT TTAG >XF0110 50S ribosomal protein L19 ATGAGTAAGTTGAATAAGTCCATTATTGCAGAGTTCGAATCTGCCCAGAT CACCCGCCAAGTGCCGCAGTTCAGCCAGGGTGACACTATCGTTGTCAACG TCAAAGTGAAAGAAGGTAACAGAGAGCGCTTGCAAGCTTACGAAGGCGTG GTTATTGCCACCAAGAATGCAGGCCTTAATTCCGCTTTCACGGTACGTAA GATCTCGCATGGTTATGGTGTCGAGCGTGTGTTCCAGACCCATAGTCCCA TCATTGAATCGATAGAAATCAAGCGTCGCGGTAAAGTGCGCGCTGCTAAG CTTTACTACTTGCGTGGTTTGGAAGGCAAAGCCGCCCGCATCAAAGAAGA CTTGGCTGCTACCGCCCAGGAGAAGCTGGCCCGCAAAACAGTCACTGCCA AAGCAGGATAA >XF1407 sigma-54 modulation protein TTGATTAACTTAATAACCAATGGGAGGTATCCGATGCACATCGAAACTTA TGGGCAACAGATCGAAGTCACTCCTGCTTTGCGGGAGTATGTGGAAACGA AGCTAAAACGCCTCCAACGCCACTTCAGCCACCACTGCGAAATCCGCACC CAACTGTCCATGAGTAAAATCGACCATCATGTTACCGCTACAATCAATAT CCCAGGCCGTACTTTGAATGCCAACGCCAGTGCATCAACCATGTACGCAG CCATTGATCTGGTAGCAGACAAACTTGATCGATTAATACTCAAGCACAAG GAAAAAAAATGCGACCACCACGCCAAGGAGGTACGCGATCACCTAGAATG A >XF1093 hypothetical protein ATGGAAGACCTTTTGATCGTCACCACAGGTGGCACGATCGACAAAATCTA CTTCGACGAAAAATCACACTATCAAGTCGGAGACCCACAAATTACCCAGA TTCTCGAAGCGCTTGGCATCGCCTTCCGCTTCAACGTGATTCCAATCATG CGCAAGGACTCACTGCACATGGTTGAAGCCGACCGCGAATTAATCCACAA CACAATCACCGCACACCCCTGCCAGCACGTGCTGATGACACACGGTACCG ATTCAATGGTAGAAACCGGCAAGCGACTACAATCAATCCAAAATAAAACC ATCGTGATCACAGGTGCACTAAATCCAGCACGTTTTCACGGCTCAGACGC CCACTTCAACATCGGCTGCGCAATCGGCGCACTACAATCGCTATCGTCAG GCGTGTATATCGCGATGAACGGAAGAATCTGGCATCCGAACAAGGTCCGC AAGAACATCATCAAAAACTGTTTCGAAACAATCTGA >XF1314 S-adenosylmethionine: tRNA ribosyltransferase-isomerase GTGTTGAAAAAGTCCGATTTTCATTACGATTTACCTGAGGAGCTGATTGC TCAAGGGCCTTTGCCGGAACGTTCAGCCAGTCGCCTGATGCTTGTGCCGT CGGCCCCAGAGCAATTTCAGGATTGTTATGTTCGCGATTTGCCGGAATTG CTGCAGCCTGGTGATTTGCTGGTGTTCAACGATACCCGAGTAATCCCAGC GCGATTGTTTGGTAGGAAGGTGAGCGGTGGTCGGGTTGAAATCCTGATTG AGCGCTTTCTTGGTACCCATCAGGCAGTGGTGCAGTTGCGTACCAGCAGG TCGCTCAAAGTGGGAAACAGAATTTTGTTGGATGCGGGCGGTCATGCTGG GGTGCTTGGTCGTGATGGTGATTTCTATTTATTGAGTTTCGATGTTGAGT CACCTTTGGAACAATGGTTATCGGATGTCGGTCAGTTGCCATTGCCACCT TATATTCATCGTGAACCTGATGAATATGATCGTGAACGTTATCAAACAGT GTTTGCACGCGCAGTGGGTGCAGTTGCGGCACCTACTGCTGGTTTGCATT TTGACGAGTCGTTGTTGGCACGGCTGCGTGCACGTGGGGTAGAATTTGGC TATATCACCCTGCATGTAGGAGCGGGTACGTTTCAGCCAGTGCGGGTAGC GTTGCTGCAACAGCATGTGATGCACAGTGAATGGTTCAAGGTTGGCGCTG AATTAGTTGAGCAAGTGCGTAGTGCCCGTGCGCGGGGCGGTCGAGTCATT GCCGTTGGTACGACTGTGGTGCGCTCATTGGAAAGTGCGATGCGTCATGG GGAGCTGCAACCATTTGTTGGTGAGACTCAGATCTTTATTTTTCCCGGTT ATTGCATCCGTAGCGTGGATGCAATGGTGACTAACTTTCATTTGCCTGAG AGTACGTTGTTGATGCTGGTTGCCGCTTTTGCGGGACGTACGCGGATTCT TGATGCTTACTATCATGCAGTGCAGCAGCGTTACCGTTTTTTCAGCTACG GTGACGCGATGTTATTGTTCCCACGTAATGCTGGTGAGCAATAG >XF1051 ribosome recycling factor ATGCTCAACCAAATCAAACAAGACGCTCAGGATCGCATGACAAAGAGCAT TGACGCTCTACGCAACTCCCTGGCATCTGTCCGTACTGGCCGGGCTTCGC CATCACTATTGGATGGCATCAAAATCAAGGCTTACGGTACCGATACACCA TTGAATCAAGTCGCCAGCATCAGCGTCTCAGAAGGACGCTCATTGGTCAT CACGGTGTTCGACAAAAATATGTCCAAGGACGTCGAGAAAGCAATTTATG CTTCCGACCTTGGCCTGACACCAACCGTTGTTGGCACATTGATCCGCCTC AACCTGCCACCACTCACTGAGGAACGCCGTAAGGAACTCACGAAAGTCGT GCACAGCGAGGGAGAGGACACCAAAGTCGCGATCCGCAATATCCGCCGCG ACGCCAATCAGCAGATTAAGGATATGCTAAAGAGCAAGGAAATCACTGAG GACGAAGTACGCCAAGGTGAAGAAGACATCCAGAAGCTGACCGATAAAGC AATCAAAAGCGTGGATGAGGTAGTCAAGTCCAAAGAACAGGAATTGATGA CGGTCTGA >XF2148 dimethyladenosine transferase GTGCATACGCCACACTCCAGCGCACAACTGACACTGCTGCCGCCCAAACA CCTCAATCAATTAGAATCCCATGGCATGGAATCTCAACTGTTCAATGCAC CAGCGAAAAAAGCGTTCGGCCAACACTTCCTTGTTGACCGTTACTACATT GACCGCATCATCCATGCCATCACCCCTCAACCAAACGACCATATCGTCGA AATCGGCCCCGGTCAGGGTGCAATCACCCTGCCACTGCTGAAATGCTGCG GCTCCCTGACCGCAATTGAGTTGGACCGCGACCTGATCGCTCCGCTGACC GCTGCTGCTACACCTCTAGGCAAGCTGGACATCATCCACCGCGACGTACT CACTGTAGACCTCTCCATCCTAGCCAAACCAGGAAATAAGAAATTACGCC TGGTCGGCAACCTCCCCTACAACATCTCCTCACCGATCCTTTTCCATGTA CTCCAGCAAGCTGCAATCATCGCCGACATGCACTTCATGTTGCAGAAAGA AGTCGTCGACCGCATGGCAGCCCCTCCAGGTAGCAAGGTCTACGGTCGGC TCAGTGTCATGCTACAAGCTTGGTGTGAGGTCACGACAATGTTCGTCGTA CCGCCTGACGCCTTCCAACCACCACCGAAAGTAAATTCTGCGATCACCAG ACTCGTGCCACGCGATCCAACGACAATCCGTATTGCTGATACAAAGCGTT TCAGCGACATCGTGCGTGCCGCATTTGGTCAACGTCGCAAGACACTGCGT AATTCCCTAGCCGACATATGCACACCGGCTCACTTCGAACATGCCGGGAT ACGCACTAACGCACGTGCCGAACAACTGGAAGTCACTGAATTCATCGCAC TGGCCAATGCCAAGGACACTTAA >XF1971 hypothetical protein TTGATCCTTGCTTTGTATTTTGTGACCACTCTTTCTGCCTGCACCTGGGT CCCGATTGAATCAGTTGGAAAAACAGTGCGTGTGTTGCCCTGGGGTGCGG TGCCGAGTGACTGCCAATCACAGGGTGAAATTACGGTATCCGTCAAGAAT AAAATTGGGTTCTATACCCGGAATGCGTTACGTGTGCAGGATGAGTTGGA AACCCTGGCGCGTAATGAAGCCCCTTCAATCAACGCCAATACGGTTCAAG CGCTGGGCCAGCCTGTTGACGGTACACAGCGATTTGTGGCGTTCCGTTGC GGTGGTCGCTGA >XF1153 50S ribosomal protein L4 ATGGATTTGACTATCGTCGGTAGCGATAACACTCTGCCTGTTTCGGATGT GGTTTTCGGTCGCGAATTTAGTGAGGCGTTAGTTCATCAAATCGTTGTTG CGTATCGCAATACGGCGCGCTCTGGAACTAAGGCTCAGAAATCTCGTTCG CAAGTTTCTGGTACCACCAAAAAATCGAAAAAGCAAAAAGGTGGTGGCGC GCGTCATGGTGCTTTGACAGCTCCGATTTTTGTTGGCGGTGGTGTTGCTT TTGCTGCCAAGCCCCGTAGTTTTTCTCAAAAAGTTAATCGTAAGCAGTAT CGTTCGGCCATATGTTCGATTTTTTCTGAGTTGAACCGTCAAGGGCGATT GAAGGTTGTGGATGCCTTTGATGTTGAAGTGTCTAAGACTAAGGTGTTTG CCGAGAAAATTAAATCGCTTGAGGTGGTAGGTTCTCGTTTATTGATTGTG AGTGATGGGATTTCAGAATGCTTGTCATTATCGTCTCGTAATTTACCTTG TGTAGATGTTCGTAGCGTGCAAGCGCTGGATCCAGTGGCGCTAGTCGGCT CAGACGTGGTTGTGCTTACTGTGGGTGCTGTCAAAAAGATCGAGGAATGG TTGGTATGA >XF1170 50S ribosomal protein L30 GTGTGTTTAGTCCGTAGTTTGATTGGTGTTCCTTCTCGACATCGTTTGTC AGTCCGCGCTTTGGGATTGAGGAAGGTTAGTGATATGCGTAAAGTAAATG ATACTCCCCAGGTGCGGGGGTTGATTAAGAAGGTTCATTACCTCGTTCGT ATTCAGGATTGA >XF2304 hypothetical protein GTGGCGCTTGCACTGTCCAGACAGAATGGCGATGTGTTGTCACAGGCGCA GGAAAACCTCTTTCTCACCCGCTGGCTGGCTACCGCGCTGAAGCAACGGC GTTTTTCGCATGATGTTGCCCCTGATATTGAGTGGCTTCTCAAACAGGGA CGCCAGCTGAGCGTCAGCGCGAAGCTGGCCAGCAAGCTGAATTACCTCTG GTGTTCCTGCATCGGCTCGCTCTCTGAGCAGAACGACTTGTTCATGGTTT AG >XF1158 30S ribosomal protein S3 ATGGGGCATAAAGTTCATCCGATTGGAATTCGTCTGGGTATATCTGCAGA TTGGAATTCCAAGTGGTACGCAAATAAGGCTGAATTTGCGGGATATTTGG CCGCAGATCTTAAAGTGCGCCAAGTGTTACGCAAAAAAATGTCTCAGGCT GGTATCAGTAAGATACTTATTGAGCGTCCTTCTAATACTGCTTGTGTTAG CATGCACGTTGCTCGCCCTGGTGTAGTTATTGGTAAGCGCGGTGAAGATA TTGAAATGTTGAGAAAGCAAGTCAGTGATATTATGGGTGTTTCCGTCCAT ATCAATGTCATTGAAGTACGTAAACCTGAGCTTGATGCACAGTTGGTCGC TGAATCGGTTGCTCAACAGTTAGAACGTAGGATTATGTTTCGTCGTGCGA TGAAGCGTTCGGTGGGTAATGCGATGCGTTTGGGTGCTTTAGGGATAAAG ATTAGTGTTGCTGGACGTCTTAATGGTGCTGAGATTGCTCGATCTGAATG GTACCGTGAAGGTCGTGTGCCGTTGCAAACTTTGCGTGCCGATATAGGTT ATGGTTTTTCTGAAGCGCATACCAACTATGGTGTTACTGGTGTCAAGGTT TTGATATATCATGGAGATATTTTCAGTTTTTCCAGTGTGGGTCAGGAAAA GCAGGATGATATTTCGCGCGGTGATCGTAATGCTGACCGTTCATCTCGTC GTTCCCGTGAGGTGAGGTGA >XF2781 ribonuclease P TTGTGTCTTCATTTGGGTACATTGAATTCATGTAAGCGCTTTCCTCGTTC TGCTAGGATTTGTTTGCGTTCGGAATATTATGTCGCCTTTGAGCAAGGTC GACGTTATTCGTCTGTTTTATTAAGATTGCATCATCTACCAACTTCAGGT CCAGTGCGTTTGGGCCTAGTAGTTTCCCGTAGAGTTGATATACGCGCTGT TAATCGTAATCGGATCAAGCGAGCACTGCGTGAGGTAATGCGCCAGATCG CCTATAAGTTAGTTCCAGGTGACTACGTGGTAGTTGTTCGTCAAACTGCC AAAGACGTTAGTAATGCTGAATTGAGTGTGGCCTTATTGTCATTGTTACG GCGCATCGGAGCATTGCCTTTAGCTCCAATTGATAACGCAATGCTGCCTT TCTTCGAACGTAATTGTTCCCGTAAATAA >XF1171 50S ribosomal protein L15 TTGATAATGTCTCTTCGTCTAAATGATTTAAAGCCCGCCTTGGGTGCTAG TTCTTGCCGTGCTCGGGTTGGTCGGGGTATTGGTTCTGGTTTGGGTAAAA CAGCAGGTCGCGGCCACAAAGGGTCTTTTGCTCGTAAGGGTGGTGGTAAG ATCAAGCCTGGTTTCGAAGGGGGGCAGACTCCAATGCAGCGTCGTTTACC TAAGATCGGTTTTCGTTCCAGATCAGTTGCTAATACTGCCGAAGTGCTTT CTTATAAATTGGATAATTTAGAGCCAGGTGAGATTGATTTTGCTTCTTTG CGTTTGGCGAAATTGGTTCCTTCGACTGCGAAGAAGGCGAAAATCGTCAA AAAAGGTAGATTGACCAAAGTATTTGTATTAAAGGGTATAGAATCAACTG CAGGCGCTAGGGCTATGATCGAAACTACTGGTGGTAGCTTCCAGGAGTAA >XF2643 50S ribosomal protein L25 ATGGCAAATCATCAAATTAAAGCGCAGCGCCGTAAAGACGAGGGGAAGGG TGCGAGCCGCCGCCTGCGTCATGCTGGCATGATTCCAGCCATTATTTATG GCGGCGAGCAGCGTCCAGTGAGTATCCAACTCAATCATGAGCAGATTTGG CTTGCTCAACAGAACGAGTGGTTCTATTCCTCTATTCTCGATCTGAATGT CGATGGGGGGGGGGGCGAGAAGGTGCTACTGCGTGATTTACAGCGCCATC CTTATCGTCAGTTGGTTATGCATGTTGACTTTCAGCGCGTTAGTTCGGAT GCCAAGCTGAGTGTTGCTGTGCCGTTGCATTTCATCAACCAGGCTACTTC ACCTGCTGGCAAGGCGAGTGGCGTGGTGATTACCCACGAATTGAATGAGG TGCATGTATCGTGTTTGCCGAAAGATTTGCCCGAGTTCATTGAGGTTGAT TTGTCCACGTTGAGTGTCGGTCACGTAATTCACCTGTCTGATATTACGTT CCCAATCGGTGTTGAGTTGTCGACTCGGTTGGATAAAGAGCACGATATGG CCGTAGTCATTGCTAAGCATGTAGTGATTGAGGATGACACTCCCGCAGAG GAAGAAGGTGAGGGTGACACCAAGTAA >XF0169 tyrosyl-tRNA synthetase ATGTCTTTGGTTTCAAATTCTCTTGCTCTCATTGAAAGAGGTGCTAATGA GATACTTAAATTCGACGAATTAGAGCGTCGCTTGAGAAGCGGGCGTCCGC TTCGGATCAAGGCAGGTTTCGATCCGACTGCTCCTGATCTGCATTTGGGG CATACCGTCTTGCTGAACAAGATGCGGCAATTTCAGGAGCTTGGTCACCA AGTTATTTTTCTGATTGGTGATTTTACTGGGATGATTGGTGACCCGACTG GTAAGAACGTTACCCGTAAGCCACTTAGTCATGAGGATGTATTGGCTAAT GCCCGTACCTACGAGGATCAGGTATTTAAGGTTTTGGATCGTACCCTTAC CGAGGTGAGGTTCAATTCCGAATGGTTTGGGAAGATGAGTGCTGTCGATA TGATCAAGCTCGCGGCTCAGCACACTGTTGCGCGCATGCTTGAGCGGGAT GACTTCGCCAAGCGCTTTGTTTCTCAACAGCCGATTGTAATCCATGAATT CCTTTATCCACTGATTCAGGGTTATGACTCTATTGCTTTGCGAGCTGATG TTGAACTCGGTGGTACAGATCAGAAGTTTAATTTATTGATGGGCCGAGCC TTGCAAGAGCATCATGGTCAGCCACCTCAGGTCGTATTAACTATGCCGCT GCTTGAGGGCCTGGATGGTGTGGCTAAGATGTCCAAGTCCCTGGGGAATT ACATTGGTATTAAAGAGCCGCCTATCGACATTGTTACAAAAACTATGAAG ATCGGTGATGATCTGATGTGGCGTTGGATCGAACTGCTGTCTTTTAAGAT CAGCGCCGCTGAAGTGGTTGCATTGCGTGAAGCGGTCGCAAAATCGGAAC TGAATCCGCGTGAGGTTAAATTACGTCTAGCTCATGAACTTGTGAGCCGT TTCTATGATAATGCAGCAGCCGAAAAAGCAATCGCTGGTTGGCAAGCGGT GGTGACAGGGCAAGGTAACAACAACCTGTTGCCGTTACAGAAGATTAATG TTCCTGCGGATGGGGTGCGCCTCGTTGCATTGTTGACAAAGTCTGGACTA GCTCCAAGTAACTCTGAGGCAATGCGAAAGCTTAAGGAGCGAGCTGTACG TGTCGATGGCATTGTAGTGGATGATGCTCATCTACACTTTGTGCCAGGGT TTGAGGGATTAATTCAAATTGGTAAGCGCAACTTTGCTAAAGTCAGGTTG GTGACTTCTTCGGAATCTCACGACTTTCCTGAGTCTAATGGTATTGACAA GAGTTAG >XF2696 ATP-dependent RNA helicase ATGATGAGCGATAAACCGTTGACAAATTTAAATTTTTCTTCACTTGATCT GCATCCAGCGTTGCTTACTGGGCTGACAAGAGCAGGATTTACACTCTGTA CTCCGATCCAGGCGCTTACTCTTCCGGTTGCACTGGCTGGTCGTGATATT GCCGGCCAAGCCCAAACGGGAACCGGGAAAACTTTGGCGTTTTTGGTGGT GGTAGTTAACCGTTTACTTAGCCGTCCGGGGCTAGTTAATCGTAACCCAG AAGATCCGCGTGCGTTGATTTTGGCGCCAACCCGTGAGCTTGCGATTCAA ATCTATAACGATGCAGTGAAATTTGGTGGCAATCTTGGGTTGCGTTTTGC GTTGATTTATGGGGGCGTTGATTACGATAAGCAGCGCGAAATGTTGCGCA AAGGTGCGGATGTGGTCATTGCGACGCCGGGGCGCTTGATTGATTACCTT AAGCAGCACGAGGTGGTTTCATTGCGCGTTTGTGAGATTTGTGTTCTTGA TGAAGCAGATCGGATGTTTGACCTGGGGTTTATCAAGGACATTCGCTTTA TATTGCGGCGCTTGCCCGAGCGTTGTAGCCGTCAGACTTTGCTGTTCTCA GCCACTCTCAGTCACCGCGTGTTGGAGTTGGCCTATGAGTATATGAATGA GCCAGAGAAGCTGGTGGCGGAGACGGAGACTGTCACTACTACGCGGGTCC GTCAACGTATTTATTTCCCTGCCGAGGAGGAGAAAATCCCATTGCTGTTG GGTTTGCTCTCGCGTAGCGAGGGGATGCGTACTATGGTATTTGTCAATAC AAAGGTGTTTGTCGAAGGTGTTGCGCGCGCACTGGATGAGGCTGGTTACC GGGTCGGTGTGCTGTCTGGAGATGTGCCACAAAGGAAGCGAGAGACTTTG CTTAATCGTTTCCAGAAAGGGCAATTGGAAATACTGGTTGCCACAGATGT GGCTGCACGTGGATTGCACATTGATGGCGTTAATTACGTATACAACTACG ACTTACCGTTTGATGCAGAAGATTACGTTCACCGTATTGGCCGCACTGCG CGTTTGGGAGCTGATGGTGATGCGATTAGTTTTGCCTGTGAGCGTTACGC GATGAGTTTGCCGGACATTGAGGCATATATCGAGCAGAAGATCCCGGTTG CAGCAGTGACTGCTGAGTTGCTGGCTCCATTGTCGCGCCCTGAACGTGCA TCGAATGGTAACGGTGATACTGTTGGGGATATTTCCCCACATTCTCTTGA CGTGCTGGTTGCTCAGGAATGGCGTCGGGGTAAGCCCAGGGGTAGCCCTG GAGAGCGCGATGGTCGCCCCCGTGTAGGTAAAGGGCCCCGGTCGGATGGG GGAGGTGGGCGCCGCCGCACTAAATTTCGCTTGGAGACCGAGCGTGATTC TAGTGTGGATGGGGCAGTCACTCCTGTATTTGGAGTGTCTACGGGGATAG TATCTGCTCCAGGTAAAGAGGTGGGGCGAAACCTCGGTCGCCGACGTCGT AGTCGTTCAATGGATTCTGGTGAAAGTGGCCATGTTGTCGCCACTACCGC CCAAGTGGCTGTTAAGTCAGGTAGTCAACCGTCGCTCTTAGGTCGAATAG GGCACCGTATCCGCTCGCTGTTAAATATGTTCTAA >XF0936 hypothetical protein ATGAGTTGCATGACGCCCGATCAGATTCTTCAAGACATCCAACAGCGGGC CGCCGCAACTCTGAATCGCTCTGTTATCACCGACGTAGAAATCCGTAGGC GCGTCGATGATGTTTGCCGCTGCATAAGCAACCGCTCAGGAGTTCGGCTG TTGATGTCTTGCTTGCTTGGGAAGCTGGACAGGCCCAAAGTCGATCCGCG CAAGCCTTATACAGAAATTAGCAGCGCTGACAGTTTTTCTGGACGAACCT ATGACGAACGCTACCTGAGCAAGTTCATCAAAGAGCATCAATTGCCCGTC AATCCGACAACGGCATTTTTGACGCCGACGTTGCGCAACATCAATCACCC CCTGACCACTGACCGGGAACTGGTTGGGAGGCCGCGGGACCTTTACAAAA AGACCTTGGCGCTGTTGGAGGATGTGGCGGTGAGCCGTATCAAAGCAGAC GTGGTTTTCGTGGAAGTTGTGCGCGTGCTGATGTTGTTGCGTGATGAAAA GTTGGCCCGCATGGCATCTTTGCTAGACGCCTTGGAACGTACCGAGGGTG CGTTGCCATTGTCGTCGGAAGTCATCGTCACATTGATAAGCCAACACCTT GCTTGCAAGAACGCAAGCCGCTTGCCGGTGCTGGTTGTTGCTGCTGCTTA TCAAGCAGTAGGGGCGATGCTTTCCGAAAGCATGGTACTTCTAAATGCTC ACAATGCTGCTGATCTTCAAACCGGCTCATTGGGTGACGTTGAAATCTGC ATGATGGGCAGTGATGTGGTCGTCACGGCTTACGAAATGAAAATGAAGCG GGTGACGCAAGACGACATCGACGCTGCAGTGACCAAGATCGCTAGAGGGT CGAACAAAATTCATAACTATCTCTTTGTTACTACTGATGTGATCGATCCA CGTGTCTCCAAGTATGCTGCTACGTTCTACGAGAAAATGGACGGCATTGA GATTGCTATTCTCGACTGCGTCGGTTTCTTGCGGCACTTCTTGCACCTGT TCCACCGCATCAGGGCTGATTATTTGAATGCTTATCAACGTCTCGTTTTG AATGAGCCGGATTCAGCCGTCAACCAGACGTTGAAAGAGGCATTCCTGGC GTTACGACAGGCTGCAGAGAGCGGTGAATGA >XF2782 50S ribosomal protein L34 ATGGCCACCAAGCGTACTTATCAACCTAGTAATCTTAAGCGTAAGCGTGA TCATGGCTTTCGTGCTCGTATGAGCACCGCAGATGGTCGTAAAATCTTAG CTCGCCGTCGTGCTAAAGGCCGTAAGCGTTTGAGTGCTTAA >XF0174 peptide chain release factor 3 