XM_015780808.2

LOCUS       XM_015780808            4732 bp    mRNA    linear   PLN 07-AUG-2018
DEFINITION  PREDICTED: Oryza sativa Japonica Group endoribonuclease Dicer
            homolog 4-like (LOC4336362), transcript variant X2, mRNA.
ACCESSION   XM_015780808
VERSION     XM_015780808.2
DBLINK      BioProject: PRJNA122
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_029259.1) annotated using gene prediction method: Gnomon,
            supported by mRNA and EST evidence.
            Also see:
                Documentation of NCBI's Annotation Process
            
            On Aug 7, 2018 this sequence version replaced XM_015780808.1.
            
            ##Genome-Annotation-Data-START##
            Annotation Provider         :: NCBI
            Annotation Status           :: Full annotation
            Annotation Name             :: Oryza sativa Japonica Group
                                           Annotation Release 102
            Annotation Version          :: 102
            Annotation Pipeline         :: NCBI eukaryotic genome annotation
                                           pipeline
            Annotation Software Version :: 8.1
            Annotation Method           :: Best-placed RefSeq; Gnomon
            Features Annotated          :: Gene; mRNA; CDS; ncRNA
            ##Genome-Annotation-Data-END##
FEATURES             Location/Qualifiers
     source          1..4732
                     /organism="Oryza sativa Japonica Group"
                     /mol_type="mRNA"
                     /cultivar="Nipponbare"
                     /db_xref="taxon:39947"
                     /chromosome="4"
     gene            1..4732
                     /gene="LOC4336362"
                     /note="Derived by automated computational analysis using
                     gene prediction method: Gnomon. Supporting evidence
                     includes similarity to: 1 mRNA, 22 ESTs, 4 Proteins, and
                     100% coverage of the annotated genomic feature by RNAseq
                     alignments, including 37 samples with support for all
                     annotated introns"
                     /db_xref="GeneID:4336362"
     CDS             159..4481
                     /gene="LOC4336362"
                     /codon_start=1
                     /product="endoribonuclease Dicer homolog 4 isoform X2"
                     /protein_id="XP_015636294.1"
                     /db_xref="GeneID:4336362"
                     /translation="

MTASPIIGKGGSNKLNYTKCINSLEELLHAKVCSVDNEELESVVASPDMEVYFYGPVNHSNLTTICIKELDSLKLQSERMLRASLCDFKDSQKKLKSLWRLHENIIFCLQELGSFGALQAARTFLSFDGDKLDRREVDLNGSTSSFAHHYLNGATSILSRNKTDGSHAGSFDLEKLEEPFFSNKFSVLINVLSRYGLQENMKCIVFVKRITVARAISNILQNLKCLEFWKCEFLVGCHSGSKNMSRNKMDAIVQRFSSGEVNLLVATSVGEEGLDIQTCCLVVRFDLPETVASFIQSRGRARMTKSKYVVLLERENQSHEKLLNGYIAGESIMNEEIDSRTSNDMFDCLEENIYQVDNTGASISTACSVSLLHCYCDNLPRDMFFTPSPVFFYIDGIEGIICRLILPPNAAFRQADGQPCLSKDEAKRDACLKACVKLHKLGALTDFLLPGPGSRKNKVSVTNNSSNNKVEDDSLREELHEMLIPAVLKPSGLKLDSLSNLHFYYVKFIPIPEDRRYQMFGLFVINPLPVEAETLQVDLHLARGRIVKAGIKHLGKIAFEKEKMMLAHKFQEMCLKILLDRSEFTSPHVKLGNDVTLEINSTFYLLLPIKQKCYGDRFMIDWPAVERCLSSPIFKDPIDVSVHASYSSNESLRLLDGIFSKTDVVGSVVFSPHNNIFFFVDGILDEINAWSEHSGATYAEHFKERFRIELSHPEQPLLKAKQIFNLRNLLHNRLPETTESEGRELLEHFVELPPELCSLKVIGFSKDMGSSLSLLPSLMYRLENLLVAIELKDVMLSSFPEASQISASGILEALTTEKCLERISLERFEVLGDAFLKYVVGRHKFITYEGLDEGQLTRRRSDVVNNSHLYELSIRKKLQVYIRDQQFEPTQFFAPGRPCKVVCNTDVEVRLHQMDIHPDNRENCNLRCTRSHHWLHRKVIADVVESLIGAFLVEGGFKAAFAFLHWIGIDVDFNNPALYRVLDSSSINLSLMDYTDIAGLEELIGYKFKHKGLLLQAFVHPSFSQHSGGCYQRLEFLGDAVLEYVITSYLYSTYPDIKPGQITDLRSLAVGNDSLAYAAVEKSIHKHLIKDSNHLTSAISKFEMYVKLSNSEKDLLEEPACPKALGDIVESCIGAVLLDSGFNLNYVWKVMLMLLKPVLTFANMHTNPMRELRELCQCHGFELGLPKPMKADGEYHVKVEVNIKSKIIICTAANRNSKAARKFAAQETLSKLKNYGYKHRNKSLEEILIVARKRESELIGYNEDPIDVEADISVKMKSPHIHEENIPFQNTETSFTRSSKFHNQIIAGSGKHDVNNGRNNQPKLATQSGRLPSEATEKSNKKVYHGDMVHKTARSFLFELCAANYWKPPEFKLCKEEGPSHLRKFTYKVVVEIKGASATLLECHSDGKLQKKAAQEHAAQGALWCLKQLGHLPKEEDVRV"

