Inositol 1,4,5-trisphosphate receptor type 1

NameInositol 1,4,5-trisphosphate receptor type 1
Synonyms
  • INSP3R1
  • IP3 receptor isoform 1
  • IP3R 1
  • Type 1 inositol 1,4,5-trisphosphate receptor
  • Type 1 InsP3 receptor
Gene NameITPR1
OrganismHuman
Amino acid sequence
>lcl|BSEQ0009443|Inositol 1,4,5-trisphosphate receptor type 1
MSDKMSSFLHIGDICSLYAEGSTNGFISTLGLVDDRCVVQPETGDLNNPPKKFRDCLFKL
CPMNRYSAQKQFWKAAKPGANSTTDAVLLNKLHHAADLEKKQNETENRKLLGTVIQYGNV
IQLLHLKSNKYLTVNKRLPALLEKNAMRVTLDEAGNEGSWFYIQPFYKLRSIGDSVVIGD
KVVLNPVNAGQPLHASSHQLVDNPGCNEVNSVNCNTSWKIVLFMKWSDNKDDILKGGDVV
RLFHAEQEKFLTCDEHRKKQHVFLRTTGRQSATSATSSKALWEVEVVQHDPCRGGAGYWN
SLFRFKHLATGHYLAAEVDPDFEEECLEFQPSVDPDQDASRSRLRNAQEKMVYSLVSVPE
GNDISSIFELDPTTLRGGDSLVPRNSYVRLRHLCTNTWVHSTNIPIDKEEEKPVMLKIGT
SPVKEDKEAFAIVPVSPAEVRDLDFANDASKVLGSIAGKLEKGTITQNERRSVTKLLEDL
VYFVTGGTNSGQDVLEVVFSKPNRERQKLMREQNILKQIFKLLQAPFTDCGDGPMLRLEE
LGDQRHAPFRHICRLCYRVLRHSQQDYRKNQEYIAKQFGFMQKQIGYDVLAEDTITALLH
NNRKLLEKHITAAEIDTFVSLVRKNREPRFLDYLSDLCVSMNKSIPVTQELICKAVLNPT
NADILIETKLVLSRFEFEGVSSTGENALEAGEDEEEVWLFWRDSNKEIRSKSVRELAQDA
KEGQKEDRDVLSYYRYQLNLFARMCLDRQYLAINEISGQLDVDLILRCMSDENLPYDLRA
SFCRLMLHMHVDRDPQEQVTPVKYARLWSEIPSEIAIDDYDSSGASKDEIKERFAQTMEF
VEEYLRDVVCQRFPFSDKEKNKLTFEVVNLARNLIYFGFYNFSDLLRLTKILLAILDCVH
VTTIFPISKMAKGEENKGNNDVEKLKSSNVMRSIHGVGELMTQVVLRGGGFLPMTPMAAA
PEGNVKQAEPEKEDIMVMDTKLKIIEILQFILNVRLDYRISCLLCIFKREFDESNSQTSE
TSSGNSSQEGPSNVPGALDFEHIEEQAEGIFGGSEENTPLDLDDHGGRTFLRVLLHLTMH
DYPPLVSGALQLLFRHFSQRQEVLQAFKQVQLLVTSQDVDNYKQIKQDLDQLRSIVEKSE
LWVYKGQGPDETMDGASGENEHKKTEEGNNKPQKHESTSSYNYRVVKEILIRLSKLCVQE
SASVRKSRKQQQRLLRNMGAHAVVLELLQIPYEKAEDTKMQEIMRLAHEFLQNFCAGNQQ
NQALLHKHINLFLNPGILEAVTMQHIFMNNFQLCSEINERVVQHFVHCIETHGRNVQYIK
FLQTIVKAEGKFIKKCQDMVMAELVNSGEDVLVFYNDRASFQTLIQMMRSERDRMDENSP
LMYHIHLVELLAVCTEGKNVYTEIKCNSLLPLDDIVRVVTHEDCIPEVKIAYINFLNHCY
VDTEVEMKEIYTSNHMWKLFENFLVDICRACNNTSDRKHADSILEKYVTEIVMSIVTTFF
SSPFSDQSTTLQTRQPVFVQLLQGVFRVYHCNWLMPSQKASVESCIRVLSDVAKSRAIAI
PVDLDSQVNNLFLKSHSIVQKTAMNWRLSARNAARRDSVLAASRDYRNIIERLQDIVSAL
EDRLRPLVQAELSVLVDVLHRPELLFPENTDARRKCESGGFICKLIKHTKQLLEENEEKL
CIKVLQTLREMMTKDRGYGEKLISIDELDNAELPPAPDSENATEELEPSPPLRQLEDHKR
GEALRQVLVNRYYGNVRPSGRRESLTSFGNGPLSAGGPGKPGGGGGGSGSSSMSRGEMSL
AEVQCHLDKEGASNLVIDLIMNASSDRVFHESILLAIALLEGGNTTIQHSFFCRLTEDKK
SEKFFKVFYDRMKVAQQEIKATVTVNTSDLGNKKKDDEVDRDAPSRKKAKEPTTQITEEV
RDQLLEASAATRKAFTTFRREADPDDHYQPGEGTQATADKAKDDLEMSAVITIMQPILRF
LQLLCENHNRDLQNFLRCQNNKTNYNLVCETLQFLDCICGSTTGGLGLLGLYINEKNVAL
INQTLESLTEYCQGPCHENQNCIATHESNGIDIITALILNDINPLGKKRMDLVLELKNNA
SKLLLAIMESRHDSENAERILYNMRPKELVEVIKKAYMQGEVEFEDGENGEDGAASPRNV
GHNIYILAHQLARHNKELQSMLKPGGQVDGDEALEFYAKHTAQIEIVRLDRTMEQIVFPV
PSICEFLTKESKLRIYYTTERDEQGSKINDFFLRSEDLFNEMNWQKKLRAQPVLYWCARN
MSFWSSISFNLAVLMNLLVAFFYPFKGVRGGTLEPHWSGLLWTAMLISLAIVIALPKPHG