ATGTTCTTATTATTTCTTGACGCCCAACTGGGTGCGTTTCCCATGTCTGA AGTTGTTGCTGAAACAGCGCGCCGCCGTACCTTTGCCATTATTTCCCACC CTGATGCTGGGAAAACCACACTCACCGAGAAGTTATTGTTGTTTGGTGGT GCAATTCAGATGGCTGGCTCGGTTAAAAGCCGAAAGGCCGTCCGACACGC TACCTCTGACTGGATGACGTTGGAAAAGGAGCGTGGTATCTCGGTTACGT CTTCAGTGATGCAGTTTCCGTATGAGGGAAAGATTATTAATCTGCTCGAC ACTCCAGGCCATGCTGATTTTGGTGAGGACACTTACCGTGTATTGACCGC AGTGGATTCAGCTTTGATGGTGATTGATGTTGCTAAGGGTGTGGAGGAGC GGACTATTAAGTTGATGGAGGTATGTCGGTTGCGTGATACCCCCATTATG ACTTTTATCAATAAGCTTGACCGCGAAGGTAAGAACCCAATCGAGCTGCT GGATGAGGTTGAACGCGTGCTCGGTATCCAGTGTGCGCCGGTGACTTGGC CTATTGGTATGGGGAAACGCTTGAGGGGTGTGGTTAATTTACTGACGAAT GAGGTTCATCTGTACGAACCTGGCCGTAATTTCACTCGCCAGGACTCGAC CATTTTTACGTCGCTGGAAGCTCCCGGTTTAGCGGAACGTATTGGTGAGC AAATGCTGGCTGATTTGCATGAAGAGTTGGAGCTGATTCAGGGTGCCAGT GCATGTTTTGATCCAACAGAGTATCTTGGCGGTCGCCAAACTCCAGTTTT CTTTGGATCTGGTGTGAATAACTTCGGTGTGCAGCCACTGCTGGATTTTT TCGTCGAACATGCACCTTCACCGCAACAGCGCGATACTACCAGTCGCGTC GTACTACCGACCGAAGAAAAATTGACCGGATTTGTATTCAAAATCCAAGC CAATATGGATCCGCAACACCGTGACCGCGTCGCGTTTATGCGGGTATGTT CCGGACGTTTCACCGCAGGCATGAAGGCTTTTCACGTGCGTAGTAGTAAA GATCTCAAGCTTGCTAATGCATTGACCTTCATGGCTTCGGATCGCGAGAG CGTTGCAGAAGCTTTCCCTGGTGACGTGATTGGAATTCACAATCACGGTA GGGTTTCAATTGGTGATACTTTCACCGAAGGGGAGGTGCTGTCGTTTACT GGCATTCCGAGCTTTGCTCCTGAACTGTTTCGCCGTGCTTGTTTGGGCGA TCCGTTGAAGCTCAAACAACTTCAAAAAGGGCTTACTCAACTTTCAGAGG AAGGAGCAACACAGTTCTTTCGCCCACTGATGAGCAACGATCTGATTTTG GGTGCGGTAGGGATGTTGCAGTTCGATGTGGTTGCCTATCGACTTAAAAA CGAATACGGGGTGGATGCAGCTTTTGAACCAGTCAGCATTACCACCGCGC GTTGGGTGTACTGCGATAACTCAAAGACGTTGGAAGAATTTCGCGAGAAG AACGTAACGAATTTAGCTGTGGATGCTTCAGGAGAGTTAGTTTATTTGGC GCCGACTCGAGTCAACCTGCAGTTAGCACAGGAGCGTGCGCCAGAGATAC ACTTCTTCGCTACACGCGAGCACGCCTACGCTGTAGGCGTCGATTGA >XF1373 tRNA pseudouridine synthase A ATGATGCGTTACGCGTTGGGCGTAGAGTACGACGGCAGCGAGTTTCTGGG CTGGCAACAATTGGGTGAGATGGGGCCTAGCGTACAGGCGACACTACAGC AGGCTTTGGCTTCGGTAGCGGATGCGTCGGTGCGGGTGGTGTGTGCCGGT CGTACGGATGCTGGGGTCCATGGCCAGTGCCAGGTTGTGCATTTTGATAG TGCGGTTACCCGTCCTCCACGTGCCTGGATATTGGGTACGACGACACGGT TACCATCCTCGGTGGCGGTACGTTGGTGTGTGCCGACATCCGAGGATTTT CATGCTCGCTTCTCCGCGTGCGCACGCCGTTATCGTTATCGATTGTTAAA CCGTCAGGTGAGACCTGCGTTGCAGCATCAATTTTTGAGCTGGGAGCGGC ATCCGTTGGATGCCCAGGCGATGCATGTTGCTGCGCAGATGTTGCTTGGA GAAAACGATTTCAGTGCGTTTCGCAGCGCGCAGTGTCAGGCGCTACATGC GCGCCGTGAGCTTCAAGCGATTTCGGTACGGCGCTATGCCGAGGTCATCG AAATATGTGTCCAAGCCAATGCCTTTCTTCATCACATGGTGCGCAATATC GTGGGATCGTTGCTTATGGTGGGTACCGGTGAACGTCCGATGGAATGGAT TGCAGAGCTGCTTGCGGGGCGTGACCGGACCATGGCTGGACCGACTGCCT CAGCGCGTGGGCTGGTCTTTGTCGGACCTTTGTATCCGGCAAAGTGGCAC TTGCCTATGGAAGTGAGTGTATGA >XF2641 GTP-binding protein ATGGGTATTAAATGCGGTATCGTTGGGTTGCCTAATGTTGGTAAGTCGAC TTTGTTCAATGCGTTGACTAAAGCTGGTATCGCTGCGGCTAACTTCCCAT TCTGTACAATTGAGCCTAACGTGGGTGTCGTGCCTGTTCCAGATCCACGT CTTAATCAATTGGCCGAAATCGTCAAGCCACAGAAGTTACTGCCGACAGT GATTGAGTTCGTTGATATTGCAGGCTTGGTTGCTGGTGCGGCTAGTGGTG AAGGGTTGGGCAATAAGTTTCTAGCGCATATTCGCGAGGTTGATGCGATC GCTCATGTAGTGCGTTGTTTCGAACACGGTCAGATTATTCATGTTGCCGG TAAGGTTGATCCTCTGGCTGACATTGAAATCATTGATACGGAATTGATAT TGGCCGATCTCGACACTGTCGAGAAGGCGTGCAACCGCATGATGCGTGCT GCCAAGGGGGGCGATAAAGAAGCGATTGCCTGCAAGTCTGTGCTTGAGAG ATTGCAGGTTGCGCTTAATGAAGGCAAATCTGCTCGCTCTGCTGGTTTGG ATGAGGATGAACGTGCTTTAGTCCGCGATTTGTTCTTACTGACGCTCAAG CCGGTGATGTATATCGCCAATGTGCTTGAAAATGGGTTTCAGGATAATGT TTATCTTGAGGCTTTACGTGTCCGTGCTGCCTCCGATAATGCTCAGTTAG TGCCGATTTCTGCAGTGATCGAAGAGGAGCTGGCTCAGCTGGAGGATGTG GATCGCGATGCATTTTTGGTTGACCTTGGTCTGGAGGAGCCGGGGTTGAA TCGAGTAGTCCGTGCTGCTTATGCGTTGCTCGGTTTACAGACTTACTTTA CTGCGGGTGTGAAGGAAGTGCGTGCTTGGACTGTGAAGTCTGGTGCCACC GCGCCGCAGGCCGCTGCGGTGATTCATACGGATTTTGAAAAGGGATTTAT TCGCGCTGAAACGATTGCTTTCGATGACTTCATTAAATATAAAGGCGAAG CAGGCGCGCGTGATGCTGGGCGTATGCGTTTGGAAGGCAAGGAATATCGG GTTCAGGAAGGAGATGTGTTGCATTTTCGCATTAACGTATGA >XF0736 threonyl-tRNA synthetase ATGATTACGATTACGCTCCCAGACGGCAGTCGCCGTGAATTTGAAGGTCC CGTTAGCGTTATGCAGGTTGCTCATGCAATCGGTCCGGGCTTGGCCAAGG CCACCATTGCCGGGCAGATTGATGGGGGACACTTAGTGGATGCGAGTGAT CTCATTGAGCATGACGCCATGCTGCGAATCATCACTCCTGAGGATCAAGA AGCTCTGGACATCATACGTCACTCTTGTGCTCACTTGGTTGGCCATGCGG TCAAGCAGTTGTATCCCGAAGCCAAAATGGTGATTGGTCCAGTGATTGCT GATGGCTTCTACTACGATATTTACTCCAAGCGTCCGTTCACCCCTGAAGA TTTGGCTGCGATTGAGCAGCGTATGGTTGAGTTGATTGCCCAGGATTACC ATGTGGTCAAACACATCACTGCACGTCACGATGTCGTGCGCTTGTTCAAA GAGCGTGGAGAGGATTACAAACTGCGTCTCATCGAAGAGATGGGGCCTGA AGTTACTGCGATGGGGATTTACCATCATCAAGAATATGTAGATATGTGCC GCGGCCCGCACGTGCCGAATACGCGTTTCTTGAAGGCTTTCAAACTGACA CGCATTTCTGGTGCTTACTGGCGTGGTGACACAAAGAATGAGCAGTTGCA GCGCATCTATGGCACTGCGTGGGCCGACAAGAAGCAACTTGAAGCCCATA TGCAACGGTTACAGGATGCTGAAAAGCGAGATCACCGCAAGATAGGTAAG GTGCAGGATTTATTCCACCTCCAGGAAGAAGGGCCAGGCTTGGTGTTCTG GCATCCGAAAGGCTGGGTGATCTGGCAGACAATCGAGAATTACATCCGTC GAGTCTATCGCAACAGCGGCTATGGTGAGTTGCGTTGCCCGCAAATTTTG GATGTGTCGTTGTGGCAAAAGTCTGGTCACTGGGACAATTACAAAGAAAA CATGTTTTTTACTGATTCGGAGAAGCGTACCTACGCAGTTAAACCGATGA ATTGTCCTGGCCATGTTCAAGTGTTCAATCAGGGCTTACATAGCTACCGT GATTTGCCGATCCGCTACGGCGAGTTCGGTGCTTGCCATCGTAATGAACC ATCCGGTGCGTTACATGGCTTGTTGCGTGTGCGTGGCTTCACCCAGGATG ACGGCCACATATTCTGTACCGAGGCACAGATTGAATCCGAGGTCACGGCA TTCCACCGTCAAGCGTTGCAGGTCTATGCAGACTTTGGTTTCGAGGACAT TCAGATCAAAATTGCCTTGCGTCCAGATAAGCGTCTAGGGGACTCCCTGA GTTGGGACAAAGCGGAAGCTGCGTTGCGTGCTGCTCTGAGTGCCTGTGAG GTGGAGTGGCAAGAGCTGCCTGGCGAAGGGGCGTTCTACGGTCCGAAGAT CGAATATCATCTGAAAGACGCGATTGGCCGCACTTGGCAGTTGGGCACGA TCCAGGTTGATTTCATGATGCCAGGTCGTCTCGGCGCAGAGTATGTAGAC GAGCGCAGCCAGCGCTGTCACCCGGTCATGTTGCACCGGGCAATCGTGGG TTCGATGGAACGTTTCATCGGTATTTTGATTGAACACTACGCTGGAATTT GGCCTACTTGGCTTGCGCCTGTCCAGGTAGTCGTCGCTAATATTACTGAT GCTCAGTATGAATACGCAGAGCGGGTCCACAAAGCCCTTTTAAATCAAGG TTTCCGGGTCAACACCGATTTGCGAAATGAGAAAATCGGCTATAAGATTC GCGAACATACACTGCAACGCGTCCCTTACCTTTTGGTTGTTGGTGACCGT GAAAAGGAGAATGGCACTGTTGCTGTACGCACGTGTTCCAGAGAGGATTT GGGGGCGATGTCGATTTCTGCCTTCGTTGAGCGTTTGCAGGCAGAGCAAG TGGTGTGA >XF1856 aspartyl-tRNA synthetase ATGCGTACCCATTTCTGCGGCTTGATTGATGAAACATTGATCGGCCACAC CGTTACCCTTGCTGGCTGGACCGATGTGGCCCGCAACCTGGGCGGAGTCT GCTTTATCGATTTACGTGACCACGAAGGGATCGTACAAGTGACGGTGGAT TCGCGTGCCATCGACCAGAACAACTCAGAACTGTTCAAGGTTGCTAGTGG CTTGAGTTATGAGGATGTACTACAAGTTGAAGGCGTCGTGTGCGCCCGTC ATGCGGTCAACGATAAGATCAAGACCGGCAAGGTCGAAGTGATTGCTACA AAAATCAAGATACTCAATAAGGCTGCACCTTTACCGTTCCATGCTCACGA AAACCCAGGGGAGGATATCCGTCTGAAATACCGCTACCTGGACCTGCGCC GCCCGGAAATGCAGCGTATGCAACGTACGCGTATCAAACTGGTACAGGCA CTACGTCGCCATCTGGACATGCACGGTTTCCAAGACATTGAAACGCCAAT CCTGACGAAAGCAACCCCTGAAGGAGCCCGTGACTTTCTTGTTCCCGCCA GAATGCACCCGGGCGAATTTTACGCCTTACCGCAATCACCGCAGCTGTTC AAACAAATACTAATGGTGGCTGGTTTCGATCGCTACTATCAAATCGCACG CTGTTTCCGTGACGAAGCGTTGCGTGCGGATCGCCAACTTGAATTCACTC AGCTTGATATGGAGTTTGCTTTTGTAAGCGAACGTGACGTCCAGGACTTT GTTGAAGAGATGATTCGGAGAGTCTTCAAAGAGGTCGCCGGGATCGAGCT TGATACAACGTTCCCCCGCATGACATGGACGGAAGCAATGCGCCGTTTTG GCTCTGACAAACCGGATCTGCGCATCAATCTAGAACTGATTGATGTTGCC GCACTCGTTGCTGACAGCACATTCACCCCATTTACCGATGCCGTTGCACA TCCCAACGGTCGTGTTGCCGCATTGCGTATCCCCAGCGGGGCAGTATTGT CGCGCAAGCAGATTGATGAATATGCCGCCTACACAGCCAAGTATGGTGCC ACAGGACTTGCTTACGCCAAACTCGCCCCTATAGGCGAAATCACTTCGCC AATCGCTAAATTTTTTTCCGAGGATGCCTTTGCTGCACTACTCTCACACA TCGGAGCGGAGAAAGGCGACATCGTGTTTTTCGGTGCTGGAAACTACAAC AAAGTCTCCGACTTCATGGGCGCGTTACGCCTGAAAGCCGGCAAAGATTT CGCCCTAATCACCGCAGACTGGCGCCCATTGTGGGTCACCGACTTTCCAA TGTTTGAGTGGGACGAAGAAGCGCAGCGTTACGTTGCCTTACATCACCCC TTCACTGCACCAGCAGCCATTGACGATATTGACGAATTACGCGCACACGC CAGGACAGCCTTGTCCCGCGGCTATGACATGGTACTCAATGGCAACGAAA TTGGCGGCGGCTCTATCCGTATTCACCGTCCGGAAATGCAACGTGCAGTC TTTGAACTGCTCGGCATTACTGAGGATGAAGCACGCGCCAAATTTGGTTT CCTCCTTGATGCACTGAATTATGGTGCCCCACCACACGGAGGGATTGCCT TTGGCATTGACCGCATCGCCGCACTGATCGCCGGCACTGAATCAATCCGT GATGTTATTCCTTTTCCAAAGACCACCGGCGCACAATGCCTGATGACCGA TGCACCCTCCTCCATCTCGGAAGAGCAACTCTCTGAGATCCATGTAATAA CGAAGAAACCCACACCGTGA >XF1125 ribonuclease G ATGTCAGAGGAGATCTTAGTTAACGTGACTTTTGGTGAAACGCGTGTGGC AGTCGTTGAAAACGGTCTGCTTCAGGAGTTGCACATTGAGCGCGATGGGT GCCGTGGTGTGGTTGGGAATATCTATAAAGGCAGGGTGCAGCGCGTCATG CCTGGGATGCAGGCGGCTTTTGTTGATGTGGGAATGGAACGTACCGCGTT TCTACACGTTAACGATGTGGTGCGGTCTGCGCCTGCTGATTCCAGTGTGA TTGATACTGATGAAACGACAGTGCCGCCTTTATCTGAGATACCGATTGTT GAGTTACTGCGTGATGGGCAGGAGTTGATGGTTCAGGTGCTTAAGGAGCC GATCGGTACGAAAGGTGCGCGTTTGACCACTCAGATCAGCATTCCTTCGC GTTATTTAGTGTTGCTGCCGCAGTCTAAGATGGTTGGGGTTTCGCTCCGG ATTGAGGATGAAGCAGAGCGTGCACGGTTGAAAGCAGTCGTGACGGATCT GGCGGCGCAGTACGGTGATTACGGTTATATCGTCCGTACCAATGCTGAGG GCCAGTCTGCTGATGTGCTTGTTGAGGATATTGCCTATTTGTCGCGGTTG TGGGGTGTGGTGGAGCGGCGTGGGCGTGAATTGCCTGTGTGCAGTCTCCT CTATGAGGATTTGAGTCTTTCGTTGCGTTCGGTGCGTGATCTAATCCGTA AAGATGTGGAAAAGATCAAGGTGGACTCGAAGGAGGCTTTCGCCCAGTTG CAGGGATTTGTGACGAAATATATGCCGGTGCTGGCGGATAAGTTGGAGTT GTATGTCGGCGATCATCCGATTTTCGATCTTTATGGTGTGGAGGATGAGA TCGGTCGCGCTTTGGATAGACAAATCCCTCTTAAATCAGGGGGGTATCTT GTCATTGAGCAAACTGAGGCGATGACCACGGTGGATGTGAATACCGGTTC CTTTGTCGGTAAGCGTACTCTGGAGGAGACGGTGTTTCGTACTAATCTGG AGGCGGCGCAGGCGTTGGCACGTCAACTGCGGTTGCGTAATCTTGGCGGG ATTATCGTCATTGATTTTATCGACATGCAAGACGCCGAACACCGTTGCCA AGTGTTGCGTGTGTTGGAGAAAGCATTGATACGTGACCATGCCAAGACCA CGCTGTACGATTTTTCACCGCTGGGTTTGGTTGAGATGACGCGCAAGCGT ACTGTGGAAAGTTTGCAGAGGCAGTTGTCTGAGACGTGCCAGGAATGTGG GGGGCGTGGCACGATCAAAACGGCCGAGACGGTAACCTACGAGATATTCC GTGATATCACCCGTGCAGTGCGTCAGTTCGATGCGGTGCGGTTGTTGGTG ATTGCCTCACCCAATGTGGTGTCCAGGATGACGGATGAGGACTCTGCTGC GGTTGCTGAGTTGGAGGCGGTGCTTGGCAAAGCGATTCGGTTTCAGGCTG ATCCACACTATTTACAGGAGCAGTATGAGGTGGTGTTGTTGTGA >XF1368 adenine-specific methylase TTGGCTGTTGCTATGACTCCTGCTGCGGCCGATGAACTTCACACGATCGT TGACCTAATCCGCTACGGTGCCAGCCGTTTCAGTGAGGCTGGATTGACCT TTGGTCACAGTTACGACAATGCGTTGGACGAGGCGACGCAACTGGTGTTG CATGCCTTGCATCTGCCGCCGGATCTTGGCCCGGCCTATGGTCAGGCGCG TTTATTGCATACTGAGAAGGAATGTGTTCTGGCGCTATTTGAGCGACGCG TGACCGAGCGTGTGCCGGTTGCGTATTTGACGGGTGATGCTTGGTTTGCC GGGCTGAACTTTAAGAGTGATGCACGCGCACTGGTGCCACGCTCGCCGAT TGCCGAGTTAATTCAGGCTGGTTTTGAGCCGTGGTTGGCAGGGCGTGACG TGCGTCATGCCCTGGACTTATGCACCGGCTCCGGGTGCATTGCGATTGCG ATGGGTCACTACAACCCTCATTGGAGTGTGGATGGGGCTGACATCAGTGA GGATGCGCTGTCGTTAGCATTGGAAAATAAGGTGCGACTGTTGGCGCATA ACGTCGAGTTGATCAAGTCTGATGTGTTTGCTGGGCTGGTTGGACGCCGT TACCAGTTGATTGTCAGCAATCCGCCTTATGTGACTGACGCCGAAACCGA TGCACTGCCGCAGGAGTATGGTTACGAGCCAGAGCTGGGTTTGCGTGCTG GCCCGGATGGACTGAATTTGGTGCTGAAGATTTTGCGTGATGCTCCGGCA CACTTGGATGAGGAGGGCCTGTTGATCTGTGAGGTTGGGGAGTCTGAGCA ACAGTTGGTACGGCTGTTGCCGCAGGTTGATTTTGCTTGGGTTGAATTCA AAGTCGGGCAAATGGGGGTCTTTGCGGTTGAATGCCGTGAGTTGATTGCT CATCATGACCCTATTGCTGCGCTTGCCGCTGAACGTTAA >XF0822 glutamyl-tRNA synthetase ATGACGTGCCGCACCCGCTTTGCCCCCAGCCCCACCGGTTACCTGCACAT TGGGGGCGCCCGCACCGCACTGTATTGCTGGCTGGAAGCACGGCGCCGCA ACGGGCAATTCCTACTGCGCATCGAAGACACCGACCGCGAACGCAGCACT CAAGCCGCGATTGATGCCATCCTGCATGCAATGGACTGGCTGGGACTGGA CTACGACGCCCCCCCGGTCTACCAAACCCAGCGCATCGAACGCTACAACC AGGTGGCTGCGCGTCTGCTTGCCGAAGGCAAGGCGTACTACGCTTACGAC TCCAAGGACACATTGAACGCCATGCGTGAAGCAGCTCTGCGCACTGGCGA AAAACCACGCTATAACGGCGCTGCACGTGAAGCCAACCTGCCATACCGGG ATGATCCCAACCGGGTTATCCGCTTCAAAAATCCGCACACCGGCACCGTG GCGTTCGACGATTTGATCAAAGGCCGCATCCAGATCGCCAACAGCGAACT GGACGACATGGTCATCCTGCGTCCCGATGGTTACCCAACCTACAACTTCG CCGTGGTTGTGGACGACTGGGACATGAACATCACCGAGGTGATCCGCGGC GACGACCACATCAACAATACGCCACGGCAAATCAACCTCTATCACGCCCT GGGCGCACCACTACCCACATTTGCGCATCTACCGATGATCCTGGACGAAC AAGGCGCCAAGTTGTCCAAGCGTACCGGCGCGGCTGATGTGATGCAGTAC AGAGATGCCGGTTACCTGCCCCATGCACTGATTAACTATCTGGTACGGCT GGGCTGGTCACACGGCGACCAAGAGCTATTCAACCGGCAAGCGCTGATCG ACCTGTTCCAAATCAACGATGTCAACTCCAAAGCAGCGCGCCTTGACATG GCAAAACTTGGCTGGGTGAACCAGCACTATCTGAAGACCGATGACCCGGC GACGCTTGCCCCGCCATTGGTCTGGCATCTGGAACAACGCGGTATTGATG TCAGCGCCGGTCCTGCTCCGACGGACGTGATCCTGGCCCTACGGGAACGC GTCCAGACACTGAAAGAAATGGCCGAGAAAGCAGAGATCTGGTACTGCCC ATTACAGCGCTATGATGAAATAGCCGTCGCCAAGCATCTCAAACCAGGTG CCGACACGGCCCTACTGCACGCACGTACCCTGTTAGCCGCACTTCCCACG TGGACTGTGGACAACGTGGACACCGCCTTGCGCACAACTGCAACAACACT AGAGATCGGCATGGGCAAAGTGGCACAACCACTGCGGGTAGCGATCACCG GGACCCAGGTCAGCCCGGACATTGCCTATACCGTTTACCTCACCGGCCGC AACGAAGCCTTGAAACGCATTGATGCGGCACTGATAAAAATCTCTACGGC TTGA >XF0387 conserved hypothetical protein GTGATTCCAGTGATTAATCAAGAAAAACAAGGTATATCAGGCGATTTTAG GTTATCTGTCGCCCCGATGATGAATTGGACTGACCGCTATTGTCGCGTCT TCCATCGAGTGTTGGCGCCGTCGGCTCGTTTGTATACAGAGATGGTGCAT GCCAAAGCAGTGATTTATGGTGATCGCGAGCGGCTATTGGGTTTTGCGTC GGTTGAGCAGCCGGTTGCGTTGCAATTGGGGGGGAGTGAGCCAGCATTGC TGGCAAAAGCAGCGCGCATTGCCGTAGATTGGGGGTACAGCGAGATCAAT CTCAACTGTGGTTGTCCTTCTGATCGCGTTCAGGCTGGGTCCTTTGGTGC CCGTCTGATGCGTGAGCCTGCGTTAGTAGCCGATTGTGTGGCAGCGATGG CAGCCGTAGTTTCAGTTCCAGTAACAGTGAAATGTCGACTGGGGGTGAAT GAAGATGATGATTACGGACGTTTTGCTAAGTTCGTTGACTGGGTGAGCAG GGCGTCGAGTAGCAGGATGATTGTGGTACATGCACGTAATGCTTGGTTAC AGGGACTTTCGCCTAAGGAAAACCGTGAAATACCACCGTTACGTTACGAT TGGGTTTACCGTTTGAAGCGTGAGCGTCCTGAATTGGCAGTGGTACTGAA TGGCGGTATCACTTCGGTTGAGGCTGGATTGGATCATCTGCTTATGGTCG ATGGTGTGATGCTTGGTCGAGCCGCTTATCAAGATCCTTATATTCTGCAC CAATTTGATTGTGCTTTATCTAATGCGCCGTTGCTACCGCGCGCGTTGCT GCTGCGTGCGTTGCGACCCTATGTCGAGGTATGGTTGGAGCAAGGGTTGA