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GTP酶激活酶Gyp1p通过使Rab/Ypt GTP酶Ypt1p失活来参与内化膜材料的循环利用。

The GTPase-activating enzyme Gyp1p is required for recycling of internalized membrane material by inactivation of the Rab/Ypt GTPase Ypt1p.

作者信息

Lafourcade Céline, Galan Jean-Marc, Gloor Yvonne, Haguenauer-Tsapis Rosine, Peter Matthias

机构信息

Swiss Federal Institute of Technology Zurich (ETH), Institute of Biochemistry, ETH Hoenggerberg, 8093 Zurich, Switzerland.

出版信息

Mol Cell Biol. 2004 May;24(9):3815-26. doi: 10.1128/MCB.24.9.3815-3826.2004.

DOI:10.1128/MCB.24.9.3815-3826.2004
PMID:15082776
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC387746/
Abstract

Rab/Ypt GTPases are key regulators of membrane trafficking and together with SNARE proteins mediate selective fusion of vesicles with target compartments. A family of GTPase-activating enzymes (GAPs) specific for Rab/Ypt GTPases has been discovered, but little is known about their function and substrate specificity in vivo. Here we show that the GAP activity of Gyp1p, a yeast member of this family, is specifically required for recycling of the SNARE Snc1p and the membrane dye FM4-64, implying that inactivation of a Rab/Ypt GTPase may be necessary for recycling of membrane material. Interestingly, recycling of GFP-Snc1p in gyp1 Delta cells is partially restored by reducing the activity of Ypt1p. Moreover, GFP-Snc1p accumulated intracellularly in wild-type cells expressing a GTP-locked, mutant form of Ypt1p (Ypt1p-Q67L), suggesting that GTP hydrolysis of Ypt1p is essential for recycling. Ypt6p is known to be required for the fusion of recycling vesicles to the late Golgi compartment. Interestingly, the deletions of GYP1 and YPT6 were synthetic lethal, raising the possibility that at least two distinct pathways are involved in recycling of membrane material.

摘要

Rab/Ypt GTP酶是膜运输的关键调节因子,与SNARE蛋白共同介导囊泡与靶细胞器的选择性融合。已经发现了一类对Rab/Ypt GTP酶具有特异性的GTP酶激活酶(GAP),但对其在体内的功能和底物特异性知之甚少。在这里,我们表明,该家族的酵母成员Gyp1p的GAP活性是SNARE Snc1p和膜染料FM4-64循环所特需的,这意味着Rab/Ypt GTP酶的失活可能是膜材料循环所必需的。有趣的是,通过降低Ypt1p的活性,gyp1Δ细胞中GFP-Snc1p的循环得以部分恢复。此外,GFP-Snc1p在表达GTP锁定的Ypt1p突变形式(Ypt1p-Q67L)的野生型细胞内积累,表明Ypt1p的GTP水解对于循环至关重要。已知Ypt6p是循环囊泡与晚期高尔基体细胞器融合所必需的。有趣的是,GYP1和YPT6的缺失具有合成致死性,这增加了至少两条不同途径参与膜材料循环的可能性。

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