IRALIASTILRLIFSVGLQPTLFLLGAFNVCNKIIFLMSFVGNCGTFTRGYRAMVLDVEF
LYHLLYLVICAMGLFVHEFFYSLLLFDLVYREETLLNVIKSVTRNGRSIILTAVLALILV
YLFSIVGYLFFKDDFILEVDRLPNETAVPETGESLASEFLFSDVCRVESGENCSSPAPRE
ELVPAEETEQDKEHTCETLLMCIVTVLSHGLRSGGGVGDVLRKPSKEEPLFAARVIYDLL
FFFMVIIIVLNLIFGVIIDTFADLRSEKQKKEEILKTTCFICGLERDKFDNKTVTFEEHI
KEEHNMWHYLCFIVLVKVKDSTEYTGPESYVAEMIKERNLDWFPRMRAMSLVSSDSEGEQ
NELRNLQEKLESTMKLVTNLSGQLSELKDQMTEQRKQKQRIGLLGHPPHMNVNPQQPA
Number of residues2758
Molecular Weight313926.375
Theoretical pINot Available
GO Classification
Functions
  • calcium ion transmembrane transporter activity
  • intracellular ligand-gated calcium channel activity
  • inositol 1,4,5-trisphosphate-sensitive calcium-release channel activity
  • calcium channel inhibitor activity
  • phosphatidylinositol binding
Processes
  • vascular endothelial growth factor receptor signaling pathway
  • energy reserve metabolic process
  • regulation of insulin secretion
  • platelet activation
  • endoplasmic reticulum calcium ion homeostasis
  • inositol phosphate-mediated signaling
  • negative regulation of calcium-mediated signaling
  • activation of phospholipase C activity
  • small molecule metabolic process
  • epidermal growth factor receptor signaling pathway
  • intrinsic apoptotic signaling pathway in response to endoplasmic reticulum stress
  • Fc-gamma receptor signaling pathway involved in phagocytosis
  • innate immune response
  • release of sequestered calcium ion into cytosol
  • Fc-epsilon receptor signaling pathway
  • voluntary musculoskeletal movement
  • post-embryonic development
  • fibroblast growth factor receptor signaling pathway
  • calcium ion transport
  • neurotrophin TRK receptor signaling pathway
  • response to hypoxia
  • signal transduction
  • stimulatory C-type lectin receptor signaling pathway
  • blood coagulation
  • epithelial fluid transport
Components
  • endoplasmic reticulum
  • platelet dense tubular network membrane
  • endoplasmic reticulum membrane
  • postsynaptic density
  • nuclear inner membrane
  • integral component of membrane
  • sarcoplasmic reticulum
  • nucleolus
  • calcineurin complex
  • platelet dense tubular network
  • membrane
  • platelet dense granule membrane
General FunctionPhosphatidylinositol binding
Specific FunctionIntracellular channel that mediates calcium release from the endoplasmic reticulum following stimulation by inositol 1,4,5-trisphosphate. Involved in the regulation of epithelial secretion of electrolytes and fluid through the interaction with AHCYL1 (By similarity). Plays a role in ER stress-induced apoptosis. Cytoplasmic calcium released from the ER triggers apoptosis by the activation of CaM kinase II, eventually leading to the activation of downstream apoptosis pathways (By similarity).
