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2024-04-26 14:13:00, GGRNA : RefSeq release 60 (20130726)
LOCUS NM_020133 7889 bp mRNA linear PRI 17-APR-2013
DEFINITION Homo sapiens 1-acylglycerol-3-phosphate O-acyltransferase 4
(AGPAT4), mRNA.
ACCESSION NM_020133
VERSION NM_020133.2 GI:69128030
KEYWORDS RefSeq.
SOURCE Homo sapiens (human)
ORGANISM Homo sapiens
Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi;
Mammalia; Eutheria; Euarchontoglires; Primates; Haplorrhini;
Catarrhini; Hominidae; Homo.
REFERENCE 1 (bases 1 to 7889)
AUTHORS Wu,C., Ma,M.H., Brown,K.R., Geisler,M., Li,L., Tzeng,E., Jia,C.Y.,
Jurisica,I. and Li,S.S.
TITLE Systematic identification of SH3 domain-mediated human
protein-protein interactions by peptide array target screening
JOURNAL Proteomics 7 (11), 1775-1785 (2007)
PUBMED 17474147
REFERENCE 2 (bases 1 to 7889)
AUTHORS Lamesch,P., Li,N., Milstein,S., Fan,C., Hao,T., Szabo,G., Hu,Z.,
Venkatesan,K., Bethel,G., Martin,P., Rogers,J., Lawlor,S.,
McLaren,S., Dricot,A., Borick,H., Cusick,M.E., Vandenhaute,J.,
Dunham,I., Hill,D.E. and Vidal,M.
TITLE hORFeome v3.1: a resource of human open reading frames representing
over 10,000 human genes
JOURNAL Genomics 89 (3), 307-315 (2007)
PUBMED 17207965
REFERENCE 3 (bases 1 to 7889)
AUTHORS Lu,B., Jiang,Y.J., Zhou,Y., Xu,F.Y., Hatch,G.M. and Choy,P.C.
TITLE Cloning and characterization of murine 1-acyl-sn-glycerol
3-phosphate acyltransferases and their regulation by PPARalpha in
murine heart
JOURNAL Biochem. J. 385 (PT 2), 469-477 (2005)
PUBMED 15367102
REFERENCE 4 (bases 1 to 7889)
AUTHORS Mungall,A.J., Palmer,S.A., Sims,S.K., Edwards,C.A., Ashurst,J.L.,
Wilming,L., Jones,M.C., Horton,R., Hunt,S.E., Scott,C.E.,
Gilbert,J.G., Clamp,M.E., Bethel,G., Milne,S., Ainscough,R.,
Almeida,J.P., Ambrose,K.D., Andrews,T.D., Ashwell,R.I.,
Babbage,A.K., Bagguley,C.L., Bailey,J., Banerjee,R., Barker,D.J.,
Barlow,K.F., Bates,K., Beare,D.M., Beasley,H., Beasley,O.,
Bird,C.P., Blakey,S., Bray-Allen,S., Brook,J., Brown,A.J.,
Brown,J.Y., Burford,D.C., Burrill,W., Burton,J., Carder,C.,
Carter,N.P., Chapman,J.C., Clark,S.Y., Clark,G., Clee,C.M.,
Clegg,S., Cobley,V., Collier,R.E., Collins,J.E., Colman,L.K.,
Corby,N.R., Coville,G.J., Culley,K.M., Dhami,P., Davies,J.,
Dunn,M., Earthrowl,M.E., Ellington,A.E., Evans,K.A., Faulkner,L.,
Francis,M.D., Frankish,A., Frankland,J., French,L., Garner,P.,
Garnett,J., Ghori,M.J., Gilby,L.M., Gillson,C.J., Glithero,R.J.,
Grafham,D.V., Grant,M., Gribble,S., Griffiths,C., Griffiths,M.,
Hall,R., Halls,K.S., Hammond,S., Harley,J.L., Hart,E.A.,
Heath,P.D., Heathcott,R., Holmes,S.J., Howden,P.J., Howe,K.L.,
Howell,G.R., Huckle,E., Humphray,S.J., Humphries,M.D., Hunt,A.R.,
