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The Golgi complex plays a key role in the sorting and modification of proteins exported from the endoplasmic reticulum. Additionally we are shipping Golgi Reassembly Stacking Protein 1, 65kDa Antibodies (65) and many more products for this protein.
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GRASP65 phosphorylation may have a critical role in inducing cell death.
The authors determined that Golgi membrane ribbon fragmentation increased during the early cytoplasmic phase of cytomegalovirus virion assembly and that Golgi membrane fragmentation in infected cells was dependent on the phosphorylation of an integral cis (show CISH Proteins)-Golgi protein (show GOLPH3 Proteins), Grasp65.
In cells, Mena and actin were required for Golgi ribbon formation after nocodazole washout; in vitro, Mena and microfilaments enhanced GRASP65 oligomerization and Golgi membrane fusion. Thus Mena interacts with GRASP65 to promote local actin polymerization, which facilitates Golgi ribbon linking.
Mutagenesis experiments support these structural observations and demonstrate that they are required for GRASP65-GM130 (show GOLGA2 Proteins) association.
Cisternal-specific functions of GRASP65 and GRASP55 (show GORASP2 Proteins) in continuity, compartmentalization, and function of the Golgi ribbon.
propose that GRASP55 (show GORASP2 Proteins)/65 are negative regulators of exocytic transport and that this slowdown helps to ensure more complete protein glycosylation in the Golgi stack and proper sorting at the trans-Golgi network
The C-terminal fragments of GRASP65 produced following caspase (show CASP3 Proteins) cleavage are targeted to mitochondria, and ectopic expression of these sensitises HeLa cells to Fas ligand (show FASL Proteins).
the mechanism of phosphoinhibition as direct inhibition by PLK1 of the PDZ ligand underlying the GRASP65 self-interaction.
GRASP65 has a role in Golgi cisternal stacking and cell cycle progression
These results demonstrate that GRASP55 (show GORASP2 Proteins) and GRASP65 stack mammalian Golgi cisternae via a common mechanism.
Data demonstrate that both GRASP55 (show GORASP2 Proteins) and 65 are needed for the efficient transport to and through the Golgi complex, thus highlighting a novel role for the GRASPs in membrane trafficking.
The Golgi complex plays a key role in the sorting and modification of proteins exported from the endoplasmic reticulum. The protein encoded by this gene is a membrane protein involved in establishing the stacked structure of the Golgi apparatus. It is a caspase-3 substrate, and cleavage of this encoded protein contributes to Golgi fragmentation in apoptosis. This encoded protein can form a complex with the Golgi matrix protein GOLGA2, and this complex binds to the vesicle docking protein p115. Several alternatively spliced transcript variants of this gene have been identified, but their full-length natures have not been determined.
Golgi reassembly-stacking protein 1
, golgi reassembly stacking protein 1, 65kDa
, golgi reassembly stacking protein 1
, golgi reassembly-stacking protein 1-like
, Golgi reassembly-stacking protein 1-like
, golgi perepheral membrane protein p65
, golgi peripheral membrane protein p65
, golgi reassembly-stacking protein of 65 kDa
, Golgi peripheral membrane protein p65
, Golgi phosphoprotein 5
, Golgi reassembly and stacking protein 1