Pfam Domain Function
Transmembrane Regions2283-2303 2315-2335 2362-2382 2406-2426 2449-2469 2578-2598
GenBank Protein IDNot Available
UniProtKB IDQ14643
UniProtKB Entry NameITPR1_HUMAN
Cellular LocationEndoplasmic reticulum membrane
Gene sequence
>lcl|BSEQ0013163|Inositol 1,4,5-trisphosphate receptor type 1 (ITPR1)
ATGTCTGACAAAATGTCTAGCTTCCTACATATTGGAGACATTTGTTCTCTGTACGCGGAG
GGATCGACAAATGGATTTATTAGCACCTTGGGCCTGGTTGATGATCGTTGTGTTGTACAG
CCAGAAACCGGGGACCTTAACAATCCACCTAAGAAATTCAGAGACTGCCTCTTTAAGCTA
TGTCCCATGAACCGCTACTCTGCCCAAAAGCAGTTCTGGAAAGCCGCTAAGCCTGGGGCC
AACAGCACCACAGACGCAGTGCTACTCAACAAACTGCACCACGCTGCAGACTTGGAAAAG
AAGCAGAATGAGACAGAAAACAGGAAATTGCTGGGGACCGTAATCCAGTATGGCAATGTG
ATCCAGCTCCTGCATTTGAAAAGTAATAAATACCTAACAGTGAATAAGAGGCTTCCTGCT
CTGTTGGAGAAGAATGCCATGAGAGTCACATTGGACGAGGCTGGAAATGAAGGGTCCTGG
TTTTATATTCAGCCATTCTACAAGCTGCGATCCATTGGAGACAGCGTGGTCATAGGTGAC
AAGGTGGTTCTGAACCCCGTCAATGCTGGTCAGCCCCTACATGCTAGCAGCCATCAACTG
GTAGATAACCCAGGCTGCAATGAGGTCAATTCCGTCAACTGCAATACAAGCTGGAAAATA
GTCCTTTTCATGAAATGGAGTGATAACAAAGACGACATATTAAAGGGGGGTGACGTGGTG
AGGCTGTTTCATGCTGAGCAGGAGAAGTTTCTCACCTGTGACGAACACAGGAAGAAGCAG
CACGTCTTCCTGAGAACCACGGGCCGGCAGTCGGCCACATCTGCCACCAGTTCAAAAGCC
CTGTGGGAGGTGGAGGTGGTCCAGCATGACCCATGTCGGGGCGGAGCAGGGTATTGGAAC
AGCCTTTTCCGTTTCAAGCATCTGGCCACGGGGCATTACTTGGCAGCAGAGGTAGACCCT
GACTTTGAGGAAGAATGCCTGGAGTTTCAGCCCTCAGTGGACCCTGATCAGGACGCCTCT
CGAAGTAGGTTGCGGAATGCCCAAGAAAAGATGGTATACTCCCTGGTCTCTGTGCCTGAA
GGCAATGACATCTCCTCCATTTTCGAGCTAGATCCCACCACTCTGCGTGGAGGTGACAGC
CTTGTCCCAAGGAACTCTTATGTTCGGCTCAGACACCTATGTACTAATACCTGGGTTCAC
AGCACAAATATTCCTATTGACAAGGAAGAAGAAAAGCCCGTGATGCTGAAAATTGGCACC
TCTCCTGTGAAGGAGGATAAGGAAGCATTTGCCATAGTTCCGGTTTCTCCTGCTGAAGTT
CGGGACCTGGACTTTGCCAATGATGCCAGCAAGGTGCTGGGCTCCATTGCTGGGAAGCTA
GAGAAGGGCACCATCACCCAGAATGAAAGGAGGTCTGTAACCAAGCTGCTAGAAGATTTG
GTTTACTTCGTCACTGGTGGAACTAATTCTGGTCAAGATGTTCTCGAAGTTGTCTTCTCC
AAGCCCAACAGAGAACGGCAGAAACTGATGAGAGAACAGAATATTCTCAAGCAGATCTTC
AAGTTGTTACAAGCCCCATTCACAGACTGCGGTGATGGCCCAATGCTTCGGCTGGAAGAG
CTCGGGGACCAGCGGCACGCTCCTTTCAGACACATCTGCCGGCTCTGCTACAGGGTGCTG