CGCTCAGGCACATTGTTCGCCATCTGTTTGGCCTATTTCATGGCCAGCCT GGCGGTCGTGTATTCCGCCAAGTTCTTACCCAAGGTGGGCAACGATCGGA TGCCGACTGGTCATTGGTGGAACAGGCACTATCAATAATTGAGGATCAAG AAACATATGCTGCGGTAGTTTGA >XF1163 50S ribosomal protein L24 ATGGCTAGTCGTATTAAGAAGGGTGACCAAGTAATCGTTATCGCTGGTAA AGACAAAGGTAAGCAAGGGGAGATTATACGCATTGATGGTCATCGTGTGG TTGTTTCTAATGTTAATATTGTTAAACGGCACACAAAGCCCAATCCTCAA CGGAGTATTTCTGGTGGCTTAATTGACCGTGAAGCCCCTATCCATGTTTC AAACATTCAAGTTTTAAATCCGATGACTGGTAAGGGTGATCGTGTTGGTT TTAAGATTTTAGATGATGGTTGTAAGTTGCGTATTTTCCGCTCCACTGGT GAAGTTATTGGTGCTTGA >XF1440 tRNA methyltransferase ATGAACACACCCCGGATCATCGTCGCCATGTCCGGCGGAGTAGATTCATC GGTCGCAGCGTGGCGCTTGAACAGTCAACGCGAAACCATCGCCGGATTAT TCATGCGAAACTGGACTGACGACGGAAATGGTCAGTGCCACGCCGAAGAA GATCGCCGCGACGCCGTCGCCGTTTGCGGCATCCTTGGTATCGCTTTTCA CTTCCGTGATTTCTCACACGAGTACTGGCAGGAAGTGTTCACACACTTCC TTGCCGAATACGCCAATGGGCGCACCCCTAATCCCGACGTCCTTTGCAAC CGCGAAATCAAATTCAAGCATTTCCTGGAAACAGCACGCGAACTTGGCGC CGACAGCATTGCCACCGGTCACTACGCCAGGATCAAACATTATCGCCAAC GTTGGCACCTGTTAAGAGGCGCCGACCGCAGCAAAGACCAAAGTTATTTC CTGCACCAACTTGGTCAGGAACAACTAGCAGCGACAATGTTCCCAATCGG TGACTTGGAAAAACCACAGCTACGCCAACTGGCACACCAGGCAGGCCTCC CTACCCATGCCAAAAAAGACTCAACTGGGATCTGCTTCATCGGAGAACGC AACTTCCGTGAGTTCCTCAAGCAATACCTGCCAGCACAACCGGGAGAAAT CCGTGATCCACAAGAACAGCGGATTGCCGAGCACCCCGGCGTGTTCTATT TCACTCTCGGACAACGTCAGGGCTTGAATATCGGTGGAGTGCGCAACCGC CCCCCTTCCCCCTGGTACGTCATCGGGAAAGACTTAGCAACCAACGTACT TTACGTGGACCAACATCGTGACAGCCCCTTCTTACAGTCACGCTGGCTGC GCTCGGAACCGGCACACTGGGTGTCCGGATCACCGCCAGCCCCCACCTTT ACCTGCACCGCACAAACACGCTACCGCCAAGCTGATGAACCTTGCAAAGT CACAGTACGCAACGACGGCAGCCTTGACGTAGATTTCACACAAACACAAT GGGCAGTCACTCCGGGACAGTCACTGGTACTGTACGACGGCAATGAATGC CTAGGTGGCGCAGTGATCGCCACCACAGACGCACCGTTAGAACGCAAGCG GGCGCGTAATCTTTCCAAAACTGAGAATGTGCTGCAATGA >XF2421 30S ribosomal protein S20 ATGAAAATCATAATTATCGGCCTAATTTTTCATCAATGGATTTCTGAGGA AAGCATTTCTGTGGCCAATATCAAGTCCGCCAAAAAGCGCGTTAAGCAGA CCGTTGTGCGTAATGAACGGAACACGGCGCAGCGTTCGATGTTGCGCACT GCCGTCAAAAAAGTAATTAAGGCTCTCAGCATCAAAGATATCGCTGGTGC CGAGACCGCTTTCGCTGTTGCCCAACCAATCCTTGACCGTTTCAGCTCCC GTGGGTTGATTCATAAGAATAAAGCGGCCCGCCATAAGAGTCGGTTGACG GCCCGTATCAAAGCGCTGAAAACCGCCTGA >XF2438 30S ribosomal protein S1 GTGGCCGTCCTTGTGTTTAACCGAGTAAATCAAATGACTGAATCTTTTGC TGAATTGTTCGAAGCCAGCCAAGCGAATTTGGCGAAGCTAAAACCGGGTG CCATCGTTACTGGGACCGTCGTGGATGTCCGTGGTGATGTAGTGGTTATT AACGCCGGTTTGAAGTCTGAAGGCATCGTGCCGATTGAGCAGTTCCGTAA TGACGCTGGTGAGATTGATGTTGGGGTAGGTGATCAGGTCAAAGTTGCGC TTGATGCCATTGAGAATGGCTTTGGCGAAACCATTCTGTCTCGCGAAAAA GCAAAGCGTTCGATGGTGTGGGATGAGCTGGAAGAGGCCTTGGAGAAGAA TGAGACCATCAGTGGCCGTATTAACGGTAAGGTCAAGGGAGGATTTACCG TTGACATTAAGGATGTACGTGCGTTTCTTCCTGCTTCTTTGGTCGATGTT CGCCCGGTTCGTGATCCTGCTTACCTGGAAGGTAAGGAGCTGGAATTTAA GCTTATTAAGTTAGATCGTAAGCGTAATAATGTCGTTGTTTCTCGTCGTG CAGTGGTCGAAAGCGAGCATTCTGAGGAGCGCGAACAGTTGTTGGATAAG TTGCAGGAAGGCGCAGTGTTGACCGGTACGGTTAAAAATATGACCGATTA CGGCGCGTTCGTGGATTTGGGCGGAGTTGATGGCTTGCTCCACATTACCG ATATGGCATGGAAGCGTGTGCGCCATCCCTGCGAGGTGGTGAATATTGGT GATGAGGTTGAGGTTCGTGTACTGAAGTTTGACCGTGAGCGCAATCGTGT CAGCCTTGGTTTGAAGCAGCTTGGTGAGGATCCCTGGGATAACATTTCGC GGCGTTATCCAGCTAACTGCCGAGTGTTTGGTAAGGTTTCCAACGTGACT GACTATGGTGCATTTGTTGAGATTGAGGCAGGTGTAGAGGGCTTGGTGCA CGTCTCGGAAATGGATTGGACCAACAAGAATGTCAACCCTTCCAAGGTTG TTCAGGTGGGTGATGAGGTTGAGGTTATGATCCTGGATGTCGATGAGGAG CGTCGCCGTATCTCCTTGGGCATGAAGCAGGTTGCTGCCAATCCGTGGGA AACGTTTGCTCTTACCCATAAGAAGGGAGACAAGGTGAGTGGCCAAGTTA AGTCGATCACAGACTTTGGCATTTTCATTGGTTTAGACGGTGGTATTGAT GGTTTGTTGCACTTGTCTGACATTAGCTGGAACACAACCGGCGAAGATAT AGTTCGTAATTTCAAGAAGGGTGATACCTTAGAAACAGTTGTGTTGGCTG TCGATCCAGAGCGTGAGCGTATTTCCTTGGGTGTGAAGCAGTTGGAACAA GATCCTTTTGGCCAGTATATGGCTACTCATCCGAAAGGCTCCAAGGTGAT TGGAACCGTTAAGGAGGTTGATGCCAAGGGGGCCTTGATTGAGTTGGATG AGGGAATCGAAGGTTACGTTTCGGCGCGTGACATCGCTAATGAGCGTGTG GATGACGCGACTCAGTATCTGAAGGTAGGCGATAGTGTGGAAGCTAAGTT TATTGGTATGGATCGTAAGGGCCGTACTTTACAGCTGTCGATTAAAGCCA AAGATGATGCTGAGATGCGCGAAGTTCTTGAGGAATATCAATCTTCTTCC GGTGGTACTACAAAATTGGGTACGCTGCTGAGAGAGCAACTCGGTAATAA GCCCGAGTAA >XF1159 50S ribosomal protein L16 ATGTTACAGCCAAAGCGAACAAAATATCGTAAAATGCATAAAGGCCGCAA TTGTGGTTTGAGCTGGAACGCTAATGTAGTCAGTTTCGGTCAGTATGGTT TAAGAGCTACCGCTCACGGCCAGTTGACGGCTCGTCAAATTGAGGCTGCT CGTCGTTCAATTAGTCGTTATGTTAAGCGTGGCGGAAAATTGTTGATCCG TGTTTTTCCAGATAAGCCAATTACAAAGAAACCTATTGAGGTTAGAATGG GTTCAGGTAAGGGTAATGTTGAGTATTGGGTTGCTCAAATTCAACCAGGT CGTATGATCTATGAGATTGAGGGTGTTTCGGAGGATGTAGCGCGTGAAGC TTTCCGTTTGGCTGCCTCCAAACTTTCAGTGACTACCGCTTTTGTTGTCA GGACGGTGCGTTGA >XF2418 isoleucyl-tRNA synthetase GTGAGCCAAGACTACAAAACCACCCTGCATCTGCCCGCGACCGACTTCCC CATGCGTGGCGACCTCCCCAAACGTGAACCGGCCATCCTCGAGCGTTGGG AACGTGACGACTTCTACGCACAACTGCGCGCCCATGCCAAAGGCCGCCCC CTGTTCCTCCTCCACGACGGCCCACCCTACGCCAATGGCCAGATCCACCT TGGCCATGCCGTCAACAAAATCCTCAAAGACATCATCATCAAATCCAAAC ACCTAGATGGCTTTGACGCACCCTACATCCCCGGCTGGGATTGCCACGGC TTGCCGATTGAAATTGCCATTGAAAAAAAATACGGCAAAGTCGGCGTGAC CTTGGATGCCGTCCAATTCCGCCAAAAATGCCGTGAATACGCTGCCGAAC AGATCCAATTGCAGCGTCGCGACTTCAAACGCCTCGGCATCATCGGTGAC TGGGACGCCCCCTACAAAACCCTTGATTTCCGCTTTGAAGCCGATGAAAT ACGCGCCCTTGCCAAAATCGTTGACAAAGGCCACTTAATCCGTGGTACCA AACCAGTGCATTGGTGCTTTGATTGTGGCTCAGCACTGGCTGAAGCAGAG ATCGAATACACCGACAAAACCTCTCCAATGGTGGACGTTGCCTATCCTGC CCTGGACCCCAGCGCCCTGGCAGCCGTATTCAACGCCACACTCCCCCCTG ATGTACAACTTGCCGTCCCCATTTGGACCACCACCCCGTGGACACTCCCC GCCTCCCTGGCCATCTCTGTTGGGCCAACCCTGGACTACGTCCTGGTTGA AGGACCGACCCACTCCGGTCAGCGCCGCTGGCTCATCCTGGCGGAAGCAC TCGCCGCCAAAGCACTGGCACGCTACGGCATCGCCGAACTGCTCATCCAT GGCAGCGCCAAAGGAGCCGCCATGGAGCAGCACATCTTGGCCCACCCGTT TTATCCCGATCGCACCATCCCCCTACTGCTTGGCAACCACGTTTCCGCCG AAGACGGCACCGGTGCCGTCCACACCGCCCCTGGCCACGGCCAAGAAGAC CACCAAGTCTTTCAACAATACGGATTACTCAATCACTACAGCGCTGCCGA ACTCAACCCCGTCGACGCCCGCGGCGTCTACCTCCCGACAACCCCACCAT TCAGTGAACTAACACTGGCCGGCCTGCATATCTGGAAAGCCAACCCACTG ATTGTCGACGCCTTGCGCCTCCGTGGCGTCCTCCTTGCCGCCGCTGAAAT GCATCATAGCTACCCCCATTGCTGGCGCCACAAAACCCCCATTGTCTTTC GCGCCACCCCCCAGTGGTTCATCTCTATGGAACAAGCGGCCCTGCGCTCA GCCGCCCTCAAGGCCATCACACACGTCACCTGGTATCCCCAGTGGGGCCA AGCCCGCATCCTCAGCATGATAGAAAACCGCCCCGACTGGACCATCTCCA GACAACGCACCTGGGGCGTCCCGATTCCCCTGTTTGTACACCGTCACAGC GGAGCACCCCATCCACGCAGCGCCGCATTGATGCGCCAAGTTGCCGACCG CGTCGAACAACAGGGCGTCGACATCTGGTACTCCCTGGACCAAACCGAAT TACTCGGCACTGAAGCCGATCAATACGAAAAAATCACCGATATCCTTGAC GTCTGGTTTGATTCCGGCATCACCCACGAAGCAGTGCTCCTTGAGCGCGG CCTCCCTAAACCCGCTGACCTCTACCTCGAAGGTGCCGACCAACACCGCG GCTGGTTCCAATCCTCCCTCCTCACCGGCGTCGCCATGGACAACGCCGCA CCCTACAAACAATGCCTGACCCACGGCTTCACCGTCGACCAACACGGCCG CAAAATGTCCAAATCACTGGGCAATGGAATCGAACCCCAGGACATCATCA AGACATTGGGCGCCGACATCCTGCGTTTGTGGATTGCCTCCACCGACTAC AGCAACGAAATGTCCCTCTCCCAAGAGATCCTCAAGCGCACCACCGATGC CTACCGCCGCATCCGCAACACCGCCCGCTTCCTCCTTGGCAACCTGCATG GCTTTGACCCCACCCTACACCTCGTGCCCCTGAGCGACATGATCGCCCTG GATCGCTGGATCGTTCACCGCGCCTTTGAACTCCAACAGACCATCAAAGC CGCCTACACCCGTTACGACTTTGCCGAAATCGTCCAAACAATATTGAACT TCTGCAGCGTCGACCTCGGCTCACTCTACCTCGACGTCACCAAAGATCGT CTCTACACAATGCGCGAAGACGCCCCCGGTCGCCGCTCCGCACAGACCGC CATGTACCATCTCACCGCCGCCTTTGTCCGATGGATCGCCCCCATACTCA GCTTCACCGCTGACGAACTATGGTCCTACTTACCCGGTGACCACGCCGAC AACGTCCTCTTTACCACCTGGTACGACGGTCTCGCCCCCTTACCACCCAA CGCCCCCCTGACCGCTGCCGACTTCGACAAACTCCTTACCTTGCGTGACC ACGTCACCAAAGTACTGGAACCCATGCGCGCCAACGGCGTTATTGGCGCC GCATTAGAAGCAGAAATCACCATCGCTGCCGATGCCGACACCGCCGCCCG CTGGCAACCACTCACCGAAGAACTCCGCTTCCTCTTTATTAGTGGAGATG TCACCGTTACCCCGGCCAACACCGATGGCTTCTTTGTCAGCGCCCAACCA ACCACCAAAGCCAAATGTGCCCGCTGCTGGCATTACCGTGCCGACATAGG CGCTCACCCAACCCATCCCGAACTCTGCGGACGCTGCGTCACCAACGTTG ACGGACCAGGAGAACAGCGCCATTGGTTCTGA >XF1166 30S ribosomal protein S8 ATGAGCATGACTGATCCTATAGCTGATATGTTGGTTCGTATCAACAATGC AGCCTCTGTTGGTAAACCTAATGTGAGATTTCCATTCTCTAGGGTTAAGC TTGCTATTGCTCTGGTTCTGAAGCATGAAGGTTATATTTTTGATGCAAAA GTAATTCAGGGTGACAATAGTAAATCTGATATCGAGATTGTACTGAAATA TTTTGAAGGTCGCCCTGTTATCAGAATTTTAAAGCGTGTTTCACGTTCTG GGTTGCGTAAATATTGTGGTAAGGCCGAGCTTCCTAAAGTATTGGGTGGC TTGGGTATTTCTATTATCTCCACCTCCAAGGGCATTATGATCGATTCTAA AGCTCGTGAGTCTGGTGTTGGTGGTGAAGTTCTTTGTTTCGTGGCTTAG >XF1152 50S ribosomal protein L3 ATGGGTTTTGTGGGCCGTAAGGCTGGTATGAGTAGGGTATTCCTTGAGGA TGGTTGTTCGATACCTGTTACTCTCATAGAGGCGACTGCGAATCGTGTCG TGCAAATAAAAACTTCCGATGTTGATGGCTATGATGCTGTTCAGGTAACA GTTGGTTCGCGTCGTTCTGTTCTTGTGAATAAGCCTGAGTCTGGTCATTT TGCTAAAGCAAAGGTTGAGGCCGGTCGTGGGTTGTGGGAGTTTCGTGTCG AAAAAACTCAGCTTGGTAGTTATAGTGTTGGTTCTGAGGTTGGGTTAAGT ATTTTTGCTGTTGGTCAGAAAGTCGATATTCAGGGTATAACCAAGGGTAA GGGGTTTCAAGGTACTATTAAACGCCATAATTTTAGGATGGGTGATGCTA CTCATGGTAACTCTTTGTCGCATCGTGCGCCGGGTTCCTTGGGGCAGCGG CAGACCCCTGGGCGTGTGTTTCCGGGAAAAAAGATGTCTGGTCATATGGG TGCTGTGAGGCAGAGTGTCCAAAATCTTGAAGTGGTTAAGATTGATGTTG AGCGTTGCTTGATTGCTGTTCGCGGTGCCATTCCTGGTGCTTCAGGTGGT GATGTCCTCATTCGTTCGGCTAGTAAGATATAA >XF2559 50S ribosomal protein L9 ATGGAACTCATACTGCTGCAAAAAGTCGCCAACCTTGGTGCCTTAGGTGA CAAAGTCACTGTCAAACCAGGTTATGGCCGCAACTTTCTCCTCCCAAAGG GAGTTGCTGTACCTGCCACAGAAGCAAATCTCGCTGCCTTCCAGGCCAAG CGTGCTGAGTATGAAGCCAAAGCCAAGTCGGAACTGGATCAGGCTCAGGC GCGTGCCGCCAAGTTTGAGGGCGCCAGTGTGACGGTGTCTGCGCATGCCT CCACCGAAGGTAAATTGTATGGCTCGGTGGGCGCGCGCGACATTGCTGAG GCGTTTACTGCCGTCGGCTTACCGCTTGAAAAGAAAGAAGTCATTCTTGG CGAGGGTCCGTTCCGCCTGATTGGCGAATATGACGTCCTATTGCACCTAC ACGCTGATGTTGAAAGTACCGTTAAGGTGATTGTTCAGGGCGTCCCCTGA >XF1156 30S ribosomal protein S19 ATGCCGCGTTCAACAAAAAAGGGTCCTTTCTTTGATCACCATTTGATCAA AAAGGTTGAGTCTGCTGCAGGTAGTAAACGACCTATCAAGACTTGTTCCA GGCGTTCCGTTATTCTCCCGCAAATGGTTGGTCATACCATTGCTATACAT AACGGTAAAAATTACTATCCTGTGGTTATTAATGAAAATATGGTTGGTCA TAAGCTCGGTGAGTTTTCTATCACTCGAGTTTTTAAGGGCCATGGTGGTG ATAAAAAATCGGGTAAATAA >XF2453 conserved hypothetical protein ATGAGTGATACCCCAAAACCACCATCAAACACACTTTCACTCAAACGCGA GACAGCCACAGAAGCACCCAAACTGGAAGAGCGCCTGCATAAAGTGCTTG CCCAAGCGGGTCTGGGTTCCCGCCGTGCCCTGGAACAACGCATCTCCAAC GGGCTCATCAAAGTCAATGGAGACATTGCACAGCTCGGCATGTCCGTTAA AAGTGGCGACAAAATCGAACTGGACGGCCGCAGCTTCGTCGCCAGCGCCC TCACTGAACCGGCGCGCGTACTGATCTACAACAAACCAGAAGGCGAAGTG ACCACACGCGAAGACCCAGAGGGTCGCCCCACGGTGTTCGAAACACTCCC CGTCCTCAAAGGTGCACGTTGGATCGCCATCGGCCGCCTGGATATCAACA CCACTGGCCTATTACTGCTCACCACAGACGGCGAACTTGCCAATGCAATG ATGCACCCCTCATCGGAAATAGAACGCGAATATGTCGTACGTGTACGCTC CCCCGAAGGAGAAGAACATGTGCAGGATGAGCTACTCGAGCAACTGACGC GCGGCGTCATGCTGGAAGACGGCACCGCAAAATTCGACACGATTGAACGC ATCGGCAACACCGACTCACACGACTGGTTTCGTGTCGTTGTCAAAGAAGG CCGCAACCGCGAAGTACGTCGGCTATGGGAATCGCAAGGCTGCCAAGTCA GCCGCCTCAAACGTACACGTTATGGTTCCGTCCTCCTACCACGCGAACTA CTGCGTGGCCAATCGACCGAACTACCCAAGACCCAAGTAGAAGCACTACG CACCCAACTGAAACTAGAAAAAGACATGCCGTTAGCACTCACCCTGCAAC CGATTATCGGCCAACGCCGTTCAGCCAAAGCCACACTGCACGTGAATCGC AACGACAACAACAAACACGCCTACCACAACAACCACAGCACCGCCGATGA AAGTCGCGAATTGCGTCGCTTTGACACCCTGCGTGATGACCGAGGTCGCG GCCAAGGCAAGCACCACTTCAAAGATAGACTGACCGTCAGTGGCGAAGCT GCCGCAAAACAAGCACACAAACCCTTCAAACAATACAAACCCAAGAACGA CCGTTCGCTATCGGAAGGCAGCCCGGCAACATTCCAGAGCTGGTACGTCC CTGAAGGCGTCAGCACCGGCCCCCGCAACCACCGCAATGCTGGTGCTGGC AATGGTGCCCACCCCAACAAAAAAAGCCCAAACCCAAACACCCGTAACAC ACCGGGACAACAAACACGCAAGTCTCCATACAAATACCCGAACAATGCAC CTAACTTCCCCTCCGACCACGCCACGCCAACCTTCAACCCCTATGGCAAC CCTGGGCAGAAAACAGGGGCAGGCCGACCAAACAACAGCGGTGGCAAATA CAACCGCAATCGGGGACCAAGATACCCATAA >XF1536 30S ribosomal protein S9 ATGCCTATCACACAAAACTACGGCACTGGTCGCCGCAAATCCTCCAAGGC CCGCATATTTCTACGTAAAGGGTCAGGGAATATTACTGTCAATGGTCGTC CGCTGGATGAGTTCTTCGGTCGGGAAACCGCACGCATGATCGTTCGCCAA CCACTTGAATTGACCAAAAACGTCGCAAACTTCGATATTCTAATCACTGC AACCGGTGGCGGTACAACTGGCCAAGCAGGAGCGATTCGTCTTGGTATTG CAAGGGCATTAGTAGAATATGATGCGTCACTGAAACCTGAGCTACGTAAG GCTGGCTTTATGACTCGTGACGCACGTGAAGTCGAACGCAAGAAAGTAGG CCTCCACAAAGCCCGCCGCGCCACCCAATTTTCTAAGCGTTAG >XF2634 50S ribosomal protein L7/L12 ATGTCCCTCACCAACGAGAAGATTGTCGAAGCTATTGCCGAGAAATCCAT AATGGAAGTTATGGAGCTTGTTAAGGCCATTGAAGATAAGTTTGGCGTTT CTGCTGCTGCTCCTGTTATGGTTTCTGGTTCAGCTGCTGCTGCTGCTCCG GTAGAAGAGCAGACTGAATTTACCGTCACTCTGAAAGAAGCTGGAGCAAA GAAAGTTGAAGTGATCAAAGCAGTTCGTGCTGTCACTGGTTTGGGGCTTA AAGAAGCCAAGGATCTTACTGAAGCGGGCGGTATATTGAAAGAAGCTGTC TCAAAGGAAGAGGCTGAGAAAGTTAAAAAAGAGCTTGAGGCTGCGGGTGC AACTGTAGAGGTCAAGTAA >XF1173 30S ribosomal protein S13 ATGGCGCGTATTGCAGGCGTCAATTTGGCAATTCAAAAGCATGTTTGGAT AGGGTTGCAAAGCATTTATGGAATTGGTCGTACACGTTCCAGAAAGGTTT GTGATGCTGCTAACGTTGCCATTTATACAAAGATTCGTGATTTATCTGAA CCGGAAATTGAGCGTCTTAGAGTTGAAGTGGGTAAGTATGTGATTGAGGG CGATTTGCGACGTGAAGTCGGTATGGCTATCAAGCGTCTAATGGATTTAA ATTGCTATCGCGGTCTTCGTCATCGGCGTGGTCTTCCTTTGCGTGGGCAG CGAACTAGAACTAATGCTCGTACCCGAAAGGGGCCGCGCAAAGCAATTAA GAAGTAG >XF1162 50S ribosomal protein L14 ATGATTCAAATGCAGAGTTACCTTGGTGTTGCTGATAATTCTGGCGCTAA GGAAGTAATGTGTATTAAGGTTTTAGGTGGTTCGAAACGTCGTTATGCAA GCATTGGTGACATTATTAAAGTCACTGTGAAAGAAGCTATCCCTCGCGGG AAAGTTAAAAAAGGTGAGGTTTATGATGCTGTTGTCGTTCGTACTCGCAG TGGAGTTCGTCGTCCCGATGGTTCACTAATCCGTTTTGACGGTAACGCGG CGGTGTTATTGAATAATAAGCAAGAACCCATTGGTACCCGTGTTTTTGGG CCGGTAACTCGAGAGCTTCGCTCTGAGAAATTGATGAAGATAGTCTCTCT TGCCCCCGAAGTACTGTGA >XF0906 conserved hypothetical