>GCA_001064785.1_00053 tRNA-Thr
GCCGTCTTAGCTCAGTCGGTAGAGCGCATCCATGGTAAGGATGAGGTCGTCGGTTCAAGCCCGATAGACGGCT
>GCA_001064785.1_00224 tRNA-Arg
TGTACCAGTAGCTCAGTTGGATAGAGCAACGGTCTTCTAAACCGTTTGTCCCGGGTTCGAATCCCGGCTGGTACAT
>GCA_001064785.1_00235 tRNA-Ser
TGGAGAAGTACTCAAGTGGCTGAAGAGGCGCCCCTGCTAAGGGTGTAGACCGGGAAACTGGTGCGAGGGTTCAAATCCCTCCTTCTCCGT
>GCA_001064785.1_00266 tRNA-Gly
GCGGTCGTAGTTTAGTGGTAAAACTCCAGCTTCCCAAGCTGGTGTCGCGAGTTCGATTCTCGTCGACCGCT
>GCA_001064785.1_00425 tRNA-Met
TGGACCTTTAGCTCAGTTGGTTAGAGCAGGCGGCTCATAACCGCCCGGTCGTAGGTTCGAGCCCTACAAGGTCCATC
>GCA_001064785.1_00426 tRNA-Met
TCGCGGTGTAGCTCAGCTGGCTAGAGCGTCCGGTTCATACCCGGGAGGTCGAGGGTTCGATCCCCCCCGCCGCGAT
>GCA_001064785.1_00427 tRNA-Pro
CGGGAAATAGCTCAGCTTGGTAGAGCACCTGGTTTGGGACCAGGGGGTCGCAGGTTCGAATCCTGTTTTCCCGA
>GCA_001064785.1_00428 tRNA-Arg
TGCACCCATAGCGCAACTGGATAGAGTGTCTGACTACGAATCAGAAGGTTGTAGGTTCGACTCCTACTGGGTGCAT
>GCA_001064785.1_00429 tRNA-Gly
GCGGGTGTAGTTTAGTGGTAAAACCACAGCCTTCCAAGCTGTTGTCGCGAGTTCGATTCTCGTCACCCGCT
>GCA_001064785.1_00573 tRNA-Ala
TGGGTCTTTAGCTCAGCTGGGAGAGCGCCTGCATGGCATGCAGGAGGTCGACGGTTCAAGTCCGTTAAGATCCAG
>GCA_001064785.1_00574 tRNA-Ala
TGGGTCCATAGCTCAGTTGGGAGAGCGCCTGCTTCGCATGTAGGAGGTCGACGGTTCAAGTCCGTTTGGATCCAT
>GCA_001064785.1_00733 tRNA-Arg
GTCTCCATGGTGCAATGGATAGCATAATGGTCCTCGAAACCACAGATCCGAGTTCGAATCTCGGTGGAGGCA
>GCA_001064785.1_00758 5S ribosomal RNA (partial)
TGGTGGCGATAGCAAGAAGGATACACCTGTTCCCATGCCGAACACAGAAGTTAAGCTTCTTCACGCCGAGAGTAGTTGGTG
>GCA_001064785.1_00759 23S ribosomal RNA
TTAAGTTACAAAGGGCGCACGGTGGATGCCTTGGCACTAGGAGCCGATGAAGGACGGAACTAATACCGATATGCTTCGGGGAGCTATAAGTAAGCTTTGATCCGGAGATTTCCGAATGGGGGAACCCAGTACACATCAGTGTATTGCCTGCAAGTGAATACATAGCTTGTTGGCGGCAGACGCGGGGAACTGAAACATCTCAGTACCCGCAGGAAGAGAAAGAAAACTCGATTCCCATAGTAGCGGCGAGCGAAGTGGGAAGAGCCCAAACCGAGAAGCTTGCTTCTCGGGGTTGTAGGACTGGACATTGGAGTTACCAAAGTTCGACGTAGTCGAAGTCAGCTGGAAAGCTGCGCCATAGAAGGTGAAAGCCCTGTAAACGAAACGGCGGACTCTCCGTCCAGGATCCTGAGTACGGCGGAACACGTGAAATTCCGTCGGAATCCGGGAGGACCATCTCCCAAGGCTAAATACTCCCTAGTGACCGATAGTGAACCAGTACCGTGAGGGAAAGGTGAAAAGCACCCCGGAAGGGGAGTGAAACAGTTCCTGAAACCGTGTGCCTACAATTAGTCAAAGCCCGTTAACGGGTAATGGCGTGCCTTTTGTAGAATGAACCGGCGAGTTACGTTTGCCTGCGAGGTTAAGATGAAAAGTCGGAGCCGGAGCGAAAGCGAGTCTGAACAGGGCGCTTCAGTAGGTAGATGTAGACCCGAAACCAAGTGACCTACCCATGACCAGGTTGAAGGTGTGGTGAAACACACTGGAGGACCGAACCCATGTATGTTGAAAAATGCTGGGATGAGTTGTGGGTAGCGGTGAAATTCCAAACGAACTTGGAGATAGCTGGTTCTCTCCGAAATAGCTTTAGGGTTAGCCTCGGAGGATGGATCATGGAGGTAGAGCACTGTTTGAACTAGGGGCCCGTCAAGGGTTACTGAATTCAGATAAACTCCGAATACCATTGATCTTACTCCGGGAGTCAGACAGTGAGCGATAAGGTCCATTGTCGAAAGGGGAACAGCCCAGATCACCAGTTAAGGTCCCTAAATTTATGCTAAGTGGAAAAGGATGTGGCGTTGCACAGACAACTAGGATGTTGGCTCAGAAGCAGCCACCATTTAAAGAGTGCGTAATAGCTCACTAGTCGAGTGGCACTGCGCCGAAAATATACCGGGGCTAAGCATAATACCGAAACTGTGGGTGCACCCGTCAGGGTGCGCGGTAGGAGAGCGTTCTAAGGGCGTTGAAGGTCGATCGTGAGGACGGCTGGAGCGCTTAGAAGTGAGAATGCCGGCATGAGTAGCGAAAGATCAGTGAGAATCTGATCCACCGTATGACTAAGGTTTCCTGGGGAAGGCTCGTCCTCCCAGGGTTAGTCGGGATCTAAGGCGAGGCCGCAAGGCGTAGTCGATGACAAGCAGGTTGAGATTCCTGCACTAGTTTATTTTGTTTAAGCGATGGAGGGACGCAGGAGGCTAAGGAAAGCGCACGGCTGGAAAAGTGCGTCCAAGCAGTAAGTCCGGTAGCGAGTGAAATGCTTGCCGCCTTAAGGACAAGCTGTGATGGGGAGCGAAATTAAAGTAGCGAAGTTCCTGATGTCACACTGCCAAGAAAAGCTTCTAGTGAGAAATAAACTACCCGTACCGCAAACCGACACAGGTAGTCGAGGAGAGTATCCTCAGGTGAGCGAGCGAACTCTCGTTAAGGAACTCGGCAAAATGACCCCGTAACTTCGGAAGAAGGGGTGCTGACCGCAAGGTCAGCCGCAGTGAATAGGCCCAAACAACTGTTTATCAAAAACACAGGTCTCTGCTAAATCGTAAGATGATGTATAGGGGCTGACGCCTGCCCGGTGCTGGAAGGTTAAGAGGATGAGTTAGCGCAAGCGAAGCCCAGAATTGAAGCCCCAGTAAACGGCGGCCGTAACTATAACGGTCCTAAGGTAGCGAAATTCCTTGTCGGGTAAGTTCCGACCCGCACGAAAGGCGTAATGATTTGGGCACTGTCTCAACGAGAGACTCGGTGAAATTATAGTACCCGTGAAGATGCGGGTTACCCGCGACAGGACGGAAAGACCCCATGGAGCTTTACTGTAGCTTGATATTGAGTGTTGGTACCGCTTGTACAGGATAGGTAGGAGCCGTAGAGATCGGAACGCTAGTTTCGATGGAGGCATTGGTGGGATACTACCCTAGCTGTATGAACACTCTAACCCGCGCCACTAATCGTGGCGGGAGACAGTGTCAGGTAGGCAGTTTGACTGGGGCGGTCGCCTCCTAAAATGTAACGGAGGCGCCCAAAGGTTCCCTCAGAATGGTTGGAAATCATTCGCAGAGTGTAAAGGTAGAAGGGAGCTTGACTGCGAGACTGACAAGTCGAGCAGGGACGAAAGTCGGGCTTAGTGATCCGGTGGTTCCGTATGGAAGGGCCATCGCTCAACGGATAAAAGCTACCCTGGGGATAACAGGCTTATCTCCCCCAAGAGTCCACATCGACGGGGAGGTTTGGCACCTCGATGTCGGCTCATCGCATCCTGGGGCTGTAGTCGGTCCCAAGGGTTGGGCTGTTCGCCCATTAAAGCGGTACGCGAGCTGGGTTCAGAACGTCGTGAGACAGTTCGGTCCCTATCCGTCGCGGGCGCAGGAAATTTGAGAGGAGCTGTCCTTAGTACGAGAGGACCGGGATGGACGTTCCGCTGGTGTACCAGTTGTGCCGCCAGGCGCATCGCTGGGTAGCTATGAACGGAAGGGATAAACGCTGAAAGCATCTAAGTGTGAAGCCCCCCTCGAGATGAGATTTCCCATTCCTATATGGAAGTAAGACCCCTGAAAGATGATCAGGTAGATAGGCTGGAAGTGGAAGTGCAGCGATGCATGGAGCGGACCAGTACTAATCGGTCGAGGACTTAACC
>GCA_001064785.1_00769 16S ribosomal RNA
TATGAGAGTTTGATCCTGGCTCAGGATGAACGCTGGCGGCGTGCCTAATACATGCAAGTCGAACGAGTTCTGATTATTGAAAGGTGCTTGCATCTTGATTTAATTTTGAACGAGTGGCGGACGGGTGAGTAACACGTGGGTAACCTGCCCTTAAGTGGGGGATAACATTTGGAAACAGATGCTAATACCGCATAAATCCAAGAACCGCATGGTTCTTGGCTGAAAGATGGCGTAAGCTATCGCTTTTGGATGGACCCGCGGCGTATTAGCTAGTTGGTGAGGTAACGGCTCACCAAGGCAATGATACGTAGCCGAACTGAGAGGTTGATCGGCCACATTGGGACTGAGACACGGCCCAAACTCCTACGGGAGGCAGCAGTAGGGAATCTTCCACAATGGACGCAAGTCTGATGGAGCAACGCCGCGTGAGTGAAGAAGGCTTTCGGGTCGTAAAACTCTGTTGTTGGAGAAGAATGGTCGGCAGAGTAACTGTTGTCGGCGTGACGGTATCCAACCAGAAAGCCACGGCTAACTACGTGCCAGCAGCCGCGGTAATACGTAGGTGGCAAGCGTTATCCGGATTTATTGGGCGTAAAGCGAGCGCAGGCGGTTTTTTAAGTCTGATGTGAAAGCCCTCGGCTTAACCGAGGAAGTGCATCGGAAACTGGGAAACTTGAGTGCAGAAGAGGACAGTGGAACTCCATGTGTAGCGGTGAAATGCGTAGATATATGGAAGAACACCAGTGGCGAAGGCGGCTGTCTGGTCTGTAACTGACGCTGAGGCTCGAAAGCATGGGTAGCGAACAGGATTAGATACCCTGGTAGTCCATGCCGTAAACGATGAATGCTAGGTGTTGGAGGGTTTCCGCCCTTCAGTGCCGCAGCTAACGCATTAAGCATTCCGCCTGGGGAGTACGACCGCAAGGTTGAAACTCAAAGGAATTGACGGGGGCCCGCACAAGCGGTGGAGCATGTGGTTTAATTCGAAGCAACGCGAAGAACCTTACCAGGTCTTGACATCTTTTGATCACCTGAGAGATCAGGTTTCCCCTTCGGGGGCAAAATGACAGGTGGTGCATGGTTGTCGTCAGCTCGTGTCGTGAGATGTTGGGTTAAGTCCCGCAACGAGCGCAACCCTTATGACTAGTTGCCAGCATTTAGTTGGGCACTCTAGTAAGACTGCCGGTGACAAACCGGAGGAAGGTGGGGATGACGTCAAATCATCATGCCCCTTATGACCTGGGCTACACACGTGCTACAATGGATGGTACAACGAGTTGCGAGACCGCGAGGTCAAGCTAATCTCTTAAAGCCATTCTCAGTTCGGACTGTAGGCTGCAACTCGCCTACACGAAGTCGGAATCGCTAGTAATCGCGGATCAGCACGCCGCGGTGAATACGTTCCCGGGCCTTGTACACACCGCCCGTCACACCATGAGAGTTTGTAACACCCGAAGCCGGTGGCGTAACCCTTTTAGGGAGCGAGCCGTCTAAGGTGGGACAAATGATTAGGGTGAAGTCGTAACAAGGTAGCCGTAGGAGAACCTGCGGCTGGATCACCTCCTTT
