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2024-04-26 09:27:21, GGRNA : RefSeq release 60 (20130726)
LOCUS NM_178123 10448 bp mRNA linear PRI 15-JUN-2013
DEFINITION Homo sapiens SEC14 and spectrin domains 1 (SESTD1), mRNA.
ACCESSION NM_178123
VERSION NM_178123.4 GI:188528640
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 10448)
AUTHORS Kamboh,M.I., Wang,X., Kao,A.H., Barmada,M.M., Clarke,A.,
Ramsey-Goldman,R., Manzi,S. and Demirci,F.Y.
TITLE Genome-wide association study of antiphospholipid antibodies
JOURNAL Autoimmune Dis 2013, 761046 (2013)
PUBMED 23509613
REFERENCE 2 (bases 1 to 10448)
AUTHORS Miehe,S., Bieberstein,A., Arnould,I., Ihdene,O., Rutten,H. and
Strubing,C.
TITLE The phospholipid-binding protein SESTD1 is a novel regulator of the
transient receptor potential channels TRPC4 and TRPC5
JOURNAL J. Biol. Chem. 285 (16), 12426-12434 (2010)
PUBMED 20164195
REMARK GeneRIF: SESTD1 was found to associate with TRPC4 and TRPC5 via the
channel's calmodulin- and inositol 1,4,5-trisphosphate
receptor-binding domain.
REFERENCE 3 (bases 1 to 10448)
AUTHORS Trynka,G., Zhernakova,A., Romanos,J., Franke,L., Hunt,K.A.,
Turner,G., Bruinenberg,M., Heap,G.A., Platteel,M., Ryan,A.W., de
Kovel,C., Holmes,G.K., Howdle,P.D., Walters,J.R., Sanders,D.S.,
Mulder,C.J., Mearin,M.L., Verbeek,W.H., Trimble,V., Stevens,F.M.,
Kelleher,D., Barisani,D., Bardella,M.T., McManus,R., van Heel,D.A.
and Wijmenga,C.
TITLE Coeliac disease-associated risk variants in TNFAIP3 and REL
implicate altered NF-kappaB signalling
JOURNAL Gut 58 (8), 1078-1083 (2009)
PUBMED 19240061
REMARK GeneRIF: Observational study of gene-disease association. (HuGE
Navigator)
REFERENCE 4 (bases 1 to 10448)
AUTHORS Sato,T. and Mishina,M.
TITLE Representational difference analysis, high-resolution physical
mapping, and transcript identification of the zebrafish genomic
region for a motor behavior
JOURNAL Genomics 82 (2), 218-229 (2003)
PUBMED 12837271
COMMENT VALIDATED REFSEQ: This record has undergone validation or
preliminary review. The reference sequence was derived from
BC047578.1, AC093911.2, AY209190.1, AK096232.1 and AC016755.6.
On May 17, 2008 this sequence version replaced gi:59709431.
##Evidence-Data-START##
Transcript exon combination :: BC047578.1, AK096232.1 [ECO:0000332]
RNAseq introns :: mixed/partial sample support
ERS025081, ERS025082 [ECO:0000350]
##Evidence-Data-END##
COMPLETENESS: complete on the 3' end.
