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Previous release (v1)
2026-06-21 22:05:00, GGRNA.v2 : RefSeq release 233 (Jan, 2026)
LOCUS NM_001442669 8838 bp mRNA linear VRT 20-AUG-2025
DEFINITION Danio rerio trinucleotide repeat containing adaptor 6Bb.1
(tnrc6bb.1), transcript variant 2, mRNA.
ACCESSION NM_001442669 XM_073943806
VERSION NM_001442669.1
KEYWORDS RefSeq.
SOURCE Danio rerio (zebrafish)
ORGANISM Danio rerio
Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi;
Actinopterygii; Neopterygii; Teleostei; Ostariophysi;
Cypriniformes; Danionidae; Danioninae; Danio.
REFERENCE 1 (bases 1 to 8838)
AUTHORS Elkon,R., Milon,B., Morrison,L., Shah,M., Vijayakumar,S.,
Racherla,M., Leitch,C.C., Silipino,L., Hadi,S., Weiss-Gayet,M.,
Barras,E., Schmid,C.D., Ait-Lounis,A., Barnes,A., Song,Y.,
Eisenman,D.J., Eliyahu,E., Frolenkov,G.I., Strome,S.E., Durand,B.,
Zaghloul,N.A., Jones,S.M., Reith,W. and Hertzano,R.
TITLE RFX transcription factors are essential for hearing in mice
JOURNAL Nat Commun 6, 8549 (2015)
PUBMED 26469318
REMARK Publication Status: Online-Only
COMMENT VALIDATED REFSEQ: This record has undergone validation or
preliminary review. The reference sequence was derived from
JBMGRA010000003.1.
On Aug 20, 2025 this sequence version replaced XM_073943806.1.
##Evidence-Data-START##
Transcript exon combination :: SRR26395039.1107488.1,
SRR32588731.2433738.1 [ECO:0000332]
RNAseq introns :: mixed sample support SAMEA3505373,
SAMEA3505374 [ECO:0006172]
##Evidence-Data-END##
PRIMARY REFSEQ_SPAN PRIMARY_IDENTIFIER PRIMARY_SPAN COMP
1-289 JBMGRA010000003.1 2077271-2077559 c
290-351 JBMGRA010000003.1 2071886-2071947 c
352-373 JBMGRA010000003.1 2071779-2071800 c
374-649 JBMGRA010000003.1 2068263-2068538 c
650-2431 JBMGRA010000003.1 2066363-2068144 c
2432-2593 JBMGRA010000003.1 2064797-2064958 c
2594-2772 JBMGRA010000003.1 2062192-2062370 c
2773-2847 JBMGRA010000003.1 2062037-2062111 c
2848-3000 JBMGRA010000003.1 2061631-2061783 c
3001-3129 JBMGRA010000003.1 2058764-2058892 c
3130-3252 JBMGRA010000003.1 2058427-2058549 c
3253-3354 JBMGRA010000003.1 2058229-2058330 c
3355-3568 JBMGRA010000003.1 2056348-2056561 c
3569-3688 JBMGRA010000003.1 2056051-2056170 c
3689-3823 JBMGRA010000003.1 2055684-2055818 c
3824-3910 JBMGRA010000003.1 2052339-2052425 c
3911-4114 JBMGRA010000003.1 2051591-2051794 c
4115-4179 JBMGRA010000003.1 2049848-2049912 c
4180-4319 JBMGRA010000003.1 2047804-2047943 c
4320-8838 JBMGRA010000003.1 2040026-2044544 c
