2024-04-19 11:53:49, GGRNA.v2 : RefSeq release 222 (Jan, 2024)
LOCUS XM_011763423 3047 bp mRNA linear PRI 24-APR-2018 DEFINITION PREDICTED: Macaca nemestrina argonaute 3, RISC catalytic component (AGO3), transcript variant X8, mRNA. ACCESSION XM_011763423 VERSION XM_011763423.1 DBLINK BioProject: PRJNA279145 KEYWORDS RefSeq. SOURCE Macaca nemestrina (pig-tailed macaque) ORGANISM Macaca nemestrina Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Mammalia; Eutheria; Euarchontoglires; Primates; Haplorrhini; Catarrhini; Cercopithecidae; Cercopithecinae; Macaca. COMMENT MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012011688.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Macaca nemestrina Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## FEATURES Location/Qualifiers source 1..3047 /organism="Macaca nemestrina" /mol_type="mRNA" /isolate="M95218" /db_xref="taxon:9545" /chromosome="Unknown" /sex="female" /tissue_type="blood" gene 1..3047 /gene="AGO3" /note="Derived by automated computational analysis using gene prediction method: Gnomon. Supporting evidence includes similarity to: 1 mRNA, 37 ESTs, 10 Proteins, and 100% coverage of the annotated genomic feature by RNAseq alignments, including 13 samples with support for all annotated introns" /db_xref="GeneID:105494707" CDS 330..2210 /gene="AGO3" /codon_start=1 /product="protein argonaute-3 isoform X3" /protein_id="XP_011761725.1" /db_xref="GeneID:105494707" /translation="
MCEVLDIHNIDEQPRPLTDSHRVKFTKEIKGLKVEVTHCGTMRRKYRVCNVTRRPASHQTFPLQLENGQTVERTVAQYFREKYTLQLKYPHLPCLQVGQEQKHTYLPLEVCNIVAGQRCIKKLTDNQTSTMIKATARSAPDRQEEISRLVRSANYETDPFVQEFQFKVRDEMAHVTGRVLPAPMLQYGGRNRTVATPSHGVWDMRGKQFHTGVEIKMWAIACFATQRQCREEILKGFTDQLRKISKDAGMPIQGQPCFCKYAQGADSVEPMFRHLKNTYSGLQLIIVILPGKTPVYAEVKRVGDTLLGMATQCVQVKNVIKTSPQTLSNLCLKINVKLGGINNILVPHQRPSVFQQPVIFLGADVTHPPAGDGKKPSIAAVVGSMDAHPSRYCATVRVQRPRQEIIQDLASMVRELLIQFYKSTRFKPTRIIFYRDGVSEGQFRQVLYYELLAIREACISLEKDYQPGITYIVVQKRHHTRLFCADRTERVGRSGNIPAGTTVDTDITHPYEFDFYLCSHAGIQGTSRPSHYHVLWDDNCFTADELQLLTYQLCHTYVRCTRSVSIPAPAYYAHLVAFRARYHLVDKEHDSAEGSHVSGQSNGRDPQALAKAVQIHQDTLRTMYFA"
misc_feature 330..671 /gene="AGO3" /note="PAZ domain, argonaute_like subfamily. Argonaute is part of the RNA-induced silencing complex (RISC), and is an endonuclease that plays a key role in the RNA interference pathway. The PAZ domain has been named after the proteins Piwi,Argonaut, and Zwille; Region: PAZ_argonaute_like; cd02846" /db_xref="CDD:239212" misc_feature order(465..467,510..512,552..554,564..566,618..620, 639..641,645..647) /gene="AGO3" /note="nucleic acid-binding interface [nucleotide binding]; other site" /db_xref="CDD:239212" misc_feature 804..2081 /gene="AGO3" /note="PIWI domain, Argonaute-like subfamily. Argonaute is the central component of the RNA-induced silencing complex (RISC) and related complexes. The PIWI domain is the C-terminal portion of Argonaute and consists of two subdomains, one of which provides the...; Region: Piwi_ago-like; cd04657" /db_xref="CDD:240015" misc_feature order(1215..1217,1227..1229,1263..1274,1281..1283, 1305..1307,1314..1316,1326..1328,1338..1340) /gene="AGO3" /note="5' RNA guide strand anchoring site [active]" /db_xref="CDD:240015" misc_feature order(1419..1421,1425..1427,1635..1637,2049..2051) /gene="AGO3" /note="active site" /db_xref="CDD:240015" ORIGIN
