Agonist-dependent recruitment of phosphoinositide 3-kinase to the membrane by beta-adrenergic receptor kinase 1. A role in receptor sequestration. - Wikidata - wikimedia - TriplyDB

Agonist-dependent recruitment of phosphoinositide 3-kinase to the membrane by beta-adrenergic receptor kinase 1. A role in receptor sequestration.

Agonist-dependent recruitment of phosphoinositide 3-kinase to the membrane by beta-adrenergic receptor kinase 1. A role in receptor sequestration.

http://www.wikidata.org/entity/Q40819745

about

GRK2: multiple roles beyond G protein-coupled receptor desensitization Phosphorylation-independent desensitization of GABA(B) receptor by GRK4 Beta-arrestins: multifunctional cellular mediators Association of PI3K-Akt signaling pathway with digitalis-induced hypertrophy of cardiac myocytes Endocytosis machinery is required for beta1-adrenergic receptor-induced hypertrophy in neonatal rat cardiac myocytes G-protein-coupled receptor kinase interactor-1 (GIT1) is a new endothelial nitric-oxide synthase (eNOS) interactor with functional effects on vascular homeostasis.Intermittent pressure overload triggers hypertrophy-independent cardiac dysfunction and vascular rarefaction.Identification and characterization of the autophosphorylation sites of phosphoinositide 3-kinase isoforms beta and gamma.Protein kinase activity of phosphoinositide 3-kinase regulates beta-adrenergic receptor endocytosis.Determinants Present in the Receptor Carboxy Tail Are Responsible for Differences in Subtype-Specific Coupling of beta-Adrenergic Receptors to Phosphoinositide 3-Kinase.G-protein-coupled-receptor kinases mediate TNFα-induced NFκB signalling via direct interaction with and phosphorylation of IκBα.beta-Arrestin-dependent activation of Ca(2+)/calmodulin kinase II after beta(1)-adrenergic receptor stimulation.Mechanisms of regulation and function of G-protein-coupled receptor kinases G protein-coupled receptor signalling in in vivo cardiac overload.Targeting G protein-coupled receptor kinases (GRKs) in Heart Failure.Diversity of G protein-coupled receptor signaling pathways to ERK/MAP kinase Β-arrestin: a signaling molecule and potential therapeutic target for heart failure.Phosphorylation-independent desensitization of G protein-coupled receptors?Multiple signalling pathways involved in beta2-adrenoceptor-mediated glucose uptake in rat skeletal muscle cells.PI3Kγ within a nonhematopoietic cell type negatively regulates diet-induced thermogenesis and promotes obesity and insulin resistance.A-kinase anchoring proteins: scaffolding proteins in the heart.G protein-coupled receptor kinases: more than just kinases and not only for GPCRs Defective Resensitization in Human Airway Smooth Muscle Cells Evokes β-Adrenergic Receptor Dysfunction in Severe Asthma Cardiac GPCRs: GPCR signaling in healthy and failing hearts.The evolving impact of g protein-coupled receptor kinases in cardiac health and disease Inhibitors of phosphoinositide 3-kinase cause defects in the postendocytic sorting of beta2-adrenergic receptors.Differential PI 3-kinase dependence of early and late phases of recycling of the internalized AT1 angiotensin receptor.Phosphoinositide 3-kinase regulates beta2-adrenergic receptor endocytosis by AP-2 recruitment to the receptor/beta-arrestin complex Role of beta-adrenergic receptor signaling and desensitization in heart failure: new concepts and prospects for treatment.Bidirectional cross-regulation between ErbB2 and β-adrenergic signalling pathways.IL-8 inhibits cAMP-stimulated alveolar epithelial fluid transport via a GRK2/PI3K-dependent mechanism.Cardiac beta-adrenergic signaling: from subcellular microdomains to heart failure.The G-protein-coupled receptor kinase 5 inhibits NFkappaB transcriptional activity by inducing nuclear accumulation of IkappaB alpha Adrenergic signaling and oxidative stress: a role for sirtuins?beta-Arrestin mediates beta1-adrenergic receptor-epidermal growth factor receptor interaction and downstream signaling.Cross-regulation between beta 1- and beta 3-adrenoceptors following chronic beta-adrenergic stimulation in neonatal rat cardiomyocytes.The GRK2 Overexpression Is a Primary Hallmark of Mitochondrial Lesions during Early Alzheimer Disease.Taking the heart failure battle inside the cell: small molecule targeting of Gβγ subunits Specific PI3K isoform modulation in heart failure: lessons from transgenic mice.Regulation of β-adrenergic receptor function: an emphasis on receptor resensitization.

