The interaction of beta-arrestin with the AP-2 adaptor is required for the clustering of beta 2-adrenergic receptor into clathrin-coated pits
about
Role of the AP2 beta-appendage hub in recruiting partners for clathrin-coated vesicle assemblyFollicle-stimulating hormone (FSH) activates extracellular signal-regulated kinase phosphorylation independently of beta-arrestin- and dynamin-mediated FSH receptor internalizationFunctional dissection of an AP-2 beta2 appendage-binding sequence within the autosomal recessive hypercholesterolemia proteinARH is a modular adaptor protein that interacts with the LDL receptor, clathrin, and AP-2The ubiquitin-like protein PLIC-2 is a negative regulator of G protein-coupled receptor endocytosis.Beta-arrestin1 phosphorylation by GRK5 regulates G protein-independent 5-HT4 receptor signallingNormal light response, photoreceptor integrity, and rhodopsin dephosphorylation in mice lacking both protein phosphatases with EF hands (PPEF-1 and PPEF-2)Clathrin-dependent endocytosisPACS-1 binding to adaptors is required for acidic cluster motif-mediated protein traffic.Disabled-2 exhibits the properties of a cargo-selective endocytic clathrin adaptorbeta-Arrestins bind and decrease cell-surface abundance of the Na+/H+ exchanger NHE5 isoformPhosphorylation-independent desensitization of GABA(B) receptor by GRK4The emerging roles of β-arrestins in fibrotic diseasesMultifaceted role of β-arrestins in inflammation and diseaseEndocytic trafficking of chemokine receptorsStructure of an Arrestin2-Clathrin Complex Reveals a Novel Clathrin Binding Domain That Modulates Receptor TraffickingRecruitment of the ESCRT machinery to a putative seven-transmembrane-domain receptor is mediated by an arrestin-related protein.Differential roles of arrestin-2 interaction with clathrin and adaptor protein 2 in G protein-coupled receptor traffickingAgonist-induced internalization of the platelet-activating factor receptor is dependent on arrestins but independent of G-protein activation. Role of the C terminus and the (D/N)PXXY motifbeta-Arrestin/AP-2 interaction in G protein-coupled receptor internalization: identification of a beta-arrestin binging site in beta 2-adaptinbeta-Arrestin-mediated ADP-ribosylation factor 6 activation and beta 2-adrenergic receptor endocytosisN-formyl peptide receptor 3 (FPR3) departs from the homologous FPR2/ALX receptor with regard to the major processes governing chemoattractant receptor regulation, expression at the cell surface, and phosphorylationLigand-specific endocytic dwell times control functional selectivity of the cannabinoid receptor 1Role of the proline-rich domain of dynamin-2 and its interactions with Src homology 3 domains during endocytosis of the AT1 angiotensin receptorRegulation of GPCR activity, trafficking and localization by GPCR-interacting proteins.A single common portal for clathrin-mediated endocytosis of distinct cargo governed by cargo-selective adaptors.Regulated trafficking of neurotransmitter transporters: common notes but different melodies.Simulations of biased agonists in the β(2) adrenergic receptor with accelerated molecular dynamics.Molecular characterization of arrestin family members in the malaria vector mosquito, Anopheles gambiae.The dynamin-dependent, arrestin-independent internalization of 5-hydroxytryptamine 2A (5-HT2A) serotonin receptors reveals differential sorting of arrestins and 5-HT2A receptors during endocytosis.Genetic analysis of the neuronal and ubiquitous AP-3 adaptor complexes reveals divergent functions in brain.Development of small molecules targeting the Wnt pathway for the treatment of colon cancer: a high-throughput screening approach.Seven transmembrane receptors as shapeshifting proteins: the impact of allosteric modulation and functional selectivity on new drug discovery.Beyond desensitization: physiological relevance of arrestin-dependent signaling.Widespread organisation of C. elegans genes into operons: fact or function?Role of AMPA receptor endocytosis in synaptic plasticity.beta-Arrestin-dependent constitutive internalization of the human chemokine decoy receptor D6.The glucagon-like peptide-2 receptor C terminus modulates beta-arrestin-2 association but is dispensable for ligand-induced desensitization, endocytosis, and G-protein-dependent effector activation.Comparison of the kinetics and extent of muscarinic M1-M5 receptor internalization, recycling and downregulation in Chinese hamster ovary cellsBeta-arrestin and Mdm2, unsuspected partners in signaling from the cell surface.
