2024-05-07 16:41:32, GGRNA.v2 : RefSeq release 222 (Jan, 2024)
LOCUS XM_054373235 8122 bp mRNA linear PRI 05-OCT-2023 DEFINITION PREDICTED: Homo sapiens acyl-CoA synthetase short chain family member 3 (ACSS3), transcript variant X2, mRNA. ACCESSION XM_054373235 VERSION XM_054373235.1 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_060936) annotated using gene prediction method: Gnomon, supported by 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_2023_10 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 10.2 Annotation Method :: Best-placed RefSeq; Gnomon; RefSeqFE; cmsearch; tRNAscan-SE Features Annotated :: Gene; mRNA; CDS; ncRNA Annotation Date :: 10/02/2023 ##Genome-Annotation-Data-END## FEATURES Location/Qualifiers source 1..8122 /organism="Homo sapiens" /mol_type="mRNA" /isolate="CHM13" /db_xref="taxon:9606" /chromosome="12" /sex="female" /cell_line="CHM13htert" /tissue_type="hydatidiform mole" /note="haploid cell line" gene 1..8122 /gene="ACSS3" /note="acyl-CoA synthetase short chain family member 3; Derived by automated computational analysis using gene prediction method: Gnomon. Supporting evidence includes similarity to: 11 ESTs, 359 long SRA reads, 2 Proteins, and 98% coverage of the annotated genomic feature by RNAseq alignments, including 38 samples with support for all annotated introns" /db_xref="GeneID:79611" /db_xref="HGNC:HGNC:24723" /db_xref="MIM:614356" CDS 106..1842 /gene="ACSS3" /codon_start=1 /product="acyl-CoA synthetase short-chain family member 3, mitochondrial isoform X1" /protein_id="XP_054229210.1" /db_xref="GeneID:79611" /db_xref="HGNC:HGNC:24723" /db_xref="MIM:614356" /translation="
MLNICYNAVDRHIENGKGDKIAIIYDSPVTNTKATFTYKEVLEQVSKLAGVLVKHGIKKGDTVVIYMPMIPQAMYTMLACARIGAIHSLIFGGFASKELSSRIDHVKPKVVVTASFGIEPGRRVEYVPLVEEALKIGQHKPDKILIYNRPNMEAVPLAPGRDLDWDEEMAKAQSHDCVPVLSEHPLYILYTSGTTGLPKGVIRPTGGYAVMLHWSMSSIYGLQPGEVWWAASDLGWVVGHSYICYGPLLHGNTTVLYEGKPVGTPDAGAYFRVLAEHGVAALFTAPTAIRAIRQQDPGAALGKQYSLTRFKTLFVAGERCDVETLEWSKNVFRVPVLDHWWQTETGSPITASCVGLGNSKTPPPGQAGKSVPGYNVMILDDNMQKLKARCLGNIVVKLPLPPGAFSGLWKNQEAFKHLYFEKFPGYYDTMDAGYMDEEGYLYVMSRVDDVINVAGHRISAGAIEESILSHGTVADCAVVGKEDPLKGHVPLALCVLRKDINATEEQVLEEIVKHVRQNIGPVAAFRNAVFVKQLPKTRSGKIPRSALSAIVNGKPYKITSTIEDPSIFGHVEEMLKQA"
misc_feature 106..1818 /gene="ACSS3" /note="Propionyl-CoA synthetase (PrpE); Region: PrpE; cd05967" /db_xref="CDD:341271" misc_feature order(667..669,676..693,697..702) /gene="ACSS3" /note="acyl-activating enzyme (AAE) consensus motif; other site" /db_xref="CDD:341271" misc_feature order(676..678,1051..1056,1117..1134,1396..1398, 1432..1434,1441..1443,1474..1476,1726..1728) /gene="ACSS3" /note="putative AMP binding site [chemical binding]; other site" /db_xref="CDD:341271" misc_feature order(676..678,799..804,958..960,964..969,976..978, 1051..1056,1117..1134,1396..1398,1432..1434,1441..1443, 1465..1476,1669..1671) /gene="ACSS3" /note="putative active site [active]" /db_xref="CDD:341271" misc_feature order(799..801,964..969,976..978,1051..1053,1465..1473, 1651..1653,1669..1671) /gene="ACSS3" /note="putative CoA binding site [chemical binding]; other site" /db_xref="CDD:341271" ORIGIN