protein ATGACCGGGACATCAAACATCCCCACACACGGCAAAGAGCACAAAGACGC CCCCGCACTGCTGCCATTGCCCGCACCAAACCCACACCATACCCACGCAG CACACCCCGGCAACCCATCACACGACCGCCCCCCGTCCCGCGGAAAACTC TTTATCAAAACCCACGGCTGCCAAATGAACGAATACGACTCGGCCAAGAT GGCCGACGTACTCACCACGACCGAAGCACTGGAACTAACCGACAATCCCG AAGAAGCAGATATTATCCTCATCAACACCTGTTCAATCCGCGAAAAGGCC CAAGAAAAAGTATTCAGCCAACTCGGACGCTGGAGAGCACTGAAAACCAG TGGCAGAGATGTCATCATCGGCGTCGGGGGTTGCGTTGCCTCCCAAGAAG GAGAGGCAATCGTCAAACGCGCCCCTTACGTTGATCTGGTCTTTGGCCCG CAAACATTGCATCGCCTCCCAGACATGATCCGCGCCCGACGCGAACAGAA CCGACCACAGGTCGACATCCGCTTCCCGGAAATCGAAAAATTCGACCACC TTCCCACACCGCGTGCCGAAGGCCCAAGCGCATTCGTCTCGATTATGGAA GGCTGCTCCAAATATTGCTCATTTTGTGTCGTTCCCTACACCCGCGGCGA AGAAGTCAGCCGCCCATTTGAAGACGTGTTGACCGAAATAGCACACCTAG CGACCCAAGGCGTCCGTGAAATCAATCTACTCGGCCAAAACGTCAACGCC TATCGCGGAGCGATGGACCCTGGCCCATCCAACAACACCAACCCTGCGCC CCCCCCTTATGCCGATCTCGGCCTCCTCATCCGTGCAATCGCCCAATTCG AAAGCATCGGGCGTATCCGCTTCACCACCTCCCACCCCCTGGAATTTTCG GATTCCCTCGTAGAAGCCTACCGCGACGTCCCACAACTGGCTAACCACCT GCACCTTCCCGTTCAATCCGGCAGCGACCGTATCCTCTCAGCGATGAAAC GTGGCTACACCGCACTGGAATTCAAATCCAAAATCCGCAAACTGCGCGCC GTCCGCCCGGACATTTCGATCAGCTCCGACTTCATCATCGGCTTCCCTGG TGAAAGCGACACCGACTTCCAGAAGACCATGCAGCTCATCGAAGACATTG GTTTCGACCAGAGCTTCTCTTTCATCTACTCCCGCCGCCCCGGCACACCG GCCTCCAACCTTGAGGATCACACACCCGATGAAATCAAACGCACCCGCCT AGAACACCTACAAAAGCACATCAACACCTATGCCGCCGACATCTCAAAAC GCATGATTGGCACCGTGCAAACCGTGCTGGTGGAAGGACCATCAAAAAAG AACCCTAACGAACTGACCGGAAAAACCGAAAATATGCGGCCAGTCAACTT CCCTGGCCACCCACGCCTCATCGGACAATTTATTGACGTACACATCACCG AAGCACTGAGCAACTCATTACGCGGCCGCGTGCATACCAACTGA >XF2636 50S ribosomal protein L1 ATGGTACAGACAAAGCGTCAAAAAGCTATTGATCTCGCTGTTGTCCCTGG TAAGGCTTATGGGATTGATGAAGCGATTAAGATTCTAAAAACGGCAACTA AGGCCAAGTTTATTGAATCAGTGGATGTTGCCATACGTTTAGGTGTGGAT GTCAAAAAATCGGATCAACAGGTCCGAGGCTCGACCTTGTTGCCCGCTGG AACTGGTAGGGCTGTACGTGTGGCTGTGTTTGTTCCATCTGGCGCTAAAG CGGAGGATGCTTTAGCGGCTGGTGCTGATGCGGTCGGTATGGATGATTTG GCTGAGAAGATGCAGGCGGGCGATCTAAATTACGACGTCGTGATTGCTAC TCCGGATGCGATGCGTGTTGTTGGTAAGTTGGGTACTTTGCTTGGGCCTC GTGGTCTTATGCCTAATCCGAAAGTTGGTACGGTATCTCAAAATCCTGGC GAAGCTGTTAAGAATGCTAAATCTGGCCAAGTTCGTTATCGTGCTGACAA GGCTGGTATCATTCATTGTGTGATTGGTAAGGTGAATTTTGACGATGAAG CATTGAAGTTAAACTTACAAGCATTGTTAGTTGACTTAATTAAAATCAAA CCGACTGCTTCTAAAGGTGCTTATTTGCAAAAAGTGTCATTGAGTTCGAC TATGGGTCCAGGCGTAATGATTGACCAATCTACTTTATCTCTTAAGTAA >XF0692 hypothetical protein ATGAGTGCCTTAGCCAAAGAAGTACAGGCCAACACGCCTGAAGAAGCGCC GCTGTTCTACTACACTTACATCCAGGACGCTGTAGGTGCTGAGCGGCAAT GCATTACTGATTACCTTAAAGAGCCAGGTGTAAATTCTTCAGAAGGAACG ATACGAGTTTTTGCAGCTCACTACGTTAAGTTCAGTCCTTTGGTGCGCTC ATGGTTTGTAGGTAGGCCAGACGGCGATATACAGCGTACGTCTATGGGGT ACGAATATATACGTGTAGAACCAACACATCCACTGTATCCGCAGATAAAA GATGCGTGTGAAGAATTATACAGCTTTAATGAATCCGTCCTATCCCATAT GGCACACAAAGCCGCCAATACGCCAAAGGTAGGTGCGTAA >XF2579 elongation factor Ts TTGTATATACGAGGTAATTCTATGGAAATCACTGCATCCCTGGTCAAGGA ACTGCGCGAGCGCACCGGCGTAGGCATGATGGAGTGCAAAAAAGCGCTGA GTGAAAATGCAGGCAATATCGACGCTGCTGTCGAATGGCTGCGTAAATCC GGTTTGGTAAAGGCCGATAAAAAGGCTGGTCGTATTGCTGCTGAGGGCCG CATTGTGGTAGTTCATGATGGCGGTAAGGCTGTCCTGGTCGAGATCAATT CGGAGACCGATTTTGTTGCCAAAGACAGTCATTTTTTGGCATTTGCCGAG GCTGTTGCGCAGGCTGCGTTAGTTGCTGGGGCGGTTGATGTCGAAGCCCT AAAGAGTGTCAAGCTTCCGTCTGGAGAGACTGTTGAGGAAGCTCGCGCTG CGGTGATTGCCAAGATTGGTGAGAATGTGCGGGTGCGTCGTCTGGCGCGG ATTGATAGTGCAAATAATGTGGCCGCATACGTACATGGTGGCCGTATCGG TGTATTGGTTGAAGTCAAGGGAGGCGATGTTGAGTTGGCTCGCGGCATTG CAATGCATGTAGCAGCGATGAACCCGCCATATAACAAGGTTGCTGATGTG TCGGCTGAATTTCTGGAAAAGGAAAAGGAGATCGAGCTGAGTAAGATGTC TGAGAAAGATAAATCTAAGCCTGCCGATATTTTGGAGAAAATTATCAGTG GGAAGATCAACAAAATAGTTAAGGAAGTGACTTTGTATGGTCAGCCGTAT GTGCTTAATGCCGATCAAAGTGTCGAGCAAGTGGTGAAGGCCGCAGGTGC TGATGTAATTGGTTTCCAGCGCATGGAGGTTGGCGAAGGGATTGAAAAGA TCGTCGAAGACTATGCTTCTGAAGTGATGAAGCAGGTCGGCCTTTCTTGA >XF2640 elongation factor Tu ATGGCCCAGGATAAGTTCAAACGCACTAAGTTGCACGTAAATGTTGGTAC GATTGGTCACGTTGACCATGGCAAGACTACACTGACTGCGGCGCTGACCA AGGTGGGTGCTGAGCGTTTTGGTGGCGAGTTTAAGGCATACGATGCGATT GACGCGGCACCTGAAGAGAAGGCGCGCGGGATTACTATTTCTACGGCGCA CGTTGAGTATGAAACTGAAGTCCGCCACTATGCCCATGTGGACTGTCCTG GTCATGCTGATTATGTGAAAAACATGATTACAGGTGCGGCGCAGATGGAT GGTGCGATTTTAGTATGTTCTGCTGCTGATGGTCCGATGCCTCAGACTCG TGAACACATTTTGTTGGCTCGCCAGGTGGGTGTGCCTTACATTGTTGTGT TCTTGAATAAGGCTGACATGGTGGATGATGCTGAGTTGCTTGAGCTTGTG GAGATGGAAGTTCGCGAGTTGTTGAGCAAGTATGATTTTCCTGGTGATGA CACTCCTATTGTGAGAGGTTCGGCGTTGAAGGCGCTGGAGGGTGATCAGT CTGAGATTGGTGTACCGGCGATTATTCGACTGGCGGAAGCATTGGATACC CACATTCCGAATCCGGAGCGTGCGATTGATCGTCCGTTTTTGATGCCTGT GGAAGATGTGTTTTCGATTTCTGGTCGTGGCACTGTGGTGACAGGTCGTG TTGAATGCGGTGTGATTAAGGTCGGCGATGAGGTGGAAATTGTTGGCATT CGTCCGACGTCGAAGACGATTGTGACGGGTGTTGAGATGTTCCGTAAGTT ATTGGATCAAGGTCAGGCTGGTGACAACGCGGGTCTGTTGTTGCGCGGTA CGAAGCGTGATGAAGTGGAGCGTGGTCAGGTGTTGGCGAAGCCTGGTTCG ATCAAGGCGCATAAAGAATTTGAGGCTGAGGTGTATGTGCTTTCGAAAGA GGAGGGTGGTCGTCACACTCCGTTTTTCAATGGATACACTCCGCAGTTTT ATATGCGTACAACAGACATTACCGGTAAGGTGTGTTTACCTGAGGGTGTA GAGATGGTGATGCCTGGTGATAATGTGAAGGTGACGGTATCGCTGATTAA TCCTGTGGCGATGGGTGAGGGTCAGCGCTTTGCGATCCGTGAAGGTGGGC GGACAGTGGGTGCTGGCGTGGTTTCGAAGGTTATTGGTTAA >XF2555 lysyl-tRNA synthetase ATGATCCGGGGCTTCTTTGCAGATCGCGGCGTCTTAGAAGTTGAAACACC CCTCCTCTCCGCCGCCGGAAATACCGAGCCAAACATCCACAGCTTCACCA CCTGTTTTACTGGGCATTGTGATGCCGGAGCAGCACAACGTTGGCTGCGT ACTTCGCCGGAATACCCCCTGAAACGTCTCCTTGCTGCTGGTATCGGCGA CTGCTACGAACTGGGGCGCGTCTTCCGTAACGGAGAAGCGGGCGGCCGCC ATAACCCCGAATTCACCATGCTCGAGTGGTATCGCGTCGGCTGGGATCAC CACCGCCTGGCTGAGGAAACCACCGCCTTGGTCCGTGAAGCGCTGGCTCT TGTCGAACGCACAGCCACATTGCATGTCACCACGTACCGTCAACTGTTCC TTGACATCCTTGACATTGATCCCCTGCGTGCTCCGCAAACCGTACTGCGT CAAGCCTTGGACGGCGGCGAGATCAACCCCGGTGGATTGAGCCGTGATGA TTGGCTTGACCTACTGATGACGCACCGCATCCAGCCGACATTCCCTACCG ACCGCATCACCGTCATTGACGACTGGCCAGCCACACAGTGTGCCTTGGCG CGTATCCGTTCCGATGACCCCCCGGTGGCGGAGCGCTTTGAACTCTACTT AGGCGTCCACGAGATCGCCAACGGTTACCATGAATTGAACGACGCAACCG AACAGCGCCGTCGTTTTGAACACGATAATCAAGTCCGTGCCGCACGCGGA TTGCCGCAGATGCCTCTTGACGAACCTCTCTTGAACGTTTTGTCCCGTCT TCCTGATTGCGCCGGTGTCGCCGTCGGTGTGGATCGATTACTGATGGCTA TGAGCGCAACCGCATCCATTGCCGACGTCATGGCGTTTTCCTTTATCTCT GCTTAG >XF0239 polynucleotide phosphorylase TTGCAAACACTGAGCATAGTTGATCCGTTTATAAAGCATCATCCTAAGGA AACTCTCGTGGCAAAAATCACCAAAACCTTCCAGTATGGCAAGCATACCG TGACTCTGGAAACCGGCGAAGTCGCCCGTCAGGCGAATGGAGCTGTTATC GTCAAGATGGATGACACTGTGCTTCTGGTCACTGTTGTTGCTGCAAAAAC TGCGCGAGAGGGGCAGGATTTTTTCCCATTGACGGTTGATTATCAGGAGA AGTTCTATGCCGGTGGGCGGATCCCGGGTAGCTTCTTTAAGCGTGAAGGC CGTGCGACCGAAAAAGAAACGTTGATTTCTCGATTGATTGACCGTCCGAT CCGTCCGTTGTTTCCTGAAGATTACAAGAACGAAGTTCAGATTATCGCGA TGGTTATGTCACTCGATCCGGAAATCGACGGTGATATTCCCGCAATGATT GGTGCTTCAGCTGCATTATCACTGGCTGGTATTCCGTTTAAGGGACCGAT TGGTGCTGCTAAGATTGGTTACAATGATGGTCAATATATCCTCAATCCCA CTGTCAGTGAACTGAAAAAATCTCAGTTGGAGCTTGTTGTCGCTGGTACT GCCAATGCCGTGCTGATGGTTGAGTCTGAGGCTGCATTGCTTTCCGAAGA AGTGATGTTAGGGGCGGTCATTTTCGGTCATCGCGAAATGCAAAAAGTGA TTCAGGTGATTGATTCACTGACCGCAGAAGCTGGTACGCAACCGTCTGAT TGGGTGCCCCCGGCCAAGAATGATGCTTTGGTCATTGCGTTGAAGGAAGT AATTGGTGGCCGCTTGTCCGACGCTTTCCATATCAGAGACAAGTTGCAGC GTCGCGACGCGATCGCTGCTGTTAAAGATGATGTGATTCAGCAGTTGGCT GGCCGTCTTGAAGTTGAGGGCTGGAACTTGGCGGAATTGTTAAAGGAATT CGGTGAACTGGAATACCGTACTATGCGTGATGCATTGTTGGACACTAAAG TCCGCATTGATGGACGCTCTCTGGAAGCTGTACGCCCGATCACCGTAAAG GTTGGGGTTCTGCCGCGTGTTCATGGTTCCGGGTTATTTACACGTGGAGA GACTCAAGCGATTGTAGTCACTACTTTGGGTACAGCACGCGATGGCCAAG TAATTGATGCAGTCACTGGTGAATATAAGGAAAATTTTTTATTCCATTAC AACTTCCCGCCATATTCAGTGGGCGAATGTGGCCGTTTTGGAGTACCGAA GCGCCGTGAGATCGGTCACGGCCGTCTTGCTAGGCGCGGGGTATTGGCTG TGATGCCGAGTTTGGATGAATTCCCATACACGATCCGTGTTGTCTCGGAG ATCACCGAATCGAATGGTTCTTCATCTATGGCTTCGGTGTGCGGTTCCTC GCTGGCGCTCATGGATGCTGGTGTGCCGGTGAAAGCACCAGTGGCTGGCA TTGCGATGGGCTTAGTCAAGGAAGGGGAGCGCTTTGTTGTGTTGAGCGAC ATTCTCGGGGACGAAGATCACCTTGGCGATATGGATTTCAAGGTTGCTGG TACCTCCGAAGGAGTGTCCGCATTACAGATGGACATTAAGATTGAAGGCA TCACAGAAGAGATTATGAGGCAGGCTTTACAGCAGGCTAAGGTTGGTCGT TTACATATCCTTGGCGAGATGGACAAGGCACTGGCTGCACCACGTGCCGA GTTGTCCGACTACGCTCCTCGCCTGCTGACGATTAAGATTCATCCTGACA AAATCCGTGATGTCATTGGTAAAGGTGGTTCGACCATCCAGGCGATCACT AAGGATACTGGAACACAGATCGATATCCAGGACGATGGTACGATCATCAT CGCTTCAGTCAACAATGCTGCAGCCCGGGAGGCTAAGTGTCGTATCGAGC AAATTACCTCGGATGTTGAGCCGGGCCGTATTTATGAGGGCAAGGTTGCT AAGATTATGGACTTTGGCGCTTTTGTGACTATTTTGCCTGGCAAAGATGG TTTAGTGCACGTTTCCCAGATATCCAGCGAGCGTGTGGAGCGTGTTGGCG ACAAGCTGAAGGAAGGCGATGTGGTTCGTGTGAAGGTCTTAGAAGTTGAT AAGCAAGGTCGGATCCGTCTTTCGATCAAAGCCGTCGAGGAAGAGGTTGC CAGCATATGA >XF1985 tRNA/rRNA methyltransferase ATGAATAAGAAAAACCAATGGATTGTTGGCATCAACGCCGTCGTGTCTTC TATTGAGAATGATGCTGAGCACGTGTGTGAGGTGCTGGTTGAGGCTGGCA GTAAGAATTCACGGTTGCTTGATATTGAGGAAAATGCGCGGCGCAAGGGA ATTGAGGTGCGCAGGGTGACTACGCAAGCGTTGGATGGGGTTGGCGGTGG GGTACGCCATCAGGGGGTAGCCGCGCGTTATGCAGCTGTTCGTCTCTGGG AGGAGCATGATCTAAAAGATCTAGTTGATGCGGCTGGAGGTCAAGCATTG TTGCTGGTGCTGGATGGAGTACAGGATCCTCATAATCTTGGGGCTTGTCT GCGTAGTGCCGCAGCGGCTGGGGTGACGGCGGTGATCATCCCCAAAGATA AGTCGGTTGGTATCAATGCGACGGTACGCAAAACGTCGTCTGGTGCGGCG GACCGTCTTCCGGTCATTGCGGTGGTCAATCTGGCACGTTCCTTGCGCGA ATTGCAGAAGCAGGATGTATGGATCTATGGGCTTGAAGGCGAGGCGGAGA CTTCGTTGTATGCATTGGATCTGCGTGGCAAGGTGGCGTTGGTGTTGGGG GGTGAGGCGGACGGCCTACGTCGTTTGACGCGTGAGCACTGTGATGTGCT TGCACGGATTCCAATGCCAGGGGAGGTCGAAAGTTTGAATGTCTCGGTGG CAGCAGGGGTGACGTTGTTTGAGGCAGTCCGCCAACGTACTTTAGTTTAA >XF2475 tRNA/rRNA methyltransferase TTGAGTAGGGGGGAGGAGGAACAATCCAGTGCGTCGCCCGTCGGGCAGTT TACCATGCAGCGCTACACTTCTTTGGTCTCCCTCACGATGTTTGCATTCC CTCGTCTGCGTTTTGTCCTTGTCGGTACCCAACATCCAGGCAACATCGGT GCGGCTGCCCGCGCTATGAAGACGATGGGGATATCGCGTTTGGTCCTGGT TGCGCCCGAATGCCAGCTCGATGAACATGCTTACCGGCGTTCGGCAGGCG CTGAAGATGTCCTGGAGGCCGCCTCCGTGCATACCGTACTGGCCGATGCC GTGGCCGATTGCACCTTTGTGCTTGGATGCACCGCACGCACGCGCCGTGT TGCCTTTGAGGAACTACGTCCGGCAGCAGCGGCATCCCAGATCCTGGCGA ACATTAACGCAGCAGGTGAAGTCGCGTTGTTGTTTGGGCGCGAACGCACC GGACTGACCAACGAAGAACTGCAGCTATGCCATGTCGCCGTGCATATTCC TGCTGATCCACTGTTTAGCTCGTTGAACTTGGCTGCTGCCGTGCAGATCT TGGCCTATGAAATCCGTTTGGCATCCCTTGATGCACCCTCCGCGCCCCTC CATTCAACCTCAGGATTCCGCAAGACACCCGCCAGCCATGCCCAACTGGA AGGTTTATTCGGCCAATTCAAACAGACCTTGGATGAGATCGATTTTCACA AAGGGCGTGCCCCGGAATCGGCAATGCGCAAATTGCGCCGCCTCTTTGCC AAGGCCGAACTAACCCAGCAAGAAATAAGATTACTTCGGGGAGTACTCTC CGATGTCCAACGTATCGTCATGCTGAAGCGTCAGCGCGACACCTAA >XF2424 50S ribosomal protein L21 ATGTACGCAGTACTGGTCACCGGTGGTAAGCAATATCGCGTTGTTCAGGG GGAGACGCTTCGGGTTGAAAAGCTCGATGTCGAAACTGGGAGCGATGTGA CTTTTAACAGCGTCCTGTTGATGGGTAGTAGCGATGGCATCCACGTGGGC GAAGCCTTGAAAGATGCCTCTGTCACTGCAAAGGTTGTGGCTCATGGCCG CGCCCGTAAAGTGAGAATCATCAAATTCCGCCGTCGTAAGCATCACATGA AGCATCAAGGGCACCGTCAGTATTACACGGAAATCCAAATCACTGGTATC TCCGGCCCCGCTAAGCAGTAA >XF1151 30S ribosomal protein S10 ATGGCGGACCAAAAGATTCAGATTCGATTGAAGGCGTTTGATTGTCGCCT GATTGATCGCTCTGCTGGTGAAATTGTTGAGACGGCTAAGCGGACTGGTG CTCATGTTCGTGGTCCTATCCCTTTGCCAACTAAGATTGAGCGGTGCACC ATTCTTGTTTCTCCGCACGCTGATAAAGATGCGCGTGATCAGTACGAGAC TTGTACTTATAAGCGTGTTCTTTATATCGTTGATCCAAACGATAAGACGG TAGATGCGTTGATGAAGCTTGAGTTGGCTGCTGGCGTCGATGTGCAAATC AAGTTGACCTGA >XF0090 tRNA delta(2)-isopentenylpyrophosphate transferase ATGCCAGCCGACACGAGACCAGCCGCAATTGTACTCATGGGACCAACCGC AAGCGGCAAAAGCCAACTGGCCATTGATATTGCCAAACGTTGGGGAGGGG AGGTCATTAGTGTTGACTCGGTTCTGGTCTATCGTGGCTTAGACATCGGT ACCGCAAAGCCGAACGCGGCAATGCGTGCATCAGTACCGCATCATTTGAT CGACATTTGTGAACCTTGGGAAACTTATTCTGCTGCCGATTTCGCGCATG ATGCACGCGCCGCAATCGACATGATCGTTAGACGTGGCGCATTACCAATC CTCACTGGCGGTACTGGACTGTACTTCCGTGCGTTACTGGCAGGTCTTTC GGATATGCCTCCAGCTCATCCTGAAATACGCGCGATGATCACGGCTGAAG CCAAGAGAGACAGTTGGGCAACACTACACACACGTTTGGCCGAGGTCGAT GCAATCACGGCTGCACGTATCCACGCCACCGACCCACAGCGAATTCAGCG TGCATTGGAAGTCTATCGAGTGAGCGGACGATCGATGAGTGATTGGCAAA AGCAGCCACTCAAACAACGGTTACCTTTGCGGGTTCTTAAGCTGGTGCTC GCTCCGACCCATCGCAAAGTACTGCACTTCAGGATCGCGCAGCGCTTCAA GGCAATGTTGGATAACGGCCTACTTGCCGAGGTGAATGCGTTACGTACAC ACCCATCCATCCACGCAATGGCTCGACCACTGAATCTTCCAGCAATGCGT GCGGTTGGCTACCGCCAATGTTGGGAACACTTGGACAACATGTACACTGC CGAGACGCTGTATCAGCGCGGCGTTGCCGCCACCCGTCAACTCGCCAAAC GTCAGTTGACATGGCTACGTGGCGAGCTGGATGCCCTTTGGTTCGATCCA GAACATGATCAATCCAGAATCGAAAAAGTCGTGGAAGCATTTTTAAACAG ATAA >XF2286 seryl-tRNA synthetase TTGCACCGTGCTGCTTCTATGCTCGATCCGACTCTACTCCGTCAACAGCT TGCGAAACTCGCTGAATGCTTGTCGACTGTACGCGGTTTCACTCTTGATG TTGCAGCCCTTGAAGCATTGGAAAGCGAACGTAAACGTATCCAGGTGCAT ACCCAAGAGTTGCAATCCCTGCGTAACAGTAAATCTAAGGCGATTGGCCA AGCCAGGAGCAAGGGTGAAGATGTGTCTTCGTTAATGGCTGAGGTTGCCG CTTTTAGTGATGATTTAAAAGCCTCGGAGATAGCGTTGGAGGAGATCCGT ACTGAATTAGAGAAAGTGGCCTTGGGTATTCCCAATTTGCCACAGCAAGA TGTGCCGCTGGGTGCCGATGAACGTGACAACGTAGAGCAGGCCCGTTGGG GAGTGCCACGTACGTTTGATTTTTCCATCAAGGATCATGTTGAATTGGGT GCGTGTCATGGTTGGTTAGATGCCGAGAGTGCTGCCAAGCTATCCGGTGC GCGTTTTACTGTATTGCGTGGCCCCATTGCACGACTGCATCGCGCACTGG CGCAGTGCATGCTTGACTTGCATGTTCGCCAGCATGGATACGAAGAAGTC AATGTCCCAATCATTGTCAATGCCGACAGCTTGTATGGGACTGGTCAACT ACCGAAATTTGAAGAGGACATGTTCAGTACTCAGCTCGGTGAGCATCGGC GCTATTTGATTTCGACCTCTGAAATTTCGCTGACTAATTTAGTACGTAAC