about
The caveolin proteinsColocalization of insulin receptor and insulin receptor substrate-1 to caveolae in primary human adipocytes. Cholesterol depletion blocks insulin signalling for metabolic and mitogenic controlCell surface expression of human ether-a-go-go-related gene (hERG) channels is regulated by caveolin-3 protein via the ubiquitin ligase Nedd4-2Vectorial proteomics reveal targeting, phosphorylation and specific fragmentation of polymerase I and transcript release factor (PTRF) at the surface of caveolae in human adipocytesCaveolin-1 and -2 in airway epithelium: expression and in situ association as detected by FRET-CLSMA novel domain of caveolin-2 that controls nuclear targeting: regulation of insulin-specific ERK activation and nuclear translocation by caveolin-2The regulation of the cardiac potassium channel (HERG) by caveolin-1Inhibition of mitochondrial neural cell death pathways by protein transduction of Bcl-2 family proteinsE-cadherin is required for caveolin-1-mediated down-regulation of the inhibitor of apoptosis protein survivin via reduced beta-catenin-Tcf/Lef-dependent transcriptionCaveolin-1 mediates Salmonella invasion via the regulation of SopE-dependent Rac1 activation and actin reorganizationCD26 mediates dissociation of Tollip and IRAK-1 from caveolin-1 and induces upregulation of CD86 on antigen-presenting cellsCharacterization of the molecular architecture of human caveolin-3 and interaction with the skeletal muscle ryanodine receptorHeteromerization of G protein-coupled receptors: relevance to neurological disorders and neurotherapeutics.Membrane localization, Caveolin-3 association and rapid actions of vitamin D receptor in cardiac myocytesAn ultrasensitive sorting mechanism for EGF receptor endocytosisSpecialized Functional Diversity and Interactions of the Na,K-ATPaseCaveolae and Caveolin-1 Integrate Reverse Cholesterol Transport and Inflammation in AtherosclerosisStudying GPCR/cAMP pharmacology from the perspective of cellular structureKeeping Wnt signalosome in check by vesicular trafficCaV1.2 signaling complexes in the heartDefective interactions of protein partner with ion channels and transporters as alternative mechanisms of membrane channelopathiesRegulation of the cardiac sodium pumpThe cAMP-binding Popdc proteins have a redundant function in the heartMyocardin Family Members Drive Formation of CaveolaeInterphase adhesion geometry is transmitted to an internal regulator for spindle orientation via caveolin-1.PTRF/Cavin-1 Deficiency Causes Cardiac Dysfunction Accompanied by Cardiomyocyte Hypertrophy and Cardiac FibrosisCellular internalization of insulin-like growth factor binding protein-3: distinct endocytic pathways facilitate re-uptake and nuclear localizationCaveolin-1 interacts with 5-HT2A serotonin receptors and profoundly modulates the signaling of selected Galphaq-coupled protein receptorsRoles of caveolin-1 on anoikis resistance in non small cell lung cancerAnimal models of systemic sclerosis: their utility and limitations.SHP-2 binds to caveolin-1 and regulates Src activity via competitive inhibition of CSK in response to H2O2 in astrocytesCaveolin-1 abolishment attenuates the myogenic response in murine cerebral arteriesRedox-induced Src kinase and caveolin-1 signaling in TGF-β1-initiated SMAD2/3 activation and PAI-1 expressionRegulation of ATP-sensitive K+ channels by caveolin-enriched microdomains in cardiac myocytesA potential role for caveolin-1 in VEGF-induced