>GCA_001436735.1_00002 tRNA-Thr
GCCACTTTAGCTCAGTAGGTAGAGCATCACCATGGTAAGGTGGGGGTCACCGGTTCAAATCCGGTAAGTGGCT
>GCA_001436735.1_00069 tRNA-Ile
TGGGCCTATAGCTCAGCTGGTTTAGAGCGCACGCCTGATAAGCGTGAGGTCGATGGTTCAAGTCCATTTAGGCCCATCC
>GCA_001436735.1_00070 tRNA-Ala
TGGGGCCTTAGCTCAGCTGGGAGAGCGCCTGCTTTGCACGCAGGAGGTCATCGGTTCGATCCCGTTAGGCTCCAT
>GCA_001436735.1_00141 tRNA-Ala
GGGTCATTAGCTCAGTTGGGAGAGCGCCTGCTTCGCATGTAGGAGGTCATCGGTTCAAATCCGACATGATCCA
>GCA_001436735.1_00423 tRNA-Val
TGGAGGATTAGCTCAGTTGGGAGAGCGTCTGCCTTACAAGCAGAGGGTCACAGGTTCGAGCCCTGTATCCTCCATC
>GCA_001436735.1_00501 transfer-messenger RNA, SsrA
GGGGATGTTTTGGATTCGACAGGTATAGGTCGAGCTTAGACTGCGTTTCGTAGTTGCGTGACGTAAAGACGCTCAGTTAAATATAACTGCAAAAAATAATAACAATTCTTACGCTTTAGCTGCCTAAGCGCGCTTTAGTGTAGATCTGCCCAATATCGTCCATGTATTGGTAGCAGGTCTTAAATTAAGTGGACTTACGCTGAAGACTCCCATCTGAAGTTGACAGAAGAGATTAATCAGATTAGTCATTAATGTTAGCCAAGTCGTATGGCGCGATTAATGATGAAATTTAAATGATACGACTATGAACGTAGATGTTTAAGTGGCGATATGCTTGGACGCGGGTTCGATCCCCGCCATCTCCA
>GCA_001436735.1_00552 tRNA-Gly
GCGGAAGTAGTTCAGTGGTAGAACATCACCTTGCCAAGGTGGGGGTCGCGGGTTCGAATCCCGTCTTCCGCT
>GCA_001436735.1_00553 tRNA-Leu
TGCCGGGGTGGCGGAACTGGCAGACGCACAGGACTTAAAATCCTGCGGTAAGTGATTACCGTACCGGTTCGATTCCGGTCCTCGGCAT
>GCA_001436735.1_00554 tRNA-Arg
TGCACCCATAGCGCAATTGGATAGAGTGTCTGACTACGAATCAGAAGGTTGTAGGTTCGACTCCTACTGGGTGCAT
>GCA_001436735.1_00555 tRNA-Pro
TCGGGAAGTAGCTCAGCTTGGTAGAGCACCTGGTTTGGGACCAGGGGGTCGCAGGTTCGAATCCTGTCTTCCCGAT
>GCA_001436735.1_00910 tRNA-Ser
GGAGAGTTGGCAGAGTGGTAATGCACCGGACTCGAAATCCGGCGAACCGGCTTATACCGGCGCGCAGGTTCAAATCCTGTACTCTCCT
>GCA_001436735.1_01098 tRNA-Arg
TGGCTCGGTAGCTCAGCTGGATAGAGCATCCGCCTTCTAAGCGGACGGTCGAGAGTTCGAATCTCTCCCGCGCCAT
>GCA_001436735.1_01139 5S ribosomal RNA
GGTGATGATGGCAAGAAGGATACACCTGTACCCATGTCGAACACAGAAGTTAAGCTTCTTAGCGCCGATAGTAGTTGGGGGATCGCCCCCTGCGAGGATAGGACGTTGCCG
>GCA_001436735.1_01140 23S ribosomal RNA
