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

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

doi:10.1091/mbc.E05-09-0832

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

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

Medicine

Medicine

Résultat de recherche: Article › examen par les pairs

67 Citations (Scopus)

Résumé

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 Arf1Δ17N-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 gcs1Δ 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.

Langue d'origine	English
Pages (de-à)	1845-1858
Nombre de pages	14
Journal	Molecular Biology of the Cell
Volume	17
Numéro de publication	4
DOI	https://doi.org/10.1091/mbc.E05-09-0832
Statut de publication	Published - avr. 2006

ASJC Scopus Subject Areas

Molecular Biology
Cell Biology

PubMed: MeSH publication types

Journal Article
Research Support, Non-U.S. Gov't

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10.1091/mbc.E05-09-0832

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title = "The Gcs1 Arf-GAP mediates Snc1,2 v-SNAKE retrieval to the Golgi in yeast",

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 Arf1Δ17N-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 gcs1Δ 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.",

author = "Micah Robinson and Poon, {Pak Phi} and Christina Schindler and Murray, {Lois E.} and Rachel Kama and Galina Gabriely and Singer, {Richard A.} and Anne Spang and Johnston, {Gerald C.} and Gerst, {Jeffrey E.}",

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AU - Robinson, Micah

AU - Poon, Pak Phi

AU - Schindler, Christina

AU - Murray, Lois E.

AU - Kama, Rachel

AU - Gabriely, Galina

AU - Singer, Richard A.

AU - Spang, Anne

AU - Johnston, Gerald C.

AU - Gerst, Jeffrey E.

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AB - 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 Arf1Δ17N-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 gcs1Δ 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.

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

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ASJC Scopus Subject Areas

PubMed: MeSH publication types

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