GAGATTATTGAGGCGGATCGCCTGCCGTTGCGTATGGCTGCACACTCATT GTGTTTCCGTTCCGAGGCAGGCAGCGGTGGTCGTGATACGCGTGGCATGA TTCGTCAGCATCAGTTTGAGAAGGTCGAATTGGTCAGCGTATGTAAGCCG CAAGAGAGTGAAGGTGAGCACCAGCGTATGACTCGCTGTGCAGAGACAGT GTTGGAAATGCTGGGACTGCCCTACCGCAAGATCCTACTGTGTACCGGTG ATATGGGATTTGCCGCGACCAAAACCTACGACTTGGAAGTTTGGTTGCCG TCGCAGGGAATGTATCGCGAGATTTCATCGTGTTCCAACTGCGGTGATTT CCAAGCCAGACGCATGCAGGCCCGTTGGCGCAATTCTGTCACCGGCAAGC CGGAATTGGTACACACACTCAATGGTTCTGGTGTCGCTGTTGGCCGTGCG ATGATTGCGGTGATGGAGAACTATCAGAATGCTGATGGTTCGATTACGGT GCCGGAGGTGCTGCGTCCTTATATGGATGGTTTGAGTCGGATTGGTTGA >XF2222 histidyl-tRNA synthetase GTGATCAAACCTCGCACGCCGCCTGGCGTCTTGGAACTGCTACCTCGCGA ACAGATTGCCTTCCAGCGCATGCTGGATGTCATCCGCCGCAACTATGAGC GTTTCGGGTTTTTACCAGTAGAAACCCCGGTGTTTGAACTGTCTGATGTC TTATTGACCAAATCTGGTGGTGAGACAGAGCGTCAAGTCTATTTCGTGCA ATCCACCGGCACCCTAGCCAATGCCGCTGAATCCGGAGCGACCCGCCTAC CGGAACTGGCATTGCGCTTTGATTTGACCGTGCCCCTGGCGCGCTATGTC GCCGAATATGAGCACGTCTTGGCCTTTCCGTTCCGACGCTACCAAATGCA GCGTGTCTATCGCGGCGAACGCGCCCAGCGTGGCCGCTTCCGTGAATTTT ATCAATGCGATATTGATGTCATTGGCAAACAGACCCTGAGCATCCGTTAC GATGCCGAGGTCCTGGCGGTCATCCATGCCGTGTTTTCCGAACTGGGGAT CGGCGACTTCCAAGTCCAATTGAACAACCGCAAAGTATTGCGGGGCTTCC TTGAGAGCCAGGGAGTGCGTGACGGCGACTTGCAATTAGCAGTCTTGCGC GAGGTGGATAAGCTCGATAAACGCGGTGTCCTCGACGTGAGAGACACATT GATAGGGCAGGGCTTCGGTATTCCTGCCGCGCAGGTCGAAAATATCCTGA CTTTTGTTGCCACCCGTTCCACCAGCCATGCCGATGCATTGGTGCGCCTG GATGCACTGATCGAAGATTCAGGGCCAGAGGCACACGAGATGCTGCGCCA AGGTGTCGCCGAATTGCGTGAAGTGCTGACTCTGGTCAACGTCCTGGGTG TCCCCGAACACGCCTACCGCCTGAACTTCTCCATTGCCCGTGGTTTGGAT TACTACACCGGCACGGTGTACGAAACCTCGCTGATCAATCACCCCCAGAT TGGTTCCATCTGCTCCGGGGGTCGCTACGAAAACCTCGCCAATCATTACA CCCAATCGAAATTGCCTGGCGTGGGCATCTCGATTGGTTTAACCCGTCTG TTCTGGCAACTGCGTGATGCTGGTGTGATGGATGGCATTGCAGAAAGCAG CGTCCAAGCCATGGTGGTATTGATGGATGAAGCCACACTGGACGATGCCT TGGACATTGCCCGGTGCCTGCGCATCGGCGGAATCAATACCGAAGTACAG ATGGAAGCAAAAAAGGTCAGCAAACAATTCCAATATGCCTCCCGTGCGGG GATCCGTTTCGTCGTCCTGGCCGGTGACGATGAGCGGGCGCGTGGCGTGG TTGCCGTCAAAGACCTGACCCGTGAACAGCAATTTGAGATCCCACGAGAA GAGTTAGCGAGCACCCTGCAAGTCGAACTGGAGCAAGCCAAGGTTATGTG A >XF0928 conserved hypothetical protein GTGGTTGCGGCGCGCGTGCTGGCTTTGGTTGTGGATCAGGGGCGTTCGCT CAAGACGGAGCTGGCCGCAGCGTTGCCAACCTTGGAGGATGTGCGTGACC GTGCCTTGGTCGAGGCAATCTGTTTTGCAGTGTTGCGGCGGCGTCCGGTT TATGAAGCTGCGCTCACCCAGTGGTTGGCGCGTCCCTTGGGTCGAGGTGA TGCGCAGTTGCGCGGTTTGCTTATGGTTGGTTTTGCGCAACTTGATGTTT TAAAAGTACCGCCGTATGCGGCGTTGTCAGCGACGGTTGATGCCTGCCGC GTGCTGGGGTGGCCCCACCGGGCCAGTTTTGTCAATGCGGTGTTGCGTCG TGCTCAGCGTGAACGTTTGCCGGTCGTATCGTCTGATGCTGCTTGGCCAC GTTGGTTGGCAGAGCGCATCCGTGCTGACTGGGGGGAGCTGGCAGAAGCA ATTTTTGATGCCAGCCTGAAGCCAGCGCCGATGTGGTTACGGGTCAATCT GCGCTATGGCGATCGTCACACCTATGTGCAGCGTTTGCAGGCAGCAGGTT TGGAGGCTGTACCAAGTGGATTGGTCCCTGAGGCGCTTGCGTTGGATTGT TCTATGCCTGTATTGCAATTGCCCGGGTTCCAGGCCGGTGAAGTGTCGGT TCAAGACTTGTCGGCGCAGCAAGTGGCTGCGTTGTTGTCACCAGCGCCAC ACGCCCGTGTGCTTGATGCGTGTGCCGCGCCAGGCGGCAAAGCTGCGCAT CTGTTAGAGCGTGCGCCCACACTGTGCTTGACTGCGTTGGATGTGGATAT GCAGCGGTTGCGCCGGGTTGCTGAGACTTGTGATCGCATCCATGTCAAGG CTAGGTTGTGTGTTGCCGATGCGACTGATCTTGCAGCGTGGTGGGATGGG GAGGCGTTTGATGCGGTGTTGTTGGATGCTCCCTGCTCAGCGACTGGAGT GGTGCGCCGCCAACCGGACGTGCTGCTCCACCGGCGTGCCGAGGATCTAT TGCCTTTATTAAATATTCAGTCCCGATTGCTGGATGCTTGCTGGCGCACC TTGCGCCCTGGAGGAGTACTGGTGTATGTGACCTGTTCGGTGCTGCGTGC CGAGAACCAGACACAGTTGGAAGCGTTTCTGGCCAGGACGGTCGATGCGT GCGCCGAGGACCCTGGGGATGCGTATGGTCAGCCCGCTGGTCTGGGGCGG CAGCGCTTGCCGGGTGAACAAGGCGGTGATGGCTTTTTTTATGCCAGGTT GATTAAAGAAATATAA >XF1362 tRNA adenylyltransferase ATGAAGAGCTATCTTGTCGGTGGTGCCGTCCGCGACGCATTACTCGGTCA GCCTGCTGGCGACTGCGATTGGGTCGTCGTTGGCGCCGACCCAGCACACA TGGAGAGTCTAGGTTTTAAGGCGGTAGGCCGTGACTTTCCTGTATTCCTA CACCCCAAGACCGGCGAAGAATTCGCACTAGCACGTACCGAGCGCAAAAA CGGCCACGGCTACCGCGGCTTTATCGTCAACGCTGACCCAACAGTCACGC TTGAACAAGATCTGCAACGCCGTGACTTCACCATTAATGCGATCGCACAT GACCAAACCAATGACACATTGATCGACCCCTATGGCGGCGTGAACGATCT TGAGCAACGCATATTGCGCCACATTAGCCCGGCGTTTGCCGAAGACCCGT TGCGCGTACTGCGCGCAGCACGCTTTATGGCACGGTTAGCACCTTTGGGC TTCAGCATCGCTCCTGAAACACTAACAATGATGCGTGAGATGGCTGCTAG TGGCGAACTCAACAGCTTGATACCCGAAAGAATATGGAAGGAATTGAGCC GATCTCTGGCCTACACACAACCAGCGGCCTTCCTCCATACACTACGCACA GTGAATGCACTGGAGGTCGTGTTACCCGAATTAAACGCATTGTATGGGGT ACCACAACACGCAGACTATCACCCGGAAATCGACACCGGCCTCCACCAAG AATTGGTCAGCGATATGGCTGCAAAGCTGGCACCTGGCGATATGCTGATC GGCTTCGCCGCGCTATGTCACGACCTCGGAAAAGCCCTGACACCACGCGC AACATGGCCTCATCATCCGATGCACGAACAACGCGGGATGGCACCGACAC AACAGCTCAGTGAACGCCTGAAAGTCCCCCGGGATTACCAGCAACTCGCA TTGATCGCCTGCCGCGAACACCTCAACGTACACCGTCTGTCAAAGTTGCA TGACCATACCGTATACGAACTGCTGCAACGCTGTGATGCCTTCCGCCGCC CCGAACGGATCGCACAACTTGCGATCGTTTGCGAAGCCGATTATCGAGGG CGCTATGGACATGAAGATGCTAACTACCCACAAGGACAACATTTATGCCG ACTGCACGCCGCAGCGTTGGCAGTCAACGCACGTGACCTTAATAGACAAG ATTTACACGGTACACAAATCGGCGAAGCGCTGGCTCAAGCACGCATCCGT GCGATCAGCTCAACTGGTGTCTATGATGGGGGAACGAGAACAAATTTCTG A >XF1537 50S ribosomal protein L13 ATGACTACGTTCACTGCAAAAAACGAGACCGTCCAGCGCGACTGGTATCT TGTTGACGCCGAAGGCAAAACCCTCGGCCGCCTTGCCACAGAGTTGGCGC GACGCCTACTCGGCAAAACGAAACCTGTCTACACTACCCATGTTGATACA GGCGATTATCTTGTCGTGATTAATGCCGAGAAGGTCGTTGTTACAGGCAA AAAACTCACTGATAAGTATTACCACCGCTTCACCGGATATGTAGGCAATC TTAAGAGTGAGAGCCTCGGACAAGCGCTGCAACGCCATCCGGAGCGAGTA CTTGAGATCGCAGTCAAAGGCATGCTTCCGAAAGGGCCGCTAGGCCGCGC TATGTACCGCAAGCTTAAAGTCTACACGGGCTCCAAGCATCCACACGCCG CGCAGCAGCCACAAGTTCTGGACATATAA >XF2553 initiation factor eIF-2B, alpha subunit-related ATGCACCATCCCTTGCCCCCTGATGACACACTTTACGATCAGGTTCGTCC CATCCTTTGGACCGGCCACTTCCTGAAATTACTTGACCAGCGCAAATTGC CGTTTGTGGTCGAGTATGTGGAGTGCCACAGTAGCGAAGATGTCACACAG GCCATCCGCGCCCTGATCGTTCGTGGTGCACCGGCCATTGGCATTGTTGC AGGGTGGGGCGCCGTCCTTGCAGCGCGTGAGATTGAAGCGGTCGATGGCA TTGAAGCACTGCGCAAGCTAGAACCCGCATTACAACGCCTCCATGCTGCA CGCCCAACCGCGGTCAACCTCGCCTGGGTCCTGGCGCGCATGCGCCGCAC CCTGAGCGCTGCCCACGCTGATTGGCGCCAAGCGATGGCGCGCGAAGCGG AGTCCATTGCGAGGGAGGACCTCACCGCCAACCGTTGCATGGGTGCCTAC GGTGCCGCACTCATTCCAATCGGCAGTGGCGTGCTGACCCATTGCAATAC CGGTTCCTTGGCGACTGCAGGGTTCGGGACCGCCTTGGGTGTCATCCGTG CTGGCATCGCCCAAGGGCGCATCGCACGTGTATTCGCAGGAGAGACCCGT CCCTGGCTACAGGGTGCACGTCTCACCGTGTGGGAATTGCAGCAAGACGG GATCGACGTCACCTTGATTGCCGACTCCGCCGCCGCTCACCTTATGAAAT CTGGCCAGGTGCAATGGGTCATTGTTGGCGCTGACAGAATCTGTGCCAAT GGGGATGCCGCCAACAAAATTGGCACCTACCAACTCGCCATTACCGCTCG CCATCATGGAGTTAAATTCATGGTGGTTGCCTCCGCTGCGACCGTCGATA TGGACACCACCGCTGGAGAGGCGATTGAGATTGAACAGCGCGATCCGGAG GAACTGCTCGGCGTGAGTGGCGTGCGTACCGTGGCCGAAGGTATTGCTGC TTGGAATCCAGTCTTTGACGTCACACCGGGTGCCCTGATTGACGCCATTG TCACGGAGCGCGGTGTGATTCAATCTCCAGATGCGGCGCAGATGCGTGCC ACATTCGGCAACTGA >XF1207 50S ribosomal protein L33 ATGGCAGGCAAGCGCGACAAGATCCGCCTTATTTCTTCGGCTGATACGGG TCATTTTTATACGACTGACAAGAACAAAAAGAACACTCCTGGGAAGCTTG AGTTTAAAAAGTATGATCCTAGGGTGCGTAGGCATGTGATCTACAAGGAA GGCAAGATTAAGTAA >XF1169 30S ribosomal protein S5 ATGGCAGAAGAACGTTCACAACGAAATCGAGATCGTTCTCGTGAAGAAAA AATCGATGATGGCATGATAGAAAAGTTGGTTGCTGTCAATCGTGTCAGTA AAACAGTTAAGGGTGGGCGTCAATTTACTTTTACTGCTTTGACTATTGTA GGTAACGGTGAAGGTAGTGTTGGCTTTGGTTATGGAAAAGCGCGTGAAGT TCCTGTCGCTATTCAAAAATCAATGGAGTATGCTCGTAAAACGATGGCTA ATGTGAGTTTAAATAACGGTACTCTTTGGCATCCTGTGAAGGCTAACCAC GGTGCTGCTTGTGTCTTCATGAAGCCTGCATCGGAGGGTACAGGTGTTAT TGCTGGCGGTGCTATGCGTGCTGTATTAGAGGCGGTTGGCGTGAAAGATG TTCTTGCTAAAGCTATTGGTTCCCGTAATCCGATTAATCTAGTGCGTGCT ACATTAAAGGGTTTGGAGGACATGCAATCACCGACTCATATTGCTCTCAA GCGTGGTAAGAATGTCAGAGGCTTTAGCCATGGTTCATGA >XF1505 ribonuclease PH ATGAATGTTTCACGTCCCAGTGGTCGTCAAGCCGATGCGTTGCGACCGGT GCGTATTGAGCGCGCCTTTACCTGCCATGCTGAAGGCTCAGTGCTAGTCA GTTTTGGTAACACCTTGGTAGTGTGCACTGCAAGTGTGGAGGCCAAAGTG CCCGTGTTTCTGCGCAATAAGGGGGAAGGGTGGGTCACTGCCGAATATGG AATGCTCCCGCGTTCCACCCATACGCGTTCCGAGCGCGAGGCCGCACGCG GTAAACAGGCAGGGCGTACCTTGGAGATTCAGCGTCTGATTGGACGTGCA CTGCGCACCTGTGTGGATCGCACTGCATTGGGCGAGCGCACGATTACCTT GGATTGCGATGTGTTACAGGCAGATGGCGGCACCCGTACCGCAGCGATCA CCGGTGCTTATGTTGCCTTGGTCGATGCAGTGCGTTGTTTAGAGCAGCGT GGTCAATTGAAGAAGTCACCACTGATTGGTGCCGTAGCGGCTGTCTCGGT TGGCATTTACCGTGGTATGCCAGTCTTGGACCTGGACTACCCTGAGGACA GTGATTGCGACACTGATATGAACGTCGTCATGAACGATGAGGGGGGGGTT ATCGAGTTGCAGGGGACCGCTGAGCAGCAGGCATTCCGCCGCGGTGAACT GGACATGTTATTGGCGTTGGCTGAGCGCGGCACCGCCATGCTATTTGACA TCCAGCGTGAAGCGTTGGCCCGCTAG >XF0235 initiation factor IF-2 ATGTCGCAGCAAACCACTATTCGTAAGCTTGCCGAGCTGGTCAATACGCC GGTTGAGAAACTGCTAGAGCAGTTGGCCGGGGCTGGTATGAAGTTCAGTG GTCCCGACCAGGTCGTGACTAGTACTGAAAAGATGAAGCTGCTCGGGTTC TTACGCCGCACACATGGTAAGTCTGATGTGTCGGTTGGAGCTGTCCGTGA GGCACCGAAAAAGATCACGCTTAATCGGCGTCGGCTACAAGAAGTGACTG TTAACGCTGGCCGCAACAAGACTACGGTAAACGTGGAAGTGCGCCAAAAA CGCACTTATGTGAAGACGCCCGAGAGCGAATATCATACGCCGACGAAACC ACCCATAGAGCTGGGTGATGCCGAGCGTGTTGAAATATTGCGTAAACTTG AAGAATCACGCCAGCGCAATCTTGCTGAGCAGCAGCGTTTAGCTGAAGTT GACCGTCAACGTGTTGAGGAGCAGGAGCGAAAGCGCCTTGAAGAAGAACA GGCCGAGCTTGAGCGCCAGAAGACTGAAAGTCCCGTAGTTGAGGAGGTTC CTGTCCAGTCAGATTCCAATTCCGTCAAACCGGTGTCTAAACCAATCTCT GAAGACCGCACGCGTGCGTTGCCGCGAGCAGTGCGGCCAGCACCGGCTGC GCGCCCTTCGGTATCGCGTTCGGATGACCGTAATAGCAATAGTGGGGTGC GGCATAAGCCCCGTGGTTCGCACGTGATTGTTTCGGACGAGGATGATTCT GCGCGCCGTTTTGCGGGTCAAATGCACCTGACGGCTGCTGAACGTGCTCG CCGTGGTAGCAACACACGAGGCAAAGGAGGTGGTTCTCACCGTGGCGCTA CTCATCGAGGTAACGAGAACAGTATTCGTTCTAGTGGTGCTCATGGTTTC GAGCGTCCTACTGCGGCAGTGGTGCGTGAAGTCGCTGTCGGAGACACCAT CACCGTAGCTGATTTGGCTCAGAAGCTCGCGCTGAAAAGTGGTGATATGG TGAAGGCGTTGTTTAAGATGGGCGTGATGGTGACAATCACGCAGACCATT GATCATGACACTGCAGTACTGGTAAGCGAGGAACTGGGTCATAAGGTGAC TCGTGCCAGCAGCAGTGATTTTGAGGATGCTTTACTTGCCCATACTGAAG AAGTGCATGGTGAGCCGGTTCCGCGTCCACCTGTGGTGACGATCATGGGG CATGTTGACCACGGTAAAACTTCGTTGCTTGATTACATTCGTCGCACCAA AATTGCAGTGGGGGAGGCTGGTGGCATCACCCAGCACATCGGTGCTTACC ATGTGGAGACCCCGCGTGGAGTGATCAGCTTTTTGGATACGCCCGGCCAC GCCGCCTTCACCTCAATGCGCGCGCGCGGCGCCAAAATCACGGATATTGT GGTGCTCGTGGTTGCTGCCGATGATGGTGTGATGCCACAGACCAAGGAGG CAGTACAACATGCTAGGGCGGCTGGTGTGCCGCTTATTGTAGCTGTGAGC AAAATTGACAAGTCTACTGCTGACCCACAGCGTGTAAAAAACGAGTTGTT AACCGAGAGCGTCGTAGCCGAGGAATTTGGTGGAGATACGCAGTTTGTCG AGTTGTCCGCTAAAACTGGTGTTGGCGTTGATGCGTTGTTGGACGCAATT TCGATTCAAGCCGAGGTGTTGGAGCTAAAGGCTGTGATTGAAGGTCGTGC GACCGGTACTGTGATCGAGTCTTCGCTAGACAAAGGACGTGGTCCGGTAG CAACGGTATTGGTGCAGCAGGGACGTCTGAAAAAGGGAGATTACTTGGTA TGCGGCACTCATTATGGTCGTGTGCGTGCTCTGTTCGATGAAGTTGGTCA CCAACCACTTGCTGCATCTCCATCCATTCCTGTACAGGTGCTAGGATTGT CTGGCGTGCCTGATGCTGGAGACGATTTCGTAGTTGTTGATGATGAACGT CTTGCTAAAGATGTAGCGCAGCAGCGCGAGGCTAAGCGCCGTGAGTCTCG TCTAGTTACTTCTGCTGGCAATCGCATGGAAGACATCTTGGCTCAGATGG GTAAAGGCGAGAATCAGCAAGTGCTTAACTTGTTGATTAAAGCTGACGTT CAAGGTTCGCTAGAAGCGCTTAAACAGGCACTGGTCGCACTGTCCAACGA CGATATTAGAATTAATGTAATTCATGTTGGTGTTGGAGGTATTACTGAAT CGGACGCCAACTCTGCCGTGACCTCTAAGGCTACTGTGATTGGCTTCAAT GTCCGTGCCGATGCCTCTGCTCGTAAGATCATTGAGGCGAATGGCGTAGA TTTGCGTTATTTCTCTATCATTTACGATGTTATTGATCAGGTGAAGCAGG TCGCTTCTGGTTTGCTTGGGGTTGAGATTCGTGAGGAGATCATTGGTGTT GCCGAGGTACGGGATGTGTTCCGTAGCTCCAAGTTCGGCGCTGTTGCCGG TTGCATGATCATTGAGGGTGTCGTCAAGCGCTCCAAACCAATCCGTGTCC TCCGTGATAACACTGTGGTGTTCGAGGGTGAATTGGAGTCATTGCGTCGC TTTAAAGAGAATGTTGACGAGGTGCGTAACAGTACTGAGTGTGGCATTGG AGTGAAGGCTTACAATGATGTCAGGGTTGGTGATCATATAGAATGTTTCG AACGTATTGAGGTCGCGCGTACCTTGTAA >XF0237 tRNA pseudouridine synthase B TTGCTTATGTCTCGCATTGCCTATTGTCGTTTGGATGGTATTTTGCTGCT TGATAAGCCAGCTGGCATAAGTTCTAACAGTGCGTTACAGATCGCGCGTC GGTTATTGCGAGCTAAAAAGGGGGGGCATACTGGTAGCTTGGATCCACTC GCTACTGGATTGTTGCCGCTGTGTTTTGGAGAAGCCACCAAAATCGCTGG TTTGCTATTGGGTTCTACTAAGGCATACGACGCTGACGTGCTACTCGGCA CCACGACGACGACTGATGATGCTGAAGGGGCTGTGTTACTTACGCGCCCT GTGCCGACGTTGGATGCCGAAATGGTTGATGCCGTGATACCTCAATTGAT TGGTCGAATTAGGCAACGTGCCCCAATCTATTCTGCTCTCAAACAGGGGG GTGAACCTTTATATGCTAAAGCTCGGCGTGGTGAAGTGGTCAATGCCCCG GTACGTGAGGTTGAGGTGCATGCGATCGAATTGCTTGTTTTGGCTACGCC GCGATTACAATTACGTGTGACTTGCGGTTCGGGTACATATATCCGTAGCC TAGTTCGCGATTTGGGCGAAATCTTGGGCTGCGGCGCACATATCACTGCA TTGCGCCGTCGTTGGGTCGCTCCATTTCAGATACCGAAGATGTTGACATT GGATGCATTGGAGCAGGCATTGAGTGCAGGGAGAGATCCTGATTCTCTGT TATTGCCATTGGTTGAAGGATTAGCTGGTTTCCCAGCGCTGGAGCTTGAT GCCCAGCGTCTAGCTTGCTTCAGGCTAGGGCAGCGCTTGCGCGATCATAG TTTCCAGACTGGGCGGGTTGCGGTGTTCAGTCGAGATGGTATCCCTGCGG GGCTGGGAGAGGTGGATAGTGAAGGCTTGTTGGTGCCGCAGCGTCTTTTC AATCTTTGA >XF2649 peptide chain release factor 1 ATGAAACCGACCCTGCGTCGTAAACTGGAAGCACTCGTCGAGCGCCATGA AGAACTCGAACGCTTGCTCTCTGATCCAAAAATCGTCTCTGACACCGACA GATTCCGTACATACTCCCGCGAATTGGCGCAACTCGCACCGATTGCGACC ACACTGGCCGAAGAAACCCGCACCAAAGCCGATCTAGCCGCCGCTGAAAC ACTACGCACCGACCCTGAAATGCGCGAACTTGCCGAACAAGAAATCGCCA TAGCCCAAGCACACCTGACCACACTTGACGAAGAACTTCAGCGACTCCTG ATTCCTCAAGACCCCCGAGACGAATGCAACCTATTCCTGGAAGTACGCGC CGGCACTGGTGGCGACGAAGCTGCAATCTTTGCCGGCAACCTCTTCCGGA TGTACACCCGCTACGCCGAACGCCAGCGCTGGAAAGTCGAAGTGGAATCA GACACTCCCGGTGAACATGGCGGCTATAAAGAAATCATAGCGCGCATTGT CGGACGCGGCGCCTACTCCCGACTTAAATTTGAATCCGGCACACACCGCG TACAACGCGTGCCTGCAACCGAATCCCAGGGACGCATCCATACTTCAGCA GCCACCGTCGCGATTATTCCAGAAGCCGACGAAATCGCAGACATCTCGAT CAACCCCGCTGACCTCAAGATCGACACATTCCGCTCCTCCGGTGCCGGCG GCCAACACGTCAACAAGACCGAATCGGCAATCCGCATCACCCATCTCCCA