FEATURES Location/Qualifiers
source 1..8838
/organism="Danio rerio"
/mol_type="mRNA"
/strain="Tuebingen"
/db_xref="taxon:7955"
/chromosome="3"
/map="3"
gene 1..8838
/gene="tnrc6bb.1"
/gene_synonym="si:dkey-217f16.6; si:dkey-46g23.1;
tnrc6bb.2"
/note="trinucleotide repeat containing adaptor 6Bb.1"
/db_xref="GeneID:793145"
/db_xref="ZFIN:ZDB-GENE-070705-475"
exon 1..289
/gene="tnrc6bb.1"
/gene_synonym="si:dkey-217f16.6; si:dkey-46g23.1;
tnrc6bb.2"
/inference="alignment:Splign:2.1.0"
misc_feature 268..270
/gene="tnrc6bb.1"
/gene_synonym="si:dkey-217f16.6; si:dkey-46g23.1;
tnrc6bb.2"
/note="upstream in-frame stop codon"
exon 290..351
/gene="tnrc6bb.1"
/gene_synonym="si:dkey-217f16.6; si:dkey-46g23.1;
tnrc6bb.2"
/inference="alignment:Splign:2.1.0"
CDS 307..4722
/gene="tnrc6bb.1"
/gene_synonym="si:dkey-217f16.6; si:dkey-46g23.1;
tnrc6bb.2"
/note="isoform 1 is encoded by transcript variant 2;
trinucleotide repeat containing adaptor 6Bb.2"
/codon_start=1
/product="trinucleotide repeat containing adaptor 6Bb.1
isoform 1"
/protein_id="NP_001429598.1"
/db_xref="GeneID:793145"
/db_xref="ZFIN:ZDB-GENE-070705-475"
/translation="
MEDSQCKTGDSGHQEGAEDSTRESASPCPVFGGWSEAPEGGKDANWSAVADGQPPSTVPPRYMPREVPPRFRNQQEPKVLLKRGQPPLSCMLLGGASGGDASPRLPLQEHSGTSDSTVDSVSLHSSSDASATPTYANYTWGRGSGGQASSQGMDKDTSDVEKWPRPEDSWNSDQTLHSARLGMDESADLQMDSSSKLSEHAEDSASSQSENKESIKGVIQNFSSKVSPLSGDQEDTQGLNPNYTPVGDLSTNTASEESSPTPLSPAHALYQTLLKREEPVTGDWAKPGPNGGAASSMDLWGSIENPAVKSNGGSSGDGTSQGVWDGDAVGSYKQAATGQTSDFAVGKSKEDMSEEVSAESLHKSPVFGNNVASEDDNQKVADACDGSKGKSASSEDAQNLVQSPSKCHPEEALQSMINHTNLDPKVLCNTGWGKTQIKQNVAWDFEADVGNVGWDAEVNTERSKEGWQEAGDLSNSKMQKQEVGHMGRAQGWTERGEMNVGIGHKAGGWGEDQEGASRREGTGWSQGGGKEWTPVPEAGGWKEEKGTNQNEGLWGSPEDSGPRSGGWDCKTHQGWGEKLLPSQIPNKQAALKTQNQQPQQQSQTQQQMPGYPKVVQDRGRTGENDEQSKGSGWSCGPIPQIASAGEPSGWDEPSPQSISRKMDIDDGTSAWGDPSRYSSKNVNLWDKNSSQPQQQSSGRPAGTPSKNSGPAIWTRSSGPSDSSMESGPAPWVKSFDGSSGWGESSEPGKGGWGNSHSHPNKTGSKSMQEGWGDEGSNSSRHSSWEDEDGGVWGGRGSQSNMSSSYSSGGWGQSQGSRRLSSKSPLKGNSGDSWVSPVSRQFSNMGVTDDDSSMGHDNRHDRRGMSDGEMRRGGRTGGAFRSQTAKETGCGESGPYLDKVGGHGMFGGGIPPMRGMHQAGVHPLNPSPGIRAQVPHQFLPPQVPGPMLKPMAPPSGGMFPPQLSPQHIAMLGGINPHMQQFQLACQLLLQQQQQQQQQFLNQRKFSPPLRQQHDPQQLARIMAILQQQQQQGVVGPKLSPSPLGAHIPKHPDTHLHHLGLNTHKPPEAAVHAAIGGSELHNKAPAAYTGAVKLPDGSSFSQYDVLGSGWHRSAAGKVDASPANPSWPPEFQPGVPWKGLPSHESDPDPYMTPAGMLGSSLLSDTEHHLLQDNTGSNSVNTCMPSPGAWPYSASDPPLTAHGTAKYTELKSSWPPEPIGHSKSWRTNRNASQLPRPPPGLSSQKQPWVEEGPRMARAWGGGASGTDTPFKSEWSDGGASAGKSWLLLRNLTPQIDGSTLRTICLQHGPLLTFHLGLTQGSALIRYCSPHEAAKAQSALHMCVLGNTTILAEFMSEEDVIRYFTHSQAAGVAGSPEVSPGSDSREGERAPGVPDGDAPVGWQGLDGAPGSTVEVPGLAILSQWSNNAGEGAGKGVWGGVAPGYHGSSLWGAPQLEDGTAGLLPGNLLGGGTDSL"
