Gcs1 ADP核糖基化因子激活蛋白在酵母中介导Snc1、2 v-SNARE回收至高尔基体。

The Gcs1 Arf-GAP mediates Snc1,2 v-SNARE retrieval to the Golgi in yeast.

作者信息

Robinson Micah, Poon Pak Phi, Schindler Christina, Murray Lois E, Kama Rachel, Gabriely Galina, Singer Richard A, Spang Anne, Johnston Gerald C, Gerst Jeffrey E

机构信息

Department of Molecular Genetics, Weizmann Institute of Science, Rehovot 76100, Israel.

出版信息

Mol Biol Cell. 2006 Apr;17(4):1845-58. doi: 10.1091/mbc.e05-09-0832. Epub 2006 Feb 1.

DOI:10.1091/mbc.e05-09-0832

PMID:16452633

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1415299/

Abstract

Gcs1 is an Arf GTPase-activating protein (Arf-GAP) that mediates Golgi-ER and post-Golgi vesicle transport in yeast. Here we show that the Snc1,2 v-SNAREs, which mediate endocytosis and exocytosis, interact physically and genetically with Gcs1. Moreover, Gcs1 and the Snc v-SNAREs colocalize to subcellular structures that correspond to the trans-Golgi and endosomal compartments. Studies performed in vitro demonstrate that the Snc-Gcs1 interaction results in the efficient binding of recombinant Arf1Delta17N-Q71L to the v-SNARE and the recruitment of purified coatomer. In contrast, the presence of Snc had no effect on Gcs1 Arf-GAP activity in vitro, suggesting that v-SNARE binding does not attenuate Arf1 function. Disruption of both the SNC and GCS1 genes results in synthetic lethality, whereas overexpression of either SNC gene inhibits the growth of a distinct subset of COPI mutants. We show that GFP-Snc1 recycling to the trans-Golgi is impaired in gcs1Delta cells and these COPI mutants. Together, these results suggest that Gcs1 facilitates the incorporation of the Snc v-SNAREs into COPI recycling vesicles and subsequent endosome-Golgi sorting in yeast.

摘要

Gcs1是一种Arf GTP酶激活蛋白（Arf-GAP），在酵母中介导高尔基体-内质网和高尔基体后囊泡运输。我们在此表明，介导内吞作用和胞吐作用的Snc1、2 v-SNARE蛋白在物理和遗传上与Gcs1相互作用。此外，Gcs1和Snc v-SNARE蛋白共定位于对应于反式高尔基体和内体区室的亚细胞结构。体外实验表明，Snc与Gcs1的相互作用导致重组Arf1Delta17N-Q71L与v-SNARE蛋白有效结合，并募集纯化的外被蛋白复合物。相反，Snc的存在对体外Gcs1的Arf-GAP活性没有影响，这表明v-SNARE蛋白结合不会减弱Arf1的功能。SNC和GCS1基因的破坏导致合成致死，而任一SNC基因的过表达会抑制COPI突变体的一个独特亚群的生长。我们表明，在gcs1Delta细胞和这些COPI突变体中，GFP-Snc1向反式高尔基体的循环受损。总之，这些结果表明，Gcs1促进Snc v-SNARE蛋白掺入COPI循环囊泡，并促进酵母中随后内体-高尔基体的分选。

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