Localization of inositol 1,4,5-trisphosphate receptor-like protein in plasmalemmal caveolae.
about
Proteomic analysis of a detergent-resistant membrane skeleton from neutrophil plasma membranesThe human type 1 inositol 1,4,5-trisphosphate receptor from T lymphocytes. Structure, localization, and tyrosine phosphorylationNa/K-ATPase tethers phospholipase C and IP3 receptor into a calcium-regulatory complexFc epsilon RI-mediated recruitment of p53/56lyn to detergent-resistant membrane domains accompanies cellular signalingCentriolar satellites: molecular characterization, ATP-dependent movement toward centrioles and possible involvement in ciliogenesisDefective interactions of protein partner with ion channels and transporters as alternative mechanisms of membrane channelopathiesThe TR (i)P to Ca²⁺ signaling just got STIMy: an update on STIM1 activated TRPC channelsProtein 4.1N is required for translocation of inositol 1,4,5-trisphosphate receptor type 1 to the basolateral membrane domain in polarized Madin-Darby canine kidney cellsCloning and expression of the human transient receptor potential 4 (TRP4) gene: localization and functional expression of human TRP4 and TRP3Caveolin-3 associates with developing T-tubules during muscle differentiationT-cadherin is a major glycophosphoinositol-anchored protein associated with noncaveolar detergent-insoluble domains of the cardiac sarcolemmaIntracellular signal transduction during gastrin-induced histamine secretion in rat gastric ECL cellsLocalization of cardiac L-type Ca(2+) channels to a caveolar macromolecular signaling complex is required for beta(2)-adrenergic regulationCaveolin-1(-/-)- and caveolin-2(-/-)-deficient mice both display numerous skeletal muscle abnormalities, with tubular aggregate formationTargeting of nitric oxide synthase to endothelial cell caveolae via palmitoylation: implications for nitric oxide signalingLipid rafts serve as signaling platforms for mGlu1 receptor-mediated calcium signaling in association with caveolinEndothelin-1 suppresses plasma membrane Ca++-ATPase, concomitant with contraction of hepatic sinusoidal endothelial fenestraeEndothelial Ca2+ waves preferentially originate at specific loci in caveolin-rich cell edges.The rotavirus enterotoxin NSP4 directly interacts with the caveolar structural protein caveolin-1Caveolae and calcium handling, a review and a hypothesisalpha1-adrenoceptor stimulation potentiates L-type Ca2+ current through Ca2+/calmodulin-dependent PK II (CaMKII) activation in rat ventricular myocytes.Role of dystrophin in airway smooth muscle phenotype, contraction and lung function.Signaling epicenters: the role of caveolae and caveolins in volatile anesthetic induced cardiac protection.Caveolin 3 is associated with the calcium release complex and is modified via in vivo triadin modification.An inositol 1,4,5-trisphosphate receptor-dependent cation entry pathway in DT40 B lymphocytes.Defining a new paradigm for human arrhythmia syndromes: phenotypic manifestations of gene mutations in ion channel- and transporter-associated proteins.Cardioprotective trafficking of caveolin to mitochondria is Gi-protein dependent.Role of caveolae in cardiac protection.Caveolae from luminal plasmalemma of rat lung endothelium: microdomains enriched in caveolin, Ca(2+)-ATPase, and inositol trisphosphate receptor.Transcytosis in the continuous endothelium of the myocardial microvasculature is inhibited by N-ethylmaleimide.Caveolins in cardioprotection - translatability and mechanismsRole of caveolin-3 in lymphocyte activation.Function of caveolae in Ca2+ entry and Ca2+-dependent signal transduction.Localization of inositol trisphosphate receptor subtype 3 to insulin and somatostatin secretory granules and regulation of expression in islets and insulinoma cells.Signal transduction of a G protein-coupled receptor in caveolae: colocalization of endothelin and its receptor with caveolin.Regulation of the uterine contractile apparatus and cytoskeleton.Update on vascular endothelial Ca(2+) signalling: A tale of ion channels, pumps and transportersInhibition of cAMP-Dependent PKA Activates β2-Adrenergic Receptor Stimulation of Cytosolic Phospholipase A2 via Raf-1/MEK/ERK and IP3-Dependent Ca2+ Signaling in Atrial Myocytes.Signal transducing molecules and glycosyl-phosphatidylinositol-linked proteins form a caveolin-rich insoluble complex in MDCK cells.Calcium pump of the plasma membrane is localized in caveolae.
P2860
Q24305493-3BA880F2-037D-40ED-B81E-CB6EADB76D61Q24313145-C7852581-55A0-4B86-8160-B840BD8D017EQ24530605-CB213D92-7C24-410A-8DDD-0AC93909D49AQ24562773-4774CE1D-ABF3-45ED-9AD2-A8D000D337C7Q24680892-8B5F0E91-AA48-435F-8749-4E2C0F176255Q26866107-86E85C60-E99B-4B57-93C9-5FEEBB796B3AQ26997047-75AE58D3-C861-47A7-BFB7-3DAD3A1943F6Q28215497-C451A3ED-0D64-4A2B-ABC5-98F061E6DB3CQ28344881-FA6AE639-978E-48B4-9CB1-2ACC5023DCCEQ28511690-0522C49D-7A8C-4640-B464-C0168A20E9E6Q28564543-98293EBA-616C-45D6-9A5E-CB328E32A10AQ28570748-6DCECAFB-F882-4445-8B0B-DD5D72CACD02Q28587226-BF44C5A7-A941-45D0-BB6D-94B3ACA7DD34Q28590340-112615F7-0B3E-4A39-8203-4879BDF51C7FQ28609890-AF1E4777-CEE5-44CD-BB4F-AAB9F1CC07B1Q30572941-6574E80A-06E2-4448-A53B-9430DEFCE606Q30883488-6A56638A-C28F-48DC-8216-C55A312AEA84Q32066430-03DA2ECC-675F-4981-B7A4-15EC36D82259Q33234749-E4A6CDEB-A5A3-4F4C-BDA8-8606EEA35E30Q33247811-B09285CD-6CCD-4DC9-A028-A34F20E2AF5BQ33879031-1ED3499D-CFE7-4D93-AB65-DC9799D12B92Q33939933-6050CFC7-1269-47F7-BD46-13356F1A3A2EQ33993790-B824D896-8C32-42C0-94B7-09CB5A8487A5Q34007314-BCD85A3B-D22B-41AB-B564-DBF0B1ACA45EQ34091197-0D900C3E-F1B0-45DE-81F0-40846EEE0E56Q34095165-82191BD6-0D62-40FD-BA90-20CE0C0FD6E6Q34449891-81A8767E-0337-420C-9404-24CBAC2D35D6Q34634634-7A2D4CB6-131D-4655-B914-86F1F1212CECQ34657388-24CD00D4-0901-4865-95C5-8D3CDD49B03EQ35150132-D1813219-F40E-47D4-992A-5180D092C2DDQ35286413-1B2D4F33-F4DC-4E37-BF56-B4A8A3B54BF9Q35541260-93A2CDA5-4E5F-4FBD-B33B-418F26DEA591Q35583679-DC175388-06B6-4B2C-AFEB-F9F1BA234356Q35663641-01739715-8805-40E5-A584-E6F390FE7F41Q35933073-1117A655-9E4C-49BF-904A-E0D0826A63FAQ36026689-6511397D-142C-4D8A-94EB-8579B044B6E0Q36170493-D35E746D-F830-4A3D-965E-A20990A9AE35Q36225196-31401350-DB1F-4628-8D15-586E580F2E2FQ36232566-0BFF1CF1-40A8-4A09-BD76-FA9CFF83A980Q36233042-FC78BE05-8387-42EE-BCBF-12DBF5D95061
P2860
Localization of inositol 1,4,5-trisphosphate receptor-like protein in plasmalemmal caveolae.
description
1992 nî lūn-bûn
@nan
1992年の論文
@ja
1992年論文
@yue
1992年論文
@zh-hant
1992年論文
@zh-hk
1992年論文
@zh-mo
1992年論文
@zh-tw
1992年论文
@wuu
1992年论文
@zh
1992年论文
@zh-cn
name
Localization of inositol 1,4,5 ...... tein in plasmalemmal caveolae.
@ast
Localization of inositol 1,4,5 ...... tein in plasmalemmal caveolae.
@en
type
label
Localization of inositol 1,4,5 ...... tein in plasmalemmal caveolae.
@ast
Localization of inositol 1,4,5 ...... tein in plasmalemmal caveolae.
@en
prefLabel
Localization of inositol 1,4,5 ...... tein in plasmalemmal caveolae.
@ast
Localization of inositol 1,4,5 ...... tein in plasmalemmal caveolae.
@en
P2093
P2860
P356
P1476
Localization of inositol 1,4,5 ...... tein in plasmalemmal caveolae.
@en
P2093
P2860
P304
P356
10.1083/JCB.119.6.1507
P407
P577
1992-12-01T00:00:00Z