misc_feature 2398..>2685
/gene="tnrc6bb.1"
/gene_synonym="si:dkey-217f16.6; si:dkey-46g23.1;
tnrc6bb.2"
/note="Argonaute hook; Region: Ago_hook; pfam10427"
/db_xref="CDD:463088"
misc_feature <3586..4137
/gene="tnrc6bb.1"
/gene_synonym="si:dkey-217f16.6; si:dkey-46g23.1;
tnrc6bb.2"
/note="TNRC6-PABC binding domain; Region: TNRC6-PABC_bdg;
pfam16608"
/db_xref="CDD:465195"
misc_feature 4147..4392
/gene="tnrc6bb.1"
/gene_synonym="si:dkey-217f16.6; si:dkey-46g23.1;
tnrc6bb.2"
/note="RNA recognition motif (RRM) superfamily; Region:
RRM_SF; cl17169"
/db_xref="CDD:473069"
exon 352..373
/gene="tnrc6bb.1"
/gene_synonym="si:dkey-217f16.6; si:dkey-46g23.1;
tnrc6bb.2"
/inference="alignment:Splign:2.1.0"
exon 374..649
/gene="tnrc6bb.1"
/gene_synonym="si:dkey-217f16.6; si:dkey-46g23.1;
tnrc6bb.2"
/inference="alignment:Splign:2.1.0"
exon 650..2431
/gene="tnrc6bb.1"
/gene_synonym="si:dkey-217f16.6; si:dkey-46g23.1;
tnrc6bb.2"
/inference="alignment:Splign:2.1.0"
exon 2432..2593
/gene="tnrc6bb.1"
/gene_synonym="si:dkey-217f16.6; si:dkey-46g23.1;
tnrc6bb.2"
/inference="alignment:Splign:2.1.0"
exon 2594..2772
/gene="tnrc6bb.1"
/gene_synonym="si:dkey-217f16.6; si:dkey-46g23.1;
tnrc6bb.2"
/inference="alignment:Splign:2.1.0"
exon 2773..2847
/gene="tnrc6bb.1"
/gene_synonym="si:dkey-217f16.6; si:dkey-46g23.1;
tnrc6bb.2"
/inference="alignment:Splign:2.1.0"
exon 2848..3000
/gene="tnrc6bb.1"
/gene_synonym="si:dkey-217f16.6; si:dkey-46g23.1;
tnrc6bb.2"
/inference="alignment:Splign:2.1.0"
exon 3001..3129
/gene="tnrc6bb.1"
/gene_synonym="si:dkey-217f16.6; si:dkey-46g23.1;
tnrc6bb.2"
/inference="alignment:Splign:2.1.0"
exon 3130..3252
/gene="tnrc6bb.1"
/gene_synonym="si:dkey-217f16.6; si:dkey-46g23.1;
tnrc6bb.2"
/inference="alignment:Splign:2.1.0"
exon 3253..3354
/gene="tnrc6bb.1"
/gene_synonym="si:dkey-217f16.6; si:dkey-46g23.1;
tnrc6bb.2"
/inference="alignment:Splign:2.1.0"
exon 3355..3568
/gene="tnrc6bb.1"
/gene_synonym="si:dkey-217f16.6; si:dkey-46g23.1;
tnrc6bb.2"
/inference="alignment:Splign:2.1.0"
exon 3569..3688
/gene="tnrc6bb.1"
/gene_synonym="si:dkey-217f16.6; si:dkey-46g23.1;
tnrc6bb.2"
/inference="alignment:Splign:2.1.0"
exon 3689..3823
/gene="tnrc6bb.1"
/gene_synonym="si:dkey-217f16.6; si:dkey-46g23.1;
tnrc6bb.2"
/inference="alignment:Splign:2.1.0"
exon 3824..3910
/gene="tnrc6bb.1"