     misc_feature    687..1094
                     /gene="LOC4336362"
                     /note="C-terminal helicase domain of the DEAD-like
                     helicases; Region: DEAD-like_helicase_C; cl38915"
                     /db_xref="CDD:365791"
     misc_feature    1056..1058
                     /gene="LOC4336362"
                     /note="ATP binding site [chemical binding]; other site"
                     /db_xref="CDD:350171"
     misc_feature    1260..1508
                     /gene="LOC4336362"
                     /note="Dicer dimerization domain; Region: Dicer_dimer;
                     pfam03368"
                     /db_xref="CDD:427264"
     misc_feature    2067..2447
                     /gene="LOC4336362"
                     /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:444818"
     misc_feature    order(2190..2192,2250..2252,2262..2264,2316..2318,
                     2406..2408,2412..2414)
                     /gene="LOC4336362"
                     /note="nucleic acid-binding interface [nucleotide
                     binding]; other site"
                     /db_xref="CDD:239207"
     misc_feature    2586..3086
                     /gene="LOC4336362"
                     /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(2634..2639,2646..2651,2658..2660,2667..2672,
                     2679..2684,2688..2696,2724..2726,3012..3014,3039..3041)
                     /gene="LOC4336362"
                     /note="dimerization interface [polypeptide binding]; other
                     site"
                     /db_xref="CDD:238333"
     misc_feature    order(2634..2636,2643..2645,2655..2657,2982..2984,
                     2991..2993)
                     /gene="LOC4336362"
                     /note="active site"
                     /db_xref="CDD:238333"
     misc_feature    order(2643..2645,2982..2984,2991..2993)
                     /gene="LOC4336362"
                     /note="metal binding site [ion binding]; metal-binding
                     site"
                     /db_xref="CDD:238333"
     misc_feature    3156..3863
                     /gene="LOC4336362"
                     /note="dsRNA-specific ribonuclease [Transcription];
                     Region: Rnc; COG0571"
                     /db_xref="CDD:223644"
     misc_feature    4233..4442
                     /gene="LOC4336362"
                     /note="double-stranded RNA binding motif (DSRM)
                     superfamily; Region: DSRM_SF; cl00054"
                     /db_xref="CDD:444671"
     misc_feature    order(4233..4235,4239..4241,4311..4313,4386..4394,
                     4401..4403)
                     /gene="LOC4336362"
                     /note="RNA binding site [nucleotide binding]; other site"
                     /db_xref="CDD:380679"
ORIGIN

