>NIGA_t00010 tRNA-Asn
TTCCGCCTTAGCTCAGTTGGTAGAGCGCTTGACTGTTAATCAGGATGTCGTCAGTTCGAGTCTGACAGGCGGAGT
>NIGA_t00020 tRNA-Pro
TCGGGAAGTGGCTCAGTTTGGTAGAGCACCTGGTTTGGGACCAGGGGGTCGCAGGTTCAAATCCTGTCTTCCCGATC
>NIGA_t00030 tRNA-Gln

>NIGA_t00040 tRNA-Arg

>NIGA_t00050 tRNA-Leu

>NIGA_t00060 tRNA-Val

>NIGA_t00070 tRNA-Glu

>NIGA_t00080 tRNA-Met

>NIGA_t00090 tRNA-Ser

>NIGA_t00100 tRNA-Asn

>NIGA_t00110 tRNA-Asp

>NIGA_t00120 tRNA-Glu

>NIGA_t00130 tRNA-Val

>NIGA_t00140 tRNA-Arg

>NIGA_t00150 tRNA-Gly

>NIGA_t00160 tRNA-Lys

>NIGA_t00170 tRNA-Lys

>NIGA_t00180 tRNA-Lys

>NIGA_t00190 tRNA-Val

>NIGA_t00200 tRNA-Glu

>NIGA_t00210 tRNA-Leu

>NIGA_t00220 tRNA-Thr

>NIGA_t00230 tRNA-Ser

>NIGA_t00240 tRNA-Leu

>NIGA_t00250 tRNA-Cys

>NIGA_t00260 tRNA-His

>NIGA_t00270 tRNA-Trp

>NIGA_t00280 tRNA-Tyr

>NIGA_t00290 tRNA-Phe

>NIGA_t00300 tRNA-Asp

>NIGA_t00310 tRNA-Met

>NIGA_t00320 tRNA-Ser

>NIGA_t00330 tRNA-Glu

>NIGA_t00340 tRNA-Ser

>NIGA_t00350 tRNA-Ile

>NIGA_t00360 tRNA-Gly

>NIGA_t00370 tRNA-Phe

>NIGA_t00380 tRNA-Met

>NIGA_t00390 tRNA-Met

>NIGA_t00400 tRNA-Met

>NIGA_t00410 tRNA-Pro

>NIGA_t00420 tRNA-Arg

>NIGA_t00430 tRNA-Leu

>NIGA_t00440 tRNA-Gly

>NIGA_t00450 tRNA-Thr

>NIGA_t00460 tRNA-Leu

>NIGA_t00470 tRNA-Lys

>NIGA_t00480 tRNA-Val

>NIGA_t00490 tRNA-Lys

>NIGA_t00500 tRNA-Thr

>NIGA_t00510 tRNA-Thr

>NIGA_r00010 5S ribosomal RNA

>NIGA_t00520 tRNA-Asn

>NIGA_t00530 tRNA-Pro

>NIGA_t00540 tRNA-Gly

>NIGA_t00550 tRNA-Arg

>NIGA_t00560 tRNA-Val

>NIGA_t00570 tRNA-Asp

>NIGA_t00580 tRNA-Thr

>NIGA_t00590 tRNA-Gly

>NIGA_t00600 tRNA-Gly

>NIGA_t00610 tRNA-Pro

>NIGA_t00620 tRNA-Gly

>NIGA_t00630 tRNA-Gln

>NIGA_t00640 tRNA-Tyr

>NIGA_t00650 tRNA-Gln

>NIGA_t00660 tRNA-Leu

>NIGA_t00670 tRNA-Arg

>NIGA_t00680 tRNA-Arg

>NIGA_tm00010 transfer-messenger RNA

>NIGA_t00690 tRNA-Gln

>NIGA_t00700 tRNA-Glu

>NIGA_t00710 tRNA-Ser

>NIGA_t00720 tRNA-Leu

>NIGA_r00020 23S ribosomal RNA