gtgcagcagcgcaactaacctgctgcaacggcgctgtgacacccctgtcccggggcccccactttagcctgttgcttctctggtcgctccaggtttgtggaaggaatgcttaacatttgttacaatgccgttgatcgtcatattgaaaatggtaaaggggataagattgctatcatctatgacagtcctgttacaaacactaaagcaacctttacctataaagaagttctggagcaggtctccaagctggctggtgtcttggtcaagcatggcatcaagaaaggtgacactgtggttatctacatgcctatgatcccacaggcgatgtataccatgttggcatgtgcaaggataggtgccatccacagtctcatatttggaggatttgcttccaaagaactaagtagtcgcattgatcatgtaaagcccaaggtggttgttacagcatcatttggcattgaacctggaaggagggtagagtacgtaccacttgtagaagaagcgctaaaaataggacaacacaaaccagacaaaattctcatttataatcgtccaaatatggaggcggttcctttggctcccggtcgtgaccttgattgggatgaagagatggcaaaagcccagtcacatgactgtgttcctgttctttcagaacacccactgtatattctttacacatctggcacaacggggttacctaagggtgtgattaggcccactgggggatacgctgtcatgctacactggtcaatgtcttccatatacggacttcaacccggagaggtgtggtgggcagcttctgacttaggctgggttgttggacattcctatatctgctatggacctcttcttcatgggaacacaacagttttatatgaggggaagcctgtgggaacaccagatgctggcgcttatttccgtgtgcttgcagagcatggagtagctgccttgtttacagcaccaactgcaattagagcaatccgtcaacaggaccctggggcagctttggggaagcagtactctctgacaaggttcaaaacattatttgtggctggagaacgatgtgatgtagagaccctggaatggtccaaaaatgtcttcagagtacctgtcttagaccattggtggcaaactgagactggatctccaattactgcatcatgtgttggattaggcaattctaaaacacctccaccagggcaagcaggaaaaagcgtcccaggatacaatgttatgattttggatgacaacatgcaaaaactgaaggctcggtgtttaggaaatattgtggtaaagttaccattgccacctggggctttttcaggactctggaagaatcaggaagcattcaagcatttatactttgaaaaatttcctggatattatgataccatggatgctggttacatggatgaagaaggctatttgtatgttatgtctcgagtggatgatgtaataaatgttgcaggtcacagaatttctgcaggcgccattgaagagtcaatcctttcccatggtaccgtggcagactgtgctgttgttggcaaggaagatcccttaaaaggtcatgtccccttagcactctgtgtattgagaaaagatataaatgcaacagaggagcaagttttggaagaaattgtgaaacacgttagacagaacattggccctgtggctgcttttcgaaatgcagtgtttgtcaaacagctacccaaaaccagatctggcaagatcccccgatcagctttatctgccattgtcaatggcaagccatacaagataacttctacaattgaagaccccagcatttttggccacgtagaagaaatgctgaagcaagcataatgagtttgtcttattcctattttgagttgatttaatttcttaattgaaattaaattatttgagttgtttctcagaaataaatatttcagtagaaattacttgcaaaatgaaatgtgaattgtaaaacttggcctaaacaaatctaatgaaaacatgtgaaagacctgtgccttttttttggtttgaccctgttagcattgttattagttatctataacatggcttattgaatgtcatctactgctttaggaaaaacgtatctagtgtattatttttaaaattgtacctcccaagaagaacactttaattgaaagcaacactaatatagagccacttcctgaaaccaagaatctgtagttttgatccaaaatctaaaacttaaagtcagaaaataattaaaatttttcttgtagaaattttagatattttctagtattctttagatgctcacattgttttaaataaaatagatgaaatgggaagtttaggtaatcatctagacagatgaaattattatctaggtaggagggcttttctatacattttctgagggaaagcagaacaccggggttatagctataccttcaggtcttttgttaggcaaggaaaaccacatgtctgacctggttcagcatgtaatccgagcactttgggaggctgaggcaggcggatcacttgaggtcagcagtttgagacgagcctggccaacatggtgaaaccctgtagctactgaaaatacaaaaataagccaggcgtggtggcgggaggctgaggcaaggagaatcacttgaatacaagaggcagaggttgcagtgagccaagttcccccactgtactccagcctgggtgacagagtaagactccatctcaaaacaacaaaaacaacaaaaaaaccacatgcctggcggagaacaaagagatcatttagtccaatctcttcatggagatgagggctcctgggagcccctcttcatgtctcaggttcttagttgactatgtttatccaaatgattccagattcctgtggaaacaaggaatcgatgtacaaatggggtagggtggcaaggaaaactcttaagagagaaacatcaaggttttcacattaggttaaagacaagaaggtttctaggcaggtagtgtaatgtctaggtgattttgaagtgaacttaagccactaggtttgagggacaaaggacagtagaaaatggtgaagactgcagatcacctgctatacctcaaggagcagcggacccagcagaatatggcccaaaaaggaggcaggtctcctgttgcaagagcctctgtttttttaaagagaaaacaaagaatcctggtttttatgtgaaatctctaattttaaaataataactcattaaaaatattgtaatgtccaaaagtatctttccatttaacttctaaaaatctcttaaatgttttttttaaataattgtaaagtgagtttttgttaagcttataggaatgggccagttaactaaggtagacagatgtaggaaattaaatatttgatttacttagggatctatatgacatcagttatcaaagaatacattttaacccaaaagtataccatgctcattgtatctttgatcgttcttcaagtatttctcaatcttttaatctatcaggaacattactatcaagagcagattgttgtaacataatactcaggatacatgaaatgtatgtgagagataaatagataatagaaagtttattgttataaaaatgacctacaacttatataaaaaaattctgaaaatgttgactttttttggactgaaggctgcaaaataaatggcttctcaaagtaaattcctatttacttaaattgccttcttgattgttacacctggaaaaatatattcatctactttttccttttaattatgttagtagactgaattaaaccagctacatagacactctctcatttgaagctgttgggatccttgagttgcctctttcattggtacgttttatccattgtcacaactgtggtcttcattaataactcattttaatgtcttaggagtagaatgtgtttccttattttttttcaaataagagtcagttaatttgaaatggcaaattatttacctgaatgtgtatcattgttcatttgcaaggtttaagctcaggcagatccaataattaggtaaaggttgcatctttggtcctcttgcacattttttctggtaatcaaatctgaagcgacatctcagcaagcagacttgggttattttccactaggatgggaatggaaaacagtgctggagactggggaagtggctatttcctgtgtctcactggggaattgcaagatcaaagaatgttgttacttttatgtgatgaaaaaatagggcaagaaagatatacctgaatcatcagactgcttaaaatttgggaggaaaaaattctattttactactaaccataaatcacttttgctagatagtactttaaagattctgaattaaatgtatctttaaaaacaacaatataatattactaaaaaatgcagacatacttaaacttgctagaataaattctgtgaggtcttcgtttggtattttcataggatttcttactgttaagttattggaaaatgaaaatataaagtgctttcagaagttatagtattttccaattcattgaattactttgcttgtgaaaatatattaaacatatttaaatgagacctatcctacatttaaaaaccagttttgtttatataaaattgtatttgaaaggtcctgaacattaaaaatgtgaaaatttataatgttgatgatcaaaagtaacgtgttgagactctgagcttaatccattaaatggattttagaatctagtagaagttatctttcttataaattaaaacatattttatgcttcttttttgagggaaatacctggatcttttgcatcactatatgttagtgtctattatagatgattaatctttctaacttgatctttaaaagaaagaaattgattttagtgattgagtgttatataatagtagatacaaatctagttatggcattataatgtcgtagttcctatattctatttcatttctatgaatcaagatgcccatgtttagatgagcttagaaagctacttctcattgttcctac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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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