P2860

Q24624571-73B23EAC-EC2E-44AF-B843-97AD6DCD9EFF Q24671065-B990840A-83A7-49F6-B287-84BAF27ABCEE Q28268438-A3282787-D2BC-47D0-AED7-CBAB7E2E14CB Q28566041-16A81843-EED6-4B7A-958B-F22D12C94049 Q28578076-79064836-31C7-4650-863A-B9A48B4FE22A Q30420056-14C692B9-55E0-4BF8-BD9D-1C11BF7EAB64 Q30477341-D997FCCB-FDE7-4937-AA40-F5A0C6177D98 Q31122634-2946A0BE-2285-4C78-8F2D-AAD1F3015F65 Q33221546-75A7530A-15B0-4ABB-AFD9-D23FE8A8B297 Q33602615-99AE8137-54C6-4C76-A40E-92636321B36F Q33795250-64FDB08A-829B-424B-BB87-05FDFD0C9690 Q33840022-3DB22135-52DD-44AC-BE6C-D06CB208D349 Q33866666-2A029467-034A-4C39-BBA9-ED5704A13843 Q34418959-74FF4AEA-D11D-4D2D-8B43-E8016AD23B39 Q34460199-01401F71-0617-45AC-8FC5-534936DADC76 Q34594482-77F112B6-6470-4C6B-BC37-E22C1D11A435 Q34716806-9C8F7E8A-79FA-4AC2-83D4-A3665A554358 Q34953549-CAE0E9D9-D543-473F-AA0F-FB8701B38052 Q35100664-17D72901-8E2F-4ABF-9C29-B613F0C77364 Q35409635-65284F76-62E2-405B-94A3-4C7078E94420 Q35543502-56900B61-3FCC-457D-AC0D-AA0F96E9B91D Q35621624-B59A0D97-DA8E-411B-B93A-FDCCE517C72F Q35645970-D6B36698-E0EE-41B6-8396-DBB2B5C97707 Q35842857-771AA3F1-7B2C-4E07-94E0-0822A0AE582D Q36000382-84B1ED06-BD1C-4680-97BA-354875BBD3B9 Q36082505-3F270C9B-93F3-4FE9-BD7E-D153D817E7C3 Q36324611-02448BDE-95E8-4EE3-AAB2-50C6162615B2 Q36325161-DEB5F4CF-1B67-44B7-8EB3-5BDA979F6FDC Q36484933-4F82AB5E-AD56-40BF-8532-01B2A30BBCB5 Q36575695-60BAAEBA-CD3B-4D95-9634-2EB735539F81 Q36615154-0421FB90-C933-45C1-A7F3-D266EF8CE02F Q36667350-B6F8FEB3-CEC1-4F1F-ADAA-578493B5FD04 Q36976809-8CD4B1C8-07DD-40E9-A585-8C038CCC81EB Q37289500-AAA2140A-7CE7-4A2B-AF79-A773639AF04A Q37339073-0B22B380-71F3-4287-8424-473ACB228961 Q37481273-97F74EB6-AE0C-4465-A62D-7526BE8BE058 Q37702799-446CEEC3-43EA-4787-8A7A-C52FB02A398E Q37831634-5EE23BF6-8601-4078-BF1C-D996D4546C70 Q37868990-62FDA54B-31D5-4221-A39F-5D6ECB0CCDC7 Q37951309-B025BBD2-E5D9-428D-8092-6359CD7D7D2D

P2860

Agonist-dependent recruitment of phosphoinositide 3-kinase to the membrane by beta-adrenergic receptor kinase 1. A role in receptor sequestration.

http://www.wikidata.org/entity/Q40819745

description

2001 nî lūn-bûn

@nan

2001年の論文

@ja

2001年論文

@yue

2001年論文

@zh-hant

2001年論文

@zh-hk

2001年論文

@zh-mo

2001年論文

@zh-tw

2001年论文

@wuu

2001年论文

@zh

2001年论文

@zh-cn

name

Agonist-dependent recruitment ...... ole in receptor sequestration.