ACCGGCGTCGTCGTCGAATCCCAAACCGAACGCAGCCAACACGCCAACCG CGACAAAGCAATGAAACGGCTCAAAGCACAACTGATCGAAAGCGAACGCA GCCAACAGGCCACAGCCGAAGCAATGACACGTAAACTGCAAGTCGGCAGC GGCGACCGCAGCCAACGTATCCGCACCTACAACTTTCCCCAAGGCCGGAT CACCGATCACCGTGTCGAAAACCTGACACTCTACGACCTTCCCAACATCA TCGAAGGCGACCTAGACCCCCTGATCGACCGACTACGACAAGAACACCAA GCCGAAGAACTCGCACGACTGAGCAACGCCCCATAA >XF1512 protoporphyrinogen oxidase ATGCCATCACCGATCGCTTTGCTTACCGCCGCCACTGAACGCATTGAGCG AGTCGATGCAGAAGCCTTGCTATTGCATGCCCTGGACTGCGATCGGGCGT GGCTGTTCACCCATGGGGACATCCCCCTGGCAGCAGCAGCGACGGAGAGC TTCCAAGCGCTAGTGGAGCAACGTGCTCGCGGTATCCCCGTGGCTTATCT GATTGGGCGGCGTGGATTTTGGACGCTTGATGTAATGGTGTCCTCAGCAA CGCTGATTCCGCGTGCAGAAACAGAAACGTTGGTCGAACAAGCATTGCAG CGACTCGACCATGCTTCAGAGCGACGCGTGGCCGATCTGGGCACCGGCAG CGGCGCCATTGCACTCGCTATTGCTTGCGAACGGCCGCAGGCACAGGTGT TAGCCACCGATAACAGCGCAGCCGCGCTCGACATTGCCGCACGCAATGCC AGCGCACATGGGCTCAATCATGTGGTGTTTCGGGAAGGCGATTGGTATGA GGCACTGTTGGGGGAACGCTTTGATCTGATCGTCAGCAATCCCCCTTACA TTGCCGTCACTGATCCACATTTGACGCAGGGTGATCTGCGTTTTGAACCA CCATCGGCATTGATCTCTGGTGGCGACGGATTGGACGCACTGCGCATCCT CACTGCAGGGGCACCAGCATATTTACGGCCAGGGGGCTGGTTAGTGATGG AGCATGGTTGGGATCAAGGTGCGGCCATGCGGACATTACTGCACACGGCG GGATTGGTGGCAGTGGCCACCGTGCAAGACTTGGAAGCACGCGACCGCGT CACCGTGGGGCGCTGTCCTGGTTTTTAA >XF1157 50S ribosomal protein L22 ATGGAAGCGACTGCTATATTGCGTGGTGCACGTATTTCTCCGCAAAAGGC TCGTTTGGTTGCCGCTCAAGTTCGCGGTTTATCTGCTGAGTCTGCTGTTA ATATCTTGAGATTTTCGAGTAAGAAGGCTGCTTGCTTGATTAAGAAGGTG GTTGAGTCAGCTATTGCTAATGCCGAAAACAATCACGGTTCTAACATTGA TGCTTTGAAGATCAATACCATAATCGTTGATGAGGGCAGAATGCTGAAAC GTTTCATGGCACGTGCCAAGGGGCGTAGTTCTCGCATTGTTAAACGTAGT AGTCATATTACCGTAGTTGTCGGCCCGGCCAAGTAA >XF2176 leucyl-tRNA synthetase GTGCTGTTCCACGCATCCCCTCTCATGCCCACCGAAGCCAACACCTACGA TCCGCAACGGATCGAATCCACTGCACAGCACTATTGGGACTCCACACACG CCTTTGAAGTCAACGAACACTCCAACAAGCCCAAATACTACTGTCTGTCG ATGCTGCCCTATCCATCCGGCGCATTACACATGGGCCATGTCCGCAACTA CACCATCGGGGACGTGATCAGCCGCTACAAACGCATGACCGGCCACAACG TACTACAGCCGATGGGTTGGGATGCGTTCGGTCTACCAGCCGAAAACGCG GCCATCAAAAACAAAGTGGCTCCAGCGCAATGGACCTATAAAAACATTGA ACGCATGCGCACCCAACTCAAATCTCTGGGCTATGCGATCGACTGGTCAC GCGAATTTGCCACCTGCCAACCCGACTATTACGTACACGAACAACACATG TTTACCCGGCTAATGCGTAAGGGTCTGGCCTACCGCCGCAATGCACTGGT GAACTGGGACCCTGTGGATCAAACCGTATTAGCCAATGAACAGGTCATTG ATGGGCGTGGCTGGCGTTCCGGAGCACCAGTGGAAAAACGTGAAATTCCA CAATGGTTCCTACGCATTACCGACTACGCTCAAGAATTACTAGATGGTCT AAACACACTGGATGACTGGCCGGAGCCCGTCAAAACCATGCAACGCAACT GGATCGGACGATCCGAGGGACTGGAGATCCAATTTGAAGTACGCGATGCC GATAACAATGCATTAGAAGCACTCCGCGTATTCACGACACGTCCGGACAC ACTGCTTGGCGTAACCTTCGTCTCGATCGCTGCAGAACACCCACTCGCCC TACATGCAGCCAAATCCAACCCTGCGTTAGCCGGACTGCTGACCGAGATG AAGCAAGGCGGTCTCTCCGAAGCCGAACTAAAAACCCAAGAAAAACGCGG TATGGACACCGGCTTGAAAGCGATCCATCCGATTACCAACGAACAATTAC CCGTGTGGGTCGCCAACTTCGTACTCATGGCTTACGGCACCGGCGCAGTG ATGGCTGTCCCTGGCCACGACCAGCGTGATCAAGAATTTGCGAATAAATA CGGTTTACCCATCCGTCAAGTGATCGCACTCAAAGAACCTAAAAACCAAG ACGAATCCACATGGGAACCAGATGTCTGGCGTGATTGGTACGCTGATAAA ACCCGCGAATTTGAACTCATCAACTCAGCCGAATTTGACGGACTAGATTA CCAAGACGCATTTGAAGTGCTCGCCGAGCGCTTCGAACGCCAAGGACGCG GCCAGCGCCGCGTGAACTACCGCCTGCGTGATTGGGGCGTGAGCCGCCAA CGCTATTGGGGTTGCCCAATCCCAGTGATTTACTGCCCCACATGCGGCGC AGTCCCTGTACCGGAAGACCAATTGCCTGTCATCCTCCCAGAAAATGTCG CATTCAGCGGGACTGGCTCACCGATCAAAACAGATCCGGAATGGCGCAAA ACGACCTGCCCAGAATGCGGAGGTCCTGCCGAGCGCGAGACAGACACCTT CGACACCTTTATGGAATCGAGCTGGTATTACGCACGCTATACCTCGCCAA ACGCACACGAAATGCTCGACAAACGGGCCAACTACTGGCTGCCGGTGGAC CAATACATTGGCGGCATCGAACACGCCATCCTCCACCTGATGTATTTCCG CTTCTACCACAAGCTCATGCGTGACGCACGGCTCGTCGACAGCGACGAAC CAGCAATCAACCTACTGACACAGGGCATGGTCATCGCCGAGACCTTCTAC CGAAAAAATCCGGATGGTTCCAAAGATTGGATCAATCCAGCAGATGTCAA TGTGGAATGTGACGAACGCGGCCGCATCACCGGCGCAACCCTCATCAGCG ATGGCCAACCAGTACTGATAGGCGCCACCGAGAAAATGTCGAAATCCAAA AACAACGGCGTAGATCCGCAAATCATGGTGACCAAATACGGCGCAGACAC CGTGCGCCTGTTCTCAATGTTCGCTGCACCACCAGAGCAATCGTTGGAAT GGAACGAAGCCGGAGTAGAAGGCATGGCACGCTTCCTGCGGCGACTGTGG ACCCAGGTACACCACCACGCCGCCCATGGTCCGGCCACCGCACTAGATAT CACCGCACTGGACACCGCTCAGAAGGCAATGCGATGTAAGACCCATAACA CCATCGCACGCGTTGAAGACGACTACGGACGCCGCCGCAGCTTCAATACT GCCATTGCTGCGGTCATGGAACTCTCCAACACATTAGCCCGATTTGATGA CACCACTACGCAGAGCCATGCTGTACGTCAAGAAGCACTTGAAACAATGG TGCTACTACTCAATCCGATCACCCCACACACCAGCCACGCACTGTGGCAA ACACTGGGCCACCCCGAAACACTGCTAGAAGATCTTCCATTCCCTAAAAT TGACACCACTGCACTGGTACGCGAAACAACGACCCTAGCAGTCCAAGTCA ACGGCAAACTGCGCGGCACGATTGAAGTTGCCACCGACGCACCGCGCGAG CATATCGAAAACAACGCACGGACCGAACCGAACACCGCCAGATTTCTGGA AGGACTAACAGTACTCAAGATCATCATTGTCCCAGGAAAAATAGTGAACA TCGTTGCCCGCTGA >XF0192 ATP-dependent RNA helicase ATGAACTTCGAAACTTTGGGATTGTTGCCTTCCTTACTGCGTGCTCTTAG CGAGCAAGGTTACGAAATCCCGACCCCAATTCAGCAGCAGGCGATTCCAT TGGCATTAGCTGGCCACGATTTGCTTGCTGCCGCGCAAACAGGGACAGGT AAGACGGCTGCGTTCGGCTTGCCTGTATTGCAACGATTGATGGCCGCTTC ATCTAATGTTGGTGCGGGTAAGCCGCGTGCTTTGGTGCTGACACCGACCC GTGAGCTGGCGACTCAGGTCTACGACAGTCTACGTGGTTACGCCAAGTAT CAACGTGTATCAAGTGCGGTGATTTATGGTGGTGTGGGGATGGGGAATCA GTTGGATGTGCTGCGCCGTGGCGTAGATTTGTTGATTGCCTGCCCGGGTC GTTTGATTGATCATATTGAACGTCGCAGTGTGGATTTGTCAGGCGTCGGG ATTTTGGTATTAGATGAGGCTGATCGCATGCTTGACATGGGTTTCCTCCC CTCAATTAAACGTATCCTCGGCAAACTACCGCGGCAGAATCGCCAAACTC TGCTGTTCTCTGCGACATTTGCTGAGCCGATTAAACAGTTGGCGTTAGAG TTTATGTGCCGCCCACGCGAGGTGATGGTGGCGTCGCATAACACCGTTGC CGAGACCATTACGCATCGTGTGCATCCGGTCGATGTTAGCCGCAAGCGTG AATTGTTGTTGCATCTGTTGGCTCAAGATAGCAGGGAGCAGACACTGGTG TTCGTGCGGACCAAGCATGGCAGTGACAAGCTTGCTACGTTCTTGGAGAA ATACGGAATCAAGACAGCGGCGATCCACGGTAATAAGACTCAGGGCCAGC GTCTGCGTGCCTTAAACAGTTTCAAAGCAGGGCGAGTTACCGTGCTGGTG GCCACTGACATTGCTGCGCGCGGAATTGATATTGACCAATTGCCAAAGGT GATCAATTACGATTTGCCTATGGTGGCTGAGGATTATGTGCATCGCATCG GGCGTACTGGACGCAATGGTGTGCAGGGAGAGGCAATTTCATTAGTCACT CAGGAGGACGCTAAGTTATTGCGTCAGATCGTGCGTTTGCTTGATCGTGA CATGGATATTCGCGATGTACCGGATTTCGAACCTCAAGTCCCGATCCGTT GGGGTAACAGTGCTCCGGGAAAGAGTAAGCAGCCTGCTGGACAGCACCCA CCACGTAAGAGTCAACATCGGCGAGCATTCGGCAAAGCGTCTGTGCAGAC GGCGCATGCTTTAACAAAACAATCAGGCGTACAACATAGCAATGGGTCCC GTAATCGTGATGGAATGTTTCCGGTTCATCAGCGTGGTTGA >XF1445 initiation factor IF-1 ATGTCGAAAGACGATTGCATTGAATTTGAAGGCACTGTCAGCGAGACACT GCCAAACACCACTTTTCGGATCAAGTTAGAAAACGGGCACGAAGTTACCG CTCATATTTCCGGACGCATGCGCAAAAATTACATTCGCATCCTAACCGGC GACCGCGTAAAAATAGAGATGACTGCATACGATCTAACTAAAGGGCGTAT CATTTATCGTATGAAATAA >XF1112 lysyl-tRNA synthetase ATGACTGAGCATCTCCCTACGTCGCAGGTGTCCTTTGACGAGAACGCGCT GATTGCCGAGCGCCGTGCAAAACTTTTAGCACTACGTGCGCAAGGCGTGG CTTATCCGAATGATGTCAAACGCGAGCATTATGCTGCTGATGTGCAGGTA GCATTTGCCAACGTCGAGACATGGACTGCTGAGGCCCTGGAAGCGTCCGG CGATCGCGTCCGTATGGCTGGTCGACTGATGGCTAAGCGTCTCATGGGCA AGGCCAGCTTTGCTCAGATTCAGGACGAGTCTGGCCGCATCCAGCTGTTA ATACAGAGTAACGTGCTTGGCGAGGACAGCTATGCCGCATTCAAGGTGTT GGATGTTGGCGACATCATTGCTGTTGAAGGAGGATTGACCCGCACCAGAA CGGGCGAGCTGTCGGTCAAGGTGAATGTCTTGCGACTTTTGACCAAGGCG TTACGTCCATTGCCTGACAAGTGGCACGGGCTAACTGATGTGGAGCAGCG CTACCGCCAGCGCTATGTTGATCTTATTGTGACTCCAGAATCGCGTGAGA TTTTCATCAAACGCTCCAAGATCATTCGTGCGCTGCGTACTTGGCTGGAT GCGCGTCTTTTCTTGGAAGTAGAGACGCCGATGATGCATTACATCCCAGG AGGTGCTGCGGCTAAGCCGTTTGTGACCTACCACAATGCCTTGGATTTAG AGTTATATCTGCGCGTGGCCCCAGAGTTGTATCTCAAGCGTTTGGTCGTA GGTGGGCTGGAACGGGTTTACGAGATTAACCGCAACTTCCGTAACGAGGG GGTGTCGACCCGGCACAACCCCGAATTTACGATGCTTGAGTTATACGAGG CCTATTCCACCTACCATGAGGTCATGGATCTGGCTGAGACGATGATCCGT GATACTGCACAGTCTGTGCTGGGCACGACCCAGGTGATTTGGGACGGTGC TCAGATTGATCTGGGTCCGATATTCCGGCGTTGGCGCATGGATGAGGCAG TTTGCCATCATAATCCTGAGATCAGCGTTGCCGAATGTACCGATCGTGAT GCATTGCTCCTTCACTGTGAGCGACTCAAGATCAAGGTTAAATCGTCCTA CGGTTGGGGTCGATTGCTGTTGAGTATTTTTGAGGCGACTGTCGAGCATA CGTTGATCCAGCCGACCTTCATTACGGATCATCCGGTTGAAATCTCTCCT TTAGCGCGCGAAAGCGACATCGAACCAGGGTATACCGATCGCTTCGAACT GTTCATCAATGGGAAGGAAATCGCTAACGGTTTCTCGGAATTGAACGATC CGGAGGAGCAGGCGATGCGCTTCCAGAAGCAAGTTGAAGCCAAAGAAGGG GGGGATGATGAGGCCATGTACTACGATGCCGACTATATTCGCGCTTTGGA GTATGGGATGGCGCCAACCGGAGGGTTAGGGATTGGTGTTGATCGACTGG TGATGCTGCTGACCGGTAGCACCTCGATCCGCGATGTGCTGTTATTCCCT TATATGCGTCCAGAACGTTAA >XF2560 30S ribosomal protein S18 ATGTCTAAGTTCTTCCGTCGCCGCAAATTCTGCAAATTTACTGCCGAGGG CATTAAAGAGATCGACTATAAAGATCTCAATACCCTACGCCAGTATTTAA CTGAGAATGGCAAAATCGTCCCAAGCCGTGTGACCGGCACAAAATCGAAA TACCAGCGCCAATTGACAACCGCAGTGAAACGTGCGCGTTTCCTTGCGTT GATTCCCTACACTGATAACCATGATATTTAG >XF2628 elongation factor Tu ATGGCCCAGGATAAGTTCAAACGCACTAAGTTGCACGTAAATGTTGGTAC GATTGGTCACGTTGACCATGGCAAGACTACACTGACTGCGGCGCTGACCA AGGTGGGTGCTGAGCGTTTTGGTGGCGAGTTTAAGGCATACGATGCGATT GACGCGGCACCTGAAGAGAAGGCGCGCGGGATTACTATTTCTACGGCGCA CGTTGAGTATGAAACTGAAGTCCGCCACTATGCCCATGTGGACTGTCCTG GTCATGCTGATTATGTGAAAAACATGATTACAGGTGCGGCGCAGATGGAT GGTGCGATTTTAGTATGTTCTGCTGCTGATGGTCCGATGCCTCAGACTCG TGAACACATTTTGTTGGCTCGCCAGGTGGGTGTGCCTTACATTGTTGTGT TCTTGAATAAGGCTGACATGGTGGATGATGCTGAGTTGCTTGAGCTTGTG GAGATGGAAGTTCGCGAGTTGTTGAGCAAGTATGATTTTCCTGGTGATGA CACTCCTATTGTGAGAGGTTCGGCGTTGAAGGCGCTGGAGGGTGATCAGT CTGAGATTGGTGTACCGGCGATTATTCGACTGGCGGAAGCATTGGATACC CACATTCCGAATCCGGAGCGTGCGATTGATCGTCCGTTTTTGATGCCTGT GGAAGATGTGTTTTCGATTTCTGGTCGTGGCACTGTGGTGACAGGTCGTG TTGAATGCGGTGTGATTAAGGTCGGCGATGAGGTGGAAATTGTTGGCATT CGTCCGACGTCGAAGACGATTGTGACGGGTGTTGAGATGTTCCGTAAGTT ATTGGATCAAGGTCAGGCTGGTGACAACGCGGGTCTGTTGTTGCGCGGTA CGAAGCGTGATGAAGTGGAGCGTGGTCAGGTGTTGGCGAAGCCTGGTTCG ATCAAGGCGCATAAAGAATTTGAGGCTGAGGTGTATGTGCTTTCGAAAGA GGAGGGTGGTCGTCACACTCCGTTTTTCAATGGATACACTCCGCAGTTTT ATATGCGTACAACAGACATTACCGGTAAGGTGTGTTTACCTGAGGGTGTA GAGATGGTGATGCCTGGTGATAATGTGAAGGTGACGGTATCGCTGATTAA TCCTGTGGCGATGGGTGAGGGTCAGCGCTTTGCGATCCGTGAAGGTGGGC GGACAGTGGGTGCTGGCGTGGTTTCGAAGGTTATTGGTTAA >XF0109 tRNA (guanine-N1-)-methyltransferase ATGCGTATTGACGTTATCAGCTTGTTCCCCGAGTTCATTACACAGTGTGT CGGGTTTGGCGTGATCGGTAGAGCACAGGAACGTGGTTTGCTTGATTTAC ACAACTGGAATCCACGCGACTATGCTCAAGGAAATTACCGGCGTGTCGAT GATCGTCCGTTCGGTGGTGGTCCAGGGATGGTGATGCTGATCGAGCCACT GCGTGCCTGCCTTGAAGCGGTACGGGCAGCAGATCCTCAACCAGCGCCCT TGATTTATCTCAGTCCGCAAGGTGTCCTGCTGAACCAGTCCCGCGCGAGG AAGCTGGCGATGCTGCCGCGGATGATATTGCTATGTGGGCGATACGAAGG GATTGACGAGCGTTTTATCACCCACGAAGTAAACATGGAGTTGTCAATTG GCGACTATGTGTTATCTGGCGGTGAATTGGGAGCGGCTGTGGTTGTCGAC GCAGTCATCCGGTTACAGGAGGGGGTATTGAACGACGCCGAGTCAGCGAA GCAGGACAGCTTCGAAGCAGTCGATAGCCTGCTTGATTATCCCCACTACA CTCACCCATCCAATCATGCTTTTGGGAATGTTCCCGAAGTATTACGCTCA GGTAACCATGTTGCGATCACGCGTTGGCGTCGCCAGCAGTCGCTGCTGCG CACTTGGTTGCGGCGACCAGACCTGATAGATGAAGCGAGACTGTCGAAAG CTGATCGCTTACTGCTTGATGAGATTAAGCGCACACATCCTATGGATACG GATCAAAAAGCGTCAGTCTCTTGGCGTGGAGTATAG >XF2423 50S ribosomal protein L27 ATGGCACACAAAAAAGGCGTAGGTTCCTCGCGTAACGGCCGCGACTCTAA CCCGAAATACCTCGGCGTCAAACTCTTCGGTGGACAAGCCATTGAAGCCG GGAACATTATTATTCGCCAGCGTGGTACGCAGTTTCATGCGGGTGATGGT GTTGGTTTGGGGCGCGACCATACGTTATTCGCATTGGTGGATGGTACGGT TGCGTTTTCGATCAAAGGCCCGAAAAAGCGTCGTACTGTTAACGTCATTC CAGCGTAA >XF2203 elongation factor P GTGATGAAAGCCAGTGAGATGAAAAAGGGGAGCATTGTTGAGTACAACAA TGGGACGTATCAAATCAGGGATATTCAGCGTAGTTCTCCGCAGGGACGGG GCGGCAATGTGCGGTTCCGCTTTGTGATGTATAGCGTGCCGGGCGGTAGT AAGTTGGAGGCGAGTTTTGATGCCGATGAGATGTTGACTGCGGTGGAGTT GCTGCGTCGTGAGGCCAGTTTTTCGTACAAGGACGGTGAGGCGTTTGTCT TTCTGGATGAGGAGGATTACACGTTATATACGTTGGAGGCGGAGGCCATC GGGGATAACGCCGGGTATATCAGTGAGGGGCTATCTGGGTGTTATGTGCA GCTGATTGATGCGTCGCCGGTGGCGTTGCAGTTGCCGCAACATGTGGTTT TGGAGGTGGTCGATACGCCTCCGGAGTTGAAGGGGGGGACGGCGACGAAA CGACCCAAACCGGCCAAGCTCATCACTGGGATTGAGGTGATGGTGCCGGA GTACATCACGACTGGGGAACGTATTTTGGTCAATACGACAACTGGGGCGT TTGGTGGGCGGGCGAGCTGA >XF2607 ribonuclease E ATGAAGCGAATGTTAATCAATGCTACACAGGCCGAAGAGCTTCGCGTAGC AATCGTGGATGGCCAGAGCCTGTACGACATCGATATTGAGCAACCATCTA AAGAACAAAAAAAATCCAACATCTATAAAGGCCGTATCACCCGGCTGGAA CCGTCTCTCGAAGCCGCATTTGTTGATTACGGCACAGATCGCCACGGCTT CTTGCCGTTAAAAGAAATCTCCAAAGACTACTTCCAAGCCGGTCTGGACC ATCACAAAGCTGGTATCCGCGAGTTATTACGCGAGGGTCAAGAGATCGTC GTTCAGGTTGATAAAGAAGAACGTGGCAACAAAGGAGCCGCCCTGACCAC GTTCATTTCACTGGCCGGTCGCTACATGGTGTTGATGCCAAACTCGCCAT CAGCAGGCGGAGTCTCACGTCGCATTGAAGGCGAAGATCGCGCTGCGCTG AAAGAAGCACTGGAAAAACTGAACATTCCCAACGATATGGGAGTGATCAT CCGCACTGCTGGCGTGGGCCGTGACACTCAAGAGCTACAATGGGATCTGG ATTTTTTGCTGCACGCTTGGCGCGCCATTGCCGAAGCTGCATTGAGCAAG CCTGCTCCATTGCTCATCTACCAAGAATCACGCCTCATCATCCGCGCCCT ACGCGACTATTTCCGTGCTGACATCGGCGAAATTTTAGTCGATACAGAGG AAATGTATCAGGACGCCCACGAATTCATGCGGCACGTGATGCCACAAAGC CTTCGCAAGCTCAAATACTACAAAGACGACATCCCTCTGTTCAATCGCTT CCAGATCGAATCGCAGATCGAAGGTGCCTACGAACGTAACGTACGCCTCC CCTCCGGCGGCTCCATTGTGGTTGATCAAACAGAAGCGCTCACTGCCATT GATGTCAACTCTTCACGAGCTACAAAGGGTAACGACATTGAGGAAACCGC ATTCCAAACCAACCTGGAAGCAGCCGATGAAATCGCACGCCAACTGCGCC TACGCGATGTAGGTGGGTTAGTAGTGATTGACTTCATTGATATGTCCTCT TCAAAACACCAACGTGAGATCGAAACCCGTCTACAAAACTGTCTCAAATA CGACCGTGCACGCGTGCAGCTTAGCCGCATCTCACGCTTCGGCCTGTTGG AGATGAGTCGTCAACGCCTACGCCCAAGCCTGGGTGAATCCAGCCAAATC GTTTGCCCATACTGCGACGGACACGGGCGGATGCGCAGCATCGAATCGCT ATCACTATCGATCATCCGTATTGTCGAAGAACACGCGATGAAGGAAAACA CTGGACAGGTGCTTGTCCAGACACCAGTAGAGATCGCCAACTACCTGCTC AACGAGAAGCGCCGTGCAATTAATGAGATCGAGAAACGCCATGACGCACC GATCATCATCATTGCTGACGAGCAATTACATACCCCGCACTACGAGGTGA CTCGTCTACGTGAGAACGAATTAAGCGAGGAAACAGGCAAACCAAGTTAC