tgaagtgggattgctagatcatatagtagttctatttttaatgttttgaggaacctccatactgttttctgtaaaggctgcaacaagggtttattaattgccaataaaatgctgctgtgaaaaataatgagaaatattgcactgacgatgttacttggttacatttccttttttgcttttgcgtgattttgattttggaagccttgtacgtggtatactgcactgaactaaacagcctttattgaacttgaaatcagctggagaagactggtattgagcactatatttctgccactgccttctacaaagcacaacctgtaattcagttcatgtgtgaagttcttgatattcataatattgatgagcaaccaagacctctgactgattctcatcgggtaaaattcaccaaagagataaaaggtttgaaagttgaagtgactcattgtggaacaatgagacggaaataccgtgtttgtaatgtaacaaggaggcctgccagtcatcaaacctttcctttacagttagaaaatggccaaactgtggagagaacagtagcgcagtatttcagagaaaagtatactcttcagctgaagtacccgcaccttccctgcctgcaagtcgggcaggagcagaaacacacctacctgccgctagaagtctgtaatattgtggcagggcaacgatgtatcaagaagctaacagacaatcagacttccactatgatcaaggcaacagcaagatctgcaccagatagacaagaggaaattagcagattggtaagaagtgcaaattatgaaacggatccatttgttcaggagtttcaatttaaagttcgggatgaaatggctcatgtaactggacgcgtactgccagcacctatgctccagtatggaggacggaatcggacagtagcaacaccaagccacggagtatgggatatgcgagggaagcaattccacacaggagttgaaatcaaaatgtgggctatcgcttgttttgccacacagaggcagtgcagagaagaaatattgaagggtttcacagaccagctgcgtaagatttctaaggatgcagggatgcccatccagggccagccatgcttctgcaaatatgcacagggggcagacagcgtagagcccatgttccggcatctcaagaacacatattctggcctacagcttattatcgtcatcctgccagggaagacaccagtgtatgcggaagtgaaacgtgtaggagacacacttttgggtatggccacacaatgtgttcaagtcaagaatgtaataaaaacatctcctcaaactctctcaaacttgtgcctaaagataaatgttaaactcggaggaatcaataatattcttgtacctcatcaaagaccttctgtgttccagcaaccagtgatctttttgggagccgatgtcactcatccacctgctggtgatggaaagaagccttctattgctgctgttgtaggtagtatggatgcccacccaagcagatactgtgccacagtaagagttcagagaccccgacaggagatcatccaggacttggcctccatggtccgggaacttcttattcaattttataagtcaactcggttcaagcctactcgtatcatcttttatcgggatggtgtttcagaagggcagtttaggcaggtattatattatgaactactagcaattcgagaagcctgcatcagtttggagaaagactatcaacctggaataacctacattgtagttcagaagagacaccacactcgattattttgtgctgataggacagaaagggttggaagaagtggcaatatcccagctggaacaacagttgatacagacattacacacccatatgagtttgatttttacctctgtagccatgctggaatacagggtaccagtcgtccttcacactatcatgttttatgggatgataactgcttcactgcagatgaacttcagctgctaacttaccagctctgccatacttatgtacgctgtacacgatctgtttctatacctgcaccagcgtattacgctcacctggtagcatttagagccagatatcatcttgtggacaaagaacatgacagtgctgaaggaagtcacgtttcaggacagagcaatgggcgagatccacaagctcttgccaaggctgtacagattcaccaagataccttacgcacaatgtactttgcttaaatagtccaagtatattctctgagaggaagcactgaaagatgaattgacatacaacgtatgtttccagtggagtcaattgagtaaggacacctccagccatacagaaaccaacactgtgtgggggccaaggtctgatccttatgttaatacaaggaagattgtttacttcatcaaggaacacagcatcattatgcaatatgaaaccagccaactgctttttgtgcggtctcctgtaggaagtatcgcaattgttttgttttcatttcttgtagtctaacccttttaatgcctttacctcaagttgcttggcagcacaactatctttgcaaaaaaagtatcgaaaaagtaaatgatggtttaaaaaatatacaccttcatgaataatcaaagtgatttttcaaaattatgtgcaaaaaattaatgtgcattcatatattcttgtaaaaggtgtctgtgtgtttttaaaatatatacatccatacttcatatgcatatatatctggatctggattgataatagatatatatgtgtctgtgtatatattttagaattcattccatttggggaacttcctttcccttttattctactagcactaccgcttttatttctctttttcccttgccttcatcacctacattttttccctaatcctaccagtgacattcaaacattcacctacctggttcctttgaatgtaaaatatggcaaactagatttctacttttattttgcataccctattcctgactcctgtctcctacatgattctgagttctcaactcttgatattgctgtcttaagaatcaaacttttatatatatatagtatacata
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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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