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Previous release (v1)
2024-11-22 06:35:19, GGRNA.v2 : RefSeq release 226 (Sep, 2024)
LOCUS XM_017594505 9335 bp mRNA linear ROD 22-FEB-2024
DEFINITION PREDICTED: Rattus norvegicus dicer 1 ribonuclease III (Dicer1),
transcript variant X7, mRNA.
ACCESSION XM_017594505
VERSION XM_017594505.3
DBLINK BioProject: PRJNA1074393
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.
COMMENT MODEL REFSEQ: This record is predicted by automated computational
analysis. This record is derived from a genomic sequence
(NC_086024) annotated using gene prediction method: Gnomon,
supported by mRNA and EST evidence.
Also see:
Documentation of NCBI's Annotation Process
On Feb 22, 2024 this sequence version replaced XM_017594505.2.
##Genome-Annotation-Data-START##
Annotation Provider :: NCBI RefSeq
Annotation Status :: Full annotation
Annotation Name :: GCF_036323735.1-RS_2024_02
Annotation Pipeline :: NCBI eukaryotic genome annotation
pipeline
Annotation Software Version :: 10.2
Annotation Method :: Best-placed RefSeq; Gnomon;
cmsearch; tRNAscan-SE
Features Annotated :: Gene; mRNA; CDS; ncRNA
Annotation Date :: 02/09/2024
##Genome-Annotation-Data-END##
FEATURES Location/Qualifiers
source 1..9335
/organism="Rattus norvegicus"
/mol_type="mRNA"
/strain="BN/NHsdMcwi"
/bio_material="RGD 61498"
/db_xref="taxon:10116"
/chromosome="6"
/sex="male"
/tissue_type="kidney, spleen, liver"
/geo_loc_name="USA: Wisconsin, Milwaukee"
/lat_lon="43.05 N 88.04 W"
/collected_by="Rebecca Schilling, Melinda Dwinell"
gene 1..9335
/gene="Dicer1"
/note="dicer 1 ribonuclease III; Derived by automated
computational analysis using gene prediction method:
Gnomon. Supporting evidence includes similarity to: 1
mRNA, 9 ESTs, 165 long SRA reads, 5 Proteins"
/db_xref="GeneID:299284"
/db_xref="RGD:1309381"
CDS 153..5462
/gene="Dicer1"
/codon_start=1
/product="endoribonuclease Dicer isoform X4"
/protein_id="XP_017449994.1"
/db_xref="GeneID:299284"
/db_xref="RGD:1309381"
/translation="
MTCYVALNVLKNGYLSLSDINLLVFDECHLAILDHPYREIMKLCDSCPSCPRILGLTASILNGKCDPDELEEKIQKLEKILKSGAETATDLVVLDRYTSQPCEIVVDCGPFTDRSGLYERLLMELEEALDFINDCNVSVHSKERDSTLISKQILSDCRAVLVVLGPWCADKVAGMMVRELQKYIKHEQEELHRKFLLFTDTLLRKIHALCEEYFSPASLDLKYVTPKVMKLLEILRKYKPYERQQFESVEWYNNRNQDNYVSWSDSEDDDDDEEIEEKEKPETNFPSPFTNILCGIIFVERRYTAVVLNRLIKEAGKQDPELAYISSNFITGHGIGKNQPRSKQMEAEFRKQEEVLRKFRAHETNLLIATSVVEEGVDIPKCNLVVRFDLPTEYRSYVQSKGRARAPISNYVMLADTDKIKSFEEDLKTYKAIEKILRNKCSKSVDGAEADVHAVVDDDDVFPPYVLRPDDGGPRVTINTAIGHINRYCARLPSDPFTHLAPKCRTRELPDGTFYSTLYLPINSPLRASIVGPPMGCVRLAERVVALICCEKLHKIGELDEHLMPVGKETVKYEEELDLHDEEETSVPGRPGSTKRRQCYPKAIPECLRESYPKPDQPCYLYVIGMVLTTPLPDELNFRRRKLYPPEDTTRCFGILTAKPIPQIPHFPVYTRSGEVTISIELKKSGFTLSQQMLELVTRLHQYIFSHILRLEKPALEFQPAGAESAYCVLPLNVVNDSSTLDIDFKFMEDIEKSEARIGIPSTKYSKETPFVFKLEDYQDAVIIPRYRNFDQPHRFYVADVYTDLTPLSKFPSPEYETFAEYYKTKYNLDLTNLNQPLLDVDHTSSRLNLLTPRHLNQKGKALPLSSAEKRKAKWESLQNKQILVPELCAIHPIPASLWRKAVCLPSILYRLHCLLTAEELRAQTASDAGVGVRSLPADFRYPNLDFGWKKSIDSKSFISTCNSSLAESDNYCKHSTTVVPENAAHQGATRPSLENHDQMSVNCKRLPAESPAKLQSEVSVDLTAINGLSYNKSLANGSYDLVNRDFCQGNQLTYFKQEIPVQPTTSYPIQNLYNYENQPTPSNECPLLSNKYLDGNANTSTSDGSPAGSPRPAMMTAVEALEGRTDSEQSPSVGHSSRTLGPNPGLILQALTLSNASDGFNLERLEMLGDSFLKHAITTYLFCTYPDAHEGRLSYMRSKKVSNCNLYRLGKKQGLPSRMVVSIFDPPVNWLPPGYVVNQDKSNSEKWEKDEMTKDCLLANGKLGEDCEEEEEEELAWRAPKEEAEYEDDLLEYDQEHIQFIDSMLMGSGAFVKKIPLSPFSTSDSAYEWKMPKKASLGSVPFSSDLEDFDYSSWDAMCYLDPSKAVEEDDFVVGFWNPSEENCGVDTGKQSISYDLHTEQCIADKSIADCVEALLGCYLTSCGERAAQLFLCSLGLKVLPVIKRTSRDKASYPAQENSSSQQKSPSGSCAAAVSPRSSAGKDLEYGCLKIPPRCMFDHPDAEKTLNHLISGFENFEKKINYIFKNKAYLLQAFTHASYHYNTITDCYQRLEFLGDAILDYLITKHLYEDPRQHSPGVLTDLRSALVNNTIFASLAVKYDYHKYFKAVSPELFHVIDDFVQFQLEKNEMQGMDSELRRSEEDEEKEEDIEVPKAMGDIFESLAGAIYMDSGMSLEVVWQVYYPMMRPLIEKFSANVPRSPVRELLEMEPETAKFSPAERTYDGKVRVTVEVVGKGKFKGVGRSYRIAKSAAARRALRSLKANQPLVPNS"
misc_feature <153..422
/gene="Dicer1"
/note="N-terminal helicase domain of the DEAD-box helicase
superfamily; Region: DEAD-like_helicase_N; cl28899"
/db_xref="CDD:475120"
misc_feature 516..800
/gene="Dicer1"
/note="Partner-binding domain of the endoribonuclease
Dicer; Region: Dicer_PBD; cd15903"
/db_xref="CDD:277191"
misc_feature order(531..536,543..545,549..554,729..734,741..746,
753..755,762..767,774..776)
/gene="Dicer1"
/note="Trbp binding interface [polypeptide binding]; other
site"
/db_xref="CDD:277191"
misc_feature 819..1397
/gene="Dicer1"
/note="C-terminal helicase domain of the endoribonuclease
Dicer; Region: SF2_C_dicer; cd18802"
/db_xref="CDD:350189"
misc_feature order(1050..1058,1266..1268,1323..1325,1329..1331)
/gene="Dicer1"
/note="DNA binding site [nucleotide binding]"
/db_xref="CDD:350189"
misc_feature order(1278..1280,1284..1286,1359..1361,1365..1367)
/gene="Dicer1"
/note="ATP binding site [chemical binding]; other site"
/db_xref="CDD:350189"
misc_feature 1593..1859
/gene="Dicer1"
/note="Dicer dimerization domain; Region: Dicer_dimer;
pfam03368"
/db_xref="CDD:460900"
misc_feature 2361..2729
/gene="Dicer1"
/note="PAZ domain, dicer_like subfamily. Dicer is an RNAse
involved in cleaving dsRNA in the RNA interference
pathway. It generates dsRNAs which are approximately 20 bp
long (siRNAs), which in turn target hydrolysis of
homologous RNAs. PAZ domains are named...; Region:
PAZ_dicer_like; cd02843"
/db_xref="CDD:239209"
misc_feature order(2550..2552,2589..2591,2607..2609,2619..2621,
2673..2675,2697..2699,2703..2705)
/gene="Dicer1"
/note="nucleic acid-binding interface [nucleotide
binding]; other site"
/db_xref="CDD:239209"
misc_feature 3591..>3866
/gene="Dicer1"
