2024-11-21 18:35:56, GGRNA.v2 : RefSeq release 226 (Sep, 2024)
LOCUS XM_048899828 4951 bp mRNA linear INV 18-MAY-2023 DEFINITION PREDICTED: Ostrea edulis uncharacterized LOC125666634 (LOC125666634), mRNA. ACCESSION XM_048899828 VERSION XM_048899828.2 DBLINK BioProject: PRJNA970818 KEYWORDS RefSeq. SOURCE Ostrea edulis ORGANISM Ostrea edulis Eukaryota; Metazoa; Spiralia; Lophotrochozoa; Mollusca; Bivalvia; Autobranchia; Pteriomorphia; Ostreida; Ostreoidea; Ostreidae; Ostrea. COMMENT MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_079173) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On May 18, 2023 this sequence version replaced XM_048899828.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI RefSeq Annotation Status :: Full annotation Annotation Name :: GCF_947568905.1-RS_2023_05 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 10.1 Annotation Method :: Gnomon; cmsearch; tRNAscan-SE Features Annotated :: Gene; mRNA; CDS; ncRNA Annotation Date :: 05/10/2023 ##Genome-Annotation-Data-END## FEATURES Location/Qualifiers source 1..4951 /organism="Ostrea edulis" /mol_type="mRNA" /db_xref="taxon:37623" /chromosome="10" gene 1..4951 /gene="LOC125666634" /note="uncharacterized LOC125666634; Derived by automated computational analysis using gene prediction method: Gnomon. Supporting evidence includes similarity to: 19 long SRA reads, 1 Protein" /db_xref="GeneID:125666634" CDS 235..798 /gene="LOC125666634" /codon_start=1 /product="uncharacterized protein LOC125666634" /protein_id="XP_048755785.1" /db_xref="GeneID:125666634" /translation="
MAGTSQTSKLTEALMVKGMRKHYNEKEEGLSQVKVQVDIIWSTIQKRFQHLHAGDKENAGEPVLGPDDKEQFVYLNQQLSQLTDNLRSLVSDENQEQRHLDYIKAYYQQCSKEDNSNFVAAIQDLESMHSANCSETEEIENHINRAIRHLSKITKTLNGEGQGKMNQCKVTCSKQVTKMSGLRERNQ"
polyA_site 4951 /gene="LOC125666634" /experiment="COORDINATES: polyA evidence [ECO:0006239]" ORIGIN
attctataatgtactttcgatttcgttggcgcctggtacaaaagtaaacaaatgccaacatggtaatatgatcattgtgcaattgtgttatgaggctcgctgacatttgatgataatctatgaaattttgttctgatatttaagtggcagacacacttctcaagctctcaaaaacgagatctgccacgcgatttatttagaaggtcaggtttccatagctgaagaagacacgaaatggcagggacttcacagacatcaaaattaacagaggcgctgatggtcaaaggtatgaggaaacactacaatgagaaagaagaaggattatctcaggtcaaagttcaagtagacatcatttggtcaacaattcagaaaagattccagcacttgcatgcaggtgacaaggaaaatgctggggaaccagtgctgggccctgatgacaaagagcagtttgtgtaccttaaccagcaactctcacagctgacagacaacctcaggagcctggtgtctgatgaaaaccaggaacaaagacacttggattacatcaaggcatactatcagcagtgttcaaaggaagacaactctaattttgttgctgcgatccaagacttggaatcgatgcattcagcaaattgttcagaaacagaagaaatagaaaatcacattaacagagccattcgacatttgtccaaaattacaaagacgctgaatggggaaggtcaaggaaagatgaaccagtgcaaggtcacctgtagtaagcaggtcaccaaaatgtcaggtctgcgggaaagaaatcaataaagaaataatccgagaaagtgaccacactgccttcattgttcgtgttcaagtttcatatatggttcatccaatatattgtatttttaaatcctttcccccttttacatttactctttgttgtccagaatgtattttttctcaacgactgcaattcatgattgggattagtttttagctcttctgagccgaaggctcaaagagctaatcatatggccatatgtctggcgtgtggtgtgcagtgtgcgtcaacttttttgaaaaatggttatatctcaagaacccctaggccaatttttgtcaaatttgtcacagggtatccttggcccaagggctttcatttgtactaaaactagagttgtgaccctttaacaaggggagataattaggaaaatgcaaacaaaagtagtggttcctaaaaaaaatcttccttctcaagaaccactgggcaaattatcaccaaacttatgcataaggatgaggataggttgtagataaaaaattgttcaagacatcatcctggggcatagggtgtggtctcaaagtcacttcaaagttgacctagaattttgttttgttaaaactttgatattttgcttagtataaggattaggatcatcaaattttgtcagttgatgcatcttaggacttaatatcatgttgtctcaaaagtaggtcatggtgacctactttttgaatttcgcaggtaattattatgaaatggattttgatgaatatcttggacacttttgagcctatgatcatcaaaagttgtcaattgatggatcatgggaccttgaactgcatcatgtaaaaagtaggtcaccatgacctactttctgaattttatggctaatcatttatatatacattttaggttgttatttcagataccaagaggtttagaatcatcaaaccttgtaagttgatgcgtctagaggccttgaaacatatttataaaaaaaaagtaggtcacagtgacctacttttgaatttttgcagacattcaaatttcacattttcaattttagatgcatattttggacactatgaaagctaggatcatcaaactttgttagttgatgcatcttgagtcttcatagtttgttcaccaaaaagtaggtcactgtgacctacttttggaatttgacgtctatattttaatatttcagatactatttgacttacaattatcaaactttgtcagttgttgcattttgagtcttcagagtgtgttgactaaaaagtaggtcaccgtgacctatttttggattttgacggctatatttgaatatttcagatactattagacttacaatcatcaaactttgtcagttgatgggtcttgagtcttcagagtgtgtagaccaaaaggtaggtcaatgacctacttttggaattcgacgtttatatctgaatatttcagatattatttgacttcagttatcaaactttgtcagttgatacatcttgagtctttggagtgtgtcgaccaaaaggtaggtcactgtggcattcttttggaatttgacagctatatttgaatactatttgacttgtcagttgatgcatcttgagtcttcagtgtgtcgaccaaaagtaggtcacggtaaatgttcaggtactatttgatttaacatcatcaaactttgttaattgatgaatcttggttattgtgaatttttgtcttttctacaatgtagcagaagagcgtttctaggtccatgggcctcttgttaaaaattcctatagaagcttacttaaatatgtcatcagaaagcattcgtaatttagtcaatatgaattgctgttgttgcaaattacatgtatatccattatgctcctgcctttgtattgcaatttttgtgtagcttatatttaatatgttgccgtgctaatgattggctggtatcgtgacattgctagtaatgtactgtaatatatacttgattttcgcctgtgatttttatacaaatttctgtaacaatttatataatggtatagcgaagccgtttgtctgcccattaactattattaagttttctgtgtctccgtatagctgggacatgttagtgcccaaaattatcaaaccatatcagtttttgcattttagggagggaatgtgttgggcctaaaactaggtcacagtgaccttggttaagaatgttatgataagattttataaaacctaaaactaggtcacagtgaccttggttaagaatgttatgataagattatataaaacctaaaactaggttacagtgaccttggttaagaatgttataagattttataaaaccttgcccctacttggaaacctaacactatatcatttgaatgcatattacatttttgtaggttaggtaaaacatgacttaaaactaggtctcaatgacacaaattgttcgtagtttgaaaagaaataataaaatatctgcagggcttatgaccaaaagttggtgtgtatgttttatgtaattaattccacacacacacaaaaaacgcaactccacatacctattattttgataaacaaatacattgcatgtggataccaattcaagcattacatttgccaatacacttccttatatgacagtactaatgaaatcgatgttcgatttcgtgtaacatgaatttggtcacgtgataattttttagttctcttttttggtgaagttcatagttaggaaaggtaattaataatttgatatttaaactacaataggatatttctaaatgctggtttgtgaaatgctttgatttgttctatgagacctgattcatagaattctggagatttcaatggctgtaacatcaaggggattgtaagtgtcaagcctggggatttttctttttaaattttcaaacatcacatttgagaattttttcacccatgttgaaaaatcacgagctttatgtgaaatgccacaatttttcacctatgtatagcactagatttcctgactcctgctgctagtgctggtcacccggcgaaataacagtcactgcttacgttacggggtagatatctgtcactgcctaagtaaccgggtagatagatatcagtcactgcttaagttaccgggtagatgtcagtcactgcctaagttaccgggtagatgtaaacaagttatcacgatgctggtatcgaaactctaaacggggacctcataccaggctagtgcgactgatgtctgaattgattgttgtactactacaaggcagtgtcttgtcactaatgaaaccatgaaatgacatggtctacttgcaagtgatatttccactgaatagagaattatgatttggtatgtccagggctccgttttgcccttctcttaatttaggatcttttataggatttataagattgatatatatatatatatatatatatatatatatatatatatatatatattcgttatcttcacttgtccatcctttttcttagttaaattgagaaaaccaataggatcgggcaacaggcatagcctatataggccctctctcaacaatgttgtgtttttgatattactattatgtttttgatttgttgtctttttgatatgttattttataaattttgatatggttttttttttcatgtgtaatgtgtttgatataatgtcattttgatatgtggtctcttttgactaatataacacatattgtagtgtaggaatttttcctctcgagaaattataacagactttgccccaagaccataaactgagaataaactgagaatagacttaagtcaaacttctgattacttgtatctaaagatttaagtagcacagatgttattaaaaaaacaaatgtgggttgatagaaatttcaaatgcaaaaatataccaaaagttttatttgtttatgaaattattgcaaaagttacctggatttgaaatttagacttgagtccatccttagtaaatggtcttgaggcctggtgtcaaaaattatggctatagttatcattgtgttctaattgtttaagaacaaaccctgattgggtgtaccatgtgccgttgcgatgctctttttatatacattgtgatataacgatttaaatttgccaattaagactatttttagttatactttgtctagtcgcttttttgaaatttaactaaataaattatcagtaggtgat
//
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]