AP180 and AP-2 interact directly in a complex that cooperatively assembles clathrin
about
Clathrin- and AP-2-binding sites in HIP1 uncover a general assembly role for endocytic accessory proteinsThe PICALM protein plays a key role in iron homeostasis and cell proliferationEps15 homology domain-NPF motif interactions regulate clathrin coat assembly during synaptic vesicle recyclingClathrin-dependent endocytosisSMAP2, a novel ARF GTPase-activating protein, interacts with clathrin and clathrin assembly protein and functions on the AP-1-positive early endosome/trans-Golgi networkThe structure and function of the beta 2-adaptin appendage domainPhosphorylation of the vesicle-tethering protein p115 by a casein kinase II-like enzyme is required for Golgi reassembly from isolated mitotic fragmentsIdentification of contractile vacuole proteins in Trypanosoma cruziTandem arrangement of the clathrin and AP-2 binding domains in amphiphysin 1 and disruption of clathrin coat function by amphiphysin fragments comprising these sitesThe interaction of beta-arrestin with the AP-2 adaptor is required for the clustering of beta 2-adrenergic receptor into clathrin-coated pitsHrs-2 regulates receptor-mediated endocytosis via interactions with Eps15Molecular and functional characterization of clathrin- and AP-2-binding determinants within a disordered domain of auxilinThe ENTH domainAP180 maintains the distribution of synaptic and vesicle proteins in the nerve terminal and indirectly regulates the efficacy of Ca2+-triggered exocytosisHuntingtin interacting protein 1 (HIP1) regulates clathrin assembly through direct binding to the regulatory region of the clathrin light chainDisruption of the endocytic protein HIP1 results in neurological deficits and decreased AMPA receptor traffickingHigh-resolution localization of clathrin assembly protein AP180 in the presynaptic terminals of mammalian neuronsAnalysis of protein phosphorylation in nerve terminal reveals extensive changes in active zone proteins upon exocytosisUnusual structural organization of the endocytic proteins AP180 and epsin 1AP180-mediated trafficking of Vamp7B limits homotypic fusion of Dictyostelium contractile vacuolesInteraction of two structurally distinct sequence types with the clathrin terminal domain beta-propeller.Phosphorylation by Dyrk1A of clathrin coated vesicle-associated proteins: identification of the substrate proteins and the effects of phosphorylation.The Biochemical Properties and Functions of CALM and AP180 in Clathrin Mediated Endocytosis.CVAK104 is a novel poly-L-lysine-stimulated kinase that targets the beta2-subunit of AP2.Vesicular protein transport.Systems biology and physical biology of clathrin-mediated endocytosis.The monomeric clathrin assembly protein, AP180, regulates contractile vacuole size in Dictyostelium discoideumThe ∼ 16 kDa C-terminal sequence of clathrin assembly protein AP180 is essential for efficient clathrin binding.A Novel Sequence in AP180 and CALM Promotes Efficient Clathrin Binding and Assembly.Does O-GlcNAc play a role in neurodegenerative diseases?Aggregatibacter actinomycetemcomitans leukotoxin induces cytosol acidification in LFA-1 expressing immune cells.AP2 hemicomplexes contribute independently to synaptic vesicle endocytosis.Unraveling protein-protein interactions in clathrin assemblies via atomic force spectroscopy.A role for an Hsp70 nucleotide exchange factor in the regulation of synaptic vesicle endocytosis.Micellization model for the polymerization of clathrin baskets.Turning CALM into excitement: AP180 and CALM in endocytosis and disease.The Sybtraps: control of synaptobrevin traffic by synaptophysin, α-synuclein and AP-180.Dynamic interactions between clathrin and locally structured elements in a disordered protein mediate clathrin lattice assemblyPotential role for a novel AP180-related protein during endocytosis in MDCK cells.Role of Phosphorylation in the Control of Clathrin-Mediated Internalization of GPCR.
