ArfGAP1 dynamics and its role in COPI coat assembly on Golgi membranes of living cells. - Wikidata - thesis-toulmin - TriplyDB

ArfGAP1 dynamics and its role in COPI coat assembly on Golgi membranes of living cells.

ArfGAP1 dynamics and its role in COPI coat assembly on Golgi membranes of living cells.

http://www.wikidata.org/entity/Q36321532

about

GTPase activity and neuronal toxicity of Parkinson's disease-associated LRRK2 is regulated by ArfGAP1 Functional interaction of Parkinson's disease-associated LRRK2 with members of the dynamin GTPase superfamily SMAP2, a novel ARF GTPase-activating protein, interacts with clathrin and clathrin assembly protein and functions on the AP-1-positive early endosome/trans-Golgi network Hijacking components of the cellular secretory pathway for replication of poliovirus RNA COPI budding within the Golgi stack The BLOC-1 complex promotes endosomal maturation by recruiting the Rab5 GTPase-activating protein Msb3.Active Arf6 recruits ARNO/cytohesin GEFs to the PM by binding their PH domains.Diacylglycerol is required for the formation of COPI vesicles in the Golgi-to-ER transport pathway.The open reading frame 3a protein of severe acute respiratory syndrome-associated coronavirus promotes membrane rearrangement and cell death.ArfGAP1 generates an Arf1 gradient on continuous lipid membranes displaying flat and curved regions.Three homologous ArfGAPs participate in coat protein I-mediated transport.AlFx affects the formation of focal complexes by stabilizing the Arf-GAP ASAP1 in a complex with Arf1.The trypanosome transcriptome is remodelled during differentiation but displays limited responsiveness within life stages.Endoplasmic reticulum protein targeting of phospholamban: a common role for an N-terminal di-arginine motif in ER retention?ARFGAP2 and ARFGAP3 are essential for COPI coat assembly on the Golgi membrane of living cells.Proteomic analysis of adaptor protein 1A coats selectively assembled on liposomes.ARFGAP1 is dynamically associated with lipid droplets in hepatocytes Alix serves as an adaptor that allows human parainfluenza virus type 1 to interact with the host cell ESCRT system An evolving paradigm for the secretory pathway?Two human ARFGAPs associated with COP-I-coated vesicles.Golgicide A reveals essential roles for GBF1 in Golgi assembly and function Involvement of a novel ADP-ribosylation factor GTPase-activating protein, SMAP, in membrane trafficking: implications in cancer cell biology.Kinetic analysis of Arf GAP1 indicates a regulatory role for coatomer.Kinetic regulation of coated vesicle secretion.Discrete determinants in ArfGAP2/3 conferring Golgi localization and regulation by the COPI coat ADP-ribosylation factors regulate the development of CT signaling in immature human enterocytes.ARF1 at the crossroads of podosome construction and function.Differential roles of ArfGAP1, ArfGAP2, and ArfGAP3 in COPI trafficking.Cystic fibrosis transmembrane conductance regulator trafficking is mediated by the COPI coat in epithelial cells.9Å structure of the COPI coat reveals that the Arf1 GTPase occupies two contrasting molecular environments.GAPs in the context of COPI: Enzymes, coat components or both?A common mechanism for protein cluster formation.Protein-coat dynamics and cluster phases in intracellular trafficking.ArfGAP1 responds to membrane curvature through the folding of a lipid packing sensor motif.Profile of Jennifer Lippincott-Schwartz. Interview by Tinsley H. Davis.Recruitment of Arf1-GDP to Golgi by Glo3p-type ArfGAPs is crucial for golgi maintenance and plant growth.Topology of amphipathic motifs mediating Golgi localization in ArfGAP1 and its splice isoforms.The structure of the COPI coat determined within the cell.Crowd-Sourcing of Membrane Fission: How crowding of non-specialized membrane-bound proteins contributes to cellular membrane fission.A class I ADP-ribosylation factor GTPase-activating protein is critical for maintaining directional root hair growth in Arabidopsis.

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P2860

ArfGAP1 dynamics and its role in COPI coat assembly on Golgi membranes of living cells.

http://www.wikidata.org/entity/Q36321532

description

2005 nî lūn-bûn

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2005年の論文

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2005年学术文章

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2005年学术文章

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2005年学术文章

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2005年学术文章

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2005年学术文章

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2005年學術文章

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2005年學術文章

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2005年學術文章

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name

ArfGAP1 dynamics and its role in COPI coat assembly on Golgi membranes of living cells.

@ast

ArfGAP1 dynamics and its role in COPI coat assembly on Golgi membranes of living cells.

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type

label

ArfGAP1 dynamics and its role in COPI coat assembly on Golgi membranes of living cells.

@ast

ArfGAP1 dynamics and its role in COPI coat assembly on Golgi membranes of living cells.

@en

prefLabel

ArfGAP1 dynamics and its role in COPI coat assembly on Golgi membranes of living cells.

@ast

ArfGAP1 dynamics and its role in COPI coat assembly on Golgi membranes of living cells.

@en

P1433

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P1476

ArfGAP1 dynamics and its role in COPI coat assembly on Golgi membranes of living cells.

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P2093

Rainer Duden

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

Robert D Phair

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Wei Liu

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

P2860

Coupling of coat assembly and vesicle budding to packaging of putative cargo receptors

Brefeldin A acts to stabilize an abortive ARF-GDP-Sec7 domain protein complex: involvement of specific residues of the Sec7 domain

Beta-COP, a 110 kd protein associated with non-clathrin-coated vesicles and the Golgi complex, shows homology to beta-adaptin

The KDEL receptor, ERD2, regulates intracellular traffic by recruiting a GTPase-activating protein for ARF1

COP I domains required for coatomer integrity, and novel interactions with ARF and ARF-GAP

Maintenance of Golgi structure and function depends on the integrity of ER export

ARFGAP1 promotes the formation of COPI vesicles, suggesting function as a component of the coat

Functional reconstitution of COPI coat assembly and disassembly using chemically defined components

The ArfGAP Glo3 is required for the generation of COPI vesicles.

KDEL-cargo regulates interactions between proteins involved in COPI vesicle traffic: measurements in living cells using FRET

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1053-1063

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scholarly article

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10.1083/JCB.200410142

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7

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P478

168

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Jennifer Lippincott-Schwartz

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2005-03-01T00:00:00Z

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7941274

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15795316

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2171832

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