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Previous release (v1)
2024-11-23 12:36:40, GGRNA.v2 : RefSeq release 226 (Sep, 2024)
LOCUS XM_015757500 5412 bp mRNA linear PLN 10-JUL-2024
DEFINITION PREDICTED: Oryza sativa Japonica Group endoribonuclease Dicer
homolog 3b (LOC4348944), mRNA.
ACCESSION XM_015757500
VERSION XM_015757500.3
DBLINK BioProject: PRJNA1123306
KEYWORDS RefSeq.
SOURCE Oryza sativa Japonica Group (Japanese rice)
ORGANISM Oryza sativa Japonica Group
Eukaryota; Viridiplantae; Streptophyta; Embryophyta; Tracheophyta;
Spermatophyta; Magnoliopsida; Liliopsida; Poales; Poaceae; BOP
clade; Oryzoideae; Oryzeae; Oryzinae; Oryza; Oryza sativa.
COMMENT MODEL REFSEQ: This record is predicted by automated computational
analysis. This record is derived from a genomic sequence
(NC_089044) annotated using gene prediction method: Gnomon,
supported by EST evidence.
Also see:
Documentation of NCBI's Annotation Process
On Jul 10, 2024 this sequence version replaced XM_015757500.2.
##Genome-Annotation-Data-START##
Annotation Provider :: NCBI RefSeq
Annotation Status :: Full annotation
Annotation Name :: GCF_034140825.1-RS_2024_06
Annotation Pipeline :: NCBI eukaryotic genome annotation
pipeline
Annotation Software Version :: 10.3
Annotation Method :: Best-placed RefSeq; Gnomon;
cmsearch; tRNAscan-SE
Features Annotated :: Gene; mRNA; CDS; ncRNA
Annotation Date :: 06/21/2024
##Genome-Annotation-Data-END##
FEATURES Location/Qualifiers
source 1..5412
/organism="Oryza sativa Japonica Group"
/mol_type="mRNA"
/db_xref="taxon:39947"
/chromosome="10"
gene 1..5412
/gene="LOC4348944"
/note="endoribonuclease Dicer homolog 3b; Derived by
automated computational analysis using gene prediction
method: Gnomon. Supporting evidence includes similarity
to: 1 EST, 16 long SRA reads, 6 Proteins, and 100%
coverage of the annotated genomic feature by RNAseq
alignments, including 5 samples with support for all
annotated introns"
/db_xref="GeneID:4348944"
CDS 36..5126
/gene="LOC4348944"
/codon_start=1
/product="endoribonuclease Dicer homolog 3b"
/protein_id="XP_015612986.3"
/db_xref="GeneID:4348944"
/translation="
MTGPHVGLSPHISATAAAALHRANQLSSASSHRRLTHFAFSHSPPPRRRFIPTSSCASPPPNPPNAAAAAMADDEAAVLPPPPPLPPPCRPHRQLRPRGYQVEVFEAALRGNTIAVLDTGSGKTMVAVMLAREHARRVRAGEAPRRIVVFLAPTVHLVHQQFEVIREYTDLDVMMCSGASRVGEWGADHWKEEVGRNEIVVMTPQILLDALRHAFLTMSAVSLLIFDECHRACGSHPYARIMKEFYFGSQWRPDVFGMTASPVATKGASTLHNCEAHISQLELTLDAKIYIVEDRNELESFSPPTTIVNKYYDAYMVDFDNLKSKLQIFSDEFDSLLVGLQESPSNKFKDTDNILETSRKSLSRYHGKILYSLNDLGPIITSEVVKIHIESVKPLCDSEDCIFSKASLCLHMSYFKEALSLIEEILPQGYGELMKSESGSEELTKRGYISSKVNTLINIFKSFGSSNEVLCLIFVDRIITAKAVERFMRGIVNFSCFSISYLTGGSTSKDALSPAVQRFTLDLFRAGKVNLLFTTDVTEEGVDVPNCSCVIRFDLPRTVCSYVQSRGRARRNNSEFILMIERGNLQQQEHIFRMIQTGYYVKNCALYRHPNALSYDLSIQGMYTYQVQSTGATITADCCVNLIRKYCEKLPKDRYFMPKPSFEVTIEDGLFKCTLTLPRNAAFQSIVGPLSSSSNLSKQLVSLEACKKLHQLGELNDHLVPLTEEPMDTDFTTADEKCISGPGTTKRKELHGTTCVLALSGTWIHDSENITLNTYRIDFLCDQEGENYAGFVLLMEPELDDDVAPSKMDLFLIPNKMVYTTVTPRGKVQLNKKQLGKGKLFQEFFFNGIFGRLFHGSRKSGAQRDFIFKKGHEIQWNTESMYLLLPLRDSSYIQDDLSIHWEAIESCAGAVEQLWSSYQGDENVIPVNCIPQKRRGGQEEIIHLANKSLHCSSIKDSVVLSLHTGRIYTVLDLILDTTAEDSFDEMCKGKASPFTSFVDYYHQKYGIIIQHPEQPLLLLKQSHNAHNLLFSKLKYLDGSTGKPLLMEKEQIHARVPPELLIHLDVTTDILKSFYLLPSVIHRLQSLMLASQLRREIGYNQHIPVTLILEAITTLRCCETFSLERLELLGDSVLKYVVGCDLFLRYPMKHEGQLSDMRSKAVCNATLHKHGIWRSLQGYVRDNAFDPRRWVAPGQISLRPFPCNCGIETAFVPSHRRYIRDDPSFFVGKPCDRGHRWMCSKTISDCVEALVGAYYVGGGIAAALWVMRWFGIDIKCDMKLLQEVKFNASHLCSLSKINDIEELEAKLKYNFSVKGLLLEAITHPSLQELGVDYCYQRLEFLGDSVLDLLLTRHLYATHTDVDPGELTDLRSALVSNENFAQAVVRNNIHSHLQHGSGILLEQITEYVRSNLECQGKESEFLQHTTCKVPKVLGDIMESIAGAVFIDTDFNVDMVWEIFEPLLSPLITPDKLALPPYRELLELCSHIGCFLNSKCTSKGEEVIIEMSLQLRDELLVAQGHDRNKKRAKAKAASRILADLKQQQGLSIKQCLSKAKQLDIVTSDLQFDLTSSGTQLSYSDLNDYHILEGLSSVKKEVVLPLKMEKGGPRSALFKLCKILQWPMPEFEFVEQRFRTPIVMDGATTTNFNSFVSTITLHIPDATTITFQGERRTDKKSAQDSASLMMLHKLQELKICICKT"
misc_feature 321..917
/gene="LOC4348944"
/note="DEXH-box helicase domain of endoribonuclease Dicer;
Region: DEXHc_dicer; cd18034"
/db_xref="CDD:350792"
misc_feature order(321..329,336..338,387..410,528..530,717..719,
813..815)
/gene="LOC4348944"
/note="ATP binding site [chemical binding]; other site"
/db_xref="CDD:350792"
misc_feature order(492..497,564..569,642..644,648..653,660..662,
735..743)
/gene="LOC4348944"
/note="nucleic acid binding site [nucleotide binding];
other site"
/db_xref="CDD:350792"
misc_feature 1377..1775
/gene="LOC4348944"
/note="Members of the P-loop NTPase domain superfamily are
characterized by a conserved nucleotide phosphate-binding
motif, also referred to as the Walker A motif
(GxxxxGK[S/T], where x is any residue), and the Walker B
motif (hhhh[D/E], where h is a...; Region: P-loop
containing Nucleoside Triphosphate Hydrolases; cl38936"
/db_xref="CDD:476819"
misc_feature 1737..1739
/gene="LOC4348944"
/note="ATP binding site [chemical binding]; other site"
/db_xref="CDD:350189"
misc_feature 1953..2213
/gene="LOC4348944"
/note="Dicer dimerization domain; Region: Dicer_dimer;
pfam03368"
/db_xref="CDD:460900"
misc_feature 2799..3230
/gene="LOC4348944"
/note="PAZ domain, named PAZ after the proteins Piwi
Argonaut and Zwille. PAZ is found in two families of
proteins that are essential components of RNA-mediated
gene-silencing pathways, including RNA interference, the
piwi and Dicer families. PAZ functions as a...; Region:
PAZ; cl00301"
/db_xref="CDD:469713"
misc_feature order(2937..2939,3024..3026,3036..3038,3090..3092,
3192..3194,3198..3200)
/gene="LOC4348944"
/note="nucleic acid-binding interface [nucleotide
binding]; other site"
/db_xref="CDD:239210"
misc_feature 3348..3857
/gene="LOC4348944"
/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(3402..3407,3414..3419,3426..3428,3435..3440,
3447..3452,3456..3464,3492..3494,3795..3797,3822..3824)
/gene="LOC4348944"
/note="dimerization interface [polypeptide binding]; other
site"
/db_xref="CDD:238333"
misc_feature order(3402..3404,3411..3413,3423..3425,3765..3767,
3774..3776)
/gene="LOC4348944"
/note="active site"
/db_xref="CDD:238333"
misc_feature order(3411..3413,3765..3767,3774..3776)
/gene="LOC4348944"
/note="metal binding site [ion binding]; metal-binding
site"
/db_xref="CDD:238333"
misc_feature 3978..4439
/gene="LOC4348944"