PRIMARY REFSEQ_SPAN PRIMARY_IDENTIFIER PRIMARY_SPAN COMP
1-212 BC047578.1 150-361
213-213 AC093911.2 47079-47079 c
214-1673 AY209190.1 111-1570
1674-2577 AK096232.1 1652-2555
2578-10448 AC016755.6 10352-18222 c
FEATURES Location/Qualifiers
source 1..10448
/organism="Homo sapiens"
/mol_type="mRNA"
/db_xref="taxon:9606"
/chromosome="2"
/map="2q31.2"
gene 1..10448
/gene="SESTD1"
/gene_synonym="SOLO"
/note="SEC14 and spectrin domains 1"
/db_xref="GeneID:91404"
/db_xref="HGNC:18379"
exon 1..125
/gene="SESTD1"
/gene_synonym="SOLO"
/inference="alignment:Splign:1.39.8"
exon 126..205
/gene="SESTD1"
/gene_synonym="SOLO"
/inference="alignment:Splign:1.39.8"
CDS 151..2241
/gene="SESTD1"
/gene_synonym="SOLO"
/note="huntingtin-interacting protein-like protein;
protein Solo"
/codon_start=1
/product="SEC14 domain and spectrin repeat-containing
protein 1"
/protein_id="NP_835224.3"
/db_xref="GI:188528641"
/db_xref="CCDS:CCDS33338.1"
/db_xref="GeneID:91404"
/db_xref="HGNC:18379"
/translation="
MEASVILPILKKKLAFLSGGKDRRSGLILTIPLCLEQTNMDELSVTLDYLLSIPSEKCKARGFTVIVDGRKSQWNVVKTVVVMLQNVVPAEVSLVCVVKPDEFWDKKVTHFCFWKEKDRLGFEVILVSANKLTRYIEPCQLTEDFGGSLTYDHMDWLNKRLVFEKFTKESTSLLDELALINNGSDKGNQQEKERSVDLNFLPSVDPETVLQTGHELLSELQQRRFNGSDGGVSWSPMDDELLAQPQVMKLLDSLREQYTRYQEVCRQRSKRTQLEEIQQKVMQVVNWLEGPGSEQLRAQWGIGDSIRASQALQQKHEEIESQHSEWFAVYVELNQQIAALLNAGDEEDLVELKSLQQQLSDVCYRQASQLEFRQNLLQAALEFHGVAQDLSQQLDGLLGMLCVDVAPADGASIQQTLKLLEEKLKSVDVGLQGLREKGQGLLDQISNQASWAYGKDVTIENKENVDHIQGVMEDMQLRKQRCEDMVDVRRLKMLQMVQLFKCEEDAAQAVEWLSELLDALLKTHIRLGDDAQETKVLLEKHRKFVDVAQSTYDYGRQLLQATVVLCQSLRCTSRSSGDTLPRLNRVWKQFTIASEERVHRLEMAIAFHSNAEKILQDCPEEPEAINDEEQFDEIEAVGKSLLDRLTVPVVYPDGTEQYFGSPSDMASTAENIRDRMKLVNLKRQQLRHPEMVTTES
"
misc_feature 193..609
/gene="SESTD1"
/gene_synonym="SOLO"
/note="Divergent CRAL/TRIO domain; Region: CRAL_TRIO_2;
pfam13716"
/db_xref="CDD:205891"
misc_feature order(229..231,235..237,241..243,298..300,349..351,
355..357,379..381,391..393,403..405,415..417,424..426,
433..435,439..441,460..462,481..483,514..516)
/gene="SESTD1"
/gene_synonym="SOLO"
/note="phospholipid binding pocket [chemical binding];
other site"
/db_xref="CDD:29115"
misc_feature order(418..420,511..513)
/gene="SESTD1"
/gene_synonym="SOLO"
/note="salt bridge; other site"
/db_xref="CDD:29115"
misc_feature <877..1293
/gene="SESTD1"
/gene_synonym="SOLO"
/note="Spectrin repeats, found in several proteins
involved in cytoskeletal structure; family members include
spectrin, alpha-actinin and dystrophin; the spectrin
repeat forms a three helix bundle with the second helix
interrupted by proline in some sequences; Region: SPEC;
cl02488"
/db_xref="CDD:207612"
misc_feature 964..978
/gene="SESTD1"
/gene_synonym="SOLO"
/note="linker region; other site"
/db_xref="CDD:29138"