AGACACTCGCAGCAAGACTACAGGAAGAACCAGGAGTATATAGCCAAGCAGTTTGGCTTC
ATGCAGAAGCAGATTGGCTATGATGTGTTGGCTGAAGACACTATCACTGCCCTGCTCCAC
AATAATCGGAAACTCCTGGAAAAACACATTACCGCGGCAGAGATTGACACATTTGTCAGC
CTGGTGCGAAAGAACAGGGAGCCCAGATTCTTAGATTACCTCTCCGACCTCTGTGTCTCC
ATGAACAAATCAATTCCAGTGACCCAGGAACTGATATGTAAAGCTGTGCTGAACCCCACC
AACGCTGACATCCTGATTGAGACCAAGTTGGTTCTTTCTCGTTTTGAATTTGAAGGTGTC
TCTTCCACTGGAGAGAATGCTCTGGAGGCAGGAGAAGACGAGGAAGAGGTGTGGCTGTTT
TGGAGGGACAGCAACAAAGAGATTCGCAGCAAGAGTGTGAGGGAATTGGCTCAGGATGCT
AAAGAAGGGCAGAAGGAGGACCGAGACGTTCTCAGCTACTACAGATATCAGCTGAACCTC
TTTGCGAGGATGTGTCTGGACCGCCAATACCTGGCCATCAACGAAATCTCAGGCCAGCTG
GATGTCGATCTCATTCTCCGCTGCATGTCTGACGAGAACCTGCCCTATGACCTCAGGGCG
TCCTTCTGCCGCCTCATGCTTCACATGCATGTGGACCGAGATCCCCAGGAACAAGTCACC
CCCGTGAAATATGCCCGCCTCTGGTCGGAGATTCCCTCGGAGATCGCCATTGACGACTAT
GATAGTAGTGGAGCTTCCAAAGATGAAATTAAGGAGAGATTTGCTCAGACCATGGAGTTT
GTGGAGGAGTATTTAAGAGATGTGGTTTGTCAGAGGTTCCCTTTCTCTGATAAAGAGAAG
AATAAGCTTACGTTTGAGGTTGTAAATTTAGCTAGGAATCTCATATACTTTGGTTTCTAC
AACTTCTCTGACCTTCTACGATTAACTAAGATCCTTCTGGCCATATTGGACTGTGTACAT
GTGACAACAATCTTCCCCATTAGCAAGATGGCGAAAGGAGAAGAGAATAAAGGCAGTAAC
GTGATGAGATCTATTCATGGCGTGGGAGAGCTGATGACCCAGGTGGTGCTCCGGGGAGGA
GGCTTTTTGCCCATGACTCCCATGGCTGCTGCCCCTGAAGGCAATGTGAAGCAGGCAGAG
CCTGAGAAGGAGGACATCATGGTCATGGACACCAAGCTGAAGATCATTGAGATACTCCAG
TTTATTTTGAATGTGAGGTTGGATTATAGGATCTCCTGCCTCCTGTGTATATTTAAGCGA
GAGTTTGATGAAAGCAATTCCCAGACTTCAGAAACATCCTCCGGAAACAGCAGCCAAGAA
GGGCCAAGTAATGTACCAGGTGCTCTTGACTTTGAACACATTGAAGAACAAGCAGAAGGC
ATCTTTGGAGGAAGTGAGGAGAACACCCCACTGGACTTGGATGACCACGGCGGCAGAACC
TTTCTCCGTGTCCTGCTCCACTTGACGATGCATGACTACCCACCCCTGGTGTCAGGGGCC
CTGCAGCTCCTCTTCCGGCACTTCAGCCAGAGGCAGGAGGTGCTCCAGGCCTTCAAACAG
GTTCAACTGCTGGTTACCAGCCAAGATGTGGACAACTACAAACAGATCAAACAAGACTTG
GATCAACTGAGGTCCATCGTGGAAAAGTCAGAGCTTTGGGTGTACAAAGGGCAGGGCCCC
GATGAGACTATGGATGGTGCATCTGGAGAAAATGAACATAAGAAAACGGAGGAGGGAAAT
AACAAGCCACAAAAGCATGAAAGCACCAGCAGCTACAACTACAGAGTGGTCAAAGAGATT
TTGATTCGGCTTAGCAAACTCTGTGTTCAAGAGAGTGCCTCAGTGAGAAAGAGCAGGAAG
CAGCAACAGCGTCTGCTCCGGAACATGGGCGCGCACGCCGTGGTGCTGGAGCTGCTGCAG
ATTCCCTATGAGAAGGCCGAAGATACCAAGATGCAAGAGATAATGAGGTTGGCTCATGAA
TTTTTGCAGAATTTCTGCGCAGGCAACCAGCAGAATCAAGCTTTGCTACATAAACACATA
AACCTGTTTCTCAACCCAGGGATCCTGGAGGCAGTAACCATGCAGCACATCTTCATGAAC
AATTTCCAGCTTTGCAGTGAGATCAACGAGAGAGTTGTTCAGCACTTCGTTCACTGCATA
GAGACTCACGGTCGGAATGTCCAGTATATAAAGTTCTTACAGACAATTGTCAAGGCAGAA
GGGAAATTTATTAAAAAATGCCAAGACATGGTTATGGCCGAGCTGGTCAATTCGGGAGAG
GATGTCCTCGTGTTCTACAACGACAGAGCCTCTTTCCAGACTCTGATCCAGATGATGCGG
TCAGAACGGGATCGGATGGATGAGAACAGCCCTCTCATGTACCACATCCACTTGGTCGAG
CTCCTGGCTGTGTGCACGGAGGGTAAGAATGTCTACACAGAGATCAAGTGCAACTCCCTG
CTCCCGCTGGATGACATCGTTCGCGTGGTGACCCACGAGGACTGCATCCCTGAGGTTAAA
ATTGCATACATTAACTTCCTGAATCACTGCTATGTGGATACAGAGGTGGAAATGAAGGAG
ATTTATACCAGCAATCACATGTGGAAATTGTTTGAGAATTTCCTTGTAGACATCTGCAGG
GCCTGTAACAACACTAGTGACAGGAAACATGCAGACTCGATTTTGGAGAAGTATGTCACC
GAAATCGTCATGAGTATTGTTACTACTTTCTTCAGCTCTCCCTTCTCAGACCAGAGTACG
ACTTTGCAGACTCGCCAGCCTGTCTTTGTGCAACTGCTGCAAGGCGTGTTCAGGGTTTAC
CACTGCAACTGGTTAATGCCAAGCCAAAAAGCCTCCGTGGAGAGCTGTATTCGGGTGCTG
TCTGATGTAGCCAAGAGCCGGGCCATTGCCATTCCCGTGGACCTGGACAGCCAAGTCAAC
AACCTCTTTCTCAAGTCCCACAGCATTGTGCAGAAAACAGCCATGAACTGGCGGCTCTCA
GCCCGCAATGCCGCACGCAGGGACTCTGTTCTGGCAGCTTCCAGAGACTACCGGAATATC
ATTGAGAGATTGCAGGACATCGTCTCCGCGCTGGAGGACCGTCTCAGGCCCCTGGTGCAG
GCAGAGTTATCTGTGCTCGTGGATGTTCTCCACAGACCCGAGCTGCTTTTCCCAGAGAAC
ACAGACGCCAGAAGGAAATGTGAAAGTGGCGGTTTCATTTGCAAGTTAATAAAGCATACA
AAACAGCTGCTAGAAGAAAATGAAGAGAAGCTCTGCATTAAGGTCCTACAGACCCTGAGG
GAAATGATGACCAAAGATAGAGGCTATGGAGAAAAGGGTGAGGCGCTCAGGCAAGTTCTG
GTCAACCGTTACTATGGAAACGTCAGACCTTCGGGACGAAGAGAGAGCCTTACCAGCTTT
GGCAATGGCCCACTGTCAGCAGGAGGACCCGGCAAGCCCGGGGGAGGAGGGGGAGGTTCC
GGATCCAGCTCTATGAGCAGGGGTGAGATGAGTCTGGCCGAGGTTCAGTGTCACCTTGAC
AAGGAGGGGGCTTCCAATCTAGTTATCGACCTCATCATGAACGCATCCAGTGACCGAGTG
TTCCATGAAAGCATTCTCCTGGCCATTGCCCTTCTGGAAGGAGGCAACACCACCATCCAG
CACTCCTTTTTCTGTCGCTTGACAGAAGATAAGAAGTCAGAGAAATTCTTTAAGGTGTTT
TATGACCGGATGAAGGTGGCCCAGCAAGAAATCAAAGCAACAGTGACAGTGAACACCAGT
GACTTGGGAAATAAAAAGAAAGACGATGAGGTAGACAGGGATGCCCCATCACGGAAAAAA
GCTAAAGAGCCCACAACACAGATAACAGAAGAGGTCCGGGATCAGCTCCTGGAGGCCTCC
GCTGCCACCAGGAAAGCCTTCACCACTTTCAGGAGGGAGGCTGATCCCGACGACCACTAC
