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Previous release (v1)
2025-08-23 17:56:39, GGRNA.v2 : RefSeq release 230 (May, 2025)
LOCUS NM_001107915 9606 bp mRNA linear ROD 20-MAR-2025
DEFINITION Rattus norvegicus vir like m6A methyltransferase associated
(Virma), transcript variant 2, mRNA.
ACCESSION NM_001107915 XM_001053130 XM_001053205 XM_232783
VERSION NM_001107915.2
KEYWORDS RefSeq.
SOURCE Rattus norvegicus (Norway rat)
ORGANISM Rattus norvegicus
Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi;
Mammalia; Eutheria; Euarchontoglires; Glires; Rodentia; Myomorpha;
Muroidea; Muridae; Murinae; Rattus.
REFERENCE 1 (bases 1 to 9606)
AUTHORS Hong,H., Xu,G., Bao,G., Zhang,J., Chen,C., Chen,J., Wu,C.,
Jiang,J., Huang,J., Huang,H. and Cui,Z.
TITLE VIRMA promotes neuron apoptosis via inducing m6A methylation of
STK10 in spinal cord injury animal models
JOURNAL CNS Neurosci Ther 30 (3), e14453 (2024)
PUBMED 37721438
REMARK GeneRIF: VIRMA promotes neuron apoptosis via inducing m6A
methylation of STK10 in spinal cord injury animal models.
REFERENCE 2 (bases 1 to 9606)
AUTHORS Wen,J., Lv,R., Ma,H., Shen,H., He,C., Wang,J., Jiao,F., Liu,H.,
Yang,P., Tan,L., Lan,F., Shi,Y.G., He,C., Shi,Y. and Diao,J.
TITLE Zc3h13 Regulates Nuclear RNA m6A Methylation and Mouse Embryonic
Stem Cell Self-Renewal
JOURNAL Mol Cell 69 (6), 1028-1038 (2018)
PUBMED 29547716
REFERENCE 3 (bases 1 to 9606)
AUTHORS Yue,Y., Liu,J., Cui,X., Cao,J., Luo,G., Zhang,Z., Cheng,T., Gao,M.,
Shu,X., Ma,H., Wang,F., Wang,X., Shen,B., Wang,Y., Feng,X., He,C.
and Liu,J.
TITLE VIRMA mediates preferential m6A mRNA methylation in 3'UTR and near
stop codon and associates with alternative polyadenylation
JOURNAL Cell Discov 4, 10 (2018)
PUBMED 29507755
REMARK Publication Status: Online-Only
REFERENCE 4 (bases 1 to 9606)
AUTHORS Schwartz,S., Mumbach,M.R., Jovanovic,M., Wang,T., Maciag,K.,
Bushkin,G.G., Mertins,P., Ter-Ovanesyan,D., Habib,N.,
Cacchiarelli,D., Sanjana,N.E., Freinkman,E., Pacold,M.E.,
Satija,R., Mikkelsen,T.S., Hacohen,N., Zhang,F., Carr,S.A.,
Lander,E.S. and Regev,A.
TITLE Perturbation of m6A writers reveals two distinct classes of mRNA
methylation at internal and 5' sites
JOURNAL Cell Rep 8 (1), 284-296 (2014)
PUBMED 24981863
REFERENCE 5 (bases 1 to 9606)
AUTHORS Horiuchi,K., Kawamura,T., Iwanari,H., Ohashi,R., Naito,M.,
Kodama,T. and Hamakubo,T.
TITLE Identification of Wilms' tumor 1-associating protein complex and
its role in alternative splicing and the cell cycle
JOURNAL J Biol Chem 288 (46), 33292-33302 (2013)
PUBMED 24100041
REFERENCE 6 (bases 1 to 9606)
AUTHORS Baltz,A.G., Munschauer,M., Schwanhausser,B., Vasile,A.,
Murakawa,Y., Schueler,M., Youngs,N., Penfold-Brown,D., Drew,K.,
Milek,M., Wyler,E., Bonneau,R., Selbach,M., Dieterich,C. and
Landthaler,M.
TITLE The mRNA-bound proteome and its global occupancy profile on
protein-coding transcripts
JOURNAL Mol Cell 46 (5), 674-690 (2012)
PUBMED 22681889
COMMENT VALIDATED REFSEQ: This record has undergone validation or
preliminary review. The reference sequence was derived from
JAXUCZ010000005.1.