/note="Ribonuclease III family; Region: RIBOc; smart00535"
/db_xref="CDD:197778"
misc_feature order(3642..3647,3654..3659,3666..3668,3675..3680,
3687..3692,3696..3704,3732..3734)
/gene="Dicer1"
/note="dimerization interface [polypeptide binding]; other
site"
/db_xref="CDD:238333"
misc_feature 4737..5231
/gene="Dicer1"
/note="Ribonuclease III C terminal domain. This group
consists of eukaryotic, bacterial and archeal ribonuclease
III (RNAse III) proteins. RNAse III is a double stranded
RNA-specific endonuclease. Prokaryotic RNAse III is
important in post-transcriptional...; Region: RIBOc;
cd00593"
/db_xref="CDD:238333"
misc_feature order(4797..4802,4809..4814,4821..4823,4830..4835,
4842..4847,4851..4859,4887..4889,5151..5153,5184..5186)
/gene="Dicer1"
/note="dimerization interface [polypeptide binding]; other
site"
/db_xref="CDD:238333"
misc_feature order(4797..4799,4806..4808,4818..4820,5121..5123,
5130..5132)
/gene="Dicer1"
/note="active site"
/db_xref="CDD:238333"
misc_feature order(4806..4808,5121..5123,5130..5132)
/gene="Dicer1"
/note="metal binding site [ion binding]; metal-binding
site"
/db_xref="CDD:238333"
misc_feature 5244..5432
/gene="Dicer1"
/note="double-stranded RNA binding motif of
endoribonuclease Dicer and similar proteins; Region:
DSRM_DICER; cd10843"
/db_xref="CDD:380680"
misc_feature order(5244..5249,5253..5258,5265..5270,5277..5282,
5292..5294,5307..5315,5319..5321,5325..5327,5376..5387,
5394..5396)
/gene="Dicer1"
/note="putative RNA binding site [nucleotide binding];
other site"
/db_xref="CDD:380680"
polyA_site 9335
/gene="Dicer1"
/experiment="COORDINATES: polyA evidence [ECO:0006239]"
ORIGIN
gcaaaccaggttgctcaacaagtgtcagctgtcagaactcactcagatctcaaggttggggagtactcaaacctcgaagtgaatgcatcttggacaaaagagagatggagccaagagtttactaagcaccagttttattttaggttctcattatgacttgctatgtcgccttgaatgttttgaaaaatggttacttatcactgtcagacattaaccttttggtgtttgatgagtgtcatcttgcaattctagaccacccctatcgtgaaattatgaagctctgtgacagttgtccatcatgccctcgaattttgggactaactgcttccattttaaatgggaaatgtgacccagacgaattggaagaaaagattcagaaactggaaaagattctcaagagtggcgctgagaccgcaactgacctggtggtcctggacagatacacttctcagccttgtgagattgtggtggattgcggaccatttactgacagaagtgggctttatgaaagactgctgatggagttagaagaagcacttgactttatcaatgactgtaatgtatctgtacattcaaaggaaagagattctactttgatttccaaacaaatcctctcagactgccgtgcagtgctggtcgtcctgggaccctggtgtgcagataaagtagcggggatgatggtaagagaacttcagaagtacatcaaacatgagcaagaggagctacacaggaagttcttattgtttacagacactctgctaaggaaaatacatgcactgtgtgaagagtacttctcccctgcctcacttgacctgaagtatgtaactcccaaagtcatgaaactgctcgagatcctgcgcaaatacaagccctatgagcgacagcagttcgaaagtgttgagtggtacaataacaggaatcaggataattatgtgtcctggagtgattctgaggacgatgacgatgatgaagaaattgaagaaaaagaaaagccagagacaaattttccttctccatttaccaatattttatgtggaattatttttgtggaaagaagatacacagcagttgtcctaaacagattgataaaggaagctggcaaacaagatccagagctggcttatatcagcagcaactttataactgggcatggcattggaaagaaccagcctcgcagcaagcagatggaggcggagttcagaaagcaagaggaggtacttaggaaatttcgagcacatgagaccaacctgctcattgcaacaagtgttgtagaagagggtgtggacattcccaagtgcaatttggtggttcgttttgatttgcccacagagtatcgttcttacgttcagtctaaaggacgggcacgagcaccgatctctaattatgtaatgttagcagacacagacaaaataaagagctttgaagaagacctcaagacctacaaagctatagaaaagatcttaagaaacaagtgttcaaagtcagtggatggtgctgaggctgacgtccatgctgttgtagatgatgatgatgttttcccgccatatgtactgaggcctgatgatgggggtcctcgagtcacaatcaacactgccattggacacatcaacagatattgtgctcgattaccaagtgatccgtttacgcatctagctcccaaatgtagaacccgagaattgcctgatggtacattttattcaactctttatcttccgattaactcacctcttcgagcctccattgttggtccaccgatgggctgtgtacggctggctgagagagtggtagctctcatctgctgtgaaaaactgcacaaaattggtgaactggatgaacatttgatgccagttgggaaagagactgttaagtatgaagaagaacttgacttacatgatgaagaggagaccagcgttccagggagaccaggatccacaaaacgaaggcagtgctaccccaaagcaattccagagtgcttgagggagagttaccccaaacccgatcaaccctgttacctgtatgtgataggaatggtcttaaccaccccccttcctgatgagctcaacttcaggcggcggaagctctaccctcctgaggacaccaccagatgctttgggatcctgacagccaaacccatacctcagatccctcactttcctgtgtatactcgctctggagaggtcaccatatccatcgagctgaagaagtctggtttcacactgtctcaacaaatgcttgagctggttacgagactgcaccagtacatattctcacacattctccggctcgagaagcctgccctggagtttcaacccgcgggcgctgagtcagcgtactgtgttctacctcttaacgtcgttaatgactccagcactttggacattgactttaaattcatggaggatattgagaagtctgaagctcgtataggcattcccagcactaagtattcaaaggaaacaccgtttgtttttaagttagaagattaccaagatgcagttatcattccaagataccgcaattttgatcagcctcatcgattttatgtagctgatgtgtatactgatcttaccccactcagtaaatttccttcccctgaatatgaaacttttgcagaatattataaaacaaagtataaccttgacctgaccaatctcaaccagccactgctggatgttgaccacacatcttccagactgaaccttctaacccctcggcatttgaatcagaaggggaaagcacttcctctaagcagtgctgaaaagaggaaagccaaatgggaaagtctgcagaacaaacagatactggttccggaactctgtgctatacatccaatcccagcatcactgtggagaaaagcagtttgtctccccagcatactgtatcgccttcactgccttctgactgcggaggagctcagagctcagacagccagcgatgctggcgtaggagtcagatcacttccggccgattttagataccctaacttagacttcgggtggaaaaagtctattgatagcaagtctttcatctcaacctgtaactcctcgttggctgagagtgataattactgtaagcacagcacaactgtagtccctgaaaatgctgcacatcaaggtgctactagaccctccttagaaaaccatgaccaaatgtctgtgaactgcaaaaggttgcccgccgagtcacctgctaagctccaaagtgaggtttcagtggatcttacagcaatcaatggtctttcttacaataaaagccttgccaatggcagttatgatttagttaacagagacttttgccaaggaaatcagctgacttacttcaagcaggaaatacctgtacaaccaactacctcatatcccattcagaatttatacaattatgagaaccagcccacgcccagcaatgaatgtcctctactgagtaataagtaccttgatgggaacgctaacacatctacctcagacggaagccccgcagggtccccaaggcctgccatgatgactgctgttgaagcactggagggcaggacagactctgagcagagcccttctgtggggcactcctcaaggactctcggccccaacccaggactgattcttcaggctttgacactgtcgaacgctagcgatgggtttaacctagagcggcttgagatgcttggcgactccttcttaaagcacgctatcaccacgtatctgttttgcacataccctgatgctcatgagggccgcctttcatatatgagaagcaaaaaggtcagcaactgtaacctgtaccgccttggcaagaagcagggactgcccagccgcatggtggtgtcgatatttgatcctcctgtgaattggcttcctcctggttatgtggtaaaccaagacaaaagtaactcagagaaatgggaaaaggatgaaatgacaaaagactgcttgctggctaatggcaaactgggtgaggactgtgaggaggaggaggaggaggagctggcgtggagggctcccaaggaggaggctgagtatgaagacgacctcctggagtatgaccaggagcacattcagtttatagacagcatgctaatgggctcaggggcctttgtgaagaaaatccctctttcccccttttccacctctgattctgcatatgaatggaaaatgcccaaaaaggcctccctgggcagtgtgccgttttcctcagaccttgaggattttgattacagctcttgggatgcaatgtgctatctggatcctagcaaagccgttgaagaggatgactttgtggtaggtttctggaatccatcagaagaaaactgtggcgtggacacagggaagcagtccatttcttacgacttgcacactgagcagtgcatcgcggacaagagcatagcggactgcgtggaggccctgctgggctgttacttaaccagctgtggtgagagggctgctcagctcttcctctgctcgctggggctgaaggtgctcccagtcatcaaaaggaccagccgggacaaggcctcgtaccctgctcaggagaactcaagcagccaacagaagagcccttcagggagctgtgctgctgcagtcagtccccgctcctctgcagggaaagacttggagtatggctgcttgaagatcccgccaaggtgtatgtttgaccatccagatgcagagaaaaccctgaaccacctcatatctgggtttgaaaattttgaaaagaaaatcaactacatattcaagaataaggcttaccttctgcaggcttttacacatgcctcctaccactacaacactattactgattgttaccagcgcttagaattcctgggagatgcgattttggactacctcataaccaagcacctttatgaagacccacggcagcattctccaggggtcctgactgacctgcgctctgccctggtcaataacaccatctttgcgtcgctggctgtgaagtatgactaccacaagtactttaaagccgtctctcctgagctcttccacgtcattgatgacttcgtgcagtttcagctggagaagaacgagatgcaaggaatggactctgagcttaggagatccgaggaggatgaggagaaagaagaggatattgaagtccccaaggccatgggagacatttttgagtctcttgctggtgccatttatatggacagtgggatgtccctggaggtggtctggcaggtgtactatccgatgatgcggcctctaatagaaaagttttctgcaaatgtgcctcgttctccggtaagagaattgcttgagatggaaccagaaactgccaagtttagcccagcggagagaacttacgatgggaaggtcagagtcaccgtggaagtggtgggaaaggggaagtttaaaggtgtcggccggagctacaggatcgcaaagtctgctgcagcacgaagagccctccgcagcctcaaagctaaccagcctctggttcctaacagctgaagcttccagactcacaggcggcaaggcagtgaccagaaccatagcagcacaccacaaaggatgactcaagccgacacagagcagaaagattgacggcagaacttaaagtttgataatgagatagataacagaataaaacctttaatatgtgtataaactctttggaactaattgtagctttagtttttgcgcagacacaatcttgtcttctttatccaccctgctttgtttagtcacaggagcgctttgatgctggtgtttattggcgagtttttaaatcactttgacaggtttctgggtttttatttgtttgtttttgttttcacatttcatttctgttgacttgacttggcttggtgttagagatcatggagcttaaccctctgacagtccctagagctcgggggtcctgaccctgcggttcctccacaccagtgcctgtttgctgcagttgtcaagcccagcaaagcagaacagtttgcaaaggaagctctggtgttgtggagggcagtggaggaaggggcggggcagccccctgtcgctgtggcacatagtagtaagggacagacttggagtcagtgttggccatcgatgagtcgaggccaggttttcagaggtcacgtagtgctgcagagggctcttgccttaaaagtacgggcctgatagtttgctttcttatcttgccttcccgggttatgcattggatgagatgggtggcagctcaccagagcacctgcaccagaattactgcagtaggatttctgttgcgtgtcctgaaaacattcgaaaacccggcgtgagtagatggagttttaaagcaccattatagacaggatatgtggctagatgcccagttttcctcagaactttctgccaggggtcccagtggtggaagtgcttgcccagtcgaccattgttcattgacaaaatgagcctgagatgcagtccgcctagatagacatgccgcaggtttgtactggagcacgtcctggcagtgttgccagagtcacccatgctgggccgtcagtctcatggggtcagcattgaggcagactgccaggactgactcgtctggggtggaagtcgtgagtttagataaactaggtccttagttcatctcagaatcagagaaactaaagctgtttaggcatttgctgaagcgcctggaccgggcttgtgggccctcttcacttacacacctcagtcccctccctttgcgtgcattttcccgttggtgctatgtttatgtatcatgcttgaagtttaattttttgcactgtgactataatacctcttaatttacattttaaaatgctatatgggttgctcatgccctcccaccgacatacaggagagttttgctgcatttagccctattacgcttgaagtttcagcacgctgagccagggtggctcgtgcttcccacacgtcttctgaggctgatgcttcatgcaatgctgcacttaggttccagtcacctttggcttcactgcaccatccgctcgagagagacgccgtgtgcgctgagcactcgggctgtcaggtaccccacgtgaagggggggagagtgagcttctccaaggattacgtaattgcccatctgaaaatcgggatctgaattagtgtttggtgaaatcaatttggctgactcatcttaaatatttaattctaacttgaaattgtagttgtctatttgatttagaacatccctctcccccatgcacacacacacacacacacacacacacacacacacacacacacacacccctacatacaaacacaccccccccacacacacacacacaaaccttaatgcaagacatcatagcatgtgcaaaccaggtgatcttttgaatgttgtagctataatttgtacagtgagatagtaaggtagggtgggattgtgggaggtggaatttgttgtcctattaccgtctcttggtaatttataaactacctgattctctgcattgtgatttgtgcatttatgtcctggggtgctctggcatcctggcaccaaaatcagactgttttacagttccattcctggtggaagaaaatgcctcaatatattttgtaaccataaggagagtatttttttgttaatattaaaaagatcagaattggatatgcttagatcatccattctcagggctcaaattttatgccactattcagaatgttgtatcagtagcaaacttgggctgtttttccttttatccccccgtacccgcctctttttggttgttgtttgataaaagtacctgaaaattaatttgacccacagtttgaatcatactgtgatttacccagagaccaagttggggaatcagaagtacgatgacgagttagacacacgcgaagatcaggaatgcatttgtgttggggagttgtccccaggctctcactggttgaaagactgcattttagagaaaagttgttctgttccctcccgtgatgacttcgtgtgcctcccctgccagtgtagcaggaggaggagaagccagccagcggctgtgaggacgaggtgggccgctgcacagatgctgtggctgtgcgtgagctcctggggtgctgcagtactgggacaccccctgtggccccttggcaatcccagccgtacagagggagggagggaggccctgtcttctgttgggttgtgtccatgaagcatgggctggccagtgttccagaggggaggcctgtggttctgacttgacaacatacggggatgcctacagcttgtcacacacttgcacactttagctattattattactttgtctgtggcattttcttctgtctgtaaagtgaaagcacggcagaaatgtgttgactgaacacttaattatgctttttaaatgttttggttacgtttcttttttcatttatattatatgaaatgattaaatttagaataacctctaacactcctataattatcatttaaaatactgatgtttttattgtctcgacagtagtccgtcctcagaacagtgcagacacactgtgtgattagcagggacttgaggctgttttggttctgccgttcagttcctgtgtacagtcgctcaccagcagccaccagacagtggctgcgagcgtggagaacagtcaaaaatccacaacctcccggtttgcttgtagggcctattgatttaaaactactccttgctcggtgaaggcacctagtcctcctgcacaaacgtaacgctggcaaacggaggccttgcacctttatttcacagcccctgagctgagccgccagccgcatccttagccaactgtgtctgcagcgggctctgtgtctcctctgtgcttaacaacgtccgagaacccatagcttcccacctgctgatcgcttctctggaatttaattatttttcaataaattctgtagtttatactgtatatgagacattttaaagatagttgaaatgactgtaaaggtggtgtgtctgccatggagaccgtgtgttgtccactggcagggaaaatgatcacctctaacttgcagatagtactttattcattattttcttgtctgtttttctttgctaaacaaccacagacagtttcagtgtcatagatggccccagagtttgcctcggctgctggttccatagcggaagaacgcatctgccttctctgctgtaaataaaggggagtcactagcgaagtcaggctgagcgttccgctgacaatgaactacgtccgtcacatgctgcagccttttaaagaaacgtatttgtgcatacagcggtcactgtagagctgcaacagcacctccggaccacagtcacctttagctttccgttccgtttgtttttctttttaataattgtagccaataaagttattgtctgttca
//
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.
[Full Text]