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Previous release (v1)
2024-04-29 22:01:46, GGRNA.v2 : RefSeq release 222 (Jan, 2024)
LOCUS XM_006538628 7566 bp mRNA linear ROD 10-APR-2023
DEFINITION PREDICTED: Mus musculus opioid receptor, delta 1 (Oprd1),
transcript variant X1, mRNA.
ACCESSION XM_006538628
VERSION XM_006538628.5
DBLINK BioProject: PRJNA169
KEYWORDS RefSeq.
SOURCE Mus musculus (house mouse)
ORGANISM Mus musculus
Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi;
Mammalia; Eutheria; Euarchontoglires; Glires; Rodentia; Myomorpha;
Muroidea; Muridae; Murinae; Mus; Mus.
COMMENT MODEL REFSEQ: This record is predicted by automated computational
analysis. This record is derived from a genomic sequence
(NC_000070.7) annotated using gene prediction method: Gnomon,
supported by mRNA and EST evidence.
Also see:
Documentation of NCBI's Annotation Process
On Sep 21, 2020 this sequence version replaced XM_006538628.4.
##Genome-Annotation-Data-START##
Annotation Provider :: NCBI RefSeq
Annotation Status :: Updated annotation
Annotation Name :: GCF_000001635.27-RS_2023_04
Annotation Pipeline :: NCBI eukaryotic genome annotation
pipeline
Annotation Software Version :: 10.1
Annotation Method :: Best-placed RefSeq; Gnomon;
RefSeqFE; cmsearch; tRNAscan-SE
Features Annotated :: Gene; mRNA; CDS; ncRNA
Annotation Date :: 04/05/2023
##Genome-Annotation-Data-END##
FEATURES Location/Qualifiers
source 1..7566
/organism="Mus musculus"
/mol_type="mRNA"
/strain="C57BL/6J"
/db_xref="taxon:10090"
/chromosome="4"
gene 1..7566
/gene="Oprd1"
/gene_synonym="DOR; DOR-1; mDOR; Nbor"
/note="opioid receptor, delta 1; Derived by automated
computational analysis using gene prediction method:
Gnomon. Supporting evidence includes similarity to: 1
mRNA, 2 ESTs, 34 long SRA reads, 25 Proteins, and 95%
coverage of the annotated genomic feature by RNAseq
alignments, including 8 samples with support for all
annotated introns"
/db_xref="GeneID:18386"
/db_xref="MGI:MGI:97438"
CDS 737..1708
/gene="Oprd1"
/gene_synonym="DOR; DOR-1; mDOR; Nbor"
/codon_start=1
/product="delta-type opioid receptor isoform X1"
/protein_id="XP_006538691.1"
/db_xref="GeneID:18386"
/db_xref="MGI:MGI:97438"
/translation="
MYGSRRVERAFMSFMEDFQLTLLQTPRYTKLKTATNIYIFNLALADALATSTLPFQSAKYLMETWPFGELLCKAVLSIDYYNMFTSIFTLTMMSVDRYIAVCHPVKALDFRTPAKAKLINICIWVLASGVGVPIMVMAVTQPRDGAVVCMLQFPSPSWYWDTVTKICVFLFAFVVPILIITVCYGLMLLRLRSVRLLSGSKEKDRSLRRITRMVLVVVGAFVVCWAPIHIFVIVWTLVDINRRDPLVVAALHLCIALGYANSSLNPVLYAFLDENFKRCFRQLCRTPCGRQEPGSLRRPRQATTRERVTACTPSDGPGGGAAA"
misc_feature 815..1576
/gene="Oprd1"
/gene_synonym="DOR; DOR-1; mDOR; Nbor"
/note="seven-transmembrane G protein-coupled receptor
superfamily; Region: 7tm_GPCRs; cl28897"
/db_xref="CDD:452889"
misc_feature 842..907
/gene="Oprd1"
/gene_synonym="DOR; DOR-1; mDOR; Nbor"
/note="TM helix 2 [structural motif]; Region: TM helix 2"