tacttgatgagtgccatcatgcacaaccgcaaaaacggcatccatatgcgcaaattatgaaggagtaggcttttgggtccagttgcttgttgctcctgttgtatcaataggaattctataatagtaacagtgttgagaaattccctcgggtttttggcatgactgcttcaccaattattgggaaaggtgggtctaataaacttaactacacgaaatgtatcaacagtcttgaggaattacttcatgcaaaggtttgttcagttgataatgaagaacttgaaagtgtggttgcatctcctgatatggaggtgtacttttatggcccagttaatcactctaaccttaccacaatatgcatcaaagagcttgatagcttaaagcttcagagcgagcgcatgctaagagcgagcctatgcgatttcaaggattctcagaagaaactgaagtccttatggaggttgcatgaaaatattattttctgtttgcaagaacttggttctttcggagctctgcaagctgcgaggacctttttgtcctttgatggtgataagctagatagaagggaggtcgatcttaacggcagtacttccagcttcgcacatcactacctgaacggagcaacttctattcttagtcgcaacaaaacagatggttcccacgctggttcatttgaccttgagaagcttgaagaacctttcttctcaaataaattttctgttcttatcaatgttctttcgagatacgggttgcaggaaaacatgaaatgcattgtttttgtgaaaagaataactgttgcaagagcaatatcaaacattctccaaaacttgaagtgtcttgaattttggaaatgtgagtttcttgtgggctgccactcaggatcaaagaacatgtcaaggaataagatggatgctattgttcaaaggttttcttctggtgaggtgaatcttttggttgctacaagcgtaggtgaagagggacttgatattcagacgtgttgtcttgttgtgcgatttgatcttccagaaactgttgctagttttatccaatcaagggggcgtgcccggatgactaaatctaaatacgttgttctcctagagagagaaaatcagtctcatgaaaagttgcttaatggttatattgctggtgaaagcattatgaatgaagagatagactcaagaacttcaaatgatatgtttgattgcctcgaggagaacatttatcaagtggataacaccggtgcttccattagcactgcttgtagtgtatctctactacattgctactgcgacaaccttcctagggatatgttttttactccttccccagtgttcttctacattgatggcatcgagggaataatctgcagactaattcttccaccaaatgctgctttccgtcaagcagatggtcaaccatgtctgtcaaaagatgaagctaagagagatgcatgcttaaaggcatgcgtaaaacttcataaattgggtgctttgacagattttcttctgccgggtccaggttcaagaaagaataaagtatcagtaacaaataattcatcaaacaacaaagttgaagatgatagtctaagagaagagcttcatgagatgttaattcctgcagttctcaaaccttcgggattaaagttggattctttatcgaacttgcatttctactatgttaaatttattcccataccagaagataggcgatatcagatgtttggtctctttgtgatcaatccccttcctgtggaagctgaaacattgcaagttgatttgcatcttgctcgtggcaggattgtgaaagcaggaattaagcatttggggaaaatagcatttgagaaagagaagatgatgcttgcacacaagtttcaagagatgtgtctgaagattctcctggacagatctgagtttacttcaccccatgttaaattgggcaatgatgttacattagaaatcaattcaacattttaccttctgcttcccatcaagcaaaagtgttatggtgatagatttatgattgactggccagcagttgagcgctgtttatcatcaccgatttttaaagaccctatagatgtgtctgtgcatgcctcatattcatcaaatgagtctctgagacttcttgatggaatcttcagtaaaaccgatgtagttggcagtgtagtctttagtccccacaacaatatctttttctttgttgatggcattctggacgaaataaatgcttggagcgagcacagtggtgcaacttatgcagaacacttcaaggaaaggtttcgtattgagctatcacatcctgaacagccacttttgaaggctaaacagatcttcaacctgcgaaatttgcttcataatcggttaccggagaccacagaatcggagggccgtgaattactagagcacttcgtggagttacctccagaattatgctctttgaaggtcattgggttttcaaaagatatgggcagttccctgtccttgttaccttctttaatgtatcgtttggagaatttgctggtggctattgagttgaaggatgtgatgttatcttcttttccagaggcatctcaaattagtgcttctggtatacttgaagcgcttactactgagaaatgtttggagaggatatctttggagcgatttgaagtcctaggcgatgctttcttgaagtacgtagttggacgtcacaagtttattacatatgaaggacttgatgaagggcaattgaccaggagacgttctgatgtagtgaacaattcacatttatatgagttatcgatcagaaaaaaattgcaggtatacatacgggatcaacagtttgaaccgactcagttctttgctccaggaaggccttgtaaagttgtttgcaatactgacgtggaagtgagactacaccagatggatattcatccagataacagagaaaactgtaacctgagatgtacaaggtcacatcattggctgcataggaaagtgattgcagatgttgtcgaatcgcttattggagcatttcttgttgagggtggattcaaagctgcatttgctttcctgcattggattggaatagacgttgattttaataatccagctctctatagggtattagattcaagctccatcaatttatctcttatggactacactgacattgccgggcttgaagaattgataggttacaagttcaaacataagggtctacttctccaagcattcgtacacccttcatttagtcaacattctggaggctgctaccagagactggagtttcttggagacgctgttttggagtatgtgataacttcgtacctctactctacttatccggatataaaacctggtcaaataacagatctaagatcgttagctgttggtaatgattcgcttgcttatgcggcggttgagaaatctatccataagcatcttataaaggattcaaaccatctcacgtcagcaataagtaaatttgagatgtatgtgaagctctccaattcagagaaagacttgcttgaagaaccagcatgtcccaaggctcttggtgatattgttgaatcttgtattggcgcagtgcttttagattcaggcttcaacctgaactatgtttggaaggtaatgcttatgcttctaaagccagtattgaccttcgccaacatgcacactaatccgatgagagaacttcgagagctttgtcagtgtcatggatttgagttaggccttccgaaacctatgaaagctgatggagagtaccatgtcaaagtagaagttaacataaagagcaaaattatcatttgtactgcagcaaatcggaattcaaaagccgctagaaagtttgctgcacaagaaacactttctaaactgaagaattacggttataagcacagaaacaagtcccttgaggagattttgattgttgccaggaagagggaatcagaactgataggatataatgaagatccaatcgatgttgaggctgacatatctgtaaaaatgaagagtccacatatacatgaagagaacataccttttcaaaatacagaaacatctttcactaggagttctaaattccacaatcaaattatagcagggtctggcaaacatgatgtcaataatggaaggaacaatcaacccaagttggcaacacagagtggtcgtctgcctagtgaagcaacagagaaaagcaataaaaaggtgtatcatggtgacatggtacacaaaacagcaagatcattcctttttgaactatgtgctgcaaattattggaaacctcctgaattcaagttatgtaaagaggaagggccaagccaccttcggaagttcacttacaaggtggttgttgagatcaagggtgcttcggcgacccttttggagtgtcatagcgatggtaagcttcagaagaaggctgcacaagagcatgcggcacaaggggcgctctggtgtctcaagcaacttgggcacctaccaaaagaagaggacgttcgtgtatagcaacattgtcatgttttgggggtcacagtgcgaaagtacagtgatatttgtttgtccagagataaacgtgcctttctctcttttgctctgatgtccaacctcccttattaagggacgtgtataaattttcacttctccagtgccctttgaatggctagagttgtatagctagtccattattttccatgagacgtatattggtatatagttttattcttcaatagacgcatatagtattctttcaagttcca

//

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]