Gene list
Applied filters:
COG category: NOT ANALYZED
Organism: Chlamydia muridarum Nigg, Nigg
Number of genes found: 43
Show UniProt / TrEMBL protein name | View as list | View in Fasta format (Protein) | ||||
# Chlamydia muridarum Nigg, Nigg >tRNA-Phe-1 tRNA-Phe GGCTAGATAGCTCAGCTGGTAGAGCAGAGGACTGAAGATCCTTGTGTCGT CGGTTCGATCCCGGCTCTGGCCA >tRNA-Val-2 tRNA-Val GGATGCGTAGCTCAGCGGTTAGAGCACCTGTCTTACACACAGGGGGTCAT AGGTTCAAATCCTGTCGTGTCCA >tRNA-Leu-2 tRNA-Leu GCCGGCGTGGCGGAATGGTAGACGCGGTAGACTCAAAATCTACTCTTAGC AGTAAGGTGTTGGTTCGAGTCCAATCGCCGGCA >tRNA-Ser-1 tRNA-Ser GGAAGAATGGCAGAGCGGTTTAATGCACCTGTCTTGAAAACAGGAGACCT GAAAGGGTCCGGGGGTTCGAATCCCTCTTCTTCCG >tRNA-Thr-2 tRNA-Thr GCCTAAATAGCTCAGTTGGTAGAGCAACGCATTCGTAACGCGTAGGTCGT CGGTTCGATCCCGGCTTTGGGCA >tRNA-Leu-5 tRNA-Leu GCAGCTATGGCGGAACCGGTAGACGCGCTAGATTCAGGTTCTAGTGAGCT TTTGCTCATGGAAGTTCAAGTCTTCTTAGCTGCAACA >tRNA-Asn-1 tRNA-Asn TCCGGAGTAGCTCAGCGGTAGAGCAGTGGACTGTTAATCCATTGGTCGTT GGTTCGAACCCATCCTCCGGAG >tRNA-Thr-1 tRNA-Thr GCTGGAGTAGCTCAATTGGCAGAGCATTCGATTTGTAATCGAACGGTTGA GGGTTCAATTCCTTTCTCCAGCA >tRNA-Met-2 tRNA-Met CGCGGGATAGAGTAGTGGTCATCTCGTTGGGCTCATAACCCAAAGGTCGG AGGTTCGAATCCTTCTCCCGCTA >tRNA-Ala-1 tRNA-Ala GGGGTATTAGCTCAGTTGGTAGAGCGCAACAATGGCATTGTTGAGGTCAG CGGTTCGATCCCGCTATGCTCCA >tRNA-Pro-2 tRNA-Pro CGGAGTATAGCGCAGCCTGGTTAGCGCGGTTGCTTTGGGAGCAATAGGTC GGGGGTTCGAATCCCTCTACTCCGA >tRNA-Ser-4 tRNA-Ser GGAAAGATGACTGAGTGGTCGAAAGTACGTCCCTGCTAAGGACGCGTACC CCTTAAAGGGTACCGAGGGTTCGAATCCCTCTCTTTCCG >tRNA-Gly-2 tRNA-Gly GCGGGTGTAGCTCAGTGGTAGAGCGCCACGTTGCCAACGTGAAGGTCGTG AGTTCAAGCCTCATCACCCGCT >tRNA-Arg-2 tRNA-Arg GGACCGATAGCTCAGTGGATAGAGCATCCGCCTTCTAAGCGGATGGTCGC AGGTTCGAATCCTGCTCGGTCCG >TCrrnaA23S 23S ribosomal RNA TACAGACCAAGTTGATAAGAGCTATTGGTGGATGCCTTGGCATTGACAGG CGATGAAGGACGCGAATACCTGCGAAAAGCTCCGGCGAGCTGGTAATAAG CAAAGACCCGGAGGTGTCCGAATGGGGAAACCCGGTAGAGTAATAGTCTA CCATTGTATACTGAATACATAGGTATGCAAAGCAACACCTGCTGAACTGA AACATCTTAGTAAGCAGAGGAAAAGAAATCGAAGAGATTCCCTGTGTAGC