/db_xref="CDD:410628"
misc_feature 953..1021
/gene="Oprd1"
/gene_synonym="DOR; DOR-1; mDOR; Nbor"
/note="TM helix 3 [structural motif]; Region: TM helix 3"
/db_xref="CDD:410628"
misc_feature 1088..1138
/gene="Oprd1"
/gene_synonym="DOR; DOR-1; mDOR; Nbor"
/note="TM helix 4 [structural motif]; Region: TM helix 4"
/db_xref="CDD:410628"
misc_feature 1220..1291
/gene="Oprd1"
/gene_synonym="DOR; DOR-1; mDOR; Nbor"
/note="TM helix 5 [structural motif]; Region: TM helix 5"
/db_xref="CDD:410628"
misc_feature 1367..1435
/gene="Oprd1"
/gene_synonym="DOR; DOR-1; mDOR; Nbor"
/note="TM helix 6 [structural motif]; Region: TM helix 6"
/db_xref="CDD:410628"
misc_feature 1478..1555
/gene="Oprd1"
/gene_synonym="DOR; DOR-1; mDOR; Nbor"
/note="TM helix 7 [structural motif]; Region: TM helix 7"
/db_xref="CDD:410628"
ORIGIN
gcacgggggtggggcgggaggctgggccgggctgggggcacctggagtcagcggagcccaggcagggagcgcgcgcgaggcctctctggcccagctcggagcccggtggtgcagcgcccgcccccgatcgcgggcgcagactggcggccgcctccggaccacgtggtgcgcgcggcggctcggggctccccgggcttgggcgagcactgcgggcggtcgaccgggcggaggaggcgggagcgagcgctgcagcctgcggcgtcggggccgtggcctccgttttccgcgcgccactcgctgggtccctgcgcccagggcgcacggtggagacggacacggcggcgccatggagctggtgccctctgcccgtgcggagctgcagtcctcgcccctcgtcaacctctcggacgcctttcccagcgccttccccagcgcgggcgccaatgcgtcggggtcgccgggagcccgtagtgcctcgtccctcgccctagccatcgccatcaccgcgctctactcggctgtgtgcgcagtggggcttctgggcaacgtgctcgtcatgtttggcatcgtccgtgggatgaagtcttcctccaacccagaccgccttcctagacagaacttgtccggagtatctgctattctcactttgaatattcctccggctttgaagctccagacgtcatatcccaagacactcatcagttagttgtgcctgcagaggattgatcacagtgttatgtatggcagcaggagagtggaaagggccttcatgtccttcatggaggatttccagttgactttactccagactcctaggtacaccaaattgaagaccgccaccaacatctacatcttcaatctggctttggctgatgcgctggccaccagcacgctgcccttccagagcgccaagtacttgatggaaacgtggccgtttggcgagctgctgtgcaaggctgtgctctccattgactactacaacatgttcactagcatcttcaccctcaccatgatgagcgtggaccgctacattgctgtctgccatcctgtcaaagccctggacttccggacaccagccaaggccaagctgatcaatatatgcatctgggtcttggcttcaggtgtcggggtccccatcatggtcatggcagtgacccaaccccgggatggtgcagtggtatgcatgctccagttccccagtcccagctggtactgggacactgtgaccaagatctgcgtgttcctctttgccttcgtggtgccgatcctcatcatcacggtgtgctatggcctcatgctactgcgcctgcgcagcgtgcgtctgctgtccggttccaaggagaaggaccgcagcctgcggcgcatcacgcgcatggtgctggtggtggtgggcgccttcgtggtgtgctgggcgcccatccacatcttcgtcatcgtctggacgctggtggacatcaatcggcgcgacccacttgtggtggccgcactgcacctgtgcattgcgctgggctacgccaacagcagcctcaacccggttctctacgccttcctggacgagaacttcaagcgctgcttccgccagctctgtcgcacgccctgcggccgccaagaacccggcagtctccgtcgtccccgccaggccaccacgcgtgagcgtgtcactgcctgcaccccctccgacggcccgggcggtggcgctgccgcctgacctacccgaccttccccttaaacgcccctcccaagtgaagtgatccagaggccacaccgagctccctgggaggctgtggccaccaccaggacagctagaattgggcctgcacagaggggaggcctcctgtggggacggggcctgagggatcaaaggctccaggttggaacggtgggggtgaggaagcagagctggtgattcctaaactgtatccattagtaaggcctctccaatgggacagagcctccgccttgagataacatcgggttctggcctttttgaacacccagctccagtccaagacccaaggattccagctccaggaaccaggaggggcagtgatggggtcgatgatttggtttggctgagagtcccagcatttgtgttatggggaggatctctcatcttagagaagataaggggacagggcattcaggcaaggcagcttggggtttggtcaggagataagcgcccccttcccttggggggaggataagtgggggatggtcaacgttggagaagagtcaaagttctcaccacctttctaactactcagctaaactcgttgaggctagggccaacgtgacttctctgtagagaggatacaagccgggcctgatggggcaggcctgtgtaatcccagtcatagtggaggctgaggctggaaaattaaggaccaacagcctgggcaatttagtgtctcaaaataaaatgtaaagagggctgggaatgtagctcagtggtagggtgtttgtgtgaggctctgggatcaataagacaaaacaaccaaccaaccaaaaaccttccaaacaacaaaaccaaccctcaaaccaaaaaactatgtgggtgtctctgagtctggtttgaagagaacccgcagccctgtatccctgtggggctgtggacagtgggcagaagcagaggctccctggatcctgaacaagggccccaaaagcaagttctaaagggacccctgaaaccgagtaagcctttgtgtcaagaagtgggagtagaaccagaaaggtggctgagtgattaagggcacgtgactctcttgcagaggacataggttcgattcccagcacccacatagtggctcacagccatctgtaaccccagtcgcagtcaatctaatgctttccaacaactgtgggcaccagacatgaacatggtacacatacatacatatatacatacatacaggtgaaacactcagacacataaaataaatcttcttttaaaagtggtggcacatgcctttaatcccagcacctgggaggcagaggccagcctggtctacatagtgagttccaggatgctcagggctacatggtgagaccctgtctcaataaaagtgtgtgttgtagggagagtaaatcgtgaggcagggggctgaggcctctgcttacaggttaaatcctgaagcctgaacatggatgcttttggggttcctggggtactagtgtatgtggctcagtaccagagcaccgagaccctttgtttgagcccccccgtatgtggtaacatgaataaggattctcaccaaatacttggacccttgataagaacccggaagaagactcttgccccttctcccagcgtctggctgtccatcagatgcctggtgtccatgactcccagggactggaactgccccagtcggactctgctttgaagggattgagggaagaagggcttttatagcagtgatgtcggtgtggccctttgctctctcccatttctcctgagtccctcatttgctctcgctgcagagggtggcccagaaactgatccaggctctcctggatctcagctcccctggatgtcattgtttgccctgtccccgttcctcctccactgcctgagggagcaacctgcccctgactccctattgaagcagtctgctgacatccttgtaaaaacaaatttaattctcttccttttttgggacagatgggaagaaattgacgcctttgtctcaaaccaaaaaagaaagaagcagagagacaatatacttcttttctttttgacagccatttctttggaacaaaagctgcaggctgtcactccagcagggacctaactgccttccgggaggcgggagctagactagtgagtagaaaaggttcctttgatggacaaagcatagtccttttctccctgtggggtccctaaaagcttaggtccttgggaatctctgtagcctgggatacagagtgattgtcaccgctgacatcagacctgcccagccactgtagcctggaacttaacctcttagctgacctttaccacctaaatggtcactatgaccatggagatttctgtagagtgtggtggtggtggtgaggtggtcaccaggccaaagacacccctagacactcactggaaagtcctgctactctgctagggaggtagcagacagcagactcctgaagcaggtgtcacgggacttagtgctgtgtgtccttgcaaggactgtggccttgtgccccacccagggcagagttgtgttagagctgacccagccggtcctttcctgtagggatgagaactgacttggcctcatgagtataggtattgcaggtgtgatttcaaaattgtttaaacgttgattgattttgtgttggatggggcatgctcccgccactgtgcacatgaggaggtcaggggagagttttaatagaggtgcttctcttcctctgcctcctgagttcataggggttgaactccagtcagcaggtttgacagaaaggacctttatccaccaaccccaattaaaagaaattatttatttgtttgctaatttgtgtgtgtgtgtgtgtacagtaacataccatggcaccaccacatccagcaagatttgaccaacttttttctaaccctttctgataatgtcctgggatcagcctcagctgattatatacatacacatataacatacatacccaggtgattgcatgccaatgtgacagatacagtgacagaaaggcccaggggggatgtcccagaagtactttttcattaaaaaacctgtttgcagcaattctataagaggcggcaaagggccggtgggttttaaaggatgcataggaattggctactgggggagcagcagagtgggtagaaaagtgtgagcatgtccaagacccaaaagttatgagcagtagagacccggagcttaactgagtacggtggtgtaccaggcctggcgcccattatctcagttcatcccctcaacagcccctgggccaaagtagcagtatccctgtctgtctgtctgcctgtctgtctgtgtctgtctatcatctatctatctatctatctatctatctatctatctatctatctatctatctatctatctatcatctatttttgagacaatgtctcactatgtaattgtggttgactgggaacttgctatatagactatgctagttttgaactcagagatcagtctgcctctgcctcctgagtgctgggattaaaggtggtgccatacctgcctagaatccccattttattttagtaagtatgtatgcatgcatgtatgtacatgtgtgtgtatatgtatgtatgtatatttattttggggggatagagtttctttgtgtagccccggctgtcctggaacttgttctgtagaccaggctggcctcaaatccacagaaatccccctgcctctgctttctgagtgctgagattaaaggtatgtgccatgcctggctagtgtccccatttcagatgggaaagctgagctcggaggttaagctgcttttccctgagtcacagaccttgtcgggagtgtcagaactccggacagaggaattttagaggaaattcccaggtccacgtttactgtgagttctgggcatcagtgaagcagaacgatgtcccagctgtcgctgggttcctgggatgaggcttttgaagacttaacaaaataggagaaaagggcaattttccgtgaacttttgttcctccttaagttctccaaatctttgcctttcaaaatgtactgtgcattttgcacggtgcattttttttaaagctccaaattgacagcgtaattctagactatcacaggtctctcttcctccccaaaatttccattccgttctctctacgaggtgggagggaagattgtgcctttggtttaaaaatgccctacagtttccaatctcttcttgatgtcctcgagctccagatgaatgctagaatctgatgttggcttcctctctcagattctcagttttcccgtcctgtagagtggactttctttgtagaatggctgcgaggattaattaggtaatgtatgtatagccacagggcttgtcactcagcaagtagctgtgactggaaaatagccagggtgcagggtcagagctggagacccagagggaaatgtgcattggcttctggggtgcactgaggagagaggagtctgagaatctggcctggagacctccgagaccccatggtgagtgtgtgcgaagccactggagcagcaggaggaagaggagaatgtgttgtcatggaaacaggaggaggagggtgctcccagggagagggagtgatggataatgtcaagtttaatagagaggatggaggtgcagagggcaggagggcaatgagagcaaaccagagacctcaactttagtctccgacatgccctgagaaaccccaaaacctggcttcaagtctcagccctggagttaaataaacacatgaactagcaaaggatttgccttcaccaaacttctgttttctcctagatagaagatgagagagtgggtagtctctaatacgatggccaacatctaatcaggttcttgagtggattcatggccacgtagcagctggatctcaggcaagggatggaaccccaagagtcccctaagagcatgcagaaattctggcacatagtgggccgcaatacaaggttcttccctagtagttatgggggctccaaagctggctgttgtcaggaagttgcttggcttggagtcctaagtgcctggcatgttgagagatgggcatttggcatctggaaggttgctggagccgcaagtgccctggctgagctcctacctgctagaacacagtccaaaggccagctgccatcgctctgtatctatacttagatcccaaacttagaactgcagcgccatacgaagccagctgcggagactctaaaccctagacagtgaggttccctgttagaccccgactttggtacttatatacaaaccatgtgtggaacagagtctggagtgtagctcagcagttagaagcaggaaccactcttccagaggacctgagttcagttcccagcacccaaatcaagcaggttacaactgcctgtagttttagggaatctcacccctctgtcctctgcaggtttccccagatgtgtcaggatctcatgatgtagcccaggctagcatcaagctcacaatgtagccaagggtgtcctttaatttctgaccctccttcctccacctcccaagtgctggaatcataggtgtgtaccaccacactagctcacaattattcattcactgcctattcctttatgttacttctggccctaggtgggcaatgctcattggcaggagtgatgcagagtcaggatgtggtccctcattctgagcttgtagatgggctcctgagaccaggacagtgggtttgaggctctggatgcaggcagcttgagagttcaaactggagtcaccatgagctgatgagggacctcagcagctgaagatgctgtcagtcatgttcaagccgtgacgtcacattatgatgctgccatctatgaagttcatactggagagctgtttaatccagctacaaaa
//
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@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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