On Mar 20, 2025 this sequence version replaced NM_001107915.1.
##Evidence-Data-START##
RNAseq introns :: partial sample support SAMEA5760383, SAMEA5760386
[ECO:0000350]
##Evidence-Data-END##
COMPLETENESS: full length.
PRIMARY REFSEQ_SPAN PRIMARY_IDENTIFIER PRIMARY_SPAN COMP
1-87 JAXUCZ010000005.1 29758623-29758709
88-203 JAXUCZ010000005.1 29766057-29766172
204-290 JAXUCZ010000005.1 29769768-29769854
291-339 JAXUCZ010000005.1 29777954-29778002
340-508 JAXUCZ010000005.1 29782461-29782629
509-631 JAXUCZ010000005.1 29783958-29784080
632-904 JAXUCZ010000005.1 29784916-29785188
905-2045 JAXUCZ010000005.1 29788126-29789266
2046-2198 JAXUCZ010000005.1 29792616-29792768
2199-2687 JAXUCZ010000005.1 29794315-29794803
2688-2842 JAXUCZ010000005.1 29796379-29796533
2843-2925 JAXUCZ010000005.1 29797906-29797988
2926-3019 JAXUCZ010000005.1 29801477-29801570
3020-3564 JAXUCZ010000005.1 29801711-29802255
3565-3800 JAXUCZ010000005.1 29802767-29803002
3801-4053 JAXUCZ010000005.1 29803600-29803852
4054-4271 JAXUCZ010000005.1 29806594-29806811
4272-4404 JAXUCZ010000005.1 29809114-29809246
4405-4557 JAXUCZ010000005.1 29811502-29811654
4558-4718 JAXUCZ010000005.1 29812069-29812229
4719-4815 JAXUCZ010000005.1 29813736-29813832
4816-4982 JAXUCZ010000005.1 29815947-29816113
4983-5314 JAXUCZ010000005.1 29816841-29817172
5315-5458 JAXUCZ010000005.1 29819674-29819817
5459-9606 JAXUCZ010000005.1 29820557-29824704
FEATURES Location/Qualifiers
source 1..9606
/organism="Rattus norvegicus"
/mol_type="mRNA"
/strain="BN"
/db_xref="taxon:10116"
/chromosome="5"
/map="5q13"
gene 1..9606
/gene="Virma"
/gene_synonym="RGD1559904"
/note="vir like m6A methyltransferase associated"
/db_xref="GeneID:313061"
/db_xref="RGD:1559904"
exon 1..87
/gene="Virma"
/gene_synonym="RGD1559904"
/inference="alignment:Splign:2.1.0"
CDS 25..5613
/gene="Virma"
/gene_synonym="RGD1559904"
/note="isoform 2 is encoded by transcript variant 2"
/codon_start=1
/product="protein virilizer homolog isoform 2"
/protein_id="NP_001101385.1"
/db_xref="GeneID:313061"
/db_xref="RGD:1559904"
/translation="
MAVDSSMELLFLDTFKHPSAEQSSHIDVVRFPCVVYINEVRVIPPGVRAHSGLPDNRAYGETSPHTFQLDLFFNNVSKPSAPVFDRLGSLEYDENTSIIFRPNSKVNTDGLVLRGWYNCLTLAIYGSVDRVLSHDRDSPPPPPPPPPPPQPQPTLKRSLKHADGEKEDQFNGSPPRPQPRGPRTPPGPPPPDDDEDDPMSLPVSGDKEEDVPHREDYFEPISPDRNSVPQEGQYSDEGEVEEEQQEEGEDDEDDVDVDEEEDEDEDDCHTVDSIPDDDEEDEEEEGEEDEEGEGDDGYEQISSDEDGIADLERETFKYPNFDVEYTPEDLASVPPMTYDPYDRELVPLLYFSCPYKTTFEIEINRMKDQGPDKENSGAIEASLKLTELLDLYHEDRGAKWVTALEEVPSLIIKGLSYLQLKNTKQDSLGQLVDWTMQALNLQVAFRQPIALNVRQLKAGTKLVTSLAECGAPGVTELLQAGVISVLFDLLFADHVSSSLKLNAFKALDSVISMTEGMEAFLRSTQSEKSGYQKLLELILLDQTVRVVTAGSAILQKCHFYEVLSEIKRLGDHIAEKTSSVPNPSEPDHDTDAVLERANPDYENEVEASMDMDLLESSNISEGEIEKLINLLEEVFHLMETAPHTMIQPPVKSFPTIARITGPPERDDPYPVLFRGPGFGFEHSNSGLQPSATPVPDGPMASSGLCGHCTHMVHRHTCKQNTHNIRYLHSHHFLELVTLLLSIPITSAHPGVLQATKDVLKFLAQSQKGLLFFMSEYEATNLLIRALCHLYDQDEEEGLQSDGVDDAFALWLQDSTQTLQCVTELFSHFQRCTASEETDHSDLLGTLHNLYLITFNPVGRSAVGHVFSLDKNLQSLITLMEYYSKEALGDSKSKKSVAYNYACILILVVVQSSSDVQMLEQHAASLLKLCKADENNAKLQELGKWLEPLKNLRFEINCIPNLIEYVKQNIDNLMTAEGVGLTTALRVLCNVACPPPPVEGQQKDLKWNLAVIQLFSAEGMDTFIRVLQKLNSILTQPWRLHVNMGTTLHRVTTISMARCTLTLLKTMLTELLRGGSFEFKDMRVPSALVTLHMLLCSIPLSGRLDSDEQKIQNDIIDILLTFTQGVNEKLTISEETLANNTWSLMLKEVLSSILKVPEGFFSGLILLSELLPLPLPMQTTQVIEPHDISVALNTRKLWSMHLHVQAKLLQEIVRSFSGTTCQPIQHMLRRICVQLCDLASPTALLIMRTVLDLIVEDLQSTSEDKEKQYTSQTTRLLALLDALASHKACKLAILHLINGTIKGDEKYAEIFQDLLALVRSPGDSVIRQQCVEYVTSILQSLCDQDIALILPSPSEGPGSELEQLSNSLPSKELMAAICDCLLATLANSESTYNCLLTCVRTMMFLAEHDYGLFHLKSSLRKNSSALHSLLKRVVSTFSKDTGELTSASLDFMRQILNSDAMGCCGDDSGLMEVESAHPPRTMSINAAELKQLLQSKEESPESLFLELEKLVLEHSKEDDSLESLLDNVIGLKQMLESSGDPLPLSDQDVEPVLSAPESLQNLFNNRTAYVLADVMDDQLKSMWFTPFQAEEIDTDLDLVKVDLIELSEKCCSDFDLHSELERSFLSEPSSPGRAKTTKGFKLGKHKHETFITSSGKSEYIEPAKRAHVVPPPRGRGRGGFGQGIRPHDIFRQRKQNTSRPPSMHVDDFVAAESKEVVPQDGIPPPKRPLKVSQKISSRGGFSGNRGGRGAFHSQNRFFTPPASKGNYSRREGTRGSSWSAQNTPRGNYNESRGGQSNFNRGPLPPLRPLSSTGYRPSPRDRASRGRGGLGPSWASTNSGSGGSRGKFVSGGSGRGRHVRSFTR"
misc_feature 37..729
/gene="Virma"
/gene_synonym="RGD1559904"
/note="Virilizer, N-terminal; Region: VIR_N; pfam15912"
/db_xref="CDD:464938"
exon 88..203
/gene="Virma"
/gene_synonym="RGD1559904"
/inference="alignment:Splign:2.1.0"
exon 204..290
/gene="Virma"
/gene_synonym="RGD1559904"
/inference="alignment:Splign:2.1.0"
exon 291..339
/gene="Virma"
/gene_synonym="RGD1559904"
/inference="alignment:Splign:2.1.0"
exon 340..508
/gene="Virma"
/gene_synonym="RGD1559904"
/inference="alignment:Splign:2.1.0"
exon 509..631
/gene="Virma"
/gene_synonym="RGD1559904"
/inference="alignment:Splign:2.1.0"
exon 632..904
/gene="Virma"
/gene_synonym="RGD1559904"
/inference="alignment:Splign:2.1.0"
exon 905..2045
/gene="Virma"
/gene_synonym="RGD1559904"
/inference="alignment:Splign:2.1.0"
exon 2046..2198
/gene="Virma"
/gene_synonym="RGD1559904"
/inference="alignment:Splign:2.1.0"
exon 2199..2687
/gene="Virma"
/gene_synonym="RGD1559904"
/inference="alignment:Splign:2.1.0"
exon 2688..2842
/gene="Virma"
/gene_synonym="RGD1559904"
/inference="alignment:Splign:2.1.0"
exon 2843..2925
/gene="Virma"
/gene_synonym="RGD1559904"
/inference="alignment:Splign:2.1.0"
exon 2926..3019
/gene="Virma"
/gene_synonym="RGD1559904"
/inference="alignment:Splign:2.1.0"
exon 3020..3564
/gene="Virma"
/gene_synonym="RGD1559904"
/inference="alignment:Splign:2.1.0"
exon 3565..3800
/gene="Virma"
/gene_synonym="RGD1559904"
/inference="alignment:Splign:2.1.0"