Johnson,C.M., Joy,A.A., Kay,M., Keenan,S.J., Kimberley,A.M.,
King,A., Laird,G.K., Langford,C., Lawlor,S., Leongamornlert,D.A.,
Leversha,M., Lloyd,C.R., Lloyd,D.M., Loveland,J.E., Lovell,J.,
Martin,S., Mashreghi-Mohammadi,M., Maslen,G.L., Matthews,L.,
McCann,O.T., McLaren,S.J., McLay,K., McMurray,A., Moore,M.J.,
Mullikin,J.C., Niblett,D., Nickerson,T., Novik,K.L., Oliver,K.,
Overton-Larty,E.K., Parker,A., Patel,R., Pearce,A.V., Peck,A.I.,
Phillimore,B., Phillips,S., Plumb,R.W., Porter,K.M., Ramsey,Y.,
Ranby,S.A., Rice,C.M., Ross,M.T., Searle,S.M., Sehra,H.K.,
Sheridan,E., Skuce,C.D., Smith,S., Smith,M., Spraggon,L.,
Squares,S.L., Steward,C.A., Sycamore,N., Tamlyn-Hall,G., Tester,J.,
Theaker,A.J., Thomas,D.W., Thorpe,A., Tracey,A., Tromans,A.,
Tubby,B., Wall,M., Wallis,J.M., West,A.P., White,S.S.,
Whitehead,S.L., Whittaker,H., Wild,A., Willey,D.J., Wilmer,T.E.,
Wood,J.M., Wray,P.W., Wyatt,J.C., Young,L., Younger,R.M.,
Bentley,D.R., Coulson,A., Durbin,R., Hubbard,T., Sulston,J.E.,
Dunham,I., Rogers,J. and Beck,S.
TITLE The DNA sequence and analysis of human chromosome 6
JOURNAL Nature 425 (6960), 805-811 (2003)
PUBMED 14574404
REFERENCE 5 (bases 1 to 7889)
AUTHORS Clark,H.F., Gurney,A.L., Abaya,E., Baker,K., Baldwin,D., Brush,J.,
Chen,J., Chow,B., Chui,C., Crowley,C., Currell,B., Deuel,B.,
Dowd,P., Eaton,D., Foster,J., Grimaldi,C., Gu,Q., Hass,P.E.,
Heldens,S., Huang,A., Kim,H.S., Klimowski,L., Jin,Y., Johnson,S.,
Lee,J., Lewis,L., Liao,D., Mark,M., Robbie,E., Sanchez,C.,
Schoenfeld,J., Seshagiri,S., Simmons,L., Singh,J., Smith,V.,
Stinson,J., Vagts,A., Vandlen,R., Watanabe,C., Wieand,D., Woods,K.,
Xie,M.H., Yansura,D., Yi,S., Yu,G., Yuan,J., Zhang,M., Zhang,Z.,
Goddard,A., Wood,W.I., Godowski,P. and Gray,A.
TITLE The secreted protein discovery initiative (SPDI), a large-scale
effort to identify novel human secreted and transmembrane proteins:
a bioinformatics assessment
JOURNAL Genome Res. 13 (10), 2265-2270 (2003)
PUBMED 12975309
REMARK Erratum:[Genome Res. 2003 Dec;13(12):2759]
REFERENCE 6 (bases 1 to 7889)
AUTHORS Leung,D.W.
TITLE The structure and functions of human lysophosphatidic acid
acyltransferases
JOURNAL Front. Biosci. 6, D944-D953 (2001)
PUBMED 11487472
REMARK Review article
Publication Status: Online-Only
REFERENCE 7 (bases 1 to 7889)
AUTHORS Dominguez,O., Ashhab,Y., Sabater,L., Belloso,E., Caro,P. and
Pujol-Borrell,R.
TITLE Cloning of ARE-containing genes by AU-motif-directed display
JOURNAL Genomics 54 (2), 278-286 (1998)
PUBMED 9828130
COMMENT REVIEWED REFSEQ: This record has been curated by NCBI staff. The
reference sequence was derived from BQ072907.1, AF156776.1,
AL109942.13 and AL122123.1.