/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(4038..4043,4050..4055,4062..4064,4071..4076,
4083..4088,4092..4100,4128..4130,4362..4364,4395..4397)
/gene="LOC4348944"
/note="dimerization interface [polypeptide binding]; other
site"
/db_xref="CDD:238333"
misc_feature order(4038..4040,4047..4049,4059..4061,4332..4334,
4341..4343)
/gene="LOC4348944"
/note="active site"
/db_xref="CDD:238333"
misc_feature order(4047..4049,4332..4334,4341..4343)
/gene="LOC4348944"
/note="metal binding site [ion binding]; metal-binding
site"
/db_xref="CDD:238333"
misc_feature 4869..5099
/gene="LOC4348944"
/note="double-stranded RNA binding motif (DSRM)
superfamily; Region: DSRM_SF; cl00054"
/db_xref="CDD:444671"
polyA_site 5412
/gene="LOC4348944"
/experiment="COORDINATES: polyA evidence [ECO:0006239]"
ORIGIN
agcagggagaagaagatctgcaacggccctctgacatgacgggcccacatgtcggcctctcgcctcacatctctgcaacggccgccgctgccctccaccgcgccaaccaactctcctccgcctcctctcaccgccgcctcacgcacttcgccttctcccactcacctccgccacgccgccgatttatacccacctcgtcatgcgcctccccaccaccgaaccctcccaacgccgccgccgccgccatggccgacgacgaggctgccgtcctcccgcccccgcctccgctgccgccgccttgccgcccccacaggcagctccgcccgagggggtaccaggtggaggtgttcgaggcggcgctgcgggggaacaccatcgcggtgctcgacacggggtccgggaagaccatggtcgccgtcatgctcgcgcgcgagcacgcacgccgggtgcgcgccggggaggcgccgcggcggatcgtggtgttcctcgcgcccaccgtgcacctcgtccatcagcaattcgaggtgattcgtgagtacactgacctcgacgtgatgatgtgctctggagcatcgcgggttggcgaatggggcgccgatcattggaaggaggaagttgggagaaatgagatcgttgttatgacgccacagatactgttggatgctctgcggcatgcttttctgacaatgagtgcagtgagcttgctaatatttgatgaatgtcatcgtgcttgtggaagccatccatatgcacgaataatgaaggaattttattttgggtctcagtggaggccagatgtatttggaatgacagcctcccccgttgctactaaaggtgcttccacactacacaattgtgaagcacacatttctcaactagaactaaccttggatgccaagatatacatcgtagaagatcgaaatgagcttgagagcttttcccctcctacaacaattgtgaacaaatactatgatgcttacatggttgattttgataatctgaaatcaaagcttcagatattttctgatgagtttgattctttgttggttggtcttcaagaatcgccatctaataaatttaaagacaccgataatatcctagagacttcaagaaagagcttgtccagataccatgggaaaatattgtacagcctaaacgatcttggtccaattatcacctctgaggtagtcaaaatacatattgaaagcgttaagccattatgtgattctgaagactgcattttttctaaagctagcttgtgcttacatatgtcttattttaaagaagctttaagtctaatagaggaaattcttccacaaggatatggtgaactaatgaaatcagaatctggttctgaggaattaactaaaaggggatacatttcttcaaaagtgaatacgctaatcaacatcttcaaatcgtttgggtcatcaaatgaagtgctttgcctaattttcgtagacagaattataacagctaaagccgtcgaaaggtttatgagaggaattgttaacttctcttgtttttcaatttcttacttgactggagggagtacatcaaaagatgctctgagtccagcagttcagagatttactttggatttgttccgagctggaaaggtgaacttgctttttacaacagatgtgactgaagagggcgtcgatgtacctaactgttcttgtgtgatacgcttcgacctacccagaactgtttgtagctatgtccaatctcgtggtcgtgctagaaggaacaactcggaatttattcttatgattgagaggggaaacttgcagcagcaagaacacatatttcgtatgatacagactggttactatgttaaaaactgtgcactctatagacaccccaatgctttatcctatgacttgtctatccaagggatgtacacctaccaagttcagtcaactggagcaactataaccgcagattgctgtgtcaacctaattcgtaaatactgtgagaagcttcctaaagataggtatttcatgccaaagccttcctttgaggtgaccattgaagatggattattcaaatgcacattgacgctacctcgaaatgcagcatttcaaagtatagttggccctttaagcagttcaagtaatttatccaagcagcttgtatccctagaggcctgcaagaaattgcatcaactgggagaacttaatgatcatcttgtacctttgactgaagaacctatggatacagatttcactacagcagatgaaaaatgcatatctggaccaggaacaactaaaaggaaggagcttcatggtactacatgtgttcttgctttatcaggaacttggattcatgacagtgaaaatattacactgaatacttacagaattgattttctttgtgaccaagagggtgaaaactatgctgggtttgttctcttaatggaaccagaacttgatgatgatgtggcaccctcaaaaatggatctgttcctgatccctaataaaatggtctacaccactgtaactcctcgcggaaaagttcaactaaacaaaaagcagttaggtaaagggaaattgttccaagaattctttttcaatggaatctttggtagattatttcatggttctcgaaaaagtggagcacaaagggattttattttcaaaaagggtcatgaaatacagtggaacacggaaagcatgtacttgcttttacctttgagggattcttcatatatccaggatgacctaagcatacactgggaagcaattgaatcttgtgctggtgcagttgagcagttgtggagttcgtatcaaggagatgaaaatgtcattcctgtaaattgtattccacaaaaaagaagagggggccaagaagaaattattcatctggccaataagtctcttcattgttccagcatcaaagattcagtcgtgctatcactgcatacaggaaggatatacactgttcttgatttgatcttagacacaactgcagaggactcgtttgatgagatgtgtaaggggaaagcctcaccttttacttcatttgtggactattaccatcaaaagtatggtattattattcaacatccagaacaaccactattgctgttaaagcaaagccacaatgcacacaatcttctcttttcaaaattgaagtatctagatggctccactggcaaacctctgctcatggaaaaagaacaaattcatgctcgggttccacctgaactacttatccatctcgatgtaacaactgatattctgaagtcattttatttactcccttctgtaatacatcggcttcagtcacttatgctagccagccagcttcgcagagaaattggttacaatcaacacataccagtcactttgattttggaagctataacaactttaagatgctgtgagacattttctctggagcgtttagagctgttaggagactccgtgctaaagtatgtggtaggatgtgaccttttcctaaggtatcctatgaaacatgaaggtcagctctctgatatgagatccaaggctgtctgcaatgctacacttcataaacatggaatatggcggtcgttgcagggttatgtacgtgataatgcttttgacccacggcgttgggttgctcctggacagatatcgttgcgcccttttccttgtaactgtggaatcgagactgcatttgttccttctcatagaaggtatatccgagatgacccatctttttttgtgggaaaaccatgtgacagaggtcataggtggatgtgctcaaaaacaatatctgattgtgttgaagcactggttggagcatattatgttggtggtggcattgctgctgcactttgggttatgaggtggtttggaatcgatatcaaatgtgatatgaagctattgcaggaagtgaagttcaatgcatctcatttatgctccttatcaaaaataaatgacattgaggaactggaagcaaaactgaagtacaacttctcagtcaagggccttcttttggaagccataactcatccatctctgcaggaattaggtgttgattactgttaccagcgtcttgaatttcttggtgattctgtgctggatctacttcttacacgtcatctctatgctactcatactgatgttgatcctggagaattaacggatttacgctccgctttggttagtaatgagaattttgcacaagcagttgtaagaaacaacattcacagtcatctacaacatggatccggaatacttttggagcaaattactgaatatgtcaggtcaaatttggagtgtcaagggaaagagagtgaattccttcaacatactacatgtaaagtacctaaggttcttggtgacattatggaaagcatcgctggtgcagtatttatagacaccgattttaatgttgacatggtttgggagattttcgagccattgctttctccactgattacacctgataagcttgcattgccaccttaccgtgagttgctggagctatgcagtcacattggttgcttcttaaattcaaaatgcaccagtaaaggagaagaagtaattatagagatgtcactgcaactacgagatgagctgctggtagcacaagggcatgacagaaacaaaaagagggcaaaggcaaaagcagcatctcgtattttggcagatcttaagcagcaacagggtctttcaattaaacaatgtttgtccaaggctaaacagctggatatcgtgacttcagatcttcagtttgacttgacaagttcaggaacacaactcagttattctgatttgaatgactatcatatcctagaaggtctttcctcagtaaagaaagaagttgtgcttccactcaaaatggagaaaggtggacctcgaagtgcgcttttcaagctatgcaagattttgcagtggccaatgccagaattcgaatttgtggaacaaaggttcaggactcctattgttatggatggggcgacaacaacaaacttcaatagctttgtttcgacaatcaccttgcacatacctgacgcaacaaccattacatttcaaggtgagcgacgtactgacaaaaagagtgctcaggattcagcatccttgatgatgcttcacaagcttcaagaactcaagatctgtatatgcaagacttagcaaagcatcattgagacatgggccaatatgccagttaacgattgcgactagctaatgcgagctacttccctcccaaagtgagatgcgacgaaaatatttctgaaaagctcgatgctccagactgtcactgatcctatgttattttggggaagaagatccctatggtatactaccttgcattacctggatacattgttgtcgagtttccaatattccacgatgtatcgccccaagattcagggacatacctggctacttttctcttatccaacttcaaggtttccga
//
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]