P2860
Q21092775-1007E1E9-F036-45A6-8C3E-B1C89CDD9956Q21245556-D3768F80-E93C-4FFE-BE52-669BEFB2AC8FQ24296418-4D71DBBA-D021-4BDB-B7D1-A39698FAFAC8Q24306476-C8CFC251-6DBA-4D06-9BA1-A77D3FDE8970Q24306610-52219B9C-93FD-4596-BD8E-36463C8887B4Q24321629-2E4DFBAA-3032-40E9-A7D2-B6458541CC2DQ24514484-4339E9E4-7FD4-435E-92A6-DE4EF5D119E6Q24530597-6A2D8B12-38EA-4AAD-85A7-2641B0D81715Q24534392-F60ECADF-5601-477B-8BC0-61AC053A5691Q24534474-560FDA23-0B5F-4324-94AB-671FC48B3DDBQ24556620-3850CC31-405B-42A9-AD9B-481B6E5807FAQ24671065-3B5FF599-4F5C-4D4F-A961-8043846D47F7Q26783047-4D12A4BE-5599-41F7-A78E-436C3399A018Q26785883-BE806BCB-BBAC-422A-AFF7-8828CF433D8CQ27008073-00C5BD7B-7157-4C07-932D-64A80FC5CD98Q27657193-360E6F5F-2F39-4DD1-B129-B1473067DDC4Q27929968-2DE9BC48-8B81-4C31-BDFD-099308924B6FQ28205243-3914CCDA-AF90-4C8A-B9E8-1B0E672615ACQ28208189-2574378E-DE94-42C0-AA41-CDA867A78296Q28214555-8DD4B118-1B47-4E6E-9FCB-B7337A178109Q28215045-B40FA0F0-15D8-4966-AE75-565C0B1EEA1CQ28236731-7EA5EA19-3DC8-4A3F-9AB6-AE80AF2AF71BQ28245037-46E5CD9C-AD26-4657-9100-7DB787DE4858Q28582705-F45B2BE6-86BA-4D29-AD65-329B8A23B3DFQ30010478-136A7C25-B509-4761-9588-E058CE40AAE7Q30478248-F68E785B-D7E9-4651-BA08-F6D24C29FB73Q30539952-3A54193E-A907-49C6-B072-569B6D3A2FA4Q30544125-E28639EC-2639-4081-A275-55A2324345BEQ31051248-DD2A6ECE-83C1-404F-BF3D-4570E7292EB6Q31538116-7D9E41FC-151D-4F47-91C4-3512CA15B54FQ33564499-445A74A7-BD1F-4B63-8CB8-32AAB1894F5AQ33589705-5C34CC86-E94D-4D2B-B335-E226AAAB56DEQ33890786-FE4DB785-4A78-427B-BAAF-749276757458Q33890802-98BA05ED-A0B4-4625-A3AE-9AC116B86496Q34155069-2E833300-B913-464B-A8E7-487AD54916CCQ34238072-74433966-B0BD-4A98-8344-2A8D434B6333Q34313590-3228D5B1-A874-456A-9BD8-DE6DEDEBE61AQ34409674-7BA47E58-66A8-48B7-9C39-7D0011E10920Q34422956-9FB2BC98-0CF3-4328-95DE-45480404C24BQ34450017-085ECAF5-F80C-4A40-B104-612CD46D2A6B
P2860
The interaction of beta-arrestin with the AP-2 adaptor is required for the clustering of beta 2-adrenergic receptor into clathrin-coated pits
description
2000 nî lūn-bûn
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2000 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
2000 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
2000年の論文
@ja
2000年論文
@yue
2000年論文
@zh-hant
2000年論文
@zh-hk
2000年論文
@zh-mo
2000年論文
@zh-tw
2000年论文
@wuu
name
The interaction of beta-arrest ...... ptor into clathrin-coated pits
@ast
The interaction of beta-arrest ...... ptor into clathrin-coated pits
@en
The interaction of beta-arrest ...... ptor into clathrin-coated pits
@nl
type
label
The interaction of beta-arrest ...... ptor into clathrin-coated pits
@ast
The interaction of beta-arrest ...... ptor into clathrin-coated pits
@en
The interaction of beta-arrest ...... ptor into clathrin-coated pits
@nl
prefLabel
The interaction of beta-arrest ...... ptor into clathrin-coated pits
@ast
The interaction of beta-arrest ...... ptor into clathrin-coated pits
@en
The interaction of beta-arrest ...... ptor into clathrin-coated pits
@nl
P2093
P2860
P356
P1476
The interaction of beta-arrest ...... ptor into clathrin-coated pits
@en
P2093
P2860
P304
P356
10.1074/JBC.M002581200
P407
P577
2000-07-28T00:00:00Z