CAACGCAACACCCCACGCAAGCTACCGGTACATGCACTCACCAAATCGCA ACTTAACATCCCGCCAGCACCAGCAGTGAAATCGATCCCCCCACCGCAAC TGGCACCAACTCAAGAAAACATACCAACAATCCGAGAGCAATCCGCTGAG AACCGAGCACACCCTATTCCGGAACTTGTATCCAGCCTAGCGAGTTGGCT AAAACGTATCTTTGGAAATACTGACAAGCGACAGACCGCAAGTAACAGCT CGCATCCTGCCCCCCTGCAACAGAACCGCAATGGCAATGTGCAACGCAAC GAACGCAACCACCGTGATGGCCGAATCGCTACTAGCAACACCCAACCACA GCAGCAAAGCAGCAACCACCGCGACAATTATCGCCATAACGAAAGCAACA ACTATCCGCAAATCCAGAACCAATCCACAGCAGACACAAACGGGAAATTG CGGAACGAATCACAAACACCCAAATCGTCAGCATATGTGTCGAAACAACC CCAGATGCCAAGGCAACCCCAACCACAGCTCCCAAAAACACCAAGGACAC AATCGCAACCGACACAAAACAGCACGAAAACGACATTAGACAAACAGCCT GCACCTGTACTCTATGGTGAAGACAACACGCTACAGAAAGCAAAACCGAT CCCGTTAACTGCGGAAGCGGTGCTTACTAACATGCCGGCACCTAGCATGA CAGCCACACCGTCAGGTAAAGACCAGAATGCTTTACCAACCACATCGAAC GTGACTCAAGACACATCAAACGCGCTGATCGAAGCCCAATCAACCACAAA GACGAACATCGATACGAATACTGACATTGAACCGCAACAAAACAATCATG AAGGTACTGCGAACAACGACGGCAGCAACCGGCGCCGCCGTGGTCGTCGT GGTGGTCGTCGTCGTCGTCGGAATACTTCTCTCGGTAACGAAACCAATGC TGTAAGCGAAAGCAATAGCATCAAACTATCCAACGACACTGAAACCGACA ATGCGGACAATATCGAAGCACCCCAAGCCTTGCGCCCTGCCATGCAGGAA AACAAGCGCCAACCGGAGTTTGAGTTCGATGACCTAGCACCCGCAGCTCC GATCACCGCACCATTACGTAAGGCAATAGCTGCTGAGAGAGAGGAGATAT CCGCTGATCTCACAACTACAGCCCCTCAGAGCATGATGGAAACCACGTCC CGAACGCATGTCGCCTCACAAATGGCTCCCCAAAGTGAAACCAGTGCTGC GTCAACCACGTCTCATACCTCTGTACAAGCTACTACGACGCATACGCATA AAGATGTCGTTTCTGATTCCCCGTCAAGAACACCTTACAAGGCTCACTCC AACACCACCAGACACACTTCGGGGCGTCGTCTGGAAACTCTCTCTACGGC ACATACCCCTGCCAAGGCATCTCCATCAGAGCATATAACACCAACATCAC GCTCAAACGCGAATGCTAAAACCACAAAGACAGAGATACCAAACAAACCA ACCAACGCGAACAGCGATACGGCAGCTCGCCCAACAGCCACTGATGTGCT GGTTGTAACGAATCAACCAGTGATGGCAACCAAGCCTTCAACAACGATAG AAAAAGCACAAACCAAAGTCGTTCCCTCCACTACATACAATAATGAACAC ATCGAAACGAAGCGAAAGATCATTGCAACGGAATCCGAAACAACCCAACC ACCAGTACGAAAGCCACGCTTGCCGATGCAAAATCCACTACCCAAGGTAG TCGCTCCACTAGAAGACAAGAAGCAAGCCCCATTCGTGGAAAATACAACC CAACGTAATATTAATAACGCGACCACAACATCGCAGAACGACAAATTATT AGATTTTACAAAAAACAACGAAAAAAATAGTGACAACAATACACTATGA >XF2629 elongation factor G GTGGTTCGTGCCACTCCTATTCATCGTTATCGTAACATTGGCATCATGGC TCATATTGATGCTGGTAAGACCACTACCTCCGAGCGCATCCTTTTCTATG CTGGTGTTTGTCACCAAATGGGTGAAGTTCATGATGGTGCTGCGGTGATG GATTGGATGGAGCAGGAACAGGAACGTGGCATCACTATCACTTCCGCTGC GACTACTGTGTTTTGGTCCGGTATGGATAAATCTATGCCGCAGCACCGTT TTAATATCATTGATACCCCTGGGCATGTTGACTTCACCATAGAAGTGGAG CGTTCCCTGCGTGTGCTTGATGGCGCGGTATTCGTACTATGTGCCGTCGG CGGTGTGCAGCCGCAGTCCGAGACAGTGTGGCGTCAGGCTAATAAGTATT TTGTGCCACGCATGGCTTTCGTCAATAAGATGGATCGTACCGGTGCTAAC TTTGATAAAGTCGTCGAGCAATTGAAGGCGCGTCTAGGTGCTTATCCTGT GCCTATGCAAGTGCCGATTGGTGCAGAAGATGGTTTTGAGGGGGTGATTG ACCTTCTGAAAATGAAAGCTATCCATTGGGATGCTGCGTCGCAGGGCACT GTCTTTGAATACCGTGATATCCCCATTGAATTAGTTGATAAAGCTTCAAA GGCGCGTGCCTTTATGGTCGAGGCCGCCGCAGAGGCGACTGAAGAATTAA TGGATAAGTACCTGAATGAAGGTGAGTTGAAAGAACAGGAAATATTACAA GGGCTCCGTGAGCGTACATTGAAGGTTGAAATTATACCTGTGTTTTGTGG TTCAGCATTCAAGAATAAGGGTGTGCAAGCGATGCTTGATGGCGTCATAC ACCTGTTGCCTTCGCCAGCTGATCGCCCTCCGGTGCAGGGCTTGGATGAA AAAGGGAACGAATGCCGCTGCAAGGCTTCGGATAGCGAGCCTTTTTCGGC TTTAGCCTTCAAGATTATGACTGATCCATTTGTTGGTTCGCTGACATTCT TTCGTGTTTACTCTGGTGTACTGAATTCTGGTGACCAAGTGTATAACTCC GTCAAATTGAAAAAGGAACGTGTGGGACGGATTTTACAAATGCACTCCAA CCAACGGGACGAAATAAAAGAAGTTCGCGCTGGTGACATCGCTGCTGCGG TAGGTCTGAAGGATGTCACAACTGGCGATACTCTATGTGACCAAAACCAT ATCATCACTCTAGAGCGGATGATTTTCCCTGAACCGGTGATTTCAATGGC GGTTGAGCCTAAGACTAAATCCGATCAGGAAAAAATGGGAATGGCTCTGG GACGTCTTGCGCAGGAAGATCCTTCTTTCCGTGTCAAGACTGACGAGGAA TCAGGTCAAACCATTATTTCGGGTATGGGTGAACTGCATCTAGACATTAT TGTTGACCGTATGCGTCGTGAATTTAATGTCGAGGCCAATGTTGGTAAGC CACAAGTAGCTTATCGTGAGACGATCCGTAAGAGCGATGTGAAGTCGGAT TATAAACACGTAAAACAGTCGGGTGGTAAGGGTCAGTATGGTCATGTGGT GATTGAGATTTCGCCAATGAGCGATGTCGATAAACAGCATCCAGATGTGA AGGGTGATTTTTTGTTTATTAACGAAATTACCGGCGGTGTTATACCTAAA GAATTTATCTCACCGATTGAGAAGGGATTGCGTGAAACTATTACCAGTGG TCCGTTGGCTGGTTTCCCGGTCGTCGGAGTGAAAGTTAAGCTGGTTTTCG GTTCATACCATGATGTTGACTCCTCAGAAATGGCGTTTAAGCTTGCTGCC TCAATGGCGTTCAAACAGGGTTTCGCTAAGGCTAATCCTGTGTTACTCGA GCCAATCATGAAGGTTGAAATTGTCAGTCCTGAAGATTATTTGGGGGATA TCATGGGTGATGTAAGTCGTCGCCGTGGTGTTTTGCAAGGGCAGGATGAT AGTCTTTCGGGTAAAGTTATCAATGCGATGATTCCATTGGGCGAGATGTT TGGATATGCCACCTCCCTGCGTTCGATGACGCAAGGACGGGCTACTTTTG CGATGGAATTTGACCATTACGAAGAGGCACCTGCCAACATTGCCGATACT GTCATCAAGAAAACTTAA >XF0549 methionyl-tRNA synthetase ATGCCATACTCGCACCCCCTGGTACCACTCTCCTTCATGACCACAGCACT TGTCACCACCGCCCTGCCTTACGCCAATGGTCCACTGCACCTCGGCCATC TGGTCGGCTACATTCAAGCTGACATCTGGGTACGCGCACGGCGCCTGGGA GGACACAACACCTGGTTTGTTTGCGCCGACGACACCCACGGCACCCCGAT CATGCTGGCCGCAGAAAAAGCGGGCATGCCGCCGGAAGCCTTTATCGCCA CCACCCAAGCCAGCCATGAACGCGACTTTGCGGCCTTCAACGTCGCCTTT GACCACTACGACTCCACACATTCCCCCGTCAACCGCCACCTGACCGAACA GTCTTACCTCACACTCAAACAGGCCGGACATATCACATGCCGCTCGGTCG CCCAATTTTACGACCCGGCCAAAGGCATGTTCCTCCCCGACCGCTACGTC AAAGGAACCTGTCCAAACTGCGGCGCAACCGACCAATATGGCGACAACTG CGAAGCATGCGGTGCCACCTATGACCCCACAGAACTCAAAAACCCATACT CGGTGATCTCCGGCACAACCCCAGAACTGCGCGACTCAGAACACTTCTTT TTTGAAGTGGCCCACTTCGACACCTTCCTACGCCATTGGCTGAGCGGCGA TGTCGCCTTGCCTAGCGTCAAAAACAAACTCAAAGAATGGCTAGATGCCA AAGGCGGCCTACGCCCCTGGGACATCTCCCGCGATGCCCCCTACTTCGGC TTCGAAATCCCAAACCAGCCAGGCAAGTACTTCTACGTGTGGCTGGATGC ACCGATCGGCTACTTATGCAGCTTCAAAACCTTATGCACACGCATTGGCG AAGACTTCGACACACACCTACGCAGCGGCACCACGACAGAATTGCATCAT TTTATCGGGAAAGACATCGTCAACTTCCACGCCCTGTTTTGGCCGGCAGT GCTGCACGGCACCGGCCACCGCGCCCCCACCCGGCTCCATGTCAACGGCT ACCTGACTGTGGACGGTGCCAAAATGTCCAAATCGCGCGGCACCTTCATC ATGGCGCGCACCTACCTTGATGCTGGCTTGGAACCAGACGCACTACGCTA CTACTTCGCCGCCAAATCCTCCGGAGACGTCGACGACCTGGACCTTAACC TGAGTGACTTCGTTGCACGCGTCAACGCTGACCTAGTCGGTAAACTCGTC AACCTAGCCAGCCGCTGCGCAAGTTTCATTGGCACGCGTTTTAACGGACA ACTCGCCGACACCCTGCCAGACCGCATCCAATATGATCAATTCGTTGCAG CACTGACCCCCATCCGTGACGCTTACGAACGCAACGACACCGCCAGCGCG ATCCGTCAAACCATGCAGCTAGCTGACGAAGCCAACAAATACATTGACGA GACCAAACCCTGGATCATCGCCAAACAACACAATGCCGACGCACAGCTAC ACGCCGTCTGCACACAAGGATTGAACCTGTTTCGCGTCCTGATCACCGCA CTCAAACCAATCCTGCCGCACACCAGCATCCAAGCGGAGACATTCCTCGC TGCACCAGTGACGGCATGGCAAGACGTCAACCAACCACTGATCGGTGGCC ACACCATCCACCCCTACTCCCCCTTATTCACCCGCATCGATAAAAAAGTC ATTGAAGTGATGATCAACGCCTCCAAAGACACCCTCGCCCCTCCCCCTGC TTCGGCCAAACAACAAAACGCATCCATGTCAAACACAGCACCACCACCCA CTGCGGAAAAACCGGAAACAACTGCTCCCACCATTGGTATTGACGACTTC GCCAAACTCGATCTACGCATCGGCAAAGTACTCGTGTGCGAATACGTTGA AGGGTCAGACAAACTACTGCGCTTTGAATTGGATGCTGGCCCCCTGGGCA AGCGCCAGATCTTCTCAGGAATACGCGCCAGCTACAGCAACCCAGAGACA CTTATTGGCCGCAACGTCGTGTTCATCGCCAACCTAGCACCCCGCAAAAT GCGCTTTGGGATCAGCCAAGGGATGATCCTCTCAGCCGGCTTCGACAGCG GTACGCTGGCACTGCTAGATGCTGACAGCAGCGCCCAACCCGGCATGCCG GTGCGTTAA >XF0134 valyl-tRNA synthetase ATGTCCCAGTTCACCTCCAGCTATGACCCCACCTCTTTTGAAGCGCGCTT ATACGCCGCCTGGGAAGCTGCAGGCCACTTCAAACCATCCGGCACCGGCC AGCCCTATACCATCCTGCTGCCGCCGCCGAATGTCACCGGCACCCTGCAT ATGGGCCATGCCTTCCAACAAACCTTGATGGATGCGCTGGTGCGCTATCA CCGTATGTGTGGAGATGACACCCTATGGCAAGTGGGCACCGACCATGCCG GTATCGCCACCGAAATGGTGGTCAGCCGGAATGTGGTGCTCGAAGGCCAC GGAGAAACCCGCGACTCGCTGGGCCGCGACGGCTTTATCAACAAAGTGTG GGAGTGGAAACAGCAATCCGGGGACACCATCGAACGGCAAATGCGCCGCC TCGGCGTCTCCGCCGACTGGTCACGCAGCACCTTCACCATGGACCCGCAG CCATCGGCGGCGGTGACAGAAGCGTTTGTACGCTGGTACGAAGCAGGGTT GATTTACCGCGGCCAGCGTCTGGTCAATTGGGACCCGGTGCTGAAAACCG CCATCTCTGATTTGGAAGTGGAGAATGTCGCAGAAGAAGGCATGCTGTGG TCGATCCGCTATCCACTGAGCGACGGCGTCACCTACGAACACGTCGAGCA TGATGCCGCAGGGAATGAAATCCTGCGCGAGACCCGCGACTCCCTCATCG TGGCCACCACCCGTCCGGAAACCCTGCTCGGCGACACCGCAGTAATGGTG CATCCTGAGGACCGGCGCTACACAGCATTGATTGGTAAAACCGTGACATT GCCGCTGACCGGACGCCACATCCCGGTGATCGGCGACGCCTATGTCGACC CCACATTCGGCACTGGCGTTGTCAAAGTCACCCCGGCGCACGACTTCAAC GACTATCAAATCGGCCTACGGCATCGCTTACCCATGATCCAGGTGCTGGA CGATGCCGCGTGCATTGTCTCCAAAACAAGCATCCAATCCGGCATGCCCT CCGGTGCCACCAGCGACACAACGAACACCCCCAGCGATCCAGAGGCCAGC AGCGCCGCCAATCAACATGACACCCTGGTCATGCCAGCGCATTTGGCGGG CCTGGACCGCTACGCAGCACGCAAACAGATATTGGCCGATTTGGATGCAC AAGGCCTGCTCGTCGCGGCGATACCACATACCTTGCAAGTACCGCGTGGC GACCGCACCGGCCAGGTAATTGAACCCTATCTCACAGCGCAATGGTTTGT AAAGATGGAGACGCTCGCCGCACGTGGATTAGCGCTTGTCGAGCGCGGCG CCGTGACATTCGTCCCGCCAAACTGGATCAACACCTACCGCCACTGGATG GAGAACATCCAAGACTGGTGCATCAGCCGCCAACTGTGGTGGGGCCACCG TATCCCGGCCTGGTTCGACACGCAGGGAGGCGTCTATGTCGGCCGCAGTG AAGCAGAAGTCCGTGCCAAACACGCCCTCGGCCCCGAGGTGACACTCACC CAGGACAACGATGTATTGGAAACCTGGTTCTCCTCGCAACTGTGGCCCTT CTCCACCCTGGGGTGGCCCGATCCAACGGCCATGGCCGAACACGGCTACG CGCGCTATTTGCCTTCATCGGTGTTGGTCACCGGATTCGACATTATTTTC TTCTGGGTGGCCCGCATGATCATGGCCACCGACCATTTCACCGGAAACGT GCCATTCCACGATGTGTACATCACCGGCCTGATTCGCGATGCCCAAGGCC AGAAAATGTCCAAATCCAAAGGCAACGTGCTCGACCCGCTGGACATCATC GACGGCATTACCCTGGATGACCTGGTCGCCAAGCGCACCACCGGACTGAT GCAACCCAAGCTTGCCGAAAAAATCGCCAAAGCCACACGCAAAGAATTTC CTGAGGGCATCGCCCCGCACGGGGCCGATGCGTTGCGCTTCACCATCGCG GCACTAGCAACCCACGGGCGCGATATTAAATTCGACCTTGGCCGCGCCGA AGGGTACAAAAACTTCTGCAACAAACTGTGGAACGCCACCCGTTTTGTGC TGATGAACACCGCAGACGACACCGCCCACTCACCCGCGCAACACCAGGCG GGCCAAGACGGGCAGGACGCACCCCGCACTCCGCAACCGCGCACCGACGC CGAACAATGGATTCTCTCGCGGCTGACCGCCATCACCGCAGAAGCACATG CGCAATTTGCCGCGTACCGCTTCGATTTATTGGCGCAGGCCTTGTACGAA TTTGCGTGGAACGAATTTTGTGATTGGTTCGTCGAACTGGCCAAACCCGC ACTCAATAGCGATGACACCCAGGCCGCCGCCAGCACCCGTCACACCCTGC TGTACGTGTTAGAAACCCTGCTGCGTCTGCTGCATCCGCTCATCCCGTTT ATCACGGAAGAACTCTGGCGCCAGGTGGCGCCGCGCCTGGGCATCCAAGC AACAACGCTGATGCTGCGCCCCTATCCACAGCCACAGCAGCTAGAGACCG CGGCCTTCGCCAACGCCGCCGCCGATGTCGAATGGCTAAAAATCATGGTC AGCGCATTGCGCCGGATACGCAGCACCCTCAACGTGCCACCTTCGCGGCG TGTGTCCCTCCTGCTCCAAGGAGACCAGGAAGTTGATCGCCGTCGTATCA CGCATTTCGCCACTGCATTGCACTTTTTGCTCAAACTCGAACACATTGAC TGGCTGGGCGCCGATAGCGCCGCGCCACCATCGGCGACAGCCATTGTTGG CACGTTAAAACTGCTGGTGCCGCTGGAAGGGTTGATCGATGTGGATGCCG AGCGCGTGCGCCTGGATAAAGAAATCAAACGTGTCGAAAGCGAAATCGAT AAAAGCAACGGGAAATTGAGTAACGCCGTCTTTGTGCAAAACGCCCCTGC GGCGGTAGTCGAGCAAGAACGCAGCCGCCTCACGGAGTGGACGACACAAC TCAACGGGCTACGCGAACGACGCGCCACACTATGA >XF1154 50S ribosomal protein L23 ATGGTTGGTATGAACAGTAGTTGTGAAAAAATATTCGGCGTACTGCGTTC TCCTCGAGTTTCAGAAAAGAGCTCTCGTCTTCAAGAGATTTCTAATGTCT ATGTTTTTGAAGTGTCGAGTGATGCTACTAAGGTTGATGTGAAAAATGCA GTTGAGCGTCTTTTCGATGTAAAGGTCGGTGTCGTTAGGGTGTTGAATGT AAAAGGTAAAAGTAAATCCTTTCGCAATCGTGGTGGCTCTCGTTCTGGAT GGCGTAAAGCTTATGTTCGTTTAATCGATGGGCAATCCATTGATGTTGCT GCTAACGTTTGA >XF1111 peptide chain release factor 2 GTGACCCGTGAGCTGGAAAGCCCCACGATCTGGAACACTCCAGACTATGC GCAGCAACTGGGCCGGGAACGCTCGCTACTGGATAAAACCGTCACCGGCA TTGCTCATGTGCTGAACGGGGTCGCTGAAGCCAGCGAATTTTTGGATCTG GCTGAAATAGAGCAAGATCAGGAGATGTTGCAGGCTGTCCTGAACGACGT GGACATCTATCAACTTCAGGTCGAGAAACTGGAGTTTCAGCGCATGTTTT CCGGGAAGATGGACGGTGCCAATGCGTTTGTTGACATCCAGGCCGGTGCT GGAGGGACCGAGGCCCAAGATTGGGCAGAGATGCTGCTGCGTATGTATTT GCGTTGGGCCGAGGGGCGTGGTTGGAAGGCCGAATTGCTGGAAGTTTCTG GCGGTGAAGTGGCCGGCATCAAATCAGCCACGTTTCGCGTGGAGGGCGAT TTTGCCTACGGTTGGTTGAAGACGGAGACTGGGGTGCATCGTTTGGTGCG TAAGTCGCCATTTGATTCGGATAACCGTCGCCATACGAGCTTTACCTCTG TTTTTGTTTCCCCGGAGGTCGATGACAACATCGACATTGAGATTAACCCG GCCGACTTGAAGACCGATGTATACCGCTCCTCTGGGGCTGGTGGTCAGCA CGTGAACAAGACGGAGTCTGCAGTACGTATCACCCACGTACCGAGTGGGA TTGTGGTGGCCTGCCAGACGGAACGTAGTCAGCATGCTAACCGTGATCGT GCGATGAAGATGCTGGCGGCCAAGTTGTACGAGTCGGAGATCCAGAAGCG GAATGCTGAGAAAGACGTACTGGAGGCCTCTAAGTCCGATATCGGCTGGG GGAGTCAGATTCGCAATTACGTATTGGATCAGAGTCGGATTAAAGATCTG CGTACTGGTGTTGAGCGCAGCGATACTCAGAAAGTACTTGACGGCGATTT GGATGAGTTTATCGAAGCGAGTTTGAGGGCTGGTTTGGAAGCAGGCGCTA AACGCGCCGATGCATGA >XF1167 50S ribosomal protein L6 ATGTCACGAGTAGCTAAGAAGCCCATTTCTGTTCCGAAGGGTGTAGAAGT TAGTGTGCGGTCTGACATGCTAACTGTTAAGGGAGTGAAAGGTGTTTTAA CTTTTCCTAAGTCGGATAATGTAAACGTTGTTGTGGATGGCGATATCCTT ACATTGTCGGCTAATGATCCTTCTCATGTTTCTTTGGCTGGTACAGTCCG TGCTATTTTGTCAAATATGATTAAGGGTGTTTCTATAGGCTTTGAGCGTA AACTTGAATTGGTTGGTGTGGGTTATCGTGCTTCAATGCAAGGCGAAAAT TTGAATCTTTCTCTTGGTTTTTCGCATCCATTGGTGTTTGTTCCCCCTGA AGGCATAACTTTGTTGACTCCGAGTCAAACTGAAGTTGTGGTGCAGGGGA TAGATAAACAGCGTGTTGGTGAAGTTGCTGCTAAGATTCGTAGTTTTCGG CCGCCTGAGCCCTATAAAGGAAAAGGCTTGAAGTATGCTGCTGAGGCTAT CATGCGCAAAGAAGCTAAGAAAGCGTGA >XF1160 50S ribosomal protein L29 ATGAATATTGAACAATTTCGCGCTAAATCTGTTGATGATTTGAAGGCTCA TTTGATTGAGTTGCGTAAAGAGCAGTTTTCGATGCGTATGCAACTGGCTA TGGGTCAATTTCAAAAGACTCATGAAATCCGTAGAGTGCGTCGTAATATT GCTCGTGTGAAGTATGTATTGTCTTGGATAAATAGGGCGTCGGCATGA >XF0751 ribonuclease D GTGCCGCATTGGATCCAGCACCCCGACACTCTCGCTACCTGGTGGGATCG AAAACCAACCCGAATCGGTATGGATACCGAGTTCATCCGAGAACGCACTT TTTGGCCAGAATTAGCGCTGGTACAGATCGCAATTGAGGATGAAATATTA TTGGTGGACCCACTGGTCCCCGGCATGACCGACGCGCTGGGACTCTGGTT GGCCGCTCCGAATGTCATCAAAATCATGCACAGCGCCAGTGAGGACTTAA TTGCATTCAAGTATGCCTGCGGTGTGCTACCACGGCCGCTGTTTGATACC CAAATTGGGGCTGCATTGACGGGCTTGGGTGGTGGGATGGGTTACCAGAA GTTGGTGGCCACGGTTACCAATGTGGCATTGGAAAAAGGCGAAACACGCT CAGACTGGATGCACCGACCACTCACGCCAGCGCAACTAGACTACGCGGCT AACGATGTCCGCTATTTATTTGCATTGCATGACACGCTCACAGAACGGTT AGCAGAAATGAGCCGCAGTGCTTGGTTGGAAGAGGACTGCACACGATTGA CCGACAATATCGAACAAAATGAGAACGAACGCTGGCCGCATCTGGCAATA CATTCAGCGCAACTTCTTGACGCTCCAGCACAGTACCGCCTGCTGCGCCT ATTGCGCTGGCGGGAGACATCAGCACGCACCAGAAACAAACCACGCAACT