On Jul 6, 2005 this sequence version replaced gi:9910391.
Summary: This gene encodes a member of the
1-acylglycerol-3-phosphate O-acyltransferase family. This integral
membrane protein converts lysophosphatidic acid to phosphatidic
acid, the second step in de novo phospholipid biosynthesis.
[provided by RefSeq, Jul 2008].
##Evidence-Data-START##
Transcript exon combination :: AK074208.1, AJ420473.1 [ECO:0000332]
RNAseq introns :: single sample supports all introns
ERS025084 [ECO:0000348]
##Evidence-Data-END##
COMPLETENESS: complete on the 3' end.
PRIMARY REFSEQ_SPAN PRIMARY_IDENTIFIER PRIMARY_SPAN COMP
1-70 BQ072907.1 1-70
71-1829 AF156776.1 1-1759
1830-7878 AL109942.13 20526-26574 c
7879-7889 AL122123.1 5272-5282
FEATURES Location/Qualifiers
source 1..7889
/organism="Homo sapiens"
/mol_type="mRNA"
/db_xref="taxon:9606"
/chromosome="6"
/map="6q26"
gene 1..7889
/gene="AGPAT4"
/gene_synonym="1-AGPAT4; dJ473J16.2; LPAAT-delta;
RP3-473J16.2"
/note="1-acylglycerol-3-phosphate O-acyltransferase 4"
/db_xref="GeneID:56895"
/db_xref="HGNC:20885"
/db_xref="HPRD:12437"
/db_xref="MIM:614795"
exon 1..138
/gene="AGPAT4"
/gene_synonym="1-AGPAT4; dJ473J16.2; LPAAT-delta;
RP3-473J16.2"
/inference="alignment:Splign:1.39.8"
exon 139..405
/gene="AGPAT4"
/gene_synonym="1-AGPAT4; dJ473J16.2; LPAAT-delta;
RP3-473J16.2"
/inference="alignment:Splign:1.39.8"
misc_feature 210..212
/gene="AGPAT4"
/gene_synonym="1-AGPAT4; dJ473J16.2; LPAAT-delta;
RP3-473J16.2"
/note="upstream in-frame stop codon"
CDS 228..1364
/gene="AGPAT4"
/gene_synonym="1-AGPAT4; dJ473J16.2; LPAAT-delta;
RP3-473J16.2"
/EC_number="2.3.1.51"
/note="1-AGP acyltransferase 4; lysophosphatidic acid
acyltransferase-delta (LPAAT-delta); 1-AGPAT 4;
lysophosphatidic acid acyltransferase delta;
1-acylglycerol-3-phosphate O-acyltransferase 4
(lysophosphatidic acid acyltransferase, delta)"
/codon_start=1
/product="1-acyl-sn-glycerol-3-phosphate acyltransferase
delta"
/protein_id="NP_064518.1"
/db_xref="GI:9910392"
/db_xref="CCDS:CCDS5280.1"
/db_xref="GeneID:56895"
/db_xref="HGNC:20885"
/db_xref="HPRD:12437"
/db_xref="MIM:614795"
/translation="
MDLAGLLKSQFLCHLVFCYVFIASGLIINTIQLFTLLLWPINKQLFRKINCRLSYCISSQLVMLLEWWSGTECTIFTDPRAYLKYGKENAIVVLNHKFEIDFLCGWSLSERFGLLGGSKVLAKKELAYVPIIGWMWYFTEMVFCSRKWEQDRKTVATSLQHLRDYPEKYFFLIHCEGTRFTEKKHEISMQVARAKGLPRLKHHLLPRTKGFAITVRSLRNVVSAVYDCTLNFRNNENPTLLGVLNGKKYHADLYVRRIPLEDIPEDDDECSAWLHKLYQEKDAFQEEYYRTGTFPETPMVPPRRPWTLVNWLFWASLVLYPFFQFLVSMIRSGSSLTLASFILVFFVASVGVRWMIGVTEIDKGSAYGNSDSKQKLND
"
misc_feature 258..320
/gene="AGPAT4"
/gene_synonym="1-AGPAT4; dJ473J16.2; LPAAT-delta;
RP3-473J16.2"
/inference="non-experimental evidence, no additional
