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Previous release (v1)
2024-11-01 11:21:23, GGRNA.v2 : RefSeq release 226 (Sep, 2024)
LOCUS XM_054325736 3152 bp mRNA linear PRI 26-AUG-2024
DEFINITION PREDICTED: Homo sapiens DGCR8 microprocessor complex subunit
(DGCR8), transcript variant X3, mRNA.
ACCESSION XM_054325736
VERSION XM_054325736.1
DBLINK BioProject: PRJNA807723
KEYWORDS RefSeq.
SOURCE Homo sapiens (human)
ORGANISM Homo sapiens
Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi;
Mammalia; Eutheria; Euarchontoglires; Primates; Haplorrhini;
Catarrhini; Hominidae; Homo.
COMMENT MODEL REFSEQ: This record is predicted by automated computational
analysis. This record is derived from a genomic sequence
(NC_060946) 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 RefSeq
Annotation Status :: Updated annotation
Annotation Name :: GCF_009914755.1-RS_2024_08
Annotation Pipeline :: NCBI eukaryotic genome annotation
pipeline
Annotation Software Version :: 10.3
Annotation Method :: Best-placed RefSeq; Gnomon;
RefSeqFE; cmsearch; tRNAscan-SE
Features Annotated :: Gene; mRNA; CDS; ncRNA
Annotation Date :: 08/23/2024
##Genome-Annotation-Data-END##
FEATURES Location/Qualifiers
source 1..3152
/organism="Homo sapiens"
/mol_type="mRNA"
/isolate="CHM13"
/db_xref="taxon:9606"
/chromosome="22"
/sex="female"
/cell_line="CHM13htert"
/tissue_type="hydatidiform mole"
/note="haploid cell line"
gene 1..3152
/gene="DGCR8"
/gene_synonym="C22orf12; DGCRK6; Gy1; pasha"
/note="DGCR8 microprocessor complex subunit; Derived by
automated computational analysis using gene prediction
method: Gnomon. Supporting evidence includes similarity
to: 1 mRNA, 30 ESTs, 572 long SRA reads, 1 Protein, and
100% coverage of the annotated genomic feature by RNAseq
alignments, including 80 samples with support for all
annotated introns"
/db_xref="GeneID:54487"
/db_xref="HGNC:HGNC:2847"
/db_xref="MIM:609030"
CDS 136..1386
/gene="DGCR8"
/gene_synonym="C22orf12; DGCRK6; Gy1; pasha"
/codon_start=1
/product="microprocessor complex subunit DGCR8 isoform X2"
/protein_id="XP_054181711.1"
/db_xref="GeneID:54487"
/db_xref="HGNC:HGNC:2847"
/db_xref="MIM:609030"
/translation="
MKDNEEREQSSDLTPSGDVSPVKPLSRSAELEFPLDEPDSMGADPGPPDEKDPLGAEAAPGALGQVKAKVEVCKDESVDLEEFRSYLEKRFDFEQVTVKKFRTWAERRQFNREMKRKQAESERPILPANQKLITLSVQDAPTKKEFVINPNGKSEVCILHEYMQRVLKVRPVYNFFECENPSEPFGASVTIDGVTYGSGTASSKKLAKNKAARATLEILIPDFVKQTSEEKPKDSEELEYFNHISIEDSRVYELTSKAGLLSPYQILHECLKRNHGMGDTSIKFEVVPGKNQKSEYVMACGKHTVRGWCKNKRVGKQLASQKILQLLHPHVKNWGSLLRMYGRESSKMVKQETSDKSVIELQQYAKKNKPNLHILSKLQEEMKRLAEEREETRKKPKMSIVASAQPGGEPLCTVDV"
misc_feature 577..798
/gene="DGCR8"
/gene_synonym="C22orf12; DGCRK6; Gy1; pasha"
/note="first double-stranded RNA binding motif of DiGeorge
syndrome critical region 8 (DGCR8) and similar proteins;
Region: DSRM_DGCR8_rpt1; cd19867"
/db_xref="CDD:380696"
misc_feature order(592..597,601..606,613..618,625..627,637..639,
643..645,673..678,682..684,688..690,739..750,760..762)
/gene="DGCR8"
/gene_synonym="C22orf12; DGCRK6; Gy1; pasha"
/note="putative RNA binding site [nucleotide binding];
other site"
/db_xref="CDD:380696"
misc_feature 916..1122
/gene="DGCR8"
/gene_synonym="C22orf12; DGCRK6; Gy1; pasha"
/note="second double-stranded RNA binding motif of
DiGeorge syndrome critical region 8 (DGCR8) and similar
proteins; Region: DSRM_DGCR8_rpt2; cd19868"
/db_xref="CDD:380697"
misc_feature order(916..921,925..930,937..942,949..951,964..966,
970..972,1000..1005,1009..1011,1015..1017,1063..1074,