CAGCCTGGAGAGGGCACCCAGGCCACTGCCGACAAGGCCAAGGACGACCTGGAGATGAGC
GCGGTCATCACCATCATGCAGCCCATCCTCCGCTTCCTTCAGCTCCTGTGTGAAAACCAC
AACCGAGACCTGCAGAACTTCCTCCGTTGCCAAAATAACAAGACCAACTACAATTTGGTA
TGTGAGACCCTGCAGTTTCTGGACTGTATTTGTGGAAGCACAACTGGAGGCCTTGGTCTT
CTGGGCTTGTATATAAATGAAAAGAACGTAGCGCTTATCAACCAAACCCTGGAAAGTCTG
ACCGAATACTGTCAAGGACCTTGCCATGAGAACCAGAACTGCATAGCCACCCATGAATCC
AATGGCATTGACATCATCACAGCCCTGATCCTCAATGATATCAATCCTTTGGGAAAGAAG
AGGATGGACCTTGTGTTAGAACTGAAGAACAATGCCTCGAAGTTGCTCCTGGCCATCATG
GAAAGCAGGCACGACAGTGAAAACGCAGAGAGGATACTTTATAACATGAGGCCCAAGGAA
CTGGTGGAAGTGATCAAGAAAGCCTACATGCAAGGTGAAGTGGAATTTGAGGATGGAGAA
AACGGTGAGGATGGGGCGGCGTCCCCCAGGAACGTGGGGCACAACATCTACATATTAGCC
CATCAGTTGGCTCGGCATAACAAAGAACTTCAGAGCATGCTGAAACCTGGTGGCCAAGTG
GACGGAGATGAAGCCCTGGAGTTTTATGCCAAGCACACGGCGCAGATAGAGATTGTCAGA
TTAGACCGAACAATGGAACAGATAGTCTTTCCCGTGCCCAGCATATGTGAATTCCTAACC
AAGGAGTCAAAACTACGAATTTACTATACTACAGAGAGAGACGAACAAGGCAGCAAAATC
AATGATTTCTTTCTGCGGTCTGAAGACCTCTTCAATGAAATGAATTGGCAGAAGAAACTG
AGAGCCCAGCCCGTGTTGTACTGGTGTGCCCGCAACATGTCTTTCTGGAGCAGCATTTCG
TTTAACCTGGCCGTCCTGATGAACCTGCTGGTGGCGTTTTTCTACCCGTTTAAGGGAGTC
CGAGGAGGAACCCTGGAGCCCCACTGGTCGGGACTCCTGTGGACAGCCATGCTCATCTCT
CTGGCCATCGTCATTGCCCTCCCCAAGCCCCATGGCATCCGGGCCTTAATTGCCTCCACA
ATTCTACGACTGATATTTTCAGTCGGGTTACAACCCACGTTGTTTCTTCTGGGCGCTTTC
AATGTATGCAATAAAATCATCTTTCTAATGAGCTTTGTGGGCAACTGTGGGACATTCACA
AGAGGCTACCGAGCCATGGTTCTGGATGTTGAGTTCCTCTATCATTTGTTGTATCTGGTG
ATCTGTGCCATGGGGCTCTTTGTCCATGAATTCTTCTACAGTCTGCTGCTTTTTGATTTA
GTGTACAGAGAAGAGACTTTGCTTAATGTCATTAAAAGTGTCACTCGCAATGGACGGTCC
ATCATCCTGACAGCAGTTCTGGCTCTGATCCTCGTTTACCTGTTCTCAATAGTGGGCTAT
CTTTTCTTCAAGGATGACTTTATCTTGGAAGTAGATAGGCTGCCCAATGAAACAGCTGTT
CCAGAAACCGGCGAGAGTTTGGCAAGCGAGTTCCTGTTCTCCGATGTGTGTAGGGTGGAG
AGTGGGGAGAACTGCTCCTCTCCTGCACCCAGAGAAGAGCTGGTCCCTGCAGAAGAGACG
GAACAGGATAAAGAGCACACATGTGAGACGCTGCTGATGTGCATTGTCACTGTGCTGAGT
CACGGGCTGCGGAGCGGGGGTGGAGTAGGAGATGTACTCAGGAAGCCGTCCAAAGAGGAA
CCCCTGTTTGCTGCTAGAGTTATTTATGACCTCTTGTTCTTCTTCATGGTCATCATCATT
GTTCTTAACCTGATTTTTGGGGTTATCATTGACACTTTTGCTGACCTGAGGAGTGAGAAG