GGATACTGAACAACGAACTGGCCAGCATTCTGGCAAGGTTCCCTCCTCCC AATCTGACCGAGCTGCGATACCAGCTTAAAAAGTTCAATAAATCCTGGGA CCCGCTCGCCACTCAAATACTGGAAGCGCTACACACTCCTGTTGCCGATG AAGCGCAAGCGCCATTGGCAACTGCACCCAGCGATGCAGACAAAGCGTTG CTCAAGCAACTACAGAAAATCGTCGCCGAATGTAGCTATGATCTAGGTTT ACCTGAGGGCATCCTGGCGTCGCGTCGTCATTTAGAAGCTCTCATCGAAC AACGCCGATGGCCAAACTCACTCGGCCAATGGCGCCGCTCTCTGCTCGAA ACACAGTTACAACCATTATTATCTATGTCAGATACCTAA >XF0236 ribosomal-binding factor A GTGCCTAAGAAATCATTTCAGCGTGCTGAACGTATTTCTGTCCAGATCCA CCGCGATTTAGGTGCTTTGGTGCAGGCCGCTGTGCGTGATCATGGGCTGC CTTCTATGAGTGTGTCTGATGTTGAGGTGACTCGCGACATGGCGCACGCT AAGGTGTTCGTGACTGCTCTTCAAGCAGAGCGATCATTCGAGGCAGTGGC AGGGTTGAAAGCGTTGGCACGCGAATTGCGTATGCAATTAGCGCACACCA TGAGACTGCGTTTCGTGCCTGAATTGCACTTCCATTACGATGATTCTTTG GATCGTGGTGAACGCATTAATACATTGTTGCGTGACCTGATACCACCGGC TGATGCGGAAAAAGATGAGTGTGGTTAA >XF2635 50S ribosomal protein L10 ATGACTGCGATGCGTAAGCAGGCTCGAGAGAGTGGTGTGTATCTGAAAGT TGTTAAGAATAAGTTGGCTGCGCGTGCCCTTGGAGATACCGAATACGCTG TTATTAAAGAAAAGTTAATCGGCCCTCTCCTTTATGCGTTTTCCCTGGAG GATCCAGGTGCTGCGGGTCGTCTAATTAAGGAATTTTCTAAAAAACATGA CAAGCTCAAGTCAAAAACAGTATCCCTTGGTGGTGTGCTGTATCCGGCTG GTCATGTCGATGTCCTTGCATCATTGCCAACACGATTGCAGGCTCTGGCT ATGCTAGCTCGTGTTTTATCCGAGCCGGTCACATTGTTCGCACGTGCTAT TAAAGCTGTGGCTGATGACAAAAGTGAAACTGTTGCTGTGTCAGCGCCTG AAGCCAGTCAAGCGTGA >XF0741 phenylalanyl-tRNA synthetase alpha chain ATGGTAATCAATGACATTGAATCCCTGACAGACCAAGCATTGGCTGACGT GGCGGCCGCGCAGAACTTAGATCATTTGGAAGTTTTGCGCGTAGCGCTTC TTGGTAAAAATGGCAGCATCACCTTGCAGCTCAAGCAACTTGGTAAATTG CCAGTTGAGCAGCGTAAGGCGATTGGCGAAAAGGTCAACTGCGTCCGGGA TCTTATCTCGGTGGCATTAATGGATCGCAAAGCTGCGTTGGAAAGTGCAG CGTTGAGCAAGCGCCTCATTGATGAGCGCGTTGATGTCACCCTCCCAGGG CGCCGAGGTGAACGAGGAGGCTTGCATCCAGTCACCCGTACTTTGGAGCG TATTACCGAGATTTTTGCCCGGCTGGGTTACGAGCTGGTTGAAGGTCCGG AAATTGAGGACGACTGGCATAATTTTGAGGCGCTGAACTTCCCATTGCAC CATCCAGCGCGTGCTATGCATGACACCTTTTATTTTGGTGACGGTCGTTT GCTACGGACTCATACTTCTGGTGTACAGGTGCGTTACATGAGTGACCACC GGCCGCCGCTGCGTATGATCGCTGCTGGCAAGGTTTATCGCAGTGATAGT GATCAGACGCACTCGCCAATGTTCCATCAGATAGAAGGATTATTGATTGA CAAGCATGCCACTTTTGTTCACTTGAAAGGGACCTTGTCCGAGTTCTTGA GAGCGTTTTTTGAGCGTGATTTTGAGGTGCGTTTTCGCCCAAGTTATTTC CCGTTTGTCGAACCGGGTGCGGAAGTTGATATTGCTTGGCAACAGTCCGA CAGCAGCGTTCGATGGCTGGAGGTGCTGGGTTGCGGCATGGTACATCCGA ACGTGCTGAAGAATGTTGGCATTGATTCGGAATGCTATACAGGCTTTGCC TTTGGACTAGGTGTGGAACGTTTTGCGATGCTGCGTTACGGCGTCGACGA CTTACGTGCTTTTTTCGAGAATGATGTGAGATTTTTACGCCAGTTTTCTT GA >XF2473 elongation factor P TTGAGGAACTTCAGCATGGCCAGTTACGGCATGAACGATGTAAAAAACGG CATGAAAATTCTGGTCAACGCCGAACCCGCAGTCATTACGGACACTGAAT ATGTCAAGCCTGGTAAGGGCCAAGCCTTTACCCGCGTCAAATACCGTTTG ATCAAATCCGGCCGGGTGCAGGAAGTCACCATGAAATCCACCGATACGCT TGAAGCAGCCGACGTGGTCGACACAGATATGCAGTATTTGTACAGCGATG GCGAATACTGGCACTTCATGCAACAAGAAACCTTTGAACAAGTTCAAGCC GACAAAAACGGAATGGGTGGCGCCGAAAAATGGCTTAAAGGTGAAGAACA GTGTGTGGTCACACTCTGGAACGGTGTGCCGATCGGAGTGCAGCCGCCGA ACTTCGTCGAGCTGAAAATCACCGAAACCGATCCGGGGTTACGCGGTGAC ACCTCTGGCGGCGGCGGCAAGCCGGCCACCTTGGAAACCGGTGCCGTCGT GCGTGTCCCGTTATTTGTGAATCAAGATGAAGTCATCAAAGTGGATACAC GCTCTGGCGAGTACGTCTCACGTGTCAAGTAA >XF0227 polynucleotide adenyltransferase ATGCTTTGCGTCGTACCGCGTGGACACCATACGATTTCACGTAAGGACAT TAGTCCGAATGCGTTGCGGGTGTTGTACCGCCTGCGTGAGGCAGGTTTCG GTGCGTATTTGGTTGGCGGTGCGGTTCGTGATTTGTTGGTAGGCGGTCAT CCCAAAGATTTCGACTTGGCTACCGATGCAACACCTGAGCAGATCAAGCA GTTGTTCCGGAGTTGTCGTTTAATCGGTCGCCGCTTTCGTTTGGCGCATG TGGTTTTCGGGCGCGAGATTATTGAGGTCGCTACCTTCCGTGCCAATAGT GATGATGGAAGTGGCGATCGTGAGCTGGAGAATGGCCGTTTAGTGTGTGA CAACGTCTACGGTACGATTGAGGACGATGCGACCCGTCGCGATTTCACCT GCAACGCGCTTTACTACACTATCGAAGATTTTTCAGTACGTGACTACGTT GGTGGTTTTGAGGATGTTCAGTCGCGGCTGATGAGATTGATTGGCGATCC GGTGCGACGTTATCAGGAAGATCCAGTGCGGATGCTGCGTGCGGTGCGTT TAGCAGTGAAGCTCGGTTTCGAGATTGAGGCTGGTACCGCTGAGCCAATT TCGCGTATGGCTGGATTGTTGGCTGACGTGGCGCCAGCCCGTTTGTTTGA GGAAGTGCTCAAGCTATTTCTCTCAGGACATGCTGTGGCCAGTTTCGAGG CCTTAGAGGATTTTGGTCTGATTGATGTGTTGTTTCCCGAGAGCGCTAAG GCATTGCGTGCTAACCGTAGTGGTGCATTGCGGCGGGTATTGATCGAAGG GCTGCACAGTACTGATAAGCGGGTGATTAAAGAGGAACCAGTGTCGCCGG CATTCTTGTTCGCATTGTTGTTATGGCCTGGTTTTTGCCATGCGTTGGTC ACGTTGCAATTGCAGGGTGTGCAGCCAGAGGAGGCACAACGTCGTGCAGC TGATCGGGTGACGTTGCATCATCTTGAGCGTGTCGCTTTGCCGCGCCGCT TTTCTTTGCCGATGCAAGAGATTTGGTTGTTGCAAAACCGTTTTATTTCA CGCCAGCCTAAGCGTGTCTTACGGCTTCTGGAACATCCGCGCTTTCGTGC TGCCTTCGATTTCCTGGTAGTGCGTTTGGCGGCTTCTGCTGAGCATGCTG CAGACGTGGAGTTTTGGCGTGTGGCACAACAGCAGCCTTCTGAAGACTCT CTGGCGTCAGCCATTGATGCTGTGCGGTTTGAATCGGAGGAAGTGGGTGT GTCGCGTCAGCGGTAA >XF0737 initiation factor IF-3 GTGCCGCGTGTCCGCGTGATTGGTAGTGACGGAGAAATGGTTGGCGTGTT GTCGCGTGACGAAGCGCTTGCCATGGCCGAAAAAGAAGGATTGGATCTGG TCGAGATACAGCCTCAAGCTGATCCGCCGGTTTGTAAGGTTATGAACTTT GGCAAGTTCAAGTTCGAGCAACAAAAGAAGGCGAACGAAGCCAAAAAGAA GACTAAACAAGTCGAGATCAAGGAACTTAAGTTCCGCCCGGTCACGGACG AAGGTGACTACCAGATCAAGCTGCGTAACATGCGTCGTTTTCTGGAAGAG GGCGATAAAGTTAAGATTAACATTCGCTTCCGTGGCCGTGAGATGAGCCA TCAAGAATTAGGTCGGCAGATGGCAACGCGTATTGAAATGGATCTTGGTG ATGATGTTGTTATTGAATCCCGTCCCCGCTTAGAGGGGCGACAGATGGTG ATGATGGTTGCGCCGAGGAAAAAAAGCTAA >XF2606 pseudouridylate synthase ATGACCGATCCATTTCGTTCCCAGTCAGAGTCTGTCGTGGAGTGTTTCAG CGTACGTATCGTTGTCGTGCCTGCCGAGCACAGTGGGCAGCGCTTGGATA ATTTTCTTCTCAGCAAACTAAAGGGTGTCCCGCGCAGCTTGATTTACAAG CTGGTGCGCAGTGGGCAAGTGAGAGTGAATGGTGGTCGTGTCAAGGCCGA GCGCAAATTGGATGGGGGGGACGAAATCCGACTTCCGCCGCTACGTCTTA TTCAGGATCGGGCCATTGTCGCGCCATCGGCTGCATTTCTGGCCAGGATG GAGGCGGCGATTGTGTTCGAGGACGCGCGTTTGTTGGCGTTGAACAAACC CAGTGGTATGGCTAGCCATGGCGGCAGTGGGATCAGTTACGGCGTGATTG AGGCTATGCGTATCTTGCGTCCTAAGCAGGAACTGGAACTTGTGCATCGT TTGGATCGTGATACCTCTGGTTTGTTGATCATGGCAAAAAAGCGTGCAGC TCTCATTGAGTTGCAGGCATTGATGCGTGAAGCCAGCGTGAATGGTAAGG AGGGGCGTGGTATCGCCAAGCGCTATTTGACTCTGTTATCCGGGCGTATG CCCAATGGAGTGATGAGTGTTGATGCGCCGTTGCATATTAATTTGCGCCA GGGGGGAGAGCGTCATGTCCGGGTGCATCATGATGGGAAGCCTTCAAAGA GTCGTTTCCGTTTGCTAGAGCGGCGTGGAGGGCAATCGTATTGCGAGGTG TTGATCGAAACCGGTCGAACTCATCAGATTCGTGTGCATGCACAGCATCT CGGTCATCCAGTCACTGGGGATGACAAATACGGTGATCAGGAGGTCAACC GGCGGTTGCGCGATCAGATTGGTTTACAGCGTCTTTTCTTACATGCTGTG TCGTTGGAGTTTGCTTTGGATGCTGGAAGTACGCCCTATGTGTTGAATGC TCCATTGGCGGAGGACTTGGTGGCCGCCTTAGACCGTCTTTAG >XF0147 arginyl-tRNA synthetase ATGCTAACGCGCTTCTCATACAAACGGTCAGATAAAATTACGCTATCTAT CGCCACACACCCACACCCACACGTGAAAGCCCCACTCCGCGCCCTGATTT GCCAAGGCATCGAAGCATTGCGTAGCAATGGCACCTTGCCCACTAATACT CTGCCTCCAGATTTCGTAGTGGAACGTCCAAAGACGCGCAAACATGGCGA CTTTGCGACCAACGTAGCAATGCTGCTCAGCAAAGCGACTGGCAGCAATC CCCGCCTACTGGCACAGACTCTGGTTGCAGCACTGCCAACCAGCGCCGAC ATTGCACGGATAGAAATCGCCGGCCCAGGCTTCATCAACTTCCACCTGCA TCCAGTCGCGTACCAGCGCGAAACAATCAACGTGCTCAAACAGGATAACG ACTACGGCCGGAACCTGTCCGGTCAAAGTCGCACCGTCGGAGTGGAATAC GTCTCAGCCAATCCGACAGGTCCACTGCATGTCGGTCACGGACGCGCCGC AGCCATCGGTGACTGCCTTGCACGTTTACTGGAAGCCAATGGCTGGAACG TCAAACGCGAGTTCTATTACAACGACGCCGGCGTACAAATCGAGAATCTT GTCCGCTCAGTGCAGGCACGCGCACGCGGACTGAAACCTGGAGACGCCTT TTGGCCAACAGATGCCTACAACGGCGAGTACATCGCCGACATTGCCAAAG CCTATTTGGCTGGCGACAGCATCAACATGGTAGATACCATCATCACCAGC ACCAAGAACGTCGACGACACAGCAGCAATCCACCACTTCGCCGTCAACTA CCTACGTAACGAACAAAACCACGACCTGGCCGCATTTAACGTCGATTTCG ATATCTACTTTCTGGAAAGCTCGCTTTACAAAGATGGCAAAGTCGAAGAA ACAGTCCAGAAACTGATCAACTCCGGTCACACCTATGAGGAGGGCGGCGC ACTGTGGCTGAAGTCAACCCATTTCGGTGACGACAAAGATCGGGTCATGC GCAAATCCGACGGTAGCTACACCTACTTCGTACCAGACATCGCATACCAT TTAAGCAAATGGCAACGTGGCTACGAACGCGCAATCACCGAACTAGGAGC CGACCATCACGGTTCACTGGCACGCGTCCACGCTGGACTACAAGCATTAG AAATAGGCATCCCGCCCGGCTGGCCAGAATATGTGCTGCACCAAATGGTC ACTGTCATGCGTGGTGGCGAAGAAGTGAAGCTCTCCAAACGTTCTGGAGG CTACGTCACGCTACGTGACCTGATTGAGGAGACCAGCACCGATGCAACAC GCTGGTTTCTGATCGCACGCAAACCCGATTCACAACTCACCTTCGACATC GACTTGGCCCGTCAAAAGAGCAACGACAACCCTGTATTCTACGTACAGTA CGCATACGCCCGCGTTTGTAGCCTGATGCACCAAGCCCATGAAAAGAACT TAAATTACGATCAAACCAGCGGCATGGCGTCCCTTGATCAACTTTCAGAC AACACCTCACTGTGTCTGATGATAGAAATATCGCGCTATCCTGAAATCGT GCAAATCGCCTGCGAACTGCTGGAACCTCACCTGATCGCACAGTACCTGC GTGAATTAGCGCATGCATTCCATACCTGGTATCACAACACACCCGTACTG GTAGAGAACGCAGTAGAACGCAACGCAAAGCTGACACTGGCCTGCGCAAC CAGGCAAGTCCTCGCCAACGGCCTGAACCTACTCGGCGTCGGCACCCCGG AAAAGATGTGA >XF1161 30S ribosomal protein S17 ATGATGAATGACCATAACGAAAGAAAGCCGTTACGTACGATTAAAGGTCG TGTGATCAGTAATAAAATGCAAAAGACGGTTACTGTTTTGGTCGAACGTC AAATCAAGCATGCCCTTTACGGTAAATATATTAAACGCTCCACTAAGCTT CATGCACATGATGCTGATGATCTTTGTAATGAAGGTGATGTGGTTCTTAT GACTGAAGTTGCTCCAATATCCAAAACAAAAAACTGGCGTGTAGTGGAAA TTGTTGCCCGTTCAGATTAA >XF1168 50S ribosomal protein L18 TTGCGTCGCGCTAAATCGACCCGTGTTCATATACGTAAGTTGGGTGTCCC TCGCCTCTCCGTATTGCGTACTGGCCGCCATTTGTATGCGCAAATTTTTA CTGCTGATGGTTCAAAAGTCATTGCGGCTGCCAATACACTACAATCTCAG GTTAAGGATGGTCTAAAGAATGGTAAAAACAGTCTGGCGGCTACCAAGGT TGGTAAGTTAATTGCTGAGCGTGCTAAGGCTGTTGGTGTGGATAGGATTG CTTTTGACCGTTCTGGTTATCTTTATCATGGTCGTATCAAGATCCTGGCC GATGCCGCCCGTGATGCGGGGTTGAAATTCTGA >XF1200 ribosomal small subunit pseudouridine synthase ATGAAATTACTCAAGTACATTGCTAATCTTGGTTATGGGAGCCGTAAAGA GGTTGCCCGAATATTTAGAGAAGGCCGTATCACGAATGGTGAAGGTGAAG TGTTGTATGCCGATGACCAGGTACAACACATTGCGGTTCGTTTTGATGGT GAACCGTTGGATCCGCCGCCTGGATTAATGGTGATGCTGCATAAGCCTTC CGATTATATTTGTTCGACCAAGGACGCGGGGCGCTTGGTGTATGACTTGT TGCCTCCCCGTTTCCGCTTGCGCTCCCCGTTGCTTTCCACGGTCGGTCGG CTTGATGGCGATACCAGTGGTCTGTTGTTACTCACTGATGATGGTGCACT GCTGCACCGGATGATCTCGCCTAAGACACATCTTCCTAAAGTCTATGAGG CGACACTCGTGCAAGCGTTGCGGGGAGACGAAGCAACGTTGTTTGCCAGC GGCACCCTCCTGTTGGATGGAGATACAAAGCCGTTGCAACCAGCAGTGTT GGAAGTACTGGGACCATGCCAGGTACGGTTGACGTTGTATGAGGGGCGTT ATCACCAAGTGCGACGGATGTTTGGTGCAACGGGAAACCGTGTCAACACG TTGCATCGCAGTGCTATCGGTGGCTTAGTCCTGGATGGACTTCCGGAAGG GCAGTGGCGTGTGCTTGAAGCCCAGGATCTTGCGATGCTGTTTTCACACG GGAGCCGATGA >XF0252 ATP-dependent RNA helicase GTGCTCTCCGGAGTTCTCATGTCAAATCCATCCTCTACGCCGCTGCTGTT TGCAGATCTCGGCCTCTCCGATGCTGTGATGCAAGCCGTCACAAAAATCG GTTATGAAACTCCGTCGCCCATCCAGGCGGCGACCATCCCAGCCTTGCTC GCTGGGCGCGATGTGCTGGGCCAAGCCCAGACCGGCACTGGGAAGACTGC CGCATTCGCGCTACCGTTGCTCACACGCACCGTTCTGAACCAGGTCAAGC CGCAAGTGCTCGTACTGGCACCCACCCGCGAACTGGCTATCCAAGTTGCC GAAGCATTCCAGCGCTATGCTGCCTCGATCTCTGGCTTCCGTGTCCTACC CGTGTACGGCGGCCAATCCTATGGCCAACAACTGGCCGCACTGAAACGCG GTGTTCATGTGATCGTCGGTACTCCGGGCCGGGTGATTGATCACCTAGAG CGCGGCACCCTGGACCTATCGGAATTAAAAACGCTGGTCCTCGACGAAGC CGACGAAATGCTGCGTATGGGTTTCATTGAGGACGTTGAAGAAGTGCTAC GGAAGTTGCCCGCTTCACGCCAGGTCGCTCTGTTCTCGGCAACCATGCCA CCACAGATCCGCCGTATCGCACAAACATATCTACAAGATCCGATTGAAGT CACCATCGCCACCAAAACCACGACCGCGGCCAACATCCGCCAGCGTTACT GGTGGGTCAGCGGCCTCCACAAGCTTGATGCACTCACACGCATTCTTGAG GTGGAAACCTTCGACGCAATGATTATCTTCGTGCGCACCAAAGCTGCCAC CGAAGAATTGGCCGAGAAGTTGCAGGCACGTGGCCTGACCGCCGCAGCGA TCAATGGCGATATGCAACAAGCGCAACGCGAACGCACCATTCACCAACTC AAAGATGGCAAGCTGGATATCCTCGTTGCCACCGACGTCGCCGCACGTGG TTTGGACGTAGAACGTATCAGCCACGTACTGAACTACGACATCCCTTACG ACGTTGAGAGCTACGTCCACCGTATCGGACGCACTGGGCGTGCCGGTCGC AGCGGCGAAGCAATCCTCTTTGTGACTCCACGCGAAAAAGGCATGCTGCG CCAGATTGAACGTGCCACTCACCAACCGATCGAAGCCATGCAACTGCCCA GTGTGGATGCAGTCAACGACACGCGCGTCGCCAAATTTTTCGGACGCATC AGCAATGCTTTGGTGGTCGGCGCTGAAATCGACTTCTACCGCAAACTGCT TCAACGTTTCGAGAGCGAGCACAATGTCCCTGCCATTGAGATCGCTGCTG CCCTGGCACGACTCCTTCAGGGGGATAGCCCCTTCCTGCTGAGTGTCCCA ACGCGCGCCCAACGCGAACGCAGCGAGCCACCATCGGAGCATGTCAAACG CTCCTCATCCTTCAAGCAGACAGAGCGCCCAAACCACACTGAACACCCCA AGCGCCCCCAACGTAACGCACCAGCACGCAATACCCCGGAATTCGGTATG GAGTCTTACCGCATCGAAGTCGGCCGCATACACGGTGTGAAGCCAGCTAA TATCGTCGGTGCCATCGCCAACGAAGCTGGATTAGAGAGCCGCTACATTG GCCGGATCGACATCCGTGACGATCACTCGGTTCTAGATCTCCCCGCAGAG ATGCCACACGAAATCCTGCAACACCTAAAAAAGGTCTGGGTATCAGGACA GCAACTACAAATGCGTCGGATCGACACAACCGAAACAACCGCAACTGCAC GGGAATTTAAGTCAAAACCGGGTGGCGCTGGCAAATTCCCGCCGAAACCG CATCACAACAAATCAACCAAACCAAAACCACCATACAGCGGTTGA >XF1177 50S ribosomal protein L17 ATGCGTCACCAAAAGTCGGGTCGTAAGTTTAACCGTACTGATGCTCATCG TGGAGCGATGTTTAGTAATATGGTTGCTTCATTGTTCAAGTATCAGCTGA TAAAGACTACCTTGCCGAAGGCTAAGGAGCTTCGTCGTGTCGCTGAGCCT TTGATAACTTTAGCCAAGGTCGATAGTGTAGCTAATCGTCGTTTGGCCTT TGCGCGTTTACGAAATAAGGAAGCTGTCGGTATCCTTTTTTCAAACTTGG GTCCGCGTTATGTTACTCGTCCGGGTGGCTATATTCGTTTGCTGAAATGT GGTTTTCGTCATGGCGATAATGCACCAATGGCTTATGTGGAGATGCTTGA ACGCCCTATAATTGCTGAAGAAGTTACTTAG >XF0108 16S rRNA processing protein ATGAAAGATAATGAGCGCCGTATCCTGCTAGGAAGGGTTGTAGGTGGTTT CGGGTTGCGTGGTGAAATCAAGATAGAGTCTTGGACTGAGCCACGGGATG CGATCTTCCGTTACCAGCCGTGGTTATTACGTTCTCCTACGGGTACCGAG TCCATGTTGAATGGTGCCCGTGGCTACGAGACTGGCAAGCGTTTGATTGC AACCTTTCCTGGCATCAATGATCGTAATGCAGTCGAAGCGATCTGTGGTA CGGAAATCTATGTGCCACGCAGCGCCTTGCCTCCACCTCACCCCGACGAG TATTACTGGGTCGATTTGGAAGGGCTGCAAGTACACACCCTTGAAGGTGT GGTTCTCGGTAGCGTTTCCCATCTGTTTTCCAACGGTGCCAATGATGTGA TAGTCATCCATGGCGAGCGCGAGCGCTTGATCCCGTTTGTACAGCCTGAT TACGTGAAGTCGGTTGATTTTGAGGCTGAGCGTATTGTTGTCGATTGGGA TCCTGAGTTCTGA >XF1206 50S ribosomal protein L28 ATGTCACGCGTATGCCAAGTTACCGGCAAGCGTGTGCAGACGGGTAACAA CGTCTCCCACGCTAATAACAAGACCCGCCGTCGCTTCTTGCCAAATCTGC ATAAGCGCCGTTTCTGGGTTGCCAGCGAAAACCGCTGGGTTAAACTTCGT GTTTCCACCTGTGCTGTGCGTACTATTGACAAGAATGGCATTGATGCTGT TCTTGCTGAGCTGCGCGCTAGCGGCGAGAAGGTTTGA