The small yeast GTPase Rho5 requires specific mitochondrial outer membrane proteins for translocation under oxidative stress and interacts with the VDAC Por1

IF 4.5 3区生物学 Q2 CELL BIOLOGY European journal of cell biology Pub Date : 2024-03-15 DOI:10.1016/j.ejcb.2024.151405

Linnet Bischof, Franziska Schweitzer, Hans-Peter Schmitz, Jürgen J. Heinisch

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Abstract

Yeast Rho5 is a small GTPase which mediates the response to nutrient and oxidative stress, and triggers mitophagy and apoptosis. We here studied the rapid translocation of a GFP-tagged Rho5 to mitochondria under such stress conditions by live-cell fluorescence microscopy in the background of strains lacking different mitochondrial outer membrane proteins (MOMP). Fun14, Msp1 and Alo1 were found to be required for efficient recruitment of the GTPase, whereas translocation of Dck1 and Lmo1, the subunits of its dimeric GDP/GTP exchange factor (GEF), remained unaffected. An influence of the voltage-dependent anion channel (VDAC) Por1 on the association of GFP-Rho5 with mitochondria under oxidative stress conditions appeared to be strain-dependent. However, epistasis analyses and bimolecular fluorescence complementation (BiFC) studies indicate a genetic and physical interaction. All four strains lacking a single MOMP were investigated for their effect on mitophagy.

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酵母小 GTP 酶 Rho5 需要特定的线粒体外膜蛋白才能在氧化应激下进行转运，并与 VDAC Por1 相互作用。

酵母 Rho5 是一种小 GTP 酶，它介导对营养和氧化应激的反应，并触发有丝分裂和细胞凋亡。我们在此通过活细胞荧光显微镜研究了在缺乏不同线粒体外膜蛋白（MOMP）的菌株背景下，GFP 标记的 Rho5 在这种应激条件下向线粒体的快速转位。研究发现，Fun14、Msp1 和 Alo1 是 GTPase 有效招募所必需的，而 Dck1 和 Lmo1（其二聚体 GDP/GTP 交换因子（GEF）的亚基）的转运则不受影响。在氧化应激条件下，电压依赖性阴离子通道（VDAC）Por1对GFP-Rho5与线粒体结合的影响似乎与菌株有关。然而，外显子分析和双分子荧光互补（BiFC）研究表明存在遗传和物理相互作用。研究了所有四个缺乏单个 MOMP 的菌株对线粒体吞噬的影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

European journal of cell biology 生物-细胞生物学

CiteScore

7.30

自引率

1.50%

发文量

审稿时长

38