TTAAGTTATTAAGGGCGCATGGTGGATGCCTTGGCACTAGGAGCCGATGAAGGACGGGACTAACTCCGATATGCTCCGGGGAGCTGTAAGTAAGCTATGATCCGGAGATTTCCGAATGGGGAAACCCAATAGTTTTAATCGACTATTACTGCTGGTTGAATACATAGACCAGTTAGAGGAAGACGCAGGGAACTGAAACATCTAAGTACCTGCAGGAAGAGAAAGAAAAATCGATTCCCTAAGTAGCGGCGAGCGAACGGGGAAGAGCCCAAACCAAAAAGCTTGCTTTTTGGGGTTGTAGGACTGAACATTTGAGTTACCAAAGAATATCATAATCGAATGATCTGGGAAGGTCAGCTAAAGAAGGTGAAAGCCCTGTAGATGAAATGATGTTCTCTCAGTTCAGGATCCTGAGTACGGCGGAACACGTGAAATTCCGTCGGAATCCGGGAGGACCATCTCCCAAGGCTAAATACTCCCTAGTGACCGATAGTGAACCAGTACCGTGAGGGAAAGGTGAAAAGCACCCCGGAAGGGGAGTGAAATAGTTCCTGAAACCATGTGCCTACAAGTAGTTAGAGCCCGTTAATGGGTGATAGCGTGCCTTTTGTAGAATGAACCGGCGAGTTACGTTTGCATGCAAGGTTAAGTCGGAAATGACGGAGCCGTAGCGAAAGCGAGTCTGAATAGGGCGAATGAGTATGTAGACGTAGACCCGAAACCAGGTGACCTACCCATGTCCAGGTTGAAGGTGCGGTAAAACGCACTGGAGGACCGAACTCATGTATGTTGAAAAATGCTGAGATGAGGTGTGGGTAGCGGAGAAATTCCAAACGAACTTGGAGATAGCTGGTTCTCTCCGAAATAGCTTTAGGGCTAGCCTCGGAATAAAAGGATCATGGAGGTAGAGCACTGTTTGGACTAGGGGCCCATCTAGGGTTACTGAATTCAGATAAACTCCGAATGCCATAGATCTATATCCGGGAGTCAGACTGCGAGTGATAAGATCCGTAGTCGAAAGGGAAACAGCCCAGACCACCAATTAAGGTCCCTAAATATATGTTAAGTGGAAAAGGATGTGGAGTTGCACAGACAACTAGGATGTTGGCTCAGAAGCAGCCACCATTTAAAGAGTGCGTAATAGCTCACTAGTCGAGTGACCCTGCGCCGAAAATGTACCGGGGCTAAACATATTACCGAAATTGTGGATGCAACCGTAAGGTTGCGTGGTAGGAGAGCGTTCTAAGGGCGAAGAAGCTAGACCGGAAGGACTGGTGGAGCGCTTAGAAGTGAGAATGCCGGTATGAGTAGCGAAAGACAGGTGAGAATCCTGTCCACCGAATGACTAAGGTTTCCTGGGGAAGGCTCGTCCTCCCAGGGTTAGTCGGGACCTAAGCTGAGGCCGAGAGGCGTAGGCGATGGATAACAGGTAGAGATTCCTGTACTAGTTATTGTTGTTTGAACGAAGGAGGGACGCAGGAGGCTAGGTATGCACACTGATGGAAATGTGTGTCCAAGTAATAAGTTTGTGAGTGAGTCAAATGCTTGCTTATAAGGACAAGTTACGATGGGGAGCGAAATAATAGTAGCGAAGATACTGATGTCACACTGCCGAGAAAAGCTTCTAGTTAGATAATAACTACCCGTACCGCAAACCGACACAGGTAGTCGAGGAGAGAATCCTAAGGTGAGCGAGAGAACTCTCGTTAAGGAACTCGGCAAAATGACCCCGTAACTTCGGGAGAAGGGGTGCTGAGCGCAAGCTCAGCCGCAGTGAATAGGCCCAGGCGACTGTTTATCAAAAACACAGGTTTCTGCAAAATCGTAAGATGACGTATAGGGGCTGACGCCTGCCCGGTGCTGGAAGGTTAAGAGGATGGGTTAGCTTCGGCGAAGCTCAGAATTGAAGCCCCAGTAAACGGCGGCCGTAACTATAACGGTCCTAAGGTAGCGAAATTCCTTGTCGGGTAAGTTCCGACCCGCACGAAAGGCGTAACGATCTGGGCACTGTCTCAACGAGAGACTCGGTGAAATTATATTACCCGTGAAGATGCGGGTTACCCGCGACAGGACGGAAAGACCCCATGGAGCTTTACTGTAGCTTGATATTGGGTGTTTGTACAGCTTGTACAGGATAGGTAGGAGCCATAGAAGTCGGGACGCTAGTCTCGACGGAGGCATTGGTGGGATACTACCCTCGTTGTATGAACACTCTAACCCTCACCAATAAACTTGGTGGGAGACAGTGTCAGGTGGGCAGTTTGACTGGGGCGGTCGCCTCCTAAAAGGTAACGGAGGCGCCCAAAGGTTCCCTCAGAATGGTTGGAAATCATTCGCAGAGTGTAAAGGCACAAGGGAGCTTGACTGCGAGACCTACAAGTCGAGCAGGGACGAAAGTCGGGCTTAGTGATCCGGTGGTTCCGCATGGAAGGGCCATCGCTCAACGGATAAAAGCTACCCTGGGGATAACAGGCTTATCTCCCCCAAGAGTCCACATCGACGGGGAGGTTTGGCACCTCGATGTCGGCTCATCGCATCCTGGGGCTGTAGTCGGTCCCAAGGGTTGGGCTGTTCGCCCATTAAAGCGGTACGCGAGCTGGGTTCAGAACGTCGTGAGACAGTTCGGTCCCTATCCGTCGCGGGCGTAGGAAATTTGAGAGGATCTGTCCTTAGTACGAGAGGACCGGGATGGACACACCGCTGGTGTACCAGTTGTTCCGCCAGGAGCATCGCTGGGTAGCTATGTGTGGATGAGATAAACGCTGAAAGCATCTAAGTGCGAAACTCACCTCGAGATAAGATTTCCCATTCCTTCGGGAAGTAAGACCCCTGAGAGAAGATCAGGTAGATAGGTTGGAAGTGGAAGTACAGTGATGTATGGAGCGGACCAAAACTAATCGGTCGAGGACTTAACC
>GCA_001436735.1_01173 tRNA-Gln
TTGGGCATTCGCCAAATTGGTAAGGCAGCGGACTCTGAATCCGCAATGTACAGGTTCGAGCCCTGTATGCCCAAT
>GCA_001436735.1_01174 tRNA-Glu
TTGCCCGTTGGTCAAATTGGTTAAGACGTCGCCCTCTCAAGGCGGAGTTACGGGTTCGATCCCCGTACGGGTGAT
>GCA_001436735.1_01226 tRNA-Gly
GCGGGTGTAGTTTAGTGGTAAAATCCCAGCTTCCCAAGCTGATGTCGCGAGTTCGATTCTCGTCACCCGCT
>GCA_001436735.1_01250 tRNA-Ser
TGCCCTCGTGGCGGAATTGGCAGACGCGCAGCGTTCAGGTCGCTGTTTGGTTTTCCAAGTACAGGTTCGACTCCTGCCGAGGGCAT
>GCA_001436735.1_01310 tRNA-Arg
GCACCGCTAGTGTAATGGATATCACACAAGATTCCGGTTCTTGTAATGTGGGTTCGACTCCCACGTGGTGCA
>GCA_001436735.1_01407 tRNA-Gln
TTGGGCTATAGCCAAGCGGTAAGGCAACGGGTTTTGATCCCGTGACGCGCTGGTTCGAATCCAGCTAGCCCAAT
>GCA_001436735.1_01408 tRNA-Tyr
GGAAGGGTAGCGAAGTCTGGCTAAACGCGGCGGACTGTAAATCCGCTCCTTCGGGTTCGGTGGTTCGAATCCACTCCCTTCCACCA
>GCA_001436735.1_01410 tRNA-Thr
TGCCGGCTTAGCTCAGCTGGTAGAGCATCGGTATCGTAAACCGAGGGTCACAGGTTCAAATCCTGCAGCCGGCAT
>GCA_001436735.1_01411 tRNA-Glu
GACCCGTTGGTCAAGTGGTTAAGACACCGCCCTTTCACGGCGGTAACATGGGTTCAAATCCCGTACGGGTCA
>GCA_001436735.1_01531 tRNA-Arg
TGCGTTTGTAGCTCAGCAGGATAGAGCAACCGCCTCCTAAGCGGTAGGTCATCGGTTCGATTCCGATCAAACGCAT
>GCA_001436735.1_01628 tRNA-Lys
TGGGTGGCTAGCTCAGCTGGCAGAGCAACGGACTCTTAATCCGTGGGTCCAGGGTTCGATCCCCTGGCCACCCATC
>GCA_001436735.1_01640 tRNA-Asn
TGCTCAGTAGTTCAGTGGTAGAATAATTGACTGTTAATCAAGAGGTCGTAGGTTCGAACCCTACCTGAGCAGC
>GCA_001436735.1_01851 16S ribosomal RNA
AATGAGAGTTTGATCCTGGCTCAGGACGAACGCTGGCGGCGTGCCTAATACATGCAAGTCGAACGCAAAACTTTCACCGAATGCTTGCATTCACCGAAAGTTTTGAGTGGCGAACGGGTGAGTAACACGTGGGTAACCTGCCCAGAAGAGGGGGATAACACTTGGAAACAGGTGCTAATACCGCATAATAATAAAAACCACATGGTTTTTATTTGAAAGATGGTTATGCTATCACTTCTGGATGGACCCGCGGCGTATTAGCTAGTTGGTAAGGTAATGGCTTACCAAGGCGATGATACGTAGCCGAACTGAGAGGTTGATCGGCCACATTGGGACTGAGACACGGCCCAAACTCCTACGGGAGGCAGCAGTAGGGAATCTTCCACAATGGACGAAAGTCTGATGGAGCAACGCCGCGTGAGTGAAGAAGGTTTTCGGATCGTAAAACTCTGTTGTTAGAGAAGAACGTATGTGAGAGTAACTGCTCATGTAGTGACGGTATCTAACCAGAAAGCCACGGCTAACTACGTGCCAGCAGCCGCGGTAATACGTAGGTGGCAAGCGTTGTCCGGATTTATTGGGCGTAAAGGGAACGCAGGCGGTTTTTTAAGTCTGATGTGAAAGCCTTCGGCTCAACCGAAGTCGTGCATTGGAAACTGGAAGACTTGAGTGCAGAAGAGGAGAGTGGAACTCCATGTGTAGCGGTGAAATGCGTAGATATATGGAAGAACACCAGTGGCGAAAGCGGCTCTCTGGTCTGTAACTGACGCTGAGGTTCGAAAGTGTGGGTAGCAAACAGGATTAGATACCCTGGTAGTCCACACCGTAAACGATGAATGCTAAGTGTTGGAGGGTTTCCGCCCTTCAGTGCTGCAGCTAACGCATTAAGCATTCCGCCTGGGGAGTACGACCGCAAGGTTGAAACTCAAAGGAATTGACGGGGGCCCGCACAAGCGGTGGAGCATGTGGTTTAATTCGAAGCAACGCGAAGAACCTTACCAGGTCTTGACATCTTCTGACAACCTAAGAGATTAGGTGTTCCCTTCGGGGACAGAATGACAGGTGGTGCATGGTTGTCGTCAGCTCGTGTCGTGAGATGTTGGGTTAAGTCCCGCAACGAGCGCAACCCTTATTACTAGTTGCCAGCATTAAGTTGGGCACTCTAGTGAGACTGCCGGTGACAAACCGGAGGAAGGTGGGGATGACGTCAAATCATCATGCCCCTTATGACCTGGGCTACACACGTGCTACAATGGACGGTACAACGAGTCGCGAAACCGCGAGGTTTAGCTAATCTCTTAAAGCCGTTCTCAGTTCGGATTGTAGGCTGCAACTCGCCTACATGAAGTCGGAATCGCTAGTAATCGCGGATCAGCATGCCGCGGTGAATACGTTCCCGGGCCTTGTACACACCGCCCGTCACACCATGAGAGTTTGTAACACCCAAAGCCGGTGAGGTAACCAATAGGAGCCAGCCGTCTAAGGTGGGACAGATGATTGGGGTGAAGTCGTAACAAGGTAGCCGTAGGAGAACCTGCGGCTGGATCACCTCCTTT