GGCGAGCGAAAGGGGAAGAGCCTAAACCGAACTTATAGTTCGGGGTTGTA GGATTGGGGATAAAGGATCAAGATTCCTAGTTGAACACATCTGGAAAGGT GGATGAAACAGGGTGATAGTCCCGTAGACGAAAGGAGATCAAGACCGACC TCAACACCTGAGTAGGGCTAGACACGTGAAACCTAGTCTGAATCTGGGGA GACCACTCTCCAAGGCTAAATACTAGTCAATGACCGATAGTGAACCAGTA CTGTGAAGGAAAGGCGAAAAGAACCCTTGTTAAGGGAGTGAAATAGAACC TGAAACCAGTAGCTTACAAGCGGTCGAAGACCTATGTCCCTTTAACGGGG TCGAGGTTGACGGCGTGCCTTTTGCATGATGAGCCAGGGAGTTAAGCTAA ACGGCGAGGTTAAGGGATGTACATTCCGGAGCCGAAGCGAAAGCGAGTTT TAAAAGAGCGTTTAGTCGTTTGGTTTAGACACGAAACCAAGTGAGCTATT TATGACCAGGTTGAAGCATGGGTAAAACTATGTGGAGGACCGAACCAGTA CCTGTTGAAAAAGGTTTGGATGAGTTGTGAATAGGGGTGAAAGGCCAATC AAACTTGGAGATATCTTGTTCTCTCCGAAATAACTATAGGGTTAGCCTCG GATAATAAGCTTTTGGGGGTAGAGCACTGAATTCTAGCGGGGGCCTACCG GCTTACCAACGGAAATCAAACTCCGAATACCAAGAGCGAGTCCGGGAGAT AGACAGCGGGGGCTAAGCTTCGTTGTCGAGAGGGGAACAGCCCAGACCGC CGATTAAGGTCCCTAATTTTATGCTAAGTGAGTAAGGAAGTGATGATTCT AAGACAGTTGGAATGTTGGCTTAGAGGCAGCAATCATTTAAAGAGTGCGT AACAGCTCACCAATCGAGAATCATTGCGCCGATAATAAACGGGGCTAAGC ATAAAACCGACYTCGCGGGTGTGTCTTTATGGCACGCGGTAGGAGAGCGT AGTATTCAGCAGTGAAGGTGTACCGGAAGGAGCGCTGGAGCGGATACTAG TGAAGATCCATGGCATAAGTAACGATAAAGGGAGTGAAAATCTCCCTCGC CGTAAGCCCAAGGTTTCCAGGGTCAAGCTCGTCTTCCCTGGGTTAGTCGG CCCCTAAGTCGAGGCGTAACTGCGTAGACGATGGAGCAGCAGGTTAAATA TTCCTGCACCACCTAAAACTATAGCAAAGGAATGACGGAGTAAGTTAAGC ACGCGGACGATTGGAAGTGTCCGTAGAGCGATGAGAACGGTTAGTAGGCA AATCCGCTAACATAAGATCAGGTCGCGATCAAGGGGAATCTTCGGAGGAA CCGATGGTGTGGAGCGAGGCTTTCAAGAAATAATTTCTAGCTGTTGATGG TGACCGTACCAAAACCGACACAGGTGGGCGAGATGAGTATTCTAAGGCGC GCGAGATAACTTTCGTTAAGGAACTCGGCAAATTATCCCCGTAACTTCGG AATAAGGGGAGCCTTTTAGGGTGATTATCGAACGATATGAGCCCCGGGGG GCCGCAGAGAAATGGCCCAGGCGACTGTTTAGCAAAAACACAGCACTATG CAAACCTCTAAGGGGAAGTATATGGTGTGACGCCTGCCCAATGCCAAAAG GTTAAAGGGATATGTCAGCTGCAAAGCGAAGCATTGAACCTAAGCCCTGG TGAATGGCCGCCGTAACTATAACGGTGCTAAGGTAGCGAAATTCCTTGTC GGGTAAGTTCCGACCTGCACGAATGGTGTAACGATCTGGGCACTGTCTCA ACGAAAGACTCGGTGAAATTGTAGTAGCAGTGAAGATGCTGTTTACCCGC GAAAGGACGAAAAGACCCCGTGAACCTTTACTGTACTTTGGTATTGATTT