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