misc_feature 973..1284
/gene="SESTD1"
/gene_synonym="SOLO"
/experiment="experimental evidence, no additional details
recorded"
/note="propagated from UniProtKB/Swiss-Prot (Q86VW0.2);
Region: Spectrin 1"
misc_feature 1291..1632
/gene="SESTD1"
/gene_synonym="SOLO"
/experiment="experimental evidence, no additional details
recorded"
/note="propagated from UniProtKB/Swiss-Prot (Q86VW0.2);
Region: Spectrin 2"
misc_feature 1438..1965
/gene="SESTD1"
/gene_synonym="SOLO"
/note="Spectrin repeats, found in several proteins
involved in cytoskeletal structure; family members include
spectrin, alpha-actinin and dystrophin; the spectrin
repeat forms a three helix bundle with the second helix
interrupted by proline in some sequences; Region: SPEC;
cd00176"
/db_xref="CDD:29138"
misc_feature 1636..1653
/gene="SESTD1"
/gene_synonym="SOLO"
/note="linker region; other site"
/db_xref="CDD:29138"
misc_feature 1648..1956
/gene="SESTD1"
/gene_synonym="SOLO"
/experiment="experimental evidence, no additional details
recorded"
/note="propagated from UniProtKB/Swiss-Prot (Q86VW0.2);
Region: Spectrin 3"
exon 206..314
/gene="SESTD1"
/gene_synonym="SOLO"
/inference="alignment:Splign:1.39.8"
exon 315..405
/gene="SESTD1"
/gene_synonym="SOLO"
/inference="alignment:Splign:1.39.8"
exon 406..519
/gene="SESTD1"
/gene_synonym="SOLO"
/inference="alignment:Splign:1.39.8"
exon 520..633
/gene="SESTD1"
/gene_synonym="SOLO"
/inference="alignment:Splign:1.39.8"
exon 634..731
/gene="SESTD1"
/gene_synonym="SOLO"
/inference="alignment:Splign:1.39.8"
exon 732..787
/gene="SESTD1"
/gene_synonym="SOLO"
/inference="alignment:Splign:1.39.8"
exon 788..999
/gene="SESTD1"
/gene_synonym="SOLO"
/inference="alignment:Splign:1.39.8"
variation 984
/gene="SESTD1"
/gene_synonym="SOLO"
/replace="a"
/replace="g"
/db_xref="dbSNP:34321236"
exon 1000..1122
/gene="SESTD1"
/gene_synonym="SOLO"
/inference="alignment:Splign:1.39.8"
exon 1123..1317
/gene="SESTD1"
/gene_synonym="SOLO"
/inference="alignment:Splign:1.39.8"
exon 1318..1432
/gene="SESTD1"
/gene_synonym="SOLO"
/inference="alignment:Splign:1.39.8"
exon 1433..1592
/gene="SESTD1"
/gene_synonym="SOLO"
/inference="alignment:Splign:1.39.8"
exon 1593..1674
/gene="SESTD1"
/gene_synonym="SOLO"
/inference="alignment:Splign:1.39.8"
exon 1675..1797
/gene="SESTD1"
/gene_synonym="SOLO"
/inference="alignment:Splign:1.39.8"
exon 1798..1989
/gene="SESTD1"
/gene_synonym="SOLO"
/inference="alignment:Splign:1.39.8"
variation 1838
/gene="SESTD1"
/gene_synonym="SOLO"
/replace="c"
/replace="t"
/db_xref="dbSNP:1047994"
variation 1851
/gene="SESTD1"
/gene_synonym="SOLO"
/replace="a"
/replace="g"
/db_xref="dbSNP:2289993"
exon 1990..2111
/gene="SESTD1"
/gene_synonym="SOLO"
/inference="alignment:Splign:1.39.8"
variation 2009
/gene="SESTD1"
