G蛋白βγ复合体、Ste5p、Ste20p和Cdc42p之间的遗传关系：酵母信息素反应途径中效应子作用的研究。

Genetic relationships between the G protein beta gamma complex, Ste5p, Ste20p and Cdc42p: investigation of effector roles in the yeast pheromone response pathway.

作者信息

Akada R, Kallal L, Johnson D I, Kurjan J

机构信息

Department of Microbiology and Molecular Genetics, University of Vermont, Burlington 05405, USA.

出版信息

Genetics. 1996 May;143(1):103-17. doi: 10.1093/genetics/143.1.103.

DOI:10.1093/genetics/143.1.103

PMID:8722766

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1207244/

Abstract

The Saccharomyces cerevisiae G protein beta gamma dimer, Ste4p/Ste18p, acts downstream of the alpha subunit, Gpa1p, to activate the pheromone response pathway and therefore must interact with a downstream effector. Synthetic sterile mutants that exacerbate the phenotype of ste4-ts mutations were isolated to identify proteins that functionally interact with Ste4p. The identification of a ste18 mutant indicated that this screen could identify proteins that interact directly with Ste4p. The other mutations were in STE5 and the STE20 kinase gene, which act near Ste4p in the pathway, and a new gene called STE21. ste20 null mutants showed residual mating, suggesting that another kinase may provide some function. Overexpression of Ste5p under galactose control activated the pheromone response pathway. This activation was dependent on Ste4p and Ste18p and partially dependent on Ste20p. These results cannot be explained by the linear pathway of Ste4p-->Ste20p-->Ste5p. Overexpression of Cdc42p resulted in a slight increase in pheromone induction of a reporter gene, and overexpression of activated forms of Cdc42p resulted in a further twofold increase. Mutations in pheromone response pathway components did not suppress the lethality associated with the activated CDC42 mutations, suggesting that this effect is independent of the pheromone response pathway.

摘要

酿酒酵母G蛋白βγ二聚体Ste4p/Ste18p在α亚基Gpa1p的下游发挥作用，激活信息素反应途径，因此必须与下游效应器相互作用。为了鉴定与Ste4p功能上相互作用的蛋白质，分离出了加剧ste4-ts突变体表型的合成不育突变体。一个ste18突变体的鉴定表明，该筛选可以鉴定出与Ste4p直接相互作用的蛋白质。其他突变存在于STE5和STE20激酶基因中，它们在该途径中靠近Ste4p起作用，还有一个名为STE21的新基因。ste20缺失突变体表现出残余的交配能力，这表明另一种激酶可能提供一些功能。在半乳糖控制下Ste5p的过表达激活了信息素反应途径。这种激活依赖于Ste4p和Ste18p，部分依赖于Ste20p。这些结果无法用Ste4p→Ste20p→Ste5p的线性途径来解释。Cdc42p的过表达导致报告基因的信息素诱导略有增加，而激活形式的Cdc42p的过表达导致进一步两倍的增加。信息素反应途径组分中的突变并没有抑制与激活的CDC42突变相关的致死性，这表明这种效应独立于信息素反应途径。

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