CAGAAGAAGGAAGAGATCTTGAAGACCACGTGCTTTATCTGTGGCTTGGAAAGAGACAAG
TTTGACAACAAGACTGTCACCTTTGAAGAGCACATCAAGGAAGAACACAACATGTGGCAC
TATCTGTGCTTCATCGTCCTGGTGAAAGTAAAGGACTCCACCGAATATACTGGGCCTGAG
AGTTACGTGGCAGAAATGATCAAGGAAAGAAACCTTGACTGGTTCCCCAGGATGAGAGCC
ATGTCATTGGTCAGCAGTGATTCTGAAGGAGAACAGAATGAGCTGAGAAACCTGCAGGAG
AAGCTGGAGTCCACCATGAAACTTGTCACGAACCTTTCTGGCCAGCTGTCGGAATTAAAG
GATCAGATGACAGAACAAAGGAAGCAGAAACAAAGAATTGGTCTTCTAGGACATCCTCCT
CACATGAATGTCAACCCACAACAACCAGCATAA
GenBank Gene IDNot Available
GeneCard IDNot Available
GenAtlas IDNot Available
HGNC IDHGNC:6180
Chromosome Location3
LocusNot Available
References
  1. Yamada N, Makino Y, Clark RA, Pearson DW, Mattei MG, Guenet JL, Ohama E, Fujino I, Miyawaki A, Furuichi T, et al.: Human inositol 1,4,5-trisphosphate type-1 receptor, InsP3R1: structure, function, regulation of expression and chromosomal localization. Biochem J. 1994 Sep 15;302 ( Pt 3):781-90. 7945203
  2. Harnick DJ, Jayaraman T, Ma Y, Mulieri P, Go LO, Marks AR: The human type 1 inositol 1,4,5-trisphosphate receptor from T lymphocytes. Structure, localization, and tyrosine phosphorylation. J Biol Chem. 1995 Feb 10;270(6):2833-40. 7852357
  3. Nucifora FC Jr, Li SH, Danoff S, Ullrich A, Ross CA: Molecular cloning of a cDNA for the human inositol 1,4,5-trisphosphate receptor type 1, and the identification of a third alternatively spliced variant. Brain Res Mol Brain Res. 1995 Sep;32(2):291-6. 7500840
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  9. Olsen JV, Blagoev B, Gnad F, Macek B, Kumar C, Mortensen P, Mann M: Global, in vivo, and site-specific phosphorylation dynamics in signaling networks. Cell. 2006 Nov 3;127(3):635-48. 17081983
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  11. Antl M, von Bruhl ML, Eiglsperger C, Werner M, Konrad I, Kocher T, Wilm M, Hofmann F, Massberg S, Schlossmann J: IRAG mediates NO/cGMP-dependent inhibition of platelet aggregation and thrombus formation. Blood. 2007 Jan 15;109(2):552-9. Epub 2006 Sep 21. 16990611
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