@en

type

label

Agonist-dependent recruitment ...... ole in receptor sequestration.

@en

prefLabel

Agonist-dependent recruitment ...... ole in receptor sequestration.

@en

P1433

Q40819745-7B61E22E-8573-4C68-AA06-B5287296FDAF

P1476

Q40819745-F347AB2F-83D5-4CE8-A7B1-2E046FA8480A

P2093

Q40819745-15CAF771-3241-46FC-91B2-580F9E6EDF4D

Q40819745-2136B979-E4D5-498A-BFBE-701D7E7D6293

Q40819745-3026D7E1-98EC-483F-B090-07D8DD3CB38A

Q40819745-9D8CF326-3C54-4D96-AD23-FDF2BB5C3F13

Q40819745-BCA80273-46C7-4F08-BD98-8B0F8100F5F1

P2860

Q40819745-08FA239D-2A0E-4A6E-9C37-B57EC2B0FCD5

Q40819745-117C872A-9177-4675-9BA9-EE873D77EC37

Q40819745-23717A78-D0AB-4B71-AA5C-267DD02303CC

Q40819745-24E2F290-20B2-4A39-B907-E96E14F5FCD5

Q40819745-2E5CFD18-A259-4151-B9F6-A82048F0AB84

Q40819745-3BA1B3BB-1AE3-4DC4-87B6-D626BDC823E4

Q40819745-4C314405-FC36-42C7-8076-7D45C9AAEB44

Q40819745-4C9339A9-9DAF-477A-9D64-B7950AAFDF46

Q40819745-56904BE6-204C-4FA7-B65C-1E9D3B52F89B

Q40819745-6E54B992-1ED5-4F4D-AE68-DBBADFA5AA25

P304

Q40819745-30943851-3DEA-40FE-8FFA-A429A53A4AA9

P31

Q40819745-80C42D5C-462B-4729-AC8D-E427923373D9

P356

Q40819745-3C5BDC5C-B238-4C6C-8DCF-ACCFD81E7693

P407

Q40819745-27733FF3-8305-499C-AACB-6C47DD98D366

P433

Q40819745-1EF778C5-8FF1-4835-8CD6-A209E5C3CB97

P478

Q40819745-F067CF06-4A89-4AB8-B9AB-DCDFCB3F9517

P577

Q40819745-CAC8F764-0F97-48C6-8995-5E85A2D61401

P698

Q40819745-6959391E-A263-443D-8337-E1B8A3E1298C

P356

P1433

Journal of Biological Chemistry

P1476

Agonist-dependent recruitment ...... ole in receptor sequestration.

@en

P2093

Barak LS

http://www.w3.org/2001/XMLSchema#string

Caron MG

http://www.w3.org/2001/XMLSchema#string

Naga Prasad SV

http://www.w3.org/2001/XMLSchema#string

Rapacciuolo A

http://www.w3.org/2001/XMLSchema#string

Rockman HA

http://www.w3.org/2001/XMLSchema#string

P2860

The structure of the protein phosphatase 2A PR65/A subunit reveals the conformation of its 15 tandemly repeated HEAT motifs

Beta-arrestin-dependent formation of beta2 adrenergic receptor-Src protein kinase complexes

The beta2-adrenergic receptor/betaarrestin complex recruits the clathrin adaptor AP-2 during endocytosis

Structural view of the Ran-Importin beta interaction at 2.3 A resolution

G protein-coupled receptors. III. New roles for receptor kinases and beta-arrestins in receptor signaling and desensitization

Cardiac function in mice overexpressing the beta-adrenergic receptor kinase or a beta ARK inhibitor

The G beta gamma sensitivity of a PI3K is dependent upon a tightly associated adaptor, p101

The role of phosphoinositide 3-kinase lipid products in cell function.

Phosphoinositides in membrane traffic.

Functional consequences of altering myocardial adrenergic receptor signaling.

P304

18953-18959

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1074/JBC.M102376200

http://www.w3.org/2001/XMLSchema#string

P407

P433

22

http://www.w3.org/2001/XMLSchema#string

P478

276

http://www.w3.org/2001/XMLSchema#string

P577

2001-03-19T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P698

11259422

http://www.w3.org/2001/XMLSchema#string