1084..1086)
/gene="DGCR8"
/gene_synonym="C22orf12; DGCRK6; Gy1; pasha"
/note="putative RNA binding site [nucleotide binding];
other site"
/db_xref="CDD:380697"
ORIGIN
gtctcgggtggtcacctggtccaggccatacttcttgggaacgggaagcatacgggtaggggaggcatcagtcgtgactttaggcttaaacacgaccctcctctgagtagcatcccttgtctgcattataagaaaatgaaggacaacgaggaacgggagcaaagcagtgacctcacccctagtggggatgtgtcccccgtcaagcccctgagccgatctgcagagctggagtttcccctggatgagcctgactctatgggtgctgacccggggcccccggacgagaaagacccactaggggctgaggcagcccctggggccctggggcaggtgaaggccaaagtcgaggtgtgcaaagatgaatccgttgatctcgaggaatttcgaagctacctggagaagcgttttgactttgagcaagttactgtgaaaaaattcaggacttgggctgagcggcggcaattcaatcgggaaatgaagcggaagcaggcggagtccgagaggcccatcttgccagccaatcagaagctcattactttatcagtgcaagatgcacccacaaagaaagagtttgttattaaccccaacgggaaatccgaggtctgcatcctgcacgagtacatgcagcgtgtcctcaaggtccgccctgtctataatttctttgaatgtgagaacccaagtgagccttttggtgcctcggtgaccattgatggtgtgacttacggatctggaactgcaagcagcaaaaaacttgcgaagaataaagctgcccgagctacactggaaatcctcatccctgactttgttaaacagacctctgaagagaagcccaaagacagtgaagaactcgagtattttaaccacatcagcatcgaggactcgcgggtctacgagctgaccagcaaggctgggctgttgtctccatatcagatcctccacgagtgccttaaaagaaaccatgggatgggtgacacgtctatcaagtttgaagtggttcctgggaaaaaccagaagagtgaatacgtcatggcgtgtggcaagcacacagtgcgcgggtggtgtaagaacaagagagttggaaagcagttagcctcacagaagatccttcagctgctgcacccacatgtcaagaactgggggtctttactgcgcatgtatggccgtgagagcagcaagatggtcaagcaggagacatcggacaagagtgtgattgagctgcagcagtatgccaagaagaacaagcccaacctgcacatcctcagcaagctccaagaggagatgaagaggctagctgaggaaagggaggagactcgaaagaagcccaagatgtccattgtggcgtccgcccagcctggcggtgagcccctgtgcaccgtggacgtgtgagggaggtggcacgggccagggcgcgggggccgccagccgcacttctgaggagaccagcagtcatgcatcgtgcaccacagtgtcaggcctccaacccatgctccttccctgtggccaacctgtgggcccggccttagggtggaggctttagtgtacagggacagccatggccacacagcacacatgtggagcagcggctctccctggaaagctccaggcctgaatggatggactcagcgactgcaccagtggcagctggtgactgtggacagtggtggaccctgcttctgtgcacctgctgcaggctctttttatgaaggctttcatgaattttagtatgtaatacgcactgacgacacatgatgcttggatgacagatgagaggggatggctgagtcctgtggctggcccgtgatgccaggtggcccatgtgcccagggcgcctgcagggctgctacagggacctggtcaggaggtgcacatggtgccctgccctcacccaccctctgtgtttccccttctttgaaaaggtagaagagaaaggaatattttaaacctttttggcttaaacagaattttagcatcagaactagctttctgggattggaggcaaaccatcaaggtggtccctctccagtctggacacgatgccagcaaggatgacgtcctgccacctcctggagttaccctggcctcctagggtccctttttctgatgaagtcttaatgccctaaaagcgcctctttggacactgaggccctctctgcctttcctggcctccggcaacagttttttacaaagattttttgcagtcgagtccatatgtccacccattgatttttaaagcttttgtgatattttagcattttgaaagactttcacagtgagagtagaaggtagatttggaatcatgcattttagcaagtggacttgttgaaacaggaagcaagggccttcagtgtagcccattcttgatccagagctgttgcctgtgacagcggtttctctggatgtcaaaggcagctgcctggtgcccagcttgcttctcgactggtggcccctatgggtgggtgtgcgatggaaatgtgttcctgccggagtctgaggcaccagggtgtgctcaaaggctggccctggtggtggactggcacctgtgcagagtgccgtgtgcttgtggtgcgccatctgaagcaagagtccagcgttctgccgtgtctgtcccccaccatgccccctacaggcggtactgatggcgctttttttttttttctgtcaggaaaacaatgttggcctgtgggccgcccacaacatatccttccctcactacctgtgtgaccaaggttggcttctgttgacctttaaaaaagaaaccctcaactcaaattgctataattagacacttgcttctgtcttgcctcctgtctgcagctgtgaatagtcatttgactgtgactgttgcccttagccagccagatgcgcctgtgaaccaaagcttcgtgcacatgtgttcccctaaaggttggggagcctcgctgtgtcttgctgttcccaggcaccaccacagcaggtgctgccatactcttgtggtctctgtgcgcccccccccccccccccccccccgtctgccaagcatgggtatgaatcgtgcacacagccatgcttcaaggccggggcaggggagcctgtgctgatgccatccagggcactgggctgtgcctggaaggcgagccttgattgtctgaacacataaagcaaactgtccagaa
//
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.
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