/gene_synonym="SOLO"
/replace="a"
/replace="g"
/db_xref="dbSNP:34573133"
exon 2112..10448
/gene="SESTD1"
/gene_synonym="SOLO"
/inference="alignment:Splign:1.39.8"
STS 2210..2333
/gene="SESTD1"
/gene_synonym="SOLO"
/standard_name="RH78716"
/db_xref="UniSTS:69442"
STS 2265..2433
/gene="SESTD1"
/gene_synonym="SOLO"
/standard_name="RH17512"
/db_xref="UniSTS:26187"
STS 2494..2609
/gene="SESTD1"
/gene_synonym="SOLO"
/standard_name="G31511"
/db_xref="UniSTS:58253"
STS 3276..3497
/gene="SESTD1"
/gene_synonym="SOLO"
/standard_name="A009N12"
/db_xref="UniSTS:21932"
STS 3276..3497
/gene="SESTD1"
/gene_synonym="SOLO"
/standard_name="G32678"
/db_xref="UniSTS:117260"
variation 3400
/gene="SESTD1"
/gene_synonym="SOLO"
/replace="a"
/replace="g"
/db_xref="dbSNP:1048026"
variation 3542
/gene="SESTD1"
/gene_synonym="SOLO"
/replace="a"
/replace="c"
/db_xref="dbSNP:1446674"
variation 4299
/gene="SESTD1"
/gene_synonym="SOLO"
/replace="a"
/replace="g"
/db_xref="dbSNP:3943573"
variation 5535
/gene="SESTD1"
/gene_synonym="SOLO"
/replace="a"
/replace="g"
/db_xref="dbSNP:2008999"
variation 5777
/gene="SESTD1"
/gene_synonym="SOLO"
/replace="a"
/replace="c"
/db_xref="dbSNP:2008989"
STS 6788..6915
/gene="SESTD1"
/gene_synonym="SOLO"
/standard_name="WI-14379"
/db_xref="UniSTS:81367"
variation 6830
/gene="SESTD1"
/gene_synonym="SOLO"
/replace="a"
/replace="g"
/db_xref="dbSNP:3731739"
variation 6960
/gene="SESTD1"
/gene_synonym="SOLO"
/replace="a"
/replace="c"
/db_xref="dbSNP:3731740"
STS 9473..9605
/gene="SESTD1"
/gene_synonym="SOLO"
/standard_name="WI-14852"
/db_xref="UniSTS:77434"
STS 9527..9646
/gene="SESTD1"
/gene_synonym="SOLO"
/standard_name="RH78358"
/db_xref="UniSTS:17428"
STS 9582..9684
/gene="SESTD1"
/gene_synonym="SOLO"
/standard_name="SHGC-36272"
/db_xref="UniSTS:18082"
variation 9621
/gene="SESTD1"
/gene_synonym="SOLO"
/replace="a"
/replace="t"
/db_xref="dbSNP:3180635"
variation 10063
/gene="SESTD1"
/gene_synonym="SOLO"
/replace="a"
/replace="g"
/db_xref="dbSNP:1968618"
ORIGIN
gcccgctccgcccccagcccgccttcctcccgccgcgccctccgcctccgcccgcacctcgctagcgttcccctgtcttccccaacgccccggagccgccggccgctagcgtcagcgccagccagaattaaggaagttcactggagtaaaatggaggcctcagtaatattacccattctgaagaaaaaactagccttcctttcaggaggaaaagacagacggagtggcctcattttgacaattccattatgcctcgaacagacaaatatggatgagctgagtgtcaccttagactacctactcagcattccaagtgagaagtgtaaggctagaggatttaccgtgattgtggatggcagaaaatcacagtggaatgtggtgaaaacagtagtcgtaatgctacagaatgttgttccagctgaggtgtcccttgtttgtgtggtaaagccagatgaattctgggataagaaagtaacgcatttttgtttttggaaggagaaggatagacttggctttgaggttattttagtgtccgccaacaaattgactcgttatatagaaccatgccaattaacagaagattttggtgggagtctcacctatgatcacatggactggttaaataagaggctggtttttgagaagtttacaaaggaatctacatcattattagatgaacttgctttgattaacaatggaagtgataaaggaaatcagcaagagaaagaaaggtctgtggatttaaactttcttccatcggttgatcctgaaacagttcttcagacagggcatgaattgttgtccgaattacagcagcgtcgatttaatggctcagacggaggggtttcatggtctcctatggatgatgaacttcttgcacagccacaggttatgaaattattagattcactccgagagcaatatacccgctaccaggaagtttgtaggcaacgtagcaagcgcacacagttagaagagattcaacagaaggtaatgcaggtggtgaactggctagaagggcctggatcagaacaactaagagcccagtggggcattggagactccattagggcctcccaggccctacagcagaaacacgaagagattgagagccagcacagtgaatggtttgcagtgtatgtggaacttaatcagcaaattgcagcactcttgaatgctggcgatgaggaagatcttgtggaactaaagtcactgcagcaacaacttagtgatgtttgttatcgacaggccagtcagctggaatttaggcaaaatctcttacaagcagctcttgaatttcatggtgttgcccaagatttgtctcagcagttggatggcttattagggatgttgtgcgtagatgtagcaccagctgatggagcatcgattcagcaaactttaaaactgcttgaagagaagctgaaaagtgttgatgtgggattgcaaggtttgcgtgaaaaaggtcaaggtctcctggatcagatctccaatcaggcatcctgggcctatggaaaggatgtaaccattgaaaataaagaaaatgtggaccacatacaaggagtgatggaagatatgcagcttagaaaacaaagatgtgaagacatggtagatgtgcgaaggttaaagatgcttcagatggtgcagttgtttaaatgtgaagaagatgctgcccaggcagtagaatggctaagtgaacttctggatgctctgcttaagactcacatcagattgggcgatgatgctcaagaaacgaaagttttgctggaaaagcatagaaaatttgttgatgttgcacagagcacttatgactatggcaggcagttgctacaggccacagttgtgttatgccaatctttgcgctgcacttctcggtcatctggggatacacttcctcgactgaacagagtatggaaacaatttacaatagcatctgaagagagagtacatagattggaaatggctattgcatttcactcaaatgctgaaaagattttgcaggactgtccagaagagcctgaagctattaatgatgaggagcaatttgatgaaattgaagcagttgggaaatcacttttggatagattaactgttccagtagtttatcctgatggaaccgaacaatattttgggagtccaagtgacatggcttctactgcagaaaacatcagagacaggatgaaactagttaatctcaaaaggcagcagctgagacatcctgaaatggtgaccacagagagctaatagctaccagctacctacagatttgcagttcataatcccgcatgttgtcaacatactacagcattagccaccacaccttaagatgcatttcacagccaaaataagtctcatttcttttcatgacacatttctctttacatgttaacaccttgctactaccaaggcataattacttaacatgcttcgaggctgtagattccaagtatcttaaaagaaggaactataaacattgcactgaaaacttgctttaaagctttacctgacctgtcagtttgtagacaaacaactgataataagctttgaatggtgctaataagagtaggaattctctctattaaaaagaaaaaaaaaagttgcccttcctccacaggtgatttagtaaatttagacagtagttaaactcttgttagtagacagtggtgtcctcaaaattttactttgtaattcttcagaattgattatttttattgtgtcaatacagagaaagcctttcagatctttgatatatcatagtcattaaaagaccttttcctatttgtattgataatgtattaaaagttgtttgtgcttaataaaagacttctttaaacatcttatttaatttagtagttacatcctatttccaaacatgagtgccttatttaaaagggcattcttaggactgtgaggatggtttaatatttgttttttcatggtggttgcatgtattttagacaggaaatacatatgtaagcatgtgtatataataaataagcatgttttatcatgaaaaattattgtgaacaatttagatctttaagaacttattaataatggaatactatttctaatttttctctttttcaacttgaaaaatattctcaaaattattaactaccctgaagatactttgtctttaggggaggagggctgaggaagaaggcatacataattacttcagtgtaatcctttatatcagagtaatctttcaggaactaaaatagcaattgttaataaaatttagtttctcattatagtctaaaagcaaaataaattctgaagtagtccaataacagaactgtatgacccctttagaaataaaatttatcatgaaatgctagttcttttaagtttgtattaagtttaaatggtaaaatgcatataatttaaattttatgtatttttatttcagaacattttttaaaatattaaaaattattttttagtcttgtagtcattacaaaattataaacgagttgtatactggttcctttttgaggtctacaaacatgctcgtgtatcttccaatgcaaaaaaaaaacccctcccttttaacctgctagtttttccagccttcttcactgactgacagacttcttggagaaatccacatccagtgcccctacatcctcatcactcactactcagcaccttgcagtctggttttacacagcactctactgaaactgttcttttgaaagtcagcaatggcctcccagttaccaaactgaatggtttttttctccgtctgaatcccttacccttttctctgcaacatttacaccattgagcaacctttcctagacagtgtctccttccttgaagatgctatcctctgaaataactgtgagtacagtcgcataaccctaatttaagatgtgcctgctgaacatgtgctctctcagatcctgtcctcagaatgcttttggctcttttctcggtatctcatccttagagtttttattttataccaatgttctggattacatacctggtccagaaatctagacttgtacttctttttaattgcctagttgacatttcaaccttgattaaagattgacaatatttatcaccttttcctcctggaacaatttaggttaatggtgcagccttttttcctagtcaaacatgccaggaagttcagggcaaagttcaactgctccctcttgtcttatgtggtcactgcttctgagaacatccaggaagttctttctatacttgaatcatcttctcagtcctttggggctttactgctatgagtatgaacttttgtgattatttatttcagtcttcatgatggtgctatcacattctacagttgtttatgtctgtacccagtaagctcttttgagggaaggaatcttgtcttctcctattcccagtcttgctcatgcataacagatgcccattcctcctaaatatgaatgctgtattataggcattagtaataatccctgttacattgcagtctgaagtatgttttaaacatacttttttaaagttagaactgacttacaagtgaatctattcttagattcttagatactaactactttagatatttagttatactcaataactaaatatcaatactcaatatctgtttcttctgaatttcagagtagttagaatgtttttcttaagactttgctagaaaggaactggtttgttagtaattctgccatcaactcatggagttataattgccaaatgagttaatttttatataccttaagctatcttgcctacaaaaagtaaaataaggcaggattcataaatgttacttgtaaattgagtgtttcacatgaggccaagtatgattttaacataatgaatatcattgctcctcatctgtaaatttgctgctgctttcatatgtgtatctgtacatagagttatgaatgaaaatccagtaatgccctaaagcaactttcttccatagggtcaaagctcacttaaggtaaacgtgtgaaaaaagtgactgcagtgtgtttgaaaccacaagctgtttctatgtcataaattaacatcagcttgcaagtctctgaaagaaccactcatttgtaattggtatatatgtcacaacctcccacattcctttagcccatctcagggaattattgaaacgctggcagggttagtttcattttgttttggtttttttgggtttttttgtttgtttgaggattttttttttcttttatcatttgtttgctcctgtgtaagcttaatatataatggcagtttggcatctgttcttcgcacatgtctaacccagcagagttatgcaaaaatgatgacttcattttaggtcaaattggctttgttcccagtcctcattgttggtcactttgttcagttctggtgactcattggtgatgttgatgaaactgctcagcctgccagctgggatattgatggcaggtctaggcttcattgttaggtagaagattgaatacttctcactttatacaaatttacattggctattgctcccatgtgttagctagtcttaacatgtttgttatttcgttatcttattagctgacatacggagtggtattattagtgtcgtactccttagcgtgagcatgacaattaagttaccttactaacagtgatgagtaaaccatactctgatctaaacccattgttaccaatgatgtgattatgaagttagctgaatctatggtctacatttgaagaaatagttcagaattctctactacattgtaagttacttgctaatagagattgggcattattatgtactactccccttctcacatcctacccaaagtacacaaggccgtagtaaaatactgttgctactaaaaactaaacatactgtggttgctaatgtcctttacatcttcagcctatagggaatggtacaggcagaaacaagcaccattaagtatattatcatcagtagtgagatctgtatgattaggatatctttgcttaagcccccaaaggaaaaattctctagcattaaaaacatggctggaacatagctaagcagttaacctaattagtagacttattgttaacgttcagtcctaaaaatgaaaagcttcagttgggagtagaaaatatactatgctggtatatagagcaacaaataccctgatgagataaaatgaagtagaaacttaccatttgacattatttgactttcatacatgctactgaaaagtctaggtttagctaagaagcataaataatggcagtacttgtagaggaaagaacataccagctaaaacaagaactgtaatgaatataatggaaagtgtttggagcttgaatacttggcttcaaaaatctggctttgccatttactgttaaaaaaatatctgagaatttatctcaggctgtaaaacagagaagtcataccaatttcaagaataaaatatgatataaagaattgttgaagccaaaatatccagaaataaacagaatggaaggtatcattgctataattatcttttcagaataaaaaatagagtattctttatcctttctgttgtctcacatgacaagcatgggatggtgaggaaatggcatattgcctatgttcgccgccccacccccttagttccaccaccccttcaccgtcacccccagttcactagtgtatcagaatgcatcttcagaattacacactgaagatacaaaaggtccagttggtaagctcatcagtaaataacaaggctttgaaatctgacaaattagctatttttgtaggaagataatagaacagcaagatggaagacaagtgatgagtatcatctgttttgaggttgacaaggtgtgacataaccctgttaatagacacaagtaaaagaaaatcatactaggattggatattagtgagcgagcaccgaccagtagaaacaacaacagcataaatctgttatttaagtatcccaataatgaggttaaaaaaaaaaaaaaaacagaacaaagcatgaaaagaccacaattagtgctggctatgcttagagaggagcagtctcttggtaaactcaggcagtgatgatgaacagaaaatggccgactgatactgtaatagaggcatagaactaaggacactccgtgagctggcataaatacaggggagtctttaagactgaaaaaagttcatgggtatgacacttaatatgactcaacattactgcagaattttaaagcaaacatgaaagcttgagaataaacactagtccctctacttcaagaaaaagcagaacctgtactagaacatgaagaacttagagatcaaaagacagccagaactatgatgaaatattttgaaagcagtgggcacatttttaaagattttttttggagaactttatgaggctgtatgtataattcctatatgtaattttataggaattcttaactgaaagtagttatcaactgctacttatcaggagcagtgttattagggattttaagttaggcatgtagaaaactttctgacaaaagggctattgaactccagccagttcccagtgaatctccaggaggcaccttagaagtcttcacaagctgaataccatgtctttagggtgtccaaatgcttctgtcttgggggagagatgagagatgactgggtgcctttccactcagaacacagtagaccactcactatttatgaccaagcctcacttcttttctattacagttacagattcttttttagtctggaagttagggtaaataaaatttgtatgtttgatttttctcttaggaatgttttctcatcttaactcttatgttatctttatggccaacagatttgctcagaatatatcatcaaaatatatgtattgtattttgtaaaggtgaaaggatcgaaataccactttgacagttataaaccagagtagatttgagaactgattgctcacatcacacttacgaatagtctcagaagcctttaagagaaacttacttctcaatggacacttagaagaatttgatgatcttactgtcataaaatcagtaatgaaattctcagcaaaactatttggtaaacattgcaccctgtatttttacccaacatcttgttatgaaaattatcaaatacattaaaaagttaaaataattttatagtgtactcactacctagatgctaattagcattacctatgcttgctttgtcacatatccattcatcatttcatattattatttgatgcattttaaattgcatatcattaactagagttcattgttggcttttttacataaaattagcatgcaatgaagtgcatagaaatatgtgttcactgaggtttggcaaatgcatatagtgctatggaaataggaaacgttatcaccaccctagaaagtttccacactgccctttccagtcaattcctgtccctacttgaccctcaaaggcaaccactgttcctttttctaccataagatttttctgttctaaaactttatataaatagagtcacgcaacatgtacgcttttctacaaggcttcatttttttattgctgttcttttttattgctgagtagtattccactgtatgacaatattacagtttgttttcttaatttcctattattgatagatacctgggctgtttccaggattggccattataaataaagctgctatgaccattcttacgtaagtctttgtgaacataggttttcatttctttgcagtaaattccttggattagaattgctgggtcacagggtagttttaaaagaaactgccatacctttttccagttcagttttattgtgccctgtattttgtattttgatgtgcataaaggtgtaaactatttttatgatccatattgaagtattagaagaagtgagtttggaataacaatggcattgttcatggtcaaggatgacaattggaactatctgaggaaagcaaagacctgtctgccccagacagctcctcaaggggttcctatgcctgaaactttagcaatatttcactccttgaaaggttaaagcccaaccatggtgatatgttagctagaagaaacagcactggtttgtttatgttactaactttcaccacccgttttcagtaggtaaagtaagactgatcattgaacagaaaaggttatttctgtgatgaggttgagggggtagtggaaagcatgtattgctagtaagccccaggtacagctatgtgagagagagtcacctggacagggaagtcccccaaatggtggccagaagagcagaaaacggggtgggaaaaattctacctcacagttttgcataggggatagctatgcttttacgggacattttagcgtttaaaaatattttcaatattgtctctttattcaataccacccagctgtagttttttcacactctgatgactctcttatccactcttttacctctcccagctgttctattacatacagcattcacctgtattagtctatagaattataatcatctgtgtgtttctaatgctcattttcaaaaatatgtatggtttattcgatttttcctattaaaattttaagggctgggaaatttggcttctactgtaaatccttataatgttccacacattgtaaatatgcaataaaaatgttaacaactataatggcagcaggttttggtatgtatttctttgatatattgtcactttggacaataagtttgatttctgttaataaaagttgttcataaaatctagggagaattaagtcacactggtctctataagataatctgatgaattctgcatctttgaatcaatttgagttattttttgtaaaggtttaaattgtttctaacagtgttacctaaaacctttcattaaatcaaaaatgtaacttgtatattctgaaataacctggagtcttagaagacagaggcttctgcttccctctcccgtgaccccaacaatcccttcccacaggcttggcacagaagttcagtgctttctctacgtctcatgttgtcagaaataggttctcaccataatagacagtggtgaaatttccattgttcctactgagaagtccatttttaaggcatcaaaggtgaatgtgtatttagggatggaggaggcatattacaacaaagctgtatttaaaataacacaatcatatcatgctataaacaatagcagttccagaatggctactaaggattttggactgccagactttggaaattggcaagccttataccttgtccaatgaagttaagtacatttgagtgacagttcaacatacaagcaaaaaaatatatagaagacattgtacatttgttattaatggacatgtttactttacatgttagagtatccatccatctctaggttttccattagatgcttcattgtatccacaaacctgtttcaaaccattgaagtgatcttaccattgtgtttgttcaaaataaaattgggagaaaatgtgaa
//
ANNOTATIONS from NCBI Entrez Gene (20130726):
GeneID:91404 -> Molecular function: GO:0001786 [phosphatidylserine binding] evidence: IDA
GeneID:91404 -> Molecular function: GO:0005515 [protein binding] evidence: IPI
GeneID:91404 -> Molecular function: GO:0005545 [1-phosphatidylinositol binding] evidence: IDA
GeneID:91404 -> Molecular function: GO:0005546 [phosphatidylinositol-4,5-bisphosphate binding] evidence: IDA
GeneID:91404 -> Molecular function: GO:0010314 [phosphatidylinositol-5-phosphate binding] evidence: IDA
GeneID:91404 -> Molecular function: GO:0031210 [phosphatidylcholine binding] evidence: IDA
GeneID:91404 -> Molecular function: GO:0032266 [phosphatidylinositol-3-phosphate binding] evidence: IDA
GeneID:91404 -> Molecular function: GO:0043325 [phosphatidylinositol-3,4-bisphosphate binding] evidence: IDA
GeneID:91404 -> Molecular function: GO:0070273 [phosphatidylinositol-4-phosphate binding] evidence: IDA
GeneID:91404 -> Molecular function: GO:0070300 [phosphatidic acid binding] evidence: IDA
GeneID:91404 -> Molecular function: GO:0080025 [phosphatidylinositol-3,5-bisphosphate binding] evidence: IDA
GeneID:91404 -> Cellular component: GO:0034704 [calcium channel complex] evidence: IPI
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