TCAAGTGAAGAAGGGCGCACGGTGAATGCCTTGGCACTGGAAGCCGATGAAGGACGCGACTAACCGCGAAAGTCTTCGGGGAGCCGTAAGTAGGCTTTGATCCGGAGGTCTCCGAATGGGGGAACCCAGCATGTGCAGACATGCTATCCTTAAGTGAATACATAGCTTAAGGAGGGAACACGCAGCGAACTGAAACATCTAAGTAGCTGCAGGAAGAGAAAGAAATATCGATTTCCCAAGTAGCGGCGAGCGAACAGGAAAGAGCCCAAACCGGCAGATTTATCTGCCGGGGTTGTAGGACTGAGACATGGCACTTCAGAGGATAGCAGAAGCGTTTGGGAAAACGCGCCAGAGAGGGTGAGAGCCCCGTAAGCGAAATCCAAAGAAGGCCTATCAGTATCCTGAGTAGGGCGGGACACGTGAAATCCCGCTTGAATCCGCGAGGACCATCTCGCAAGGCTAAATACTAACCAGTGACCGATAGTGAACCAGTACCGTGAGGGAAAGGTGAAAAGAACCCCGGGAGGGGAGTGAAAGAGAACCTGAAACCGTGTGCCTACAAGTAGTCAGAGCCCGTTAACGGGTAATGGCGTGCCTTTTGTAGAATGAACCGGCGAGTTGCGTTAGTCAGCAAGGTTAAGTCAGAAAAGACGGAGCCGCAGCGAAAGCGAGTCTGAAGAGGGCGAGCAGTTGGCTGACGCAGACCCGAAACCAAGTGACCTACCCATGACCAGGTTGAAGGCGCGGTAAAACGCGCTGGAGGACCGAACCCACGTAAGTTGAAAATTGCGGGGATGAGTTGTGGGTAGCGGTGAAATTCCAAACGAACTTGGAGATAGCTGGTTCTCTCCGAAATAGCTTTAGGGCTAGCCTCGCAAAGAGGATGCTGGAGGTAGAGCTCTGTTTGGACTAGGGGCCCGTCAAGGGTTACTGAATTCAGATAAACTACGAATTCCAGACATTTATGTGCGGGAGTCAGACTGCGAGTGATAAGATCCGTAGTCGAAAGGGAAACAGCCCAGATCACCAGTTAAGGTCCCAAAATTCATGCTAAGTGGAAAAGGATGTGGAGTTGCGCAGACAACTAGGACGTTGGCTCAGAAGCAGCCATCATTCAAAGAGTGCGTAATAGCTCACTAGTCGAGTGACGCCGCGCCGAAAATTTACCGGGGCTAAGCATGATACCGAAACTGTGGATGTGCGTTTATGCACGTGGTAGGAGAGCGTTCTAGCGGCGGTGAAGCATGACCGAGAGGACATGTGGAGCTTCTAGAAGTGAGAATGCCGGTATGAGTAACGAAAGACAGGTGAGAATCCTGTCCGCCGCAAGACTAAGGTTTCCTGGGGCAGGCTCGTCCGCCCAGGGTAAGTCGGGACCTAAGGCGAGGCCGAGAGGCGTAGTCGATGGACAACAGGTTGAAATTCCTGTACTGCACCGAATCGTTATGAGCGATGGAGGGACGCAGGAGGCTAGCAGCGCGTGGTGCTGGATACCACGTTCAAGCGTCAAGTCTGAGAGCGAGTCAAATGCTTGCTCTCATAAGGACAAGGCGTGATGAGGAGCGAAATTAAAGTAGCGAAGGCTGCGACGTCACACTGCCGAGAAAAGCTTCTAGCCAGAAACGGTGCACCCGTACCGCAAACCGACACAGGTAGTCGAGGAGAGTATCCTCAGGTGAGCGAGAGAACTCTCGTTAAGGAACTCGGCAAAATGGCCCCGTAACTTCGGGAGAAGGGGCGCTGGTCGCAAGATCAGCCGCAGTGAAAAGGCCCAAGCAACTGTTTATCAAAAACACAGGCATCTGCAAAATCGTAAGATGAAGTATAGGTGCTGACACCTGCCCGGTGCTGGAAGGTTAAGAGGAGAGCTTAGCGCAAGCGAAGGTTTGAATTGAAGCCCCAGTAAACGGCGGCCGTAACTATAACGGTCCTAAGGTAGCGAAATTCCTTGTCGGGTAAGTTCCGACCTGCACGAAAGGTGTAATGATTTGGGCACTGTCTCAACGAGAGACTCGGTGAAATTATAATACCCGTGAAGATGCGGGTTACCCGCGACAGGACGGAAAGACCCCATGGAGCTTTACTGCAGTTTAATATTGGGTATCTGTCAAGCATGTACAGGATAGGTAGGAGCCGGAGAAGATAGGACGCCAGTCTTATCTGAGGCGCTGGTGGGATACTACCCTTGCTTGACGGATGCTCTAACTCAGGCCTGTGATCCAGGCCGAGGACAGTGTTTGACGGGCAGTTTGACTGGGGCGGTCGCCTCCTAAAGTGTAACGGAGGCGCCCAAAGGTTCCCTCAGAATGGTTGGAAATCATTCGCAGAGTGTAAAGGCAAAAGGGAGCTTGACTGCGAGAGAGACAACTCGAGCAGGTACGAAAGTAGGGCTTAGTGATCTGGTGGTACCGCATGGAAGGGCCATCACTCAACGGATAAAAGCTACCCTGGGGATAACAGGCTTATCTCCCCCAAGAGTTCACATCGACGGGGAGGTTTGGCACCTCGATGTCGGCTCGTCGCATCCTGGGGCTGAAGTCGGTCCCAAGGGTTGGGCTGTTCGCCCATTAAAGCGGCACGCGAGCTGGGTTCAGAACGTCGTGAGACAGTTCGGTCCCTATCCGTCGTGGGCGCAGGAAATTTGAGAGGAGCTGTCCTTAGTACGAGAGGACCGGGATGGACGCACCGCTGGTGTACCAGTTGTCTTGCCAAAGGCATCGCTGGGTAGCTATGTGCGGACGGGATAAGCGCTGAAAGCATCTAAGTGCGAAGCCCCCCTCAAGATGAGATTTCCCATTTCTTCAAGAAAGTAAGACACCTCAGAGACGATGAGGTAGATAGGCCGGGAGTGGAAGAGCCGTGAGGCTTGGAGCGGACCGGTACTAATCAGTCGAGGACTTGACC
>NIGA_r00030 16S ribosomal RNA
ATTGAGAGTTTGATCCTGGCTCAGGACGAACGCTGGCGGCGTGCCTAATACATGCAAGTCGAGCGAGCTGAATTCAAAGATTCCTTCGGGATGATTTGTTGGACGCTAGCGGCGGATGGGTGAGTAACACGTGGGCAATCTGCCCTAAAGACTGGGATACCACTTGGAAACAGGTGCTAATACCGGATAACAACATGAATCGCATGATTCAAGTTTGAAAGGCGGCGCAAGCTGTCACTTTAGGATGAGCCCGCGGCGCATTAGCTAGTTGGTGGGGTAAAGGCCTACCAAGGCAATGATGCGTAGCCGAGTTGAGAGACTGATCGGCCACATTGGGACTGAGACACGGCCCAAACTCCTACGGGAGGCAGCAGTAGGGAATCTTCCACAATGGACGCAAGTCTGATGGAGCAACGCCGCGTGAGTGAAGAAGGTCTTCGGATCGTAAAGCTCTGTTGTTGGTGAAGAAGGATAGAGGCAGTAACTGGTCTTTATTTGACGGTAATCAACCAGAAAGTCACGGCTAACTACGTGCCAGCAGCCGCGGTAATACGTAGGTGGCAAGCGTTGTCCGGATTTATTGGGCGTAAAGCGAGCGCAGGCGGAATGATAAGTCTGATGTGAAAGCCCACGGCTCAACCGTGGAACTGCATCGGAAACTGTCATTCTTGAGTGCAGAAGAGGAGAGTGGAACTCCATGTGTAGCGGTGGAATGCGTAGATATATGGAAGAACACCAGTGGCGAAGGCGGCTCTCTGGTCTGCAACTGACGCTGAGGCTCGAAAGCATGGGTAGCGAACAGGATTAGATACCCTGGTAGTCCATGCCGTAAACGATGAGCGCTAGGTGTTGGGGACTTTCCGGTCCTCAGTGCCGCAGCAAACGCATTAAGCGCTCCGCCTGGGGAGTACGACCGCAAGGTTGAAACTCAAAGGAATTGACGGGGGCCCGCACAAGCGGTGGAGCATGTGGTTTAATTCGAAGCAACGCGAAGAACCTTACCAGGTCTTGACATCCTGCGCTACACCTAGAGATAGGTGGTTCCCTTCGGGGACGCAGAGACAGGTGGTGCATGGCTGTCGTCAGCTCGTGTCGTGAGATGTTGGGTTAAGTCCCGCAACGAGCGCAACCCTTGTCTTTAGTTGCCATCATTAAGTTGGGCACTCTAGAGAGACTGCCGGTGACAAACCGGAGGAAGGTGGGGATGACGTCAAGTCATCATGCCCCTTATGACCTGGGCTACACACGTGCTACAATGGGCAGTACAACGAGAAGCGAACCCGCGAGGGTAAGCGGATCTCTTAAAGCTGCTCTCAGTTCGGACTGCAGGCTGCAACTCGCCTGCACGAAGCTGGAATCGCTAGTAATCGCGGATCAGCACGCCGCGGTGAATACGTTCCCGGGCCTTGTACACACCGCCCGTCACACCATGGAAGTCTGCAATGCCCAAAGTCGGTGGGATAACCTTTATAGGAGTCAGCCGCCTAAGGCAGGGCAGATGACTGGGGTGAAGTCGTAACAAGGTAGCCGTAGGAGAACCTGCGGCTGGATCACCTCCTTT