TTGGTTTGTTATGTGTAGGATAGCCAGGAGACTAAGAACACCCTTCGTCA GGAGGGTGGGAGTCAACGTTGAAATACTGGTCTTAACAAGCTGGGAATCT AACATTATTCCATGAATCTGGAAGATGGACATTGCCAGACGGGCAGTTTT ACTGGGGCGGTATCCTCCTAAAAAGTAACGGAGGAGCCCAAAGCTTATTT CATCGTGGTTGGCAATCACGAGTAGAGCGTAAAGGTATAAGATAGGTTGA CTGCAAGACCAACAAGTCGAGCAGAGACGAAAGTCGGGCTTAGTGATCCG GCGGTGGAAAGTGGAATCGCCGTCGCTTAACGGATAAAAGGTACTCCGGG GATAACAGGCTGATCGCCACCAAGAGTTCATATCGACGTGGCGGTTTGGC ACCTCGATGTCGGCTCATCGCATCCTGGGGCTGGAGAAGGTCCCAAGGGT TTGGCTGTTCGCCAATTAAAGCGGTACGCGAGCTGGGTTCAAAACGTCGT GAGACAGTTTGGTCTCTATCCTTCGTGGGCGCAGGATACTTGAGAGGAGC TGTTCCTAGTACGAGAGGACCGGAATGGACGAACCAATGGTGTGTCGGTT GTTTTGCCAAGAGCATAGCCGAGTAGCTAAGTTCGGAAAGGATAAGCATT GAAAGCATCTAAATGCCAAGCCTCCCTCAAGATAAGGTATCCCAATGAGA CTCCATGTAGACTACGTGGTTGATAGGTTGGAGGTGTAAGCACAGTAATG TGTTCAGCTAACCAATACTAATAAGTCCAAAGACTTGGTCT >tRNA-Met-3 tRNA-Met GGGGCAATAGCTCAGCGGTTAGAGCTGCGGACTCATAACCCGTAGGTCCC TGGTTCAAATCCAGGTTGCCCCA >tRNA-Arg-3 tRNA-Arg GCACCGATAGCTCAACTGGATAGAGTACCTGGCTTCGGACCAGGTGGTTG GAGGTTCGAACCCTCTTCGGTGCG >TCrrnaB5S 5S ribosomal RNA GCTTGGTGATAATAGAGAGAGGGAAACACCTGATACCATTCCGAACTCAG AAGTTAAGCCTCTGATCGCTGATGGTACTATACACAAGAGTATGGGAGAG TAGGTCGTTGCCAAGC >tRNA-Leu-3 tRNA-Leu GCGGAAGTGGCGGAATTGGTATACGCGCTATCTTGAGGTGGTAGTGGAGC TTTCCTTAGGGGTTCGAGTCCCCTCTTTCGCA >TCrrnaB16S 16S ribosomal RNA TTCTGAGAATTTGATCTTGGTTCAGATTGAACGCTGGCGGCGTGGATGAG GCATGCAAGTCGAACGGAACAATTGCTTCGGTGATTGTTTAGTGGCGGAA GGGTTAGTAATGCATAGATAATTTGTCCTTAACTTGGGAATAACGGTTGG AAACGGCCGCTAATACCGAATGTGGCGTAGATTAGGCATCTAAATTACGT TAAAGAAGGGGATCTTCGGACCTTTCGGTTAAGGGAGAGTCTATGTGATA TCAGCTAGTTGGTGGGGTAAAGGCCTACCAAGGCTATGACGTCTAGGCGG ATTGAGAGATTGGCCGCCAACACTGGGACTGAGACACTGCCCAGACTCCT ACGGGAGGCTGCAGTCGAGAATCTTTCGCAATGGACGGAAGTCTGACGAA GCGACGCCGCGTGTGTGATGAAGGCTCTAGGGTTGTAAAGCACTTTCGCT TGGGAATAAGAGAAGACGGTTAATACCCGTTGGATTTGAGCGTACCAGGT AAAGAAGCACCGGCTAACTCCGTGCCAGCAGCTGCGGTAATACGGAGGGT GCTAGCGTTAATCGGATTTATTGGGCGTAAAGGGCGTGTAGGCGGAAAGG TAAGTTAGTTGTCAAATCTCGGGGCTCAACCCCGAATCGGCATCTAAAAC