exon 3801..4053
/gene="Virma"
/gene_synonym="RGD1559904"
/inference="alignment:Splign:2.1.0"
exon 4054..4271
/gene="Virma"
/gene_synonym="RGD1559904"
/inference="alignment:Splign:2.1.0"
exon 4272..4404
/gene="Virma"
/gene_synonym="RGD1559904"
/inference="alignment:Splign:2.1.0"
exon 4405..4557
/gene="Virma"
/gene_synonym="RGD1559904"
/inference="alignment:Splign:2.1.0"
exon 4558..4718
/gene="Virma"
/gene_synonym="RGD1559904"
/inference="alignment:Splign:2.1.0"
exon 4719..4815
/gene="Virma"
/gene_synonym="RGD1559904"
/inference="alignment:Splign:2.1.0"
exon 4816..4982
/gene="Virma"
/gene_synonym="RGD1559904"
/inference="alignment:Splign:2.1.0"
exon 4983..5314
/gene="Virma"
/gene_synonym="RGD1559904"
/inference="alignment:Splign:2.1.0"
exon 5315..5458
/gene="Virma"
/gene_synonym="RGD1559904"
/inference="alignment:Splign:2.1.0"
exon 5459..9606
/gene="Virma"
/gene_synonym="RGD1559904"
/inference="alignment:Splign:2.1.0"
ORIGIN
cccggtcccccgcccgcggcgaacatggcggtggactcgtccatggagctgctatttttagatacttttaaacatccaagcgctgagcaaagttctcatatagatgtggttcgttttccatgtgtggtttatatcaatgaagtccgagttatacccccgggagtacgagcccatagtggcttacctgacaacagagcatatggggaaacatctcctcacacatttcaactagacttatttttcaataacgtaagcaaaccaagtgctccagtttttgataggttgggaagtctggaatatgatgagaatacgtctatcatctttagaccaaactcgaaggtaaatactgatggtctggtgctaagaggctggtacaactgtctgaccctggcaatatatggatcggtggatagagtgctaagccatgacagagactctcctccacctcctcctccacctccaccccctccccagccacagccgacactgaaaaggagcctaaaacacgctgatggtgagaaagaagatcagtttaatggaagtcctccaagacctcagccccggggaccaagaactcctcccggacctcctccacccgatgacgatgaggatgaccctatgtctttgccagtgtctggtgacaaagaagaagatgttccccacagagaagattactttgagcccatttctcctgataggaattccgtcccgcaggaaggtcagtattccgatgagggggaggtcgaagaagaacagcaggaagagggagaagatgatgaagatgatgtggatgtagacgaagaagaggatgaagatgaggatgactgccatacagtggacagtatccctgatgatgatgaggaagatgaagaggaggagggtgaagaagatgaagaaggtgaaggggacgatggctacgagcagatctccagtgatgaagatgggattgctgacttggaacgtgaaactttcaagtatccaaacttcgatgttgaatacactccggaagacctggcgtctgttcctcctatgacatacgacccctatgacagggagctggtaccactcttgtatttcagctgcccatacaaaactacttttgaaattgaaatcaatagaatgaaggatcagggtccagataaagagaattcaggggcaatagaagcttcgttgaagttaactgagctgctagatctgtatcacgaagacaggggcgcaaagtgggtgacagctctagaagaagtcccaagtttaattataaaaggattaagctatttgcagttgaagaacacaaaacaagactcccttggccagttggtagactggacaatgcaagctttaaatttacaagtagcctttcgccagcccatagccttaaatgtcagacagctcaaagctgggaccaagctagtgacctcattagcagaatgtggggctccaggagtcacagaattgctacaagcaggagtgatcagtgtattgtttgatctcctatttgctgatcatgtctcatcgtcccttaagttaaatgcttttaaagctttggacagtgtcattagcatgaccgaaggaatggaggcctttttaagaagcacccaaagtgagaaaagtggctatcaaaaactgctggagctcatacttctagatcagacggtgagggttgtcactgctggctcagctattcttcaaaaatgccatttctatgaagtcttgtcagagattaaaagactcggtgaccatatagcagagaagacttcatctgttcccaaccccagcgagcctgatcacgacacagatgctgtactggagagagcaaacccagattatgagaatgaagtagaagcttctatggacatggatctattggaatcctcaaatataagcgaaggcgaaatagaaaagcttattaatcttttagaggaggtttttcatctaatggaaactgcacctcacacaatgatccaacctcctgttaagtctttcccaacaatagcacggattactggacctccagagagggatgacccatatcctgttctctttagagggcctgggtttggttttgaacactcaaatagtggcttacaaccatcagctacgccagttccagacggtccaatggcctcttctggcctatgtgggcactgtacacacatggtacacaggcatacatgcaagcagaacacccacaacataaggtatcttcacagccatcacttcctggagttggtcaccttgcttctgtcgattccaataacaagtgcccatcccggagtgctgcaagccaccaaggacgttttaaagtttctcgcacagtcacaaaagggccttctcttttttatgtcagaatatgaagcaacaaacttgttgatccgagctctgtgccacctttacgatcaagacgaagaggagggccttcagtctgacggggttgacgatgcctttgccttgtggctgcaggactcaactcagactctccagtgcgtcacagaactgttcagccattttcagcgttgtacagccagtgaggaaactgaccattcggatctcctgggcaccctccacaatctttatttgattacttttaatcctgttggaagatcagctgttggccatgttttcagccttgacaaaaaccttcagagtctcattactctaatggagtactattccaaagaagccctaggtgattccaagtctaagaagtcagtagcttataattatgcatgcatacttattctggtggtggttcagtcttccagtgatgtccagatgctggagcagcatgcagcatctctcttgaagctttgcaaagcagatgaaaataatgctaaactgcaagaacttggcaagtggcttgaacctctgaaaaacctcagatttgaaattaactgcatcccaaatctaattgaatatgttaaacagaatattgataacttgatgactgcagaaggagttggccttaccactgccttacgtgttctctgtaatgtggcttgtccaccacctcctgtagaaggtcaacaaaaagacctgaagtggaaccttgctgttattcagcttttttctgctgaaggaatggacacctttattcgggttctgcaaaagttgaacagtattttgacacagccttggaggctccatgtgaacatggggactaccctgcacagagttactaccatttcaatggctcgctgcacgctcacccttcttaaaactatgctgacagagctcctgcgaggcggatcctttgagtttaaggacatgcgagttccttcagcactcgttactttacacatgctcctgtgctctatccctctctcaggtcgtttggatagcgatgaacagaaaattcagaatgatatcattgatatcttattgacttttacacaaggagttaatgagaagctcacaatctctgaagagactctggccaataatacttggtctttaatgttaaaggaagttctctcttccatcttgaaggttcctgaaggcttcttctctggactcatactcctttcagagctgctgcctcttcccttgcccatgcagaccacgcaggttattgagccacatgatatatcagtggcactcaacacccgaaaattgtggagcatgcaccttcatgttcaagcaaagttgctccaagaaatagttcgttctttctctggcacaacctgccagcccattcagcatatgttacggcgtatttgtgttcagttgtgtgaccttgcctctccaactgctcttctgatcatgagaactgtgttggatttgattgtagaagacttgcaaagcacttcagaagataaggaaaagcagtatactagccaaaccaccaggttgcttgctcttctcgatgctctggcttcacacaaagcttgtaaattagctattttgcatctaattaatggaactattaaaggcgatgaaaagtatgcagagatattccaggatcttttagctttggtgcgatctcctggggacagtgttattcgccagcagtgtgtggaatatgtcacatccattttgcagtctctctgtgaccaggacatcgcactcatcttgccgagcccttctgaaggtcccggctctgagctggagcagctttccaactccctcccgagtaaagagctgatggctgccatctgtgactgtctgctggccacactagccaactccgaaagcacttacaactgtctgctgacgtgtgtgcgcacaatgatgtttcttgcagagcatgattatgggttgtttcacttaaaaagttctttaaggaagaacagtagtgctctgcatagcttgctgaagcgagtggtcagcacattcagtaaggacactggcgagcttacgtcagcgtctctggacttcatgagacagatcctcaactctgatgcaatgggctgttgtggagacgacagtggtctcatggaggtagagagcgctcacccaccccggacgatgagtattaacgctgcagagctaaaacagctcctacagagcaaagaagagagtccagagagtctgtttcttgaactagagaagctcgttttggaacactcaaaagaggatgacagtctggagtccctgctggataacgtaattgggctgaagcagatgctggagtcttcaggtgaccctttgcctctcagtgaccaggatgtagagccagtcctgtcagctccagagtctctccagaatctattcaacaacaggactgcgtatgtgttggctgatgtcatggatgatcagttgaaatctatgtggtttactccatttcaggctgaagagatcgatacagatctggatttggtaaaggttgacttaattgagctctcggaaaagtgctgcagtgactttgacctgcactcagaattggagcgctcctttttgtcagaaccgtcatctccaggaagagccaagaccacgaaggggtttaaactagggaagcataagcacgagacgttcataacttcaagtggaaaatctgaatacattgaacccgccaaacgagctcacgttgtgcccccaccaagaggccggggccggggaggatttggccagggcatccggccgcatgatattttccgtcagagaaagcagaacacgagtaggccaccgtctatgcatgtggatgactttgttgcagccgaaagtaaagaagtggttcctcaagatggaatacctccacccaaacggccgctcaaggtctctcagaagatttcctcccgcggtggattttcaggcaaccgaggagggcggggtgcttttcacagtcagaacaggtttttcacaccgcctgcttcgaaaggaaactacagtcgtcgggaaggaacaagaggctccagttggagtgctcagaatactccgagaggaaattataacgaaagccgagggggccagagcaacttcaacaggggccctcttccgccattacggccacttagctccacaggttaccgccctagtccccgggatcgagcttctcggggccgtggggggctcggaccgtcctgggccagtacaaatagcggcagtggaggctcacgaggaaagtttgttagtggaggcagtggtagaggccgtcatgtacggtcctttactcgatagacgtgctcttgggaacaccccaagtaaatggacatttcatgaggacaaaaaacagacagaccttgaaggaccaatttagacttagcagttatatctggattcatctgagagaatatttttatctgaagaaagcagattttgtttgatacttaatgagatttcaataaaaatccaaactttgtatatatgtttgtatatatttttcccatttttatatggtatttatttagaaaatttctaggtagaaagaggaaaactaaataatttgttttgtatttttcttgcttatactatagatatttccaaactttcttcgcctgtgacaccctttagtgtgtctcagggattttttcacagtgtccctaggccaaaagcaaacttaatacttttgtttattaaacagttaggtccaagcaaccgaagactttccaccatcaccactagtaactggacaccactcgctcaaggcctcacccttggaaacagcagccttccctgtccgggtccccgagcagtactgtttatcacactgctgaacatttgtcacagttgtgtgctgtcatggaaagtcatccagtgctacccacgctgaaaatgtgaactacctcaaactagtagtttgtgtggtccagcagatgttgctgtttcctcaaaaattcaaaacgctcatgctcatttacgaaggtgcccaccacacagtttagtcatcatcattgctgcaccagaagaagcaaaacacctccttatgttagagagaaatgcagactttgcttcaagtttggacctactgatgctattttataacatagttatttaaagcctaaaagttggcttatcctaatatggttattttgggaatcaagcatctactttatattcagaaataaaacttataactttgaccaaggagccatatttcccccaagatatgtcttaattcattgagcctatatacatggcataaaatatagagttctcttaaacaaaactaagtgtatgagtctcattccatcccaacagcctctgttctggggaatcacttgagtgcatttaatatctgtttattaggcaaaaaggccttgaaaagttcagctttagaattgagggtttagcttactggtagaagtacttgcctagcatgtgtgataaccactagaagtgtgtatgtgtgtgtctctatgtgcacgtctttgtgtatgcacatgcatatgtgcgtgcgtgcatgcacgcatacatgcatgtgcatggaaagttcagccgtaaggattctgatgcttatgtacaaggtgatgaaaattttcttaatagtctggaacaattcaagctcttagtctgctcacgctgctataacatagttaaatagattagatggatagtaacaaaaatctcttagttccatggtcaggcctttggtataatcaggttctggtgaggcactccttgaagatttttcacatgctctttctgtagttgaggacctcttctatcatggacagatggtttaaggagtttgccaacctagattttgaatcgtatttctacaccatctgaatcaagtacctacctttctccactcatagcatcagaatgtacctcttttgctgggctgtagagtgaatggcacatctgtaaggagtcttgacttcttttctcatttatttgaaccctgcatttaggatattttcagtttgtatcagtttgtgtctgtactgtgatggttagtgttgtccacttgatagtatttagaattacgggaggtcctggggtctctggataagccggatgggggataatttaaattaattacactgcagtaggattactagccatcatggttggcacagttccctgggtgagatcctgcctggaccacagaagtagagaaaggagatgaatgctagcaggctatgtagaatgtaaggattaattcaccatgtagaaatagaattccaaacacctattgtgatttgtcatttcaaaaatgagtcagatgtgcatgtacatttagatccgtgtataactgcacttcttcagaatgagtgactatgagtgtattttgtctcagtgatgtatatgtttacattagacatttcagtggtgtcgtttggtatttgggaattaaagctgcagaatatctttggggacaaagttaatttcatctctagcacaaatagaggataggatcatttgtattcattccataaaaatagaaaatactaaaatactgatgggcaggattggggatttagttcagtggtaaagcacttgcctagcaagtacaaggccctgggttcggtccccagctccgaaaaaaagaaaaaagaaggagtttgtaaaaactgatggcctttattttagacttgctggtattagtttcagacagtagaagttcagttaggttagttttattgtacaaaaccttgggaaaacctccaagatgcaatcaaaagatagaacttgtctcctgagcttgtctcaacttgtcttggtgccttagttcagtccttaatattaaagcaaggtattggcttctttttatgctttatttacttattgtatgtcggtctgcgtgatgtatgggggtctgtgccacagcatgtctatgtaggtcagagggcaacttggtagagttggcacttcctttctgtgagttctggggatcaaactcaggcttggcaagctctttacccactgagccatcttaccagcctaaagccaggtattttctgcctttgccaggaagtgtacaatgtattgaagacaatgactgcataaacagtgaacttaaaaagagaaataataaaatcttaggttatcagtatgaaatgacccagaattcttaagtaatccaaccagtacatttcaatgtaattgtattataggtgttttacagtagctaacttcaaaatagctaaataggtataatgggagagcatcttgatgtcacacttttataatttcagactaatatccttttttggaactatatatggaggcaaagatggaaaataatgcactttttagtttcgtaaatttaggactgggtgtggtggtagacatttctaatctcagtacctgggaggccgaggcaggcagcagtgggttccaggtgacataacgggaccctgtataaacaaaataattttaaaggaagtaatgcagagatgttaaaggggccataaaagcccatagtctagagaaatgacacaggctgaaatactagcagagtagcaaatggaaggcagcaggtgagagctagggaagaggccagttgacaccagttgataccagtgggggggggggcagctaaacaatgggaactttacagtgataggtgggaggtctgaacttcccacctgcttcatagaattacaaagtttttgtggtaaataagacctatggttgtaaccattttcttaaaatctttaaaaaaaataaatgtatgtgtggatattgtgcactcaagtgcagatgcccagggtcagaggtaaagggtcctggagttgtgagatacaggcagttgtgagctactctgtagtggtcctgggaaccaaacttatgtcctccaagatttacagcagcaagtattcctaaccactgagccatctttcagcccttcttgttttttaaaaaaaaaaaaaaaagtctggttgtaggcacctttcactgctgagctctctctggccctgtccttaatttttgacatagggtctctgactgaaactggagctcactgatcttagtgtctctatctccctggcacttagattccgtgtgagtcactgcacctgacattgtgtgggtgctagggatccaaactctggtcctaatgattgtgtggcaaacactttcccagctgagccagcttccaaatctgtgaaatgtaacttttgacaacgtggttattgttagcgtgtcatttacattttggaggttttaaaataaatttttgcacacttttcattttcaagcaaaataaaatagtgaaatgta
//
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@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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