>GCA_001064785.1_00770 23S ribosomal RNA
TTAAGTTACAAAGGGCGCACGGTGGATGCCTTGGCACTAGGAGCCGATGAAGGACGGAACTAATACCGATATGCTTCGGGGAGCTATAAGTAAGCTTTGATCCGGAGATTTCCGAATGGGGGAACCCAGTACACATCAGTGTATTGCCTGCAAGTGAATACATAGCTTGTTGGCGGCAGACGCGGGGAACTGAAACATCTCAGTACCCGCAGGAAGAGAAAGAAAACTCGATTCCCATAGTAGCGGCGAGCGAAGTGGGAAGAGCCCAAACCGAGAAGCTTGCTTCTCGGGGTTGTAGGACTGGACATTGGAGTTACCAAAGTTCGACGTAGTCGAAGTCAGCTGGAAAGCTGCGCCATAGAAGGTGAAAGCCCTGTAAACGAAACGGCGGACTCTCCGTCCAGGATCCTGAGTACGGCGGAACACGTGAAATTCCGTCGGAATCCGGGAGGACCATCTCCCAAGGCTAAATACTCCCTAGTGACCGATAGTGAACCAGTACCGTGAGGGAAAGGTGAAAAGCACCCCGGAAGGGGAGTGAAACAGTTCCTGAAACCGTGTGCCTACAATTAGTCAAAGCCCGTTAACGGGTAATGGCGTGCCTTTTGTAGAATGAACCGGCGAGTTACGTTTGCCTGCGAGGTTAAGATGAAAAGTCGGAGCCGGAGCGAAAGCGAGTCTGAACAGGGCGCTTCAGTAGGTAGATGTAGACCCGAAACCAAGTGACCTACCCATGACCAGGTTGAAGGTGTGGTGAAACACACTGGAGGACCGAACCCATGTATGTTGAAAAATGCTGGGATGAGTTGTGGGTAGCGGTGAAATTCCAAACGAACTTGGAGATAGCTGGTTCTCTCCGAAATAGCTTTAGGGTTAGCCTCGGAGGATGGATCATGGAGGTAGAGCACTGTTTGAACTAGGGGCCCGTCAAGGGTTACTGAATTCAGATAAACTCCGAATACCATTGATCTTACTCCGGGAGTCAGACAGTGAGCGATAAGGTCCATTGTCGAAAGGGGAACAGCCCAGATCACCAGTTAAGGTCCCTAAATTTATGCTAAGTGGAAAAGGATGTGGCGTTGCACAGACAACTAGGATGTTGGCTCAGAAGCAGCCACCATTTAAAGAGTGCGTAATAGCTCACTAGTCGAGTGGCACTGCGCCGAAAATATACCGGGGCTAAGCATAATACCGAAACTGTGGGTGCACCCGTCAGGGTGCGCGGTAGGAGAGCGTTCTAAGGGCGTTGAAGGTCGATCGTGAGGACGGCTGGAGCGCTTAGAAGTGAGAATGCCGGCATGAGTAGCGAAAGATCAGTGAGAATCTGATCCACCGTATGACTAAGGTTTCCTGGGGAAGGCTCGTCCTCCCAGGGTTAGTCGGGATCTAAGGCGAGGCCGCAAGGCGTAGTCGATGACAAGCAGGTTGAGATTCCTGCACTAGTTTATTTTGTTTAAGCGATGGAGGGACGCAGGAGGCTAAGGAAAGCGCACGGCTGGAAAAGTGCGTCCAAGCAGTAAGTCCGGTAGCGAGTGAAATGCTTGCCGCCTTAAGGACAAGCTGTGATGGGGAGCGAAATTAAAGTAGCGAAGTTCCTGATGTCACACTGCCAAGAAAAGCTTCTAGTGAGAAATAAACTACCCGTACCGCAAACCGACACAGGTAGTCGAGGAGAGTATCCTCAGGTGAGCGAGCGAACTCTCGTTAAGGAACTCGGCAAAATGACCCCGTAACTTCGGAAGAAGGGGTGCTGACCGCAAGGTCAGCCGCAGTGAATAGGCCCAAACAACTGTTTATCAAAAACACAGGTCTCTGCTAAATCGTAAGATGATGTATAGGGGCTGACGCCTGCCCGGTGCTGGAAGGTTAAGAGGATGAGTTAGCGCAAGCGAAGCCCAGAATTGAAGCCCCAGTAAACGGCGGCCGTAACTATAACGGTCCTAAGGTAGCGAAATTCCTTGTCGGGTAAGTTCCGACCCGCACGAAAGGCGTAATGATTTGGGCACTGTCTCAACGAGAGACTCGGTGAAATTATAGTACCCGTGAAGATGCGGGTTACCCGCGACAGGACGGAAAGACCCCATGGAGCTTTACTGTAGCTTGATATTGAGTGTTGGTACCGCTTGTACAGGATAGGTAGGAGCCGTAGAGATCGGAACGCTAGTTTCGATGGAGGCATTGGTGGGATACTACCCTAGCTGTATGAACACTCTAACCCGCGCCACTAATCGTGGCGGGAGACAGTGTCAGGTAGGCAGTTTGACTGGGGCGGTCGCCTCCTAAAATGTAACGGAGGCGCCCAAAGGTTCCCTCAGAATGGTTGGAAATCATTCGCAGAGTGTAAAGGTAGAAGGGAGCTTGACTGCGAGACTGACAAGTCGAGCAGGGACGAAAGTCGGGCTTAGTGATCCGGTGGTTCCGTATGGAAGGGCCATCGCTCAACGGATAAAAGCTACCCTGGGGATAACAGGCTTATCTCCCCCAAGAGTCCACATCGACGGGGAGGTTTGGCACCTCGATGTCGGCTCATCGCATCCTGGGGCTGTAGTCGGTCCCAAGGGTTGGGCTGTTCGCCCATTAAAGCGGTACGCGAGCTGGGTTCAGAACGTCGTGAGACAGTTCGGTCCCTATCCGTCGCGGGCGCAGGAAATTTGAGAGGAGCTGTCCTTAGTACGAGAGGACCGGGATGGACGTTCCGCTGGTGTACCAGTTGTGCCGCCAGGCGCATCGCTGGGTAGCTATGAACGGAAGGGATAAACGCTGAAAGCATCTAAGTGTGAAGCCCCCCTCGAGATGAGATTTCCCATTCCTATATGGAAGTAAGACCCCTGAAAGATGATCAGGTAGATAGGCTGGAAGTGGAAGTGCAGCGATGCATGGAGCGGACCAGTACTAATCGGTCGAGGACTTAACC
>GCA_001064785.1_00778 transfer-messenger RNA, SsrA
GGGGGTGTAATGGTCTCGACATTGCTTTTCGCGCATGCGGTGCACCTCGGAGGCTCGGCTCCGTCATCAACGGAACAGTTAATATAACTGCAAAGAACGAAAATTCTTACGCTTTAGCTGCTTAATAACCAGCTAGCGTGATCCTTCCGACTTCGCTCAAGGGTCGGGTCTGGGTCTCAAATCATTGAGCTACGGTTGATGTTGCCACCTGAGGCATCAACAAGAGACTAGTAGGTTAGCTGCCTTGTGTTAGCCTTGTCGGTTGGCGCGACATCGCAGCGAATTTTAAATAAATCGGCTATGGGTGTAGAGCCGCATGTAGCAGGGGTGATGGACAGGAGTTCGATTCTCCTCACCTCCA
>GCA_001064785.1_01493 tRNA-Leu
TGCGGGCATGGCGGAATTGGTAGACGCGCAAGATTAAGGATCTTGTGAGCATTTTTGCTCATGGAAGTTCGAGTCTTCTTGCCCGCATC
>GCA_001064785.1_01541 tRNA-Ser
TGCCGCGATGGCGGAACTGGCAGACGCGCAGTGTTCAGGTCGCTGTGGGATTTATTCCCGTGCAGGTTCGATTCCTGTTCGCGGCAT
>GCA_001064785.1_01570 tRNA-Arg
TGCGCGGTTAGTGTAATGGATCGCACGTGAGATTCCGGTTCTCGAAATCCGGGTTCGACTCCCGGGCTGCGCAG
>GCA_001064785.1_01712 23S ribosomal RNA