fibronectin upregulation in mesangial cells: involvement of VEGFR2 and SrcSeparation and characterization of caveolae subclasses in the plasma membrane of primary adipocytes; segregation of specific proteins and functionsCaveolin-1 assembles type 1 inositol 1,4,5-trisphosphate receptors and canonical transient receptor potential 3 channels into a functional signaling complex in arterial smooth muscle cellsCaveolin-3 is adjacent to a group of extradyadic ryanodine receptorsNitric oxide inhibition of adenylyl cyclase type 6 activity is dependent upon lipid rafts and caveolin signaling complexesCaveolin-1 regulates the delivery and endocytosis of the glutamate transporter, excitatory amino acid carrier 1
P2860
Q21194854-60876885-3C62-4620-83E4-025DA3916566Q24295215-DF9AB2D3-2CD5-4E25-B027-911EF08FA04FQ24295274-D03AA8F0-7A46-46AC-8CD7-0FDEFBB193D0Q24298730-EDB261A3-6159-4F2B-A193-3DB6DD1D20C4Q24299621-6C02BFF3-8F5E-48FE-B5D0-D2E42AF23D10Q24311441-CD8A9653-C7FE-4E19-A1D1-D1010C933441Q24324091-423786F0-3F24-4F80-87E2-331CC8CA8D1DQ24324220-257F9D59-8274-45B7-B1D6-8B7CE2448FD0Q24338945-75420B73-5A15-47DB-AA05-5416E554B989Q24339100-BE877B0F-A4A0-4887-9CBA-066DF83F6D01Q24529963-3DC0AB3A-EBEF-4DD0-B78F-9C9217896893Q24608212-E1FBCC3A-9B70-4CA1-B7C0-D6915A2FFE22Q24630645-8D1DAD13-AAED-4A0D-A789-BBAF0699F14FQ24634220-FFD4D476-CEE4-408F-B7CE-EF6EA9F8048FQ24656546-8BDBE59B-684F-4D6F-B4A2-9D6ADB799096Q26744084-7EAC3F7A-CDB0-4125-B3E6-56C5BB77EF76Q26752101-7224F19E-C962-40E3-BB56-71A73AF04CBDQ26800056-EB9BAF75-5CC7-4D98-A620-5F5B7DAF646DQ26822956-58BD3B27-8070-4355-AAE4-6528766FF7AEQ26828050-860D1D0E-9039-4832-ABC6-C1C3C2EF06ECQ26866107-92548D4D-53D9-4A0C-BF2B-6DF99E749D1CQ27002929-9C2020B4-34A8-4B0E-BA2B-22376F6AEBD2Q27013977-05A30D7A-82C8-4E8B-B77C-51E013054664Q27301856-E8686D42-6D34-4C9D-B10E-97F9C28A763FQ27313566-0777AE8E-3700-4957-849A-632F9467BDE1Q27322991-078CD95A-FAF9-48B1-90B7-C80153C442E2Q28212205-989539C7-D233-41F3-ABCA-E9119F1BD544Q28266342-223ADFCC-7A83-4B14-A3C1-D1FC38E50F02Q28389527-67617A7D-E9B4-4F3D-BE50-B84EA8F14B49Q28390528-076182CB-0EEE-4425-9CBD-7ECC684E749CQ28397695-A43FE195-10E1-4997-BC7F-CE98417374E0Q28507559-0B4DDA7E-460A-420B-9CB8-0AAF25DA3C84Q28512285-531914BC-E603-40C1-954F-0F9A8413EB88Q28565128-8D31E2D7-BC7B-432C-9F34-91607A1C843DQ28567391-CB0AB309-3019-4394-AFD8-253E0F25D358Q28569580-3D4E19D9-10FB-48E6-B283-6F5DEBD3A6BEQ28570184-74CD39F3-496B-4B09-9B75-79D04DD0A82FQ28570247-E5004B20-F9B9-4106-82CA-217336320E3FQ28573679-6DE7705B-B804-4B60-82D9-C019D8BB6894Q28577050-07FFBE88-54A5-454B-8FD3-A0BDC1F4D447
P2860
description
2002 nî lūn-bûn
@nan
2002 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2002 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2002年の論文
@ja
2002年論文
@yue
2002年論文
@zh-hant
2002年論文
@zh-hk
2002年論文
@zh-mo
2002年論文
@zh-tw
2002年论文
@wuu
name
Caveolae: from cell biology to animal physiology.
@ast
Caveolae: from cell biology to animal physiology.
@en
Caveolae: from cell biology to animal physiology.
@nl
type
label
Caveolae: from cell biology to animal physiology.
@ast
Caveolae: from cell biology to animal physiology.
@en
Caveolae: from cell biology to animal physiology.
@nl
prefLabel
Caveolae: from cell biology to animal physiology.
@ast
Caveolae: from cell biology to animal physiology.
@en
Caveolae: from cell biology to animal physiology.
@nl
P356
P1476
Caveolae: from cell biology to animal physiology.
@en
P2093
Babak Razani
Scott E Woodman
P304
P356
10.1124/PR.54.3.431
P577
2002-09-01T00:00:00Z