details recorded"
/note="propagated from UniProtKB/Swiss-Prot (Q9NRZ5.1);
transmembrane region"
misc_feature 411..995
/gene="AGPAT4"
/gene_synonym="1-AGPAT4; dJ473J16.2; LPAAT-delta;
RP3-473J16.2"
/note="Lysophospholipid Acyltransferases (LPLATs) of
Glycerophospholipid Biosynthesis: LCLAT1-like; Region:
LPLAT_LCLAT1-like; cd07990"
/db_xref="CDD:153252"
misc_feature order(513..515,522..524,528..530,591..602,756..764)
/gene="AGPAT4"
/gene_synonym="1-AGPAT4; dJ473J16.2; LPAAT-delta;
RP3-473J16.2"
/note="putative acyl-acceptor binding pocket; other site"
/db_xref="CDD:153252"
misc_feature 513..530
/gene="AGPAT4"
/gene_synonym="1-AGPAT4; dJ473J16.2; LPAAT-delta;
RP3-473J16.2"
/experiment="experimental evidence, no additional details
recorded"
/note="propagated from UniProtKB/Swiss-Prot (Q9NRZ5.1);
Region: HXXXXD motif"
misc_feature 600..662
/gene="AGPAT4"
/gene_synonym="1-AGPAT4; dJ473J16.2; LPAAT-delta;
RP3-473J16.2"
/inference="non-experimental evidence, no additional
details recorded"
/note="propagated from UniProtKB/Swiss-Prot (Q9NRZ5.1);
transmembrane region"
misc_feature 1146..1208
/gene="AGPAT4"
/gene_synonym="1-AGPAT4; dJ473J16.2; LPAAT-delta;
RP3-473J16.2"
/inference="non-experimental evidence, no additional
details recorded"
/note="propagated from UniProtKB/Swiss-Prot (Q9NRZ5.1);
transmembrane region"
misc_feature 1239..1301
/gene="AGPAT4"
/gene_synonym="1-AGPAT4; dJ473J16.2; LPAAT-delta;
RP3-473J16.2"
/inference="non-experimental evidence, no additional
details recorded"
/note="propagated from UniProtKB/Swiss-Prot (Q9NRZ5.1);
transmembrane region"
variation 251
/gene="AGPAT4"
/gene_synonym="1-AGPAT4; dJ473J16.2; LPAAT-delta;
RP3-473J16.2"
/replace="a"
/replace="g"
/db_xref="dbSNP:35476617"
exon 406..575
/gene="AGPAT4"
/gene_synonym="1-AGPAT4; dJ473J16.2; LPAAT-delta;
RP3-473J16.2"
/inference="alignment:Splign:1.39.8"
exon 576..737
/gene="AGPAT4"
/gene_synonym="1-AGPAT4; dJ473J16.2; LPAAT-delta;
RP3-473J16.2"
/inference="alignment:Splign:1.39.8"
exon 738..891
/gene="AGPAT4"
/gene_synonym="1-AGPAT4; dJ473J16.2; LPAAT-delta;
RP3-473J16.2"
/inference="alignment:Splign:1.39.8"
exon 892..994
/gene="AGPAT4"
/gene_synonym="1-AGPAT4; dJ473J16.2; LPAAT-delta;
RP3-473J16.2"
/inference="alignment:Splign:1.39.8"
exon 995..1070
/gene="AGPAT4"
/gene_synonym="1-AGPAT4; dJ473J16.2; LPAAT-delta;
RP3-473J16.2"
/inference="alignment:Splign:1.39.8"
exon 1071..1269
/gene="AGPAT4"
/gene_synonym="1-AGPAT4; dJ473J16.2; LPAAT-delta;
RP3-473J16.2"
/inference="alignment:Splign:1.39.8"
exon 1270..7879
/gene="AGPAT4"
/gene_synonym="1-AGPAT4; dJ473J16.2; LPAAT-delta;
RP3-473J16.2"