/gene_synonym="si:dkey-217f16.6; si:dkey-46g23.1;
tnrc6bb.2"
/inference="alignment:Splign:2.1.0"
exon 3911..4114
/gene="tnrc6bb.1"
/gene_synonym="si:dkey-217f16.6; si:dkey-46g23.1;
tnrc6bb.2"
/inference="alignment:Splign:2.1.0"
exon 4115..4179
/gene="tnrc6bb.1"
/gene_synonym="si:dkey-217f16.6; si:dkey-46g23.1;
tnrc6bb.2"
/inference="alignment:Splign:2.1.0"
exon 4180..4319
/gene="tnrc6bb.1"
/gene_synonym="si:dkey-217f16.6; si:dkey-46g23.1;
tnrc6bb.2"
/inference="alignment:Splign:2.1.0"
exon 4320..8838
/gene="tnrc6bb.1"
/gene_synonym="si:dkey-217f16.6; si:dkey-46g23.1;
tnrc6bb.2"
/inference="alignment:Splign:2.1.0"
ORIGIN
gagggacgagacacgagagggacccggatgttgatcagcgcgtcgttagtgcgcagctgcaggccggactgactgaggtgagcaaaacaaacccaaacacgaacaaacaaacttaaaatacggcagtctaaccgcaaaacagcagcattaatgtgtgtcataacatgttagattcacgtttggaggctgtcttgaacagtccgcgagcgtatttgtcagtgctgactttagttttgatctcttcatctgtttacaatcggaatccgctaaatacatacatttataaaaggaagggagcagcagttcatggaagacagtcaatgtaagacaggagacagcggtcatcaggagggcgctgaagacagcacaagagaatcagcctccccctgtcctgttttcgggggttggtcggaggcccctgagggagggaaggatgccaattggagcgctgtggccgacggacagcccccctccacggtgccgccgcgatacatgccccgtgaggtgccgccgcgcttccgcaaccagcaggaacccaaagtgctactgaaaaggggccagccgccactgtcctgcatgctgctgggaggcgcaagtggaggggacgcctcgccccgacttcccctgcaggagcactctggcacctcagattctacggtagattcagtttctctgcactcatcatctgacgcctccgccactcccacttatgcaaattacacatgggggcggggctcaggaggtcaagcctcgtctcagggaatggacaaggacacttctgatgtagagaaatggccaagaccagaagactcatggaatagtgaccagaccctacattctgccaggttggggatggatgagtccgctgacctgcaaatggacagttcttctaaactctctgaacatgccgaagacagtgcatcttcacagtctgagaataaagaaagcattaaaggagtgattcagaactttagctccaaggtctctccgctttctggagatcaggaggacactcaaggtctaaacccaaattatacccctgttggagatctctcaaccaacactgcctctgaggagtcttctcccacacccttgagtccagcccatgcactctaccagacactcctcaaaagagaagagcctgttacaggagattgggcaaagcctggaccaaatggtggtgcagcttccagcatggatttgtggggttccatagagaatcctgctgtgaagagcaatggtggaagtagtggagatggcacctctcagggagtgtgggatggagatgcggtaggttcatacaaacaggcagctacaggacagacctcagactttgcagttggtaaatcaaaagaggatatgagcgaggaggtaagcgcagaaagtttacacaaatctccagtgtttggaaacaatgtggcttcagaagacgacaatcagaaagtagctgatgcttgcgatgggtccaagggtaaatcggctagcagtgaggatgctcaaaatctggtccaaagcccctccaaatgtcacccagaagaagccttacagagcatgatcaatcacactaacctggatcccaaagtgctgtgcaacaccggatggggcaagactcagatcaagcagaacgttgcgtgggatttcgaggcagatgtgggcaatgttggctgggatgcggaagtgaacaccgaacgcagtaaggaaggctggcaggaagcgggtgatctttccaactccaaaatgcagaagcaggaggttgggcacatgggtagggctcaagggtggaccgagcgtggagaaatgaacgtcggtattggtcacaaagcgggtggctggggggaagaccaagaaggtgcatctaggagggaaggaacaggttggagccaaggtggcggaaaagagtggaccccagtgcctgaagctggaggctggaaggaagagaaaggcacgaatcagaatgaaggattgtggggcagccctgaagattcgggaccgcggagtggtggctgggattgtaaaacccaccagggatggggcgagaaacttcttccatcacagataccaaacaaacaagcagcacttaaaacccaaaatcaacaaccgcagcagcaatcgcaaacccagcagcagatgccgggatatccaaaagtcgtacaggaccgtggtcgtacaggagagaacgatgagcagagtaaaggctcggggtggagctgtgggcccatccctcagattgcttcagctggtgagccgagcgggtgggatgagccctcgccgcagtccatcagtcggaagatggacattgacgacggcacctctgcatggggggatccgtcccgatacagcagcaagaacgtcaatctgtgggataagaacagctcgcagccccaacagcagtcctctggaagaccggctggaactccatctaaaaactctggtcctgcaatatggacacgcagcagtggcccctccgactcgtccatggaaagcggtcctgctccctgggttaaatcattcgatgggtcatctggctggggggaatccagtgaacctgggaaaggaggatggggaaactcgcattcccatcctaataagactggttctaagtctatgcaagagggctggggcgacgaaggctcgaattcttcccgacactccagctgggaggacgaggatggaggagtctggggcggtcgggggtcccagagcaacatgtccagctcatacagctccggcggctggggccaaagccaggggtccaggaggctcagctctaagagccctcttaaaggtaacagtggagactcgtgggtttctcctgtatctcggcagttctcaaacatgggcgttacggatgacgactccagcatgggtcacgataacagacatgacaggagaggcatgagtgatggagagatgcggagaggaggcaggactggaggagctttccgctcgcagactgccaaagagacgggctgtggagagagtggaccctacctggacaaggttggaggtcatggtatgtttggcggtgggattcctccaatgagggggatgcatcaggccggtgtgcacccattaaacccttcccctggcatacgagcacaagtgcctcatcagttcctgcctcctcaggttccagggccgatgctgaagccaatggcgccccctagtggaggcatgtttcctcctcagctgtcccctcagcacatcgccatgctcggcggcattaatccacacatgcagcagttccagctggcctgtcagctcctcctgcaacaacaacaacagcagcagcagcagtttctgaatcagaggaagttttctcctcctctaagacaacagcacgacccgcagcagttggcgcggatcatggcgatcctccagcagcagcagcagcagggtgttgtgggacccaagctctctccgtctcctttgggtgcacacatccccaaacaccccgacacacacctgcatcacctgggcctgaacacacacaaaccccccgaagcagcagtgcacgcagccatcggaggatcagaactacacaacaaagcccctgctgcgtacactggagcagttaagctgcccgatggctcctcgttctctcagtatgatgtgttgggcagcggttggcaccgcagtgcagcagggaaggtggacgcgtctcctgcaaaccccagctggcctccagagtttcagccgggcgtcccgtggaaaggcctcccgagccatgaatctgaccctgacccctacatgacccctgcgggaatgctgggatcctccctgctcagcgacactgaacatcacctgctgcaggacaacacggggtcaaactctgtgaacacctgtatgccttcacctggtgcctggccgtacagtgcctcagacccccccctcactgcacacggcacagctaagtacacggagctgaagtccagctggccgccggagcccattggacacagcaaatcgtggcggaccaatcgcaacgcttctcagttgccccgccctcctccgggcctgagctctcagaagcagccgtgggtggaggaggggcctcgcatggccagggcatggggaggcggagccagcggcacggacacgccctttaaatcagaatggagcgatggaggagcgtcagccgggaaatcatggctgctgctgagaaacctcacaccacagatcgacggctcgaccctgaggactatctgtcttcagcatggccctctgttgacctttcacctcggcctgacccagggcagcgctctgattcgctactgcagcccgcatgaggccgcaaaagcccagagcgccctgcacatgtgcgttctgggaaacaccaccatcctggccgagttcatgagcgaggaggacgtcatccgctacttcacacattcccaggccgcaggggtggcggggtcaccggaggtttcccccggatccgactccagagagggcgagcgggcgccaggcgtaccagatggagacgcgcctgtgggatggcaagggctggatggagcgcccggatcaacagtggaagtgccaggactcgccatcctcagccaatggagcaacaacgccggcgagggggcggggaaaggagtctgggggggcgtggctcccggataccacggcagcagtctatggggtgcccctcagttagaggatggcacggctggcttgttgccgggcaacctgctcgggggcgggacagacagtttgtgattggcagctgtcaatcatggagtgagtggtacgcagattttcaagtgtgtcaaagcggtgtcagactgcaaaaataatgatctttcccaacatctggaagcccaatgtgaacacgagagacggccagcctaggaaacatttcagtttcagatagaagctctgcaaaaatgattaagtctttaggagttctgccttgtgactttatttattaagacctgtctaacccacagtactgtagagtattagtgtagactcactgttttatttacatttcatttcaagtacacacacacacacacacacacacgtgcacagactttaattaacattgtgttttgttttatattgtcctcaaaataatgtcacaaggcagaagacgtgtgtataaatgacatatctctatgtaaatctagacttcttaataaggtgtatgtagttctgagtgacagttaccaaaaacaagcacgcgtggcttctgtgtgtgtcctcattatttttgcagttgcttctgatgacacactgcagctttaagacactcacattcagagagctacatttccacacaaacactggacgtttcgacaggcttttatatccagtcagatattaaacacacacacacacacacacacacacagatgcagtgtgagcgccgcaggcattcgcttacagacattctgatcattgccagagttaagctatcatgtatttgaatgcagggactgttcctaaaggccttctttcactcacacacacacacacacacacacacacacacacacactctcgcactgctcaacttgaacaactgatgtaaagctgatgttaggctggcacatgcagacactgtttgatgcttcgactgatttaattcaagtgcaagagcatctgaaacctgtagatgagggaggatctcttaaaaacacacacagggcacgcgtttcactcctgaatcactaatctgcactaccaaagcagttttaggactaatttttaatattgttttaatgataactcgcacgtgaaatgtgattcttaaagggacagttcacccaaaaataaatgtgatcagtatttacatgcacacaaactgattatacaggcaagccggaaattattcatacttctggctaatcctgactactttaatccaactagtaagtgttcttatggcttgtaaatgacactggtttaacctaaaagatattaaggtgatgtacaagaggcatcattgtgaaaacatatatatatatatttctcagcttttgtttacatttgaatcaaaactttaagtcagaatttgccttggcgtataaataatctcaggtttgactgtatatgtgtgtataatgattatttctagacaataatttgaagaatgttggaaacctgaagccattcacttccatacaaacagtttgagcttcttctgtgaaactcaaatgaagacattttgaagaatgttggacagctgtagccattgacttcctttctatggaagtcattctatggacgtcaatggttactgctttccaacattctttaaaatatcttctttcgagttcaacagaagaaagaaactcaaactggtttgcaatgacaagaatgagtgaattaatggaggattttcatttttgggtgtaccgtccctttaaaaatgtaactgcgtagtttaaatgaccgtaaaaacactgtaatgcagtcagttttaaatgtaaataagctaattttgtgattcttaaaggaacagttcacccaaaaataaaatatactttgtattttcagtcaagtctgaaattattaccattcaaattattgttgaccagaaatactataggcttctcccaaaaaaataagacattgatatagaagaggcatcgtttatttacatttgaatgaagactttgtcagaatgtgccttaggctataaataatttcaggttttgactgtatatgtgtgtataattattatttctagacaatattttgaagaatgttggaaacctgtagccattgactttcacacaaaccagtttgagtttcttctgtgaaactcaaaagatattttgaagaatgttggaaagctgtagccattgactttcattaaatgtaagtgaatggctacagccttctaacattcttcaaaatatcttatttcaagttcgacagacgaaactcaagaaactcaaactggtttgcagtgtaaatgatgacaggagtttaatttctgggtgtactctccctttaaaaatgtaactgcgatattgacgcaatttaaatgacagtaaaaacagtgtaatgcagtctattttaaatgtaaatgagctgattttgtgactcttaaagggacggttcactccaaaataaaatgtacttcatatacacagtcaagtctgaaatttttcccattcaaatgatattttttgggagaagcccatggcatttcaggtcaaaaataagacgactatataaaacatttctcagcttttatttacattcgacccaaaactttaaacaaaaatttgccttggggtataaataatttcagttttgactgtatatgtgtgtataattattatttctagacaatattttgaagaatgttggaaacctgtaaccattgactttcatggtatgtaagtgaatggctacagccttctaacattcttcaaaatatcttatttcgagttcaacagtcgaaactcaaactggtttgcagtgtaaatgatgacaggattttcatttttgggtgcactgtctctttaaaaatgtaactgcgatgttcacgaaattcaatttacagtaaaactctgtaatacagtcagttttaaatgtaaatgagctgattttagaacagccattcctcttcaatgataaaatgttgaattacagcatccgctgtggattcaggattgaagccacccctgtgggtgctggaggttctcgctgacgcggtttctgtggctcttttcttcatcagcgctgcgttcctgtggatttgtgcatcttaaaggctcgtacagaccttccactgttcccttctcgatctgttcgtcaggtttgctgttacatttctacgattcgtacgttgtgttttattttgtttgcatattggagtaatcttcaaagactctgtgggactgccggatggacgtctgtagcgtgtgtatgtgtgcactttactgttttcggtctgtgtttgtgggtttgtgtgtgcggctgtgtatcgttaaccgtgcactatacactgctggctgtgttttacaagcgttggcattagcgggtttctgcgactttgggcttttcttttgtgttttttaagcgtactcatgtagcctttttgtatcggctgaactgcaataatgattctacaagcatttttaagacacgaacgtgcgagacggcgtttctgccaaacttatccgcctgtccagagtttacaaacagctgagcgactcctgtgtttttatgcgtctgtattgttgtttttgttttaaattaagactttaacactcctttcagtgtttcgttttcgtttcttttttttttttgagattttacaaagacaagaagtgaagagtttatttaaataaaagtgacatatgcagctgttaattcagacctgttgtttgtgttattaaggcttccggacactctttttgactgtggtattaacagtaaacagattgttgtctcgtggttgaactgttaacctgtgttttgtttcactcatgcatttatttgaagtctttgagttcatatcatgaatgtgtttatatttcactttcattatcatttgtaatttatttccagtcacttttcttaatttgcagttctttaaatgttagcagtagtatatggaagattttgcatcgtttggattgtttggattgttattttctttgctacgctgctaacctgttaatatgagaggtaagttaaggttaaggtaaggtttcccctcataaacatgtcaatgaaatattgtgtttttgctttgttttgaaattgaacttctgatttgactattttcatgtgaatgttttgcatttttgctattagaaatgatcctaatcctcactacatcttatagtaaagatcatttaaccaaacaac
//
by
@meso_cacase at
DBCLS
This page is licensed under a
Creative Commons Attribution 4.0 International License (CC BY 4.0).
If you use GGRNA in your work, please cite:
Naito Y, Bono H. (2012)
GGRNA: an ultrafast, transcript-oriented search engine for genes and transcripts.
Nucleic Acids Res., 40, W592-W596.
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