TATTTTTCTAGAGGGTAGATGGAGAAAAGGGAATTTCACGTGTAGCGGTG AAATGCGTAGATATGTGGAAGAACACCAGTGGCGAAGGCGCTTTTCTAAT TTATACCTGACGCTAAGGCGCGAAAGCAAGGGGAGCAAACAGGATTAGAT ACCCTGGTAGTCCTTGCCGTAAACGATGCATACTTGATGTGGATGGTCTC AACCCCATCCGTGTCGGAGCTAACGCGTTAAGTATGCCGCCTGAGGAGTA CACTCGCAAGGGTGAAACTCAAAAGAATTGACGGGGGCCCGCACAAGCAG TGGAGCATGTGGTTTAATTCGATGCAACGCGAAGGACCTTACCTGGGTTT GACATGCATATGACCGCGGCAGAAATGTCGTTTTCCGCAAGGACATATGC ACAGGTGCTGCATGGCTGTCGTCAGCTCGTGCCGTGAGGTGTTGGGTTAA GTCCCGCAACGAGCGCAACCCTTATCGTTAGTTGCCAGCACTTAGGGTGG GAACTCTAACGAGACTGCCTGGGTTAACCAGGAGGAAGGCGAGGATGACG TCAAGTCAGCATGGCCCTTATGCCCAGGGCGACACACGTGCTACAATGGC CAGTACAGAAGGTAGCAAGATCGCGAGATGGAGCAAATCCTCAAAGCTGG CCCCAGTTCGGATTGTAGTCTGCAACTCGACTACATGAAGTCGGAATTGC TAGTAATGGCGTGTCAGCCATAACGCCGTGAATACGTTCCCGGGCCTTGT ACACACCGCCCGTCACATCATGGGAGTTGGTTTTACCTTAAGTCGTTGAC TCAACCCGCAAGGGGGAGAGGCGCCCAAGGTGAGGCTGATGACTGGGATG AAGTCGTAACAAGGTAGCCCTACCGGAAGGTGGGGCTGGATCACCTCCTT TT >tRNA-Met-1 tRNA-Met GGCGGTATAGCTCAGGTGGTTAGAGCAGCGGAATCATAATCCGCGTGTCG TTGGTTCAAGTCCGACTACCGCTA >tRNA-Pro-1 tRNA-Pro CTGGATGTAGCGCAGCCTGGTAGCGCACTTGCATGGGGTGCAAGGGGGCG GAGGTTCAAATCCTCTCATCCAGA >tRNA-Cys-1 tRNA-Cys GGTGGCATCGCCAAGCGGTAAGGCCGAGGCCTGCAAAGCCTCTATCCCCG GTTCGATTCCGGGTGCCACCT >TCrrnaA5S 5S ribosomal RNA ATTAGCTTGGTGATAATAGAGAGAGGGAAACACCTGATACCATTCCGAAC TCAGAAGTTAAGCCTCTGATCGCTGATGGTACTATACACAAGAGTATGGG AGAGTAGGTCGTTGCCAAGCATTTTATTACAGAATATCTTAGTCACAGAC T >tRNA-Val-1 tRNA-Val GGGGTATTAGCTCAGTTGGTTAGAGCGTCACGTTGACATCGTGAAGGTCA GCTGTTCAAGTCAGCTATATCCCA >tRNA-Ile-1 tRNA-Ile GCGGTTATAGCTCAGTTGGTTAGAGCGCGACACTGATAATGTCGAGGTCC CAAGTTCAAGTCTTGGTAACCGCA >tRNA-Lys-1 tRNA-Lys GGGTCTTTAGCTCAGCGGTTAGAGCATCTCACTTTTAATGAGAGGGTCGC AGGTTCGAATCCTTCAAGACCCA >tRNA-His-1 tRNA-His GCGAACGTAGCTCAGTTGGTTAGAGCGTCGGATTGTGGTTCCGAAGGTCG CGGGTTCGAACCCCGTCGTTCGCC >tRNA-Glu-1 tRNA-Glu GGCCCCATCGTCTAGCCTGGCCCAGGACATCGGATTTTCATTCCGGTAAC AGGGGTTCGAATCCCCTTGGGGTCA >tRNA-Ser-3 tRNA-Ser