P2860
Q24291738-5A630380-5259-49C0-9D2E-0E4937AB981BQ24298166-0B058CCA-C1B8-458F-A779-26320C281047Q24305171-1F72165D-35B1-4261-93DC-F7B218C2B46FQ24530597-0AF78163-441E-4921-B9B5-71CD2C518A59Q24547962-3CDEB83E-76FF-4F5F-ABB0-9F9D092D7666Q24599597-48A8E85C-6A08-4FB9-8B32-CBA7935A7CE2Q24685922-C0F2F33F-853A-4F27-8C99-DC242B6DEE73Q27349403-F2D8283F-CBE1-4740-B30D-CB3A92676486Q28140776-BBA0EF0C-DB1F-49BD-B225-9D0E16EF688AQ28142257-10F0B4B0-93A2-4595-B682-AC0C90953955Q28144349-D711829D-ABFE-45ED-8D5B-72BF4C73F935Q28202717-F2D073A3-29F0-4933-B12A-721FFA367F55Q28209625-644C0A22-DD9A-4D8B-980C-231A5EDD92CBQ28250132-E3F73221-76E7-4B80-B4A4-2C13BCB0878DQ28292291-C5E176CF-9050-4A94-816A-CAC8156EEA56Q28510810-698B02CF-7C52-4423-A7FC-3AAC71882228Q28582636-102D86D9-D6E4-4CAB-A789-3A210D92CA69Q28828903-75BABE0E-9167-47B3-B243-A54355D665D7Q28909703-7A3D018C-3464-40BC-8C63-38ED86439665Q30490960-01507E43-7C5D-43F9-9434-588B727416C3Q33948992-C4116ECA-2A9C-4359-BF07-D76FA371EE66Q34238748-C4B90E05-E199-4771-A61C-8AF3E0ABD030Q34324323-B77160A3-0986-4846-B89F-D246483D2280Q34408813-EB95EC61-16B2-422E-A788-5D685ACE844EQ34574041-DC2E1FFA-0ECE-4DF4-9DE2-854556B45A39Q35156394-5471BD62-8B78-4FE6-A64F-9A373D394442Q35191034-A50DF90D-A462-4488-8623-091BA7E08565Q35348056-FE576606-8288-4621-BD1B-065133A18BAAQ36116662-00AA1BD1-6C37-442F-83FF-BE17DE8648C3Q36126486-24EDF0EE-0760-494A-9BC3-13FC1AD8F166Q36460084-23151078-45A6-49CF-850F-6809E91E31D7Q36666714-F9AA2972-8EB4-4763-B2C0-4F2F79AB86FBQ36718104-E782D6B1-0B62-42F7-A070-743311DF63D3Q37001350-1E2786C9-B0BB-4634-823B-8DB6E48E0656Q37203294-73C44799-CDBC-41F1-AD8B-1478370EF275Q38013774-54B84220-A068-4AB5-A610-E6F0264B454AQ38166437-C8CD9F7F-4487-45F3-AF3A-956144058D56Q38340554-395C7E73-2453-4B89-9698-F31AFBE3C1F2Q40628265-20B7DF8B-FECA-42B2-BD73-D967B53B82BBQ42148785-28DC4084-7C1F-4BFA-9A09-149F936CE904
P2860
AP180 and AP-2 interact directly in a complex that cooperatively assembles clathrin
description
1999 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
1999 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
article publié dans la revue scientifique Journal of Biological Chemistry
@fr
artículu científicu espublizáu en 1999
@ast
im August 1999 veröffentlichter wissenschaftlicher Artikel
@de
scientific journal article
@en
vedecký článok (publikovaný 1999/08/06)
@sk
vědecký článek publikovaný v roce 1999
@cs
wetenschappelijk artikel (gepubliceerd op 1999/08/06)
@nl
наукова стаття, опублікована в серпні 1999
@uk
name
AP180 and AP-2 interact directly in a complex that cooperatively assembles clathrin
@ast
AP180 and AP-2 interact directly in a complex that cooperatively assembles clathrin
@en
AP180 and AP-2 interact directly in a complex that cooperatively assembles clathrin
@nl
type
label
AP180 and AP-2 interact directly in a complex that cooperatively assembles clathrin
@ast
AP180 and AP-2 interact directly in a complex that cooperatively assembles clathrin
@en
AP180 and AP-2 interact directly in a complex that cooperatively assembles clathrin
@nl
prefLabel
AP180 and AP-2 interact directly in a complex that cooperatively assembles clathrin
@ast
AP180 and AP-2 interact directly in a complex that cooperatively assembles clathrin
@en
AP180 and AP-2 interact directly in a complex that cooperatively assembles clathrin
@nl
P2093
P2860
P3181
P356
P1476
AP180 and AP-2 interact directly in a complex that cooperatively assembles clathrin
@en
P2093
P2860
P304
22785–22794
P3181
P356
10.1074/JBC.274.32.22785
P407
P577
1999-08-06T00:00:00Z