High-copy suppressor analysis reveals a physical interaction between Sec34p and Sec35p, a protein implicated in vesicle docking
about
The Golgin GMAP210/TRIP11 anchors IFT20 to the Golgi complexIdentification of a human orthologue of Sec34p as a component of the cis-Golgi vesicle tethering machinerySec34 is implicated in traffic from the endoplasmic reticulum to the Golgi and exists in a complex with GTC-90 and ldlBpCharacterization of a mammalian Golgi-localized protein complex, COG, that is required for normal Golgi morphology and functionCOG complex-mediated recycling of Golgi glycosyltransferases is essential for normal protein glycosylationThe COG and COPI complexes interact to control the abundance of GEARs, a subset of Golgi integral membrane proteinsTRAPP stably associates with the Golgi and is required for vesicle dockingPhosphorylation of the vesicle-tethering protein p115 by a casein kinase II-like enzyme is required for Golgi reassembly from isolated mitotic fragmentsInteraction of the Saccharomyces cerevisiae cortical actin patch protein Rvs167p with proteins involved in ER to Golgi vesicle traffickingGolgi-to-endoplasmic reticulum (ER) retrograde traffic in yeast requires Dsl1p, a component of the ER target site that interacts with a COPI coat subunitThe GTPase Arf1p and the ER to Golgi cargo receptor Erv14p cooperate to recruit the golgin Rud3p to the cis-Golgi.The conserved oligomeric Golgi complex is involved in double-membrane vesicle formation during autophagy.The Sec34/Sec35p complex, a Ypt1p effector required for retrograde intra-Golgi trafficking, interacts with Golgi SNAREs and COPI vesicle coat proteins.Cog1p plays a central role in the organization of the yeast conserved oligomeric Golgi complex.Subunit architecture of the conserved oligomeric Golgi complexGenetic analysis of the subunit organization and function of the conserved oligomeric golgi (COG) complex: studies of COG5- and COG7-deficient mammalian cellsRole of Rab GTPases in membrane traffic and cell physiologyIdentification of Sec36p, Sec37p, and Sec38p: components of yeast complex that contains Sec34p and Sec35p.Genomic screen for vacuolar protein sorting genes in Saccharomyces cerevisiaeMembrane tethering and fusion in the secretory and endocytic pathways.Tales of tethers and tentacles: golgins in plants.Vesicles carry most exocyst subunits to exocytic sites marked by the remaining two subunits, Sec3p and Exo70pConserved oligomeric Golgi complex subunit 1 deficiency reveals a previously uncharacterized congenital disorder of glycosylation type II.Role of the conserved oligomeric Golgi (COG) complex in protein glycosylationThe golgin coiled-coil proteins of the Golgi apparatus.Trs65p, a subunit of the Ypt1p GEF TRAPPII, interacts with the Arf1p exchange factor Gea2p to facilitate COPI-mediated vesicle traffic.The golgin GMAP-210 is required for efficient membrane trafficking in the early secretory pathway.Chlamydia trachomatis hijacks intra-Golgi COG complex-dependent vesicle trafficking pathway.Golgi positioning: are we looking at the right MAP?Interaction of the conserved oligomeric Golgi complex with t-SNARE Syntaxin5a/Sed5 enhances intra-Golgi SNARE complex stability.Role of tethering factors in secretory membrane traffic.Golgi function and dysfunction in the first COG4-deficient CDG type II patientRole of vesicle tethering factors in the ER-Golgi membrane traffic.Multipronged interaction of the COG complex with intracellular membranes.Components of the SNARE-containing regulon are co-regulated in root cells undergoing defense.Re'COG'nition at the Golgi.The amino-terminal domain of the golgi protein giantin interacts directly with the vesicle-tethering protein p115.The Golgin protein Coy1 functions in intra-Golgi retrograde transport and interacts with the COG complex and Golgi SNAREs.The SMS domain of Trs23p is responsible for the in vitro appearance of the TRAPP I complex in Saccharomyces cerevisiae.Reversal of fortune. Do Rab GTPases act on the target membrane?
P2860
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P2860
High-copy suppressor analysis reveals a physical interaction between Sec34p and Sec35p, a protein implicated in vesicle docking
description
1999 nî lūn-bûn
@nan
1999 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
1999 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
1999年の論文
@ja
1999年論文
@yue
1999年論文
@zh-hant
1999年論文
@zh-hk
1999年論文
@zh-mo
1999年論文
@zh-tw
1999年论文
@wuu
name
High-copy suppressor analysis ...... implicated in vesicle docking
@ast
High-copy suppressor analysis ...... implicated in vesicle docking
@en
High-copy suppressor analysis ...... implicated in vesicle docking
@nl
type
label
High-copy suppressor analysis ...... implicated in vesicle docking
@ast
High-copy suppressor analysis ...... implicated in vesicle docking
@en
High-copy suppressor analysis ...... implicated in vesicle docking
@nl
prefLabel
High-copy suppressor analysis ...... implicated in vesicle docking
@ast
High-copy suppressor analysis ...... implicated in vesicle docking
@en
High-copy suppressor analysis ...... implicated in vesicle docking
@nl
P2093
P2860
P356
P1476
High-copy suppressor analysis ...... implicated in vesicle docking
@en
P2093
P2860
P304
P356
10.1091/MBC.10.10.3317
P407
P577
1999-10-01T00:00:00Z