/inference="alignment:Splign:1.39.8"
STS 1580..1748
/gene="AGPAT4"
/gene_synonym="1-AGPAT4; dJ473J16.2; LPAAT-delta;
RP3-473J16.2"
/standard_name="RH46750"
/db_xref="UniSTS:52505"
STS 1642..1769
/gene="AGPAT4"
/gene_synonym="1-AGPAT4; dJ473J16.2; LPAAT-delta;
RP3-473J16.2"
/standard_name="WI-13958"
/db_xref="UniSTS:12914"
polyA_signal 1809..1814
/gene="AGPAT4"
/gene_synonym="1-AGPAT4; dJ473J16.2; LPAAT-delta;
RP3-473J16.2"
polyA_site 1830
/gene="AGPAT4"
/gene_synonym="1-AGPAT4; dJ473J16.2; LPAAT-delta;
RP3-473J16.2"
/experiment="experimental evidence, no additional details
recorded"
variation 2777
/gene="AGPAT4"
/gene_synonym="1-AGPAT4; dJ473J16.2; LPAAT-delta;
RP3-473J16.2"
/replace="c"
/replace="t"
/db_xref="dbSNP:3798225"
variation 2902
/gene="AGPAT4"
/gene_synonym="1-AGPAT4; dJ473J16.2; LPAAT-delta;
RP3-473J16.2"
/replace=""
/replace="tgtt"
/db_xref="dbSNP:3839351"
variation 3033
/gene="AGPAT4"
/gene_synonym="1-AGPAT4; dJ473J16.2; LPAAT-delta;
RP3-473J16.2"
/replace="a"
/replace="g"
/db_xref="dbSNP:3822853"
variation 5088
/gene="AGPAT4"
/gene_synonym="1-AGPAT4; dJ473J16.2; LPAAT-delta;
RP3-473J16.2"
/replace="c"
/replace="t"
/db_xref="dbSNP:3798226"
polyA_signal 7853..7858
/gene="AGPAT4"
/gene_synonym="1-AGPAT4; dJ473J16.2; LPAAT-delta;
RP3-473J16.2"
polyA_site 7879
/gene="AGPAT4"
/gene_synonym="1-AGPAT4; dJ473J16.2; LPAAT-delta;
RP3-473J16.2"
ORIGIN
atgggtggagtctcgctttttctttccagtgttggctgacttacagctcttataaactagtggcaatttctgaacccagccggctccatctcagcttctggtttctaagtccatgtgccaaaggctgccaggaaggagacgccttcctgagtcctggatctttcttccttctggaaatctttgactgtgggtagttatttatttctgaataagagcgtccacgcatcatggacctcgcgggactgctgaagtctcagttcctgtgccacctggtcttctgctacgtctttattgcctcagggctaatcatcaacaccattcagctcttcactctcctcctctggcccattaacaagcagctcttccggaagatcaactgcagactgtcctattgcatctcaagccagctggtgatgctgctggagtggtggtcgggcacggaatgcaccatcttcacggacccgcgcgcctacctcaagtatgggaaggaaaatgccatcgtggttctcaaccacaagtttgaaattgactttctgtgtggctggagcctgtccgaacgctttgggctgttagggggctccaaggtcctggccaagaaagagctggcctatgtcccaattatcggctggatgtggtacttcaccgagatggtcttctgttcgcgcaagtgggagcaggatcgcaagacggttgccaccagtttgcagcacctccgggactaccccgagaagtattttttcctgattcactgtgagggcacacggttcacggagaagaagcatgagatcagcatgcaggtggcccgggccaaggggctgcctcgcctcaagcatcacctgttgccacgaaccaagggcttcgccatcaccgtgaggagcttgagaaatgtagtttcagctgtatatgactgtacactcaatttcagaaataatgaaaatccaacactgctgggagtcctaaacggaaagaaataccatgcagatttgtatgttaggaggatcccactggaagacatccctgaagacgatgacgagtgctcggcctggctgcacaagctctaccaggagaaggatgcctttcaggaggagtactacaggacgggcaccttcccagagacgcccatggtgcccccccggcggccctggaccctcgtgaactggctgttttgggcctcgctggtgctctaccctttcttccagttcctggtcagcatgatcaggagcgggtcttccctgacgctggccagcttcatcctcgtcttctttgtggcctccgtgggagttcgatggatgattggtgtgacggaaattgacaagggctctgcctacggcaactctgacagcaagcagaaactgaatgactgactcagggaggtgtcaccatccgaagggaaccttggggaactggtggcctctgcatatcctccttagtgggacacggtgacaaaggctgggtgagcccctgctgggcacggcggaagtcacgacctctccagccagggagtctggtctcaaggccggatggggaggaagatgttttgtaatctttttttccccatgtgctttagtgggctttggttttctttttgtgcgagtgtgtgtgagaatggctgtgtggtgagtgtgaactttgttctgtgatcatagaaagggtattttaggctgcaggggagggcagggctggggaccgaaggggacaagttcccctttcatcctttggtgctgagttttctgtaacccttggttgccagagataaagtgaaaagtgctttaggtgagatgactaaattatgcctccaagaaaaaaaaattaaagtgcttttctgggtcatctgtggtgtatgttgacatggaccgctgcccctccatcctgcccttgcccgtggctttggtgtttcagatcctactcacgggaggcagctgccgcggaggtgtgggcagctgagaggggtgggcaggccagcacagctcctggcaggagacacaggtccaggagcccgtgagcatttgtgagagcagagatggcaagcacgtgcgtggagaccaacgaagcgtgtccctggcacacagcaagggagagtttcgctcggtctctgcagtgcagtctcctggcgtaagtcttgaagatggacccaactccctgaagaaatggatcttgaaattgaacacaaacatcatgaacgtacagcctgggcattctgcagtgatttgtgagatgagcttgcatcgactgttcctctcagcagtgacagccaaagtcacccctgataaaatgcagtttcactttataaaatgcctcgccccttcccagcatgtagagcttgtctgcagccctaaaggagccaggtcctgctctgatgagggtcaaatcagagccgacatcccatgtacaaaaaacccccaggcttctgccttccttccgggctcctgtctgctcccattttactccacggaatagttctgccctgtagcatctccagcggcctttgcagactgctgtcagccaacaggtgccaaaaatgcaaaagaagaagaaactaaaagcagtgctatttttgcagaacaaatgctagctattaaatcatcttaggccaagacaccaatggcacttggaccgataggtatttggagcatgagttaggaaggatatgtctttctccaggtgcgcagctgaaagttgctgagaaaagctgcctgtgttgctgtggtaacatgagaaggaatgaacagctctatacaaaaactggccacacattataaggcctattctatgcagttatgtttttggctatttgctcatttagtcattgtttatcaaccaaactaggtaagccaaggagttacaagacagctctagagaagctccctctgcttacaggacaataatgcattgtttgtttgttgatacaaatgaattatttgaatccacagaagtgaaaaagggaaaaaatcctggctgacttgtgggaagagcgtactgcagagcctagggcctgagttaactcgctggcggccctgcaggcaggcttgatgggagcgcccagcacatctgcccaccctgcacagggcatgaagcaccgtgtgcagagatctgtgggcaaaagcccaggacgtgaccttaggcaagaggggtccttggagaagtggaggtgtgcatggtgtgtagccttgcgtgtctgtgagcacgccctagtggacctgcgcctggattatcgggccagtctctcggaggggtccgtgatgctgagttacgccattcacctgaactctgcagctcatcggctgtaggatttgggtgagacacttttccttgctgactcatttccccatctgcaaaatgggggtgacgatatctacctcttggggtgtgtcaagggtaaaagagcacactttaagaatcctaaagcactaagccaaggatgaaagactagaaagctgcctctatgttgctactctcaaaaatgctcagaaattttcttgtcgtactaaaaatgtgttatttttctcattttcattcttccattcaacacagaagtaatctaagtaagttctaaaaacatagatccgggggcccacagacattcaattttcttctgaattggctctggtatcacacaacacacaagcaagcaaacagcctgcctgctagggccttgggttccaggctggaggaatgcaggcagaaatctcttaggaaataactaagtgagcgccaagttttgaattgccttagagccgaaagagaatgtggcgtgctggggagagatctggacctctttctcatcagtcatttgacctgtccacgaagaacaattttgttatgcagcctgggaacctggtttccttacaccctgcgcccttaatgacacagacaaccacgggtactcctggacggaagctcatcacgcctcctcaaataccttcacccatgttcaggtcacacggaggtcaccatctcctcagcacacaacaactgctttggttcccagggttattttttctacgagttgaaaacccacggagcctaagccatctttttgtcccctaaggagagccccatagactaagagctacacttcctgtctgtctttcccacctttccatctcattctagcttaaagcttatcacgctactgagagcctgttctgtagttcaaggtggcagagaaaaatacgaaccttgagtgaaatctggagagcagtgcagggtcatccccagacgtgacgggccatatcctaggcgactcctgcagcttatagaagcagggaatttaatggacttcttccaggaaagccagcccacggggactcttaaaaagacaccaaccatttggaagatgcagcttgaggtctgggggactggactgattctgccaccatatagtgaacacgattaatcgggaggaagaagtaaggcactctgtgagttagtctaccaccctattgactttgacagagagaaaaccaacttttttcatatgatcacacagtagtactggaatatctcgactgcaatatcctctaaacaaatgcatgcaaagctttgtaaaagcagctgatgattaaaaaaattttaaaacattagggtttttctaatatatccatatgtgggacagtgatttaaatgtcattaattgtccagccacaacttgtaacagtgatgtgaaagacacaaaaaaggccccactggagtggaggagtggtctggctggtccccaagcaaaacagaatgggcttcgcataggctttagaacttattcataaatattgaccaaagtgtgaagcaaggtatccagtgaagattctctagggtctctacttctgctcaagagatttaatccagctttctctaaagcagtggtccagacttgccacatactaggttaaagataaagtgagaaaaacaaatactttggtttgcacgtctcttgaggggccctaggctgtatggaggaatatttagaggaatatttgtgagctgccatttgtgtttaaaagaacatgaaagcaagacgggccctaacccgcctgtgtctgtagctgaccaggaggccactgcttccttcccccagagcttctaggagagccccccaaaatgcaactctccaaggtcctgtggagtagtcccctcataatgcctccaccacacctgtgtctcacgatgccttaactgacgtagctcctaagtgatgttcacagagaaggaaatacttaggcaagcccatgtgtaacatgctcacagatgtgctggctttgccaatgctttcggactccaccatgctttctgattcttctggtcctagtcacgccttggcacggggcagaagcggccgagctatgctgacaggtgctgctgagagccaacagccattcagccgagaaggcgtttctaggtgagggcatgagagctggcattccaggctgctgagtgcggcatctgcaggtgcaccacattgctccacggtgtgttcagaagagaccagcatcttgaatctcaggctctgggctcattctttgcctctgccaagggaccattcaggggcttcaagccagctgctgaaaatcccccttttctggatttttccccatctatataaggatatggtggctgtgtggacaagaaattggtttcatctcagaagggtgcttccctacaaagatcttcagaaatttaattgaaaacaattttttgaactttttttgtttggccaggatgaatgaagctgaagtcacatcctgaatgtgcatgccagacaaagggtaagcaagcagtctttacaaatgccaatccctctgcactccaaaaccggagcccgtaatgaaggcccaggttccagtcatcacaggatcccccaagccagcacagtgcctgatgcctccctaggcattagcacatcccagcactctaattcacatcctcagcatccctgcctcctgcatccagggcttaggttgagtgtttccagagtgtcaagtacatttaaacacaaaccaaatactccagggttttgacctgtcacaatggcttttgaaaacaacagacgtacaatttgagagaaggactcgatggacttcttaggctgaggactaaggacatgttgctgttcctcttggtccaggacattcaataccattcacagcattcatcaccaactgacatagtatcgatcacgacattcaactgtttgaaattactgctattttggtcaaaaactaagaaatcagaaattgcacctacatagtgtgtctcctcattggagtcccatctctctgagcacagggatgggctcctgagctcacagccctgccctgcccccccagcagggcctcaccctcatggccctcagtgaatagtgactacatgaagggggcacttactagaggcctgagtaatggaatttcaattagcttctgcttcccttttctaaaaaagaaccacctttcttaagaataattaggccaaaataaacttgagtaatttgtacagtcaatattttgaagtttcggagttaccagtgaaatagcaaagctgttctccaggaaaggacatccaggttcccacccaggccttccttcctcagctcctgcagcctcatcctagtttaatatgaaggttgtgaatgggttaaaaagcagttcttaagcacctacttagatcttttcagtatctggaaatagcacccagggctgtgttagtaaagcttttcactgggtaagagtcatacaatttttacatttaatttgtttttttaaaacaaggcagtcttgttttacatattggaatgactagatattttttgacatttctggcacctctggttctgctgaattttaagggaggtgagtggtatgtacacaaagttaagattgctgcataataattcctttgcatttccaaaataaattacacaaatgtcacttttccttttctattccatagtactagttttagccagatctttgccaaacattctaggacattcagaaaagtcatccatggaattttggaatgccattctctctgtatctttgcagatcatgaggaaggaaagttgatgaactagtacgggatggctcagacttgtaaagtgtctaagtcacaacgctgcagagccagcttccgggtagcaatggcatggcctcagctgtgccaaggctacaactggagcttccttactcgcatctgaggcaaacacagcaaggctggcccaggccgcccacagtcaacagatgttcacgggagatggatcagcccctcttttgcttgttctatcaaggaaagagatctaaccatgggcaagggtggaacacacccggttcaggtcagggaatgagttgctctaagtgaacagtgaattcttacttctcagcctgtatcaattgtacccagggttcatgattactgtgacccactaagggatgatctttgaggaaacagacctggagggaggtaatttaaggagggaaagcgagtgggttttacagactgctttgtggcgacattcaggaacagaccattcaatggatgacttttcagtacataaaagcaagcagtaatggccaggagagagcaaagatgccctaagaatgacatcagactgaccaaatgtgccttttcaaataagttatgagaacgaatgaattggaattagagcaaggtattggacagaaccatgctagtctttgagagaacgtgtggattgggtggatgtttggaccgaatgaatggtaactttttaatgtgaaacagagaactgatatatgggctgtcatgtcaccctagggtactgtcgctctgtcatgtgtagcaatctttccaaatttttgttggtgggctgaacaaagataaaactaataaagtatgtgtggataccactagaaaaaaaaaaa
//
ANNOTATIONS from NCBI Entrez Gene (20130726):
GeneID:56895 -> Molecular function: GO:0003841 [1-acylglycerol-3-phosphate O-acyltransferase activity] evidence: NAS
GeneID:56895 -> Biological process: GO:0006644 [phospholipid metabolic process] evidence: TAS
GeneID:56895 -> Biological process: GO:0006654 [phosphatidic acid biosynthetic process] evidence: TAS
GeneID:56895 -> Biological process: GO:0008654 [phospholipid biosynthetic process] evidence: NAS
GeneID:56895 -> Biological process: GO:0016024 [CDP-diacylglycerol biosynthetic process] evidence: IEA
GeneID:56895 -> Biological process: GO:0019432 [triglyceride biosynthetic process] evidence: TAS
GeneID:56895 -> Biological process: GO:0044255 [cellular lipid metabolic process] evidence: TAS
GeneID:56895 -> Biological process: GO:0044281 [small molecule metabolic process] evidence: TAS
GeneID:56895 -> Biological process: GO:0046474 [glycerophospholipid biosynthetic process] evidence: TAS
GeneID:56895 -> Cellular component: GO:0005789 [endoplasmic reticulum membrane] evidence: TAS
GeneID:56895 -> Cellular component: GO:0016021 [integral to membrane] evidence: IEA
ANNOTATIONS from NCBI Entrez Gene (20130726):
NP_064518 -> EC 2.3.1.51
by
@meso_cacase at
DBCLS
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