GGAGAGATGTCCGAGTGGCTTAAGGAGCACGCTTGGAAAGCGTGTGTGCG TTAACGCGTACCGAGGGTTCGAATCCCTCTCTCTCCG >tRNA-Gln-1 tRNA-Gln TGGGGTGTGGCCAAGCGGTAAGGCAGCGGTTTTTGGTACCGCGCATCGGA GGTTCGAATCCTTCCACCCCAG >TCrrnaB23S 23S ribosomal RNA TACAGACCAAGTTGATAAGAGCTATTGGTGGATGCCTTGGCATTGACAGG CGATGAAGGACGCGAATACCTGCGAAAAGCTCCGGCGAGCTGGTAATAAG CAAAGACCCGGAGGTGTCCGAATGGGGAAACCCGGTAGAGTAATAGTCTA CCATTGTATACTGAATACATAGGTATGCAAAGCAACACCTGCTGAACTGA AACATCTTAGTAAGCAGAGGAAAAGAAATCGAAGAGATTCCCTGTGTAGC GGCGAGCGAAAGGGGAAGAGCCTAAACCGAACTTATAGTTCGGGGTTGTA GGATTGGGGATAAAGGATCAAGATTCCTAGTTGAACACATCTGGAAAGGT GGATGAAACAGGGTGATAGTCCCGTAGACGAAAGGAGATCAAGACCGACC TCAACACCTGAGTAGGGCTAGACACGTGAAACCTAGTCTGAATCTGGGGA GACCACTCTCCAAGGCTAAATACTAGTCAATGACCGATAGTGAACCAGTA CTGTGAAGGAAAGGCGAAAAGAACCCTTGTTAAGGGAGTGAAATAGAACC TGAAACCAGTAGCTTACAAGCGGTCGAAGACCTATGTCCCTTTAACGGGG TCGAGGTTGACGGCGTGCCTTTTGCATGATGAGCCAGGGAGTTAAGCTAA ACGGCGAGGTTAAGGGATGTACATTCCGGAGCCGAAGCGAAAGCGAGTTT TAAAAGAGCGTTTAGTCGTTTGGTTTAGACACGAAACCAAGTGAGCTATT TATGACCAGGTTGAAGCATGGGTAAAACTATGTGGAGGACCGAACCAGTA CCTGTTGAAAAAGGTTTGGATGAGTTGTGAATAGGGGTGAAAGGCCAATC AAACTTGGAGATATCTTGTTCTCTCCGAAATAACTATAGGGTTAGCCTCG GATAATAAGCTTTTGGGGGTAGAGCACTGAATTCTAGCGGGGGCCTACCG GCTTACCAACGGAAATCAAACTCCGAATACCAAGAGCGAGTCCGGGAGAT AGACAGCGGGGGCTAAGCTTCGTTGTCGAGAGGGGAACAGCCCAGACCGC CGATTAAGGTCCCTAATTTTATGCTAAGTGAGTAAGGAAGTGATGATTCT AAGACAGTTGGAATGTTGGCTTAGAGGCAGCAATCATTTAAAGAGTGCGT AACAGCTCACCAATCGAGAATCATTGCGCCGATAATAAACGGGGCTAAGC ATAAAACCGACATCGCGGGTGTGTCTTTATGGCACGCGGTAGGAGAGCGT AGTATTCAGCAGTGAAGGTGTACCGGAAGGAGCGCTGGAGCGGATACTAG TGAAGATCCATGGCATAAGTAACGATAAAGGGAGTGAAAATCTCCCTCGC CGTAAGCCCAAGGTTTCCAGGGTCAAGCTCGTCTTCCCTGGGTTAGTCGG CCCCTAAGTCGAGGCGTAACTGCGTAGACGATGGAGCAGCAGGTTAAATA TTCCTGCACCACCTAAAACTATAGCAAAGGAATGACGGAGTAAGTTAAGC ACGCGGACGATTGGAAGTGTCCGTAGAGCGATGAGAACGGTTAGTAGGCA AATCCGCTAACATAAGATCAGGTCGCGATCAAGGGGAATCTTCGGAGGAA CCGATGGTGTGGAGCGAGGCTTTCAAGAAATAATTTCTAGCTGTTGATGG TGACCGTACCAAAACCGACACAGGTGGGCGAGATGAGTATTCTAAGGCGC