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一种核蛋白输入所需的蛋白质Mog1p,直接与酿酒酵母的Ras同系物GTP-Gsp1p相互作用。

A protein required for nuclear-protein import, Mog1p, directly interacts with GTP-Gsp1p, the Saccharomyces cerevisiae ran homologue.

作者信息

Oki M, Nishimoto T

机构信息

Department of Molecular Biology, Graduate School of Medical Science, Kyushu University, Higashi-ku, Fukuoka 812-8582, Japan.

出版信息

Proc Natl Acad Sci U S A. 1998 Dec 22;95(26):15388-93. doi: 10.1073/pnas.95.26.15388.

DOI:10.1073/pnas.95.26.15388
PMID:9860978
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC28052/
Abstract

We previously isolated 25 temperature-sensitive gsp1 alleles of Saccharomyces cerevisiae Ran homologue, each of which possesses amino acid changes that differ from each other. We report here isolation of three multicopy suppressors-PDE2, NTF2, and a gene designated MOG1-all of which rescued a growth defect of these gsp1 strains. The gsp1 suppression occurred even in the absence of GSP2, another S. cerevisiae GSP1-like gene. Previously, NTF2 was reported to suppress gsp1 but not PDE2. Mog1p, with a calculated molecular mass of 24 kDa, was found to be encoded by the yeast ORF YJR074W. Both MOG1 and NTF2 suppressed a series of gsp1 alleles with similar efficiency, and both suppressed gsp1 even with a single gene dose. Consistent with the high efficiency of gsp1 suppression, Mog1p directly bound to GTP, but not to GDP-Gsp1p. The disruption of MOG1 made yeast temperature-sensitive for growth. Deltamog1, which was suppressed by overexpression of NTF2, was found to have a defect in both classic and nonclassic nuclear localization signal-dependent nuclear-protein imports, but not in mRNA export. Thus, Mog1p, which was localized in the nucleus, is a Gsp1p-binding protein involved in nuclear-protein import and that functionally interacts with Ntf2p. Furthermore, the finding that PDE2 suppressed both gsp1 and rna1-1 indicates that the Ran GTPase cycle is regulated by the Ras-cAMP pathway.

摘要

我们之前分离出了酿酒酵母Ran同源物的25个温度敏感型gsp1等位基因,每个等位基因都有彼此不同的氨基酸变化。我们在此报告三个多拷贝抑制子——PDE2、NTF2和一个命名为MOG1的基因的分离情况,这三个抑制子都挽救了这些gsp1菌株的生长缺陷。即使在没有另一个酿酒酵母GSP1样基因GSP2的情况下,gsp1的抑制作用依然发生。之前有报道称NTF2可抑制gsp1,但不能抑制PDE2。计算分子量为24 kDa的Mog1p被发现由酵母开放阅读框YJR074W编码。MOG1和NTF2都以相似的效率抑制一系列gsp1等位基因,并且即使只有单拷贝基因也能抑制gsp1。与gsp1抑制的高效率一致,Mog1p直接结合GTP,但不结合GDP-Gsp1p。MOG1的破坏使酵母对温度敏感而影响生长。被NTF2过表达所抑制的Δmog1,被发现无论是在经典的还是非经典的核定位信号依赖的核蛋白输入方面都存在缺陷,但在mRNA输出方面没有缺陷。因此,定位于细胞核的Mog1p是一种参与核蛋白输入并与Ntf2p在功能上相互作用的Gsp1p结合蛋白。此外,PDE2能同时抑制gsp1和rna1-1这一发现表明Ran GTP酶循环受Ras-cAMP途径调控。

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