TTAAGTTACAAAGGGCGCACGGTGGATGCCTTGGCACTAGGAGCCGATGAAGGACGGAACTAATACCGATATGCTTCGGGGAGCTATAAGTAAGCTTTGATCCGGAGATTTCCGAATGGGGGAACCCAGTACACATCAGTGTATTGCCTGCAAGTGAATACATAGCTTGTTGGCGGCAGACGCGGGGAACTGAAACATCTCAGTACCCGCAGGAAGAGAAAGAAAACTCGATTCCCATAGTAGCGGCGAGCGAAGTGGGAAGAGCCCAAACCGAGAAGCTTGCTTCTCGGGGTTGTAGGACTGGACATTGGAGTTACCAAAGTTCGACGTAGTCGAAGTCAGCTGGAAAGCTGCGCCATAGAAGGTGAAAGCCCTGTAAACGAAACGGCGGACTCTCCGTCCAGGATCCTGAGTACGGCGGAACACGTGAAATTCCGTCGGAATCCGGGAGGACCATCTCCCAAGGCTAAATACTCCCTAGTGACCGATAGTGAACCAGTACCGTGAGGGAAAGGTGAAAAGCACCCCGGAAGGGGAGTGAAACAGTTCCTGAAACCGTGTGCCTACAATTAGTCAAAGCCCGTTAACGGGTAATGGCGTGCCTTTTGTAGAATGAACCGGCGAGTTACGTTTGCCTGCGAGGTTAAGATGAAAAGTCGGAGCCGGAGCGAAAGCGAGTCTGAACAGGGCGCTTCAGTAGGTAGATGTAGACCCGAAACCAAGTGACCTACCCATGACCAGGTTGAAGGTGTGGTGAAACACACTGGAGGACCGAACCCATGTATGTTGAAAAATGCTGGGATGAGTTGTGGGTAGCGGTGAAATTCCAAACGAACTTGGAGATAGCTGGTTCTCTCCGAAATAGCTTTAGGGTTAGCCTCGGAGGATGGATCATGGAGGTAGAGCACTGTTTGAACTAGGGGCCCGTCAAGGGTTACTGAATTCAGATAAACTCCGAATACCATTGATCTTACTCCGGGAGTCAGACAGTGAGCGATAAGGTCCATTGTCGAAAGGGGAACAGCCCAGATCACCAGTTAAGGTCCCTAAATTTATGCTAAGTGGAAAAGGATGTGGCGTTGCACAGACAACTAGGATGTTGGCTCAGAAGCAGCCACCATTTAAAGAGTGCGTAATAGCTCACTAGTCGAGTGGCACTGCGCCGAAAATATACCGGGGCTAAGCATAATACCGAAACTGTGGGTGCACCCGTCAGGGTGCGCGGTAGGAGAGCGTTCTAAGGGCGTTGAAGGTCGATCGTGAGGACGGCTGGAGCGCTTAGAAGTGAGAATGCCGGCATGAGTAGCGAAAGATCAGTGAGAATCTGATCCACCGTATGACTAAGGTTTCCTGGGGAAGGCTCGTCCTCCCAGGGTTAGTCGGGATCTAAGGCGAGGCCGCAAGGCGTAGTCGATGACAAGCAGGTTGAGATTCCTGCACTAGTTTATTTTGTTTAAGCGATGGAGGGACGCAGGAGGCTAAGGAAAGCGCACGGCTGGAAAAGTGCGTCCAAGCAGTAAGTCCGGTAGCGAGTGAAATGCTTGCCGCCTTAAGGACAAGCTGTGATGGGGAGCGAAATTAAAGTAGCGAAGTTCCTGATGTCACACTGCCAAGAAAAGCTTCTAGTGAGAAATAAACTACCCGTACCGCAAACCGACACAGGTAGTCGAGGAGAGTATCCTCAGGTGAGCGAGCGAACTCTCGTTAAGGAACTCGGCAAAATGACCCCGTAACTTCGGAAGAAGGGGTGCTGACCGCAAGGTCAGCCGCAGTGAATAGGCCCAAACAACTGTTTATCAAAAACACAGGTCTCTGCTAAATCGTAAGATGATGTATAGGGGCTGACGCCTGCCCGGTGCTGGAAGGTTAAGAGGATGAGTTAGCGCAAGCGAAGCCCAGAATTGAAGCCCCAGTAAACGGCGGCCGTAACTATAACGGTCCTAAGGTAGCGAAATTCCTTGTCGGGTAAGTTCCGACCCGCACGAAAGGCGTAATGATTTGGGCACTGTCTCAACGAGAGACTCGGTGAAATTATAGTACCCGTGAAGATGCGGGTTACCCGCGACAGGACGGAAAGACCCCATGGAGCTTTACTGTAGCTTGATATTGAGTGTTGGTACCGCTTGTACAGGATAGGTAGGAGCCGTAGAGATCGGAACGCTAGTTTCGATGGAGGCATTGGTGGGATACTACCCTAGCTGTATGAACACTCTAACCCGCGCCACTAATCGTGGCGGGAGACAGTGTCAGGTAGGCAGTTTGACTGGGGCGGTCGCCTCCTAAAATGTAACGGAGGCGCCCAAAGGTTCCCTCAGAATGGTTGGAAATCATTCGCAGAGTGTAAAGGTAGAAGGGAGCTTGACTGCGAGACTGACAAGTCGAGCAGGGACGAAAGTCGGGCTTAGTGATCCGGTGGTTCCGTATGGAAGGGCCATCGCTCAACGGATAAAAGCTACCCTGGGGATAACAGGCTTATCTCCCCCAAGAGTCCACATCGACGGGGAGGTTTGGCACCTCGATGTCGGCTCATCGCATCCTGGGGCTGTAGTCGGTCCCAAGGGTTGGGCTGTTCGCCCATTAAAGCGGTACGCGAGCTGGGTTCAGAACGTCGTGAGACAGTTCGGTCCCTATCCGTCGCGGGCGCAGGAAATTTGAGAGGAGCTGTCCTTAGTACGAGAGGACCGGGATGGACGTTCCGCTGGTGTACCAGTTGTGCCGCCAGGCGCATCGCTGGGTAGCTATGAACGGAAGGGATAAACGCTGAAAGCATCTAAGTGTGAAGCCCCCCTCGAGATGAGATTTCCCATTCCTATATGGAAGTAAGACCCCTGAAAGATGATCAGGTAGATAGGCTGGAAGTGGAAGTGCAGCGATGCATGGAGCGGACCAGTACTAATCGGTCGAGGACTTAACC
>GCA_001064785.1_01713 tRNA-Ala
TGGGGGATTAGCTCAGCTGGGAGAGCGCCTGCTTTGCAAGCAGGAGGTCATCGGTTCGATCCCGTTATCCTCCAT
>GCA_001064785.1_01727 tRNA-Asn
TTGCCCAGTAGTTCAGTGGTAGAATGCTTGACTGTTAATCAAAGGGTCGCTGGTTCGAATCCAGCCTGGGCAGGCC
>GCA_001064785.1_01811 tRNA-Lys
TGGGTGGTTAGCTCAGCTGGCAGAGCAACGGACTCTTAATCCGTGGGTCCAGGGTTCGATCCCCTGACCACCCAG
>GCA_001064785.1_01980 tRNA-Thr
TGCCGACTTAGCTCAGTTGGTAGAGCATCTGTCTTGTAAACAGGGGGTCGAAGGTTCGAATCCTTTAGTCGGCAT
>GCA_001064785.1_01989 tRNA-Pro
CGGGAAGTAGCTCAGCTTGGTAGAGCACTACGTTCGGGACGTAGGGGTCGCAAGTTCGAATCTTGTCTTCCCGA
>GCA_001064785.1_02087 tRNA-Leu
TGCGGGTGTGGCGGAACTGGCAGACGCGCTAGATTTAGGTTCTAGTGGTTTTTGACCGTGGGGGTTCGAGTCCCTTCACCCGCAT
>GCA_001064785.1_02205 tRNA-Leu
TGCCGGGGTGGCGGAATTGGCAGACGCACAGGACTTAAAATCCTGCGGTCAGTGATGACCGTACCGGTTCGATCCCGGTCCTCGGCAT
>GCA_001064785.1_02206 tRNA-Arg
GCACCCATAGCGCAATTGGATAGAGTGTCTGACTACGAATCAGAAGGTTGTAGGTTTGACTCCTACTGGGTGCA
>GCA_001064785.1_02281 tRNA-Glu
TTGCCCGTTGGTCAAGGGGTTAAGACGCCGCGTTCTCAGCGCGGAAACACGGGTTCGAATCCCGTACGGGTGAG
>GCA_001064785.1_02579 tRNA-Ser
GGAGAGTTGGCAGAGTGGTAATGCAACGGACTCGAAATCCGTCGAACCGGCTAATACCGGCGCGCAGGTTCAAATCCTGTACTCTCCT