GCGAGATAACTTTCGTTAAGGAACTCGGCAAATTATCCCCGTAACTTCGG AATAAGGGGAGCCTTTTAGGGTGATTATCGAACGATATGAGCCCCGGGGG GCCGCAGAGAAATGGCCCAGGCGACTGTTTAGCAAAAACACAGCACTATG CAAACCTCTAAGGGGAAGTATATGGTGTGACGCCTGCCCAATGCCAAAAG GTTAAAGGGATATGTCAGCTGCAAAGCGAAGCATTGAACCTAAGCCCTGG TGAATGGCCGCCGTAACTATAACGGTGCTAAGGTAGCGAAATTCCTTGTC GGGTAAGTTCCGACCTGCACGAATGGTGTAACGATCTGGGCACTGTCTCA ACGAAAGACTCGGTGAAATTGTAGTAGCAGTGAAGATGCTGTTTACCCGC GAAAGGACGAAAAGACCCCGTGAACCTTTACTGTACTTTGGTATTGATTT TTGGTTTGTTATGTGTAGGATAGCCAGGAGACTAAGAACACCCTTCGTCA GGAGGGTGGGAGTCAACGTTGAAATACTGGTCTTAACAAGCTGGGAATCT AACATTATTCCATGAATCTGGAAGATGGACATTGCCAGACGGGCAGTTTT ACTGGGGCGGTATCCTCCTAAAAAGTAACGGAGGAGCCCAAAGCTTATTT CATCGTGGTTGGCAATCACGAGTAGAGCGTAAAGGTATAAGATAGGTTGA CTGCAAGACCAACAAGTCGAGCAGAGACGAAAGTCGGGCTTAGTGATCCG GCGGTGGAAAGTGGAATCGCCGTCGCTTAACGGATAAAAGGTACTCCGGG GATAACAGGCTGATCGCCACCAAGAGTTCATATCGACGTGGCGGTTTGGC ACCTCGATGTCGGCTCATCGCATCCTGGGGCTGGAGAAGGTCCCAAGGGT TTGGCTGTTCGCCAATTAAAGCGGTACGCGAGCTGGGTTCAAAACGTCGT GAGACAGTTTGGTCTCTATCCTTCGTGGGCGCAGGATACTTGAGAGGAGC TGTTCCTAGTACGAGAGGACCGGAATGGACGAACCAATGGTGTGTCGGTT GTTTTGCCAAGAGCATAGCCGAGTAGCTAAGTTCGGAAAGGATAAGCATT GAAAGCATCTAAATGCCAAGCCTCCCTCAAGATAAGGTATCCCAATGAGA CTCCATGTAGACTACGTGGTTGATAGGTTGGAGGTGTAAGCACAGTAATG TGTTCAGCTAACCAATACTAATAAGTCCAAAGACTTGGTCT >tRNA-Asp-1 tRNA-Asp GCGGGAGTAGTTCAATTGGTTAGAGCACCGCCCTGTCAAGGCGGAAGTTG CGGGTTCGAGCCCCGTCTCTCGCG >tRNA-Tyr-1 tRNA-Tyr GGGGGTGTCGCATAGCGGTCAATTGCATCGGACTGTAAATCCGACTCCTT ACGGATACGTTGGTTCAAATCCAGCCACCCCCA >tRNA-Ala-2 tRNA-Ala GGGGACTTAGCTTAGTTGGTAGAGCGTCTGATTTGCATTCAGAAGGTCAG GAGTTCGAATCTCCTAGTCTCCA >tRNA-Ser-2 tRNA-Ser GGAAGAGTGGCAGAGTGGTCGAATGCATCTGATTCGAAATCAGAAGTCCC TCAACGGGGACCGGGGGTTCAAATCCCTTCTCTTCCG >tRNA-Gly-1 tRNA-Gly GCGCCCGTAGCTCAATGGTAGAGCTGTAGCCTTCCAAGCTACCGGTGTCA GTTCGATTCTGATCGGGCGCT >tRNA-Thr-3 tRNA-Thr GCCCAGGTAGCTCAGTGGTAGAGCACTTGCATGGTAAGCAAGTGGCCGTA GGTTCAATTCCTATTCTGGGCA >tRNA-Trp-1 tRNA-Trp GGGTGTGTAGCTTAGATGGTAGAGCAGTGGCCTCCAAAGCCGCCGGTCGG GGGTTCGAATCCCTCCGCACTCG >tRNA-Leu-4 tRNA-Leu GCTCAGATGGTGGAATGGTAGACACTAGGGACTTAAAATCCCTTGGGCTT TGGCCCGTGCAAGTTCGAGTCTTGTTCTGAGCA >tRNA-Arg-1 tRNA-Arg GCACCAGTAGCTCAGTGGATAGAGTACCTGGCTACGAACCAGGTGGTCAG AGGTTCAAATCCTCTCTGGTGCG >TCrrnaA16S 16S ribosomal RNA CTGAGAATTTGATCTTGGTTCAGATTGAACGCTGGCGGCGTGGATGAGGC ATGCAAGTCGAACGGAACAATTGCTTCGGTGATTGTTTAGTGGCGGAAGG GTTAGTAATGCATAGATAATTTGTCCTTAACTTGGGAATAACGGTTGGAA ACGGCCGCTAATACCGAATGTGGCGTAGATTAGGCATCTAAATTACGTTA AAGAAGGGGATCTTCGGACCTTTCGGTTAAGGGAGAGTCTATGTGATATC AGCTAGTTGGTGGGGTAAAGGCCTACCAAGGCTATGACGTCTAGGCGGAT TGAGAGATTGGCCGCCAACACTGGGACTGAGACACTGCCCAGACTCCTAC GGGAGGCTGCAGTCGAGAATCTTTCGCAATGGACGGAAGTCTGACGAAGC GACGCCGCGTGTGTGATGAAGGCTCTAGGGTTGTAAAGCACTTTCGCTTG GGAATAAGAGAAGACGGTTAATACCCGTTGGATTTGAGCGTACCAGGTAA AGAAGCACCGGCTAACTCCGTGCCAGCAGCTGCGGTAATACGGAGGGTGC TAGCGTTAATCGGATTTATTGGGCGTAAAGGGCGTGTAGGCGGAAAGGTA AGTTAGTTGTCAAATCTCGGGGCTCAACCCCGAATCGGCATCTAAAACTA TTTTTCTAGAGGGTAGATGGAGAAAAGGGAATTTCACGTGTAGCGGTGAA ATGCGTAGATATGTGGAAGAACACCAGTGGCGAAGGCGCTTTTCTAATTT ATACCTGACGCTAAGGCGCGAAAGCAAGGGGAGCAAACAGGATTAGATAC CCTGGTAGTCCTTGCCGTAAACGATGCATACTTGATGTGGATGGTCTCAA CCCCATCCGTGTCGGAGCTAACGCGTTAAGTATGCCGCCTGAGGAGTACA CTCGCAAGGGTGAAACTCAAAAGAATTGACGGGGGCCCGCACAAGCAGTG GAGCATGTGGTTTAATTCGATGCAACGCGAAGGACCTTACCTGGGTTTGA CATGCATATGACCGCGGCAGAAATGTCGTTTTCCGCAAGGACATATGCAC AGGTGCTGCATGGCTGTCGTCAGCTCGTGCCGTGAGGTGTTGGGTTAAGT CCCGCAACGAGCGCAACCCTTATCGTTAGTTGCCAGCACTTAGGGTGGGA ACTCTAACGAGACTGCCTGGGTTAACCAGGAGGAAGGCGAGGATGACGTC AAGTCAGCATGGCCCTTATGCCCAGGGCGACACACGTGCTACAATGGCCA GTACAGAAGGTAGCAAGATCGCGAGATGGAGCAAATCCTCAAAGCTGGCC CCAGTTCGGATTGTAGTCTGCAACTCGACTACATGAAGTCGGAATTGCTA GTAATGGCGTGTCAGCCATAACGCCGTGAATACGTTCCCGGGCCTTGTAC ACACCGCCCGTCACATCATGGGAGTTGGTTTTACCTTAAGTCGTTGACTC AACCCGCAAGGGGGAGAGGCGCCCAAGGTGAGGCTGATGACTGGGATGAA GTCGTAACAAGGTAGCCCTACCGGAAGGTGGGGCTGGATCACCTCCTTT >tRNA-Leu-1 tRNA-Leu GCCCAGGTGGTGAAATTGGTAGACACGCTGGATTTAGGATCCAGTGCTTT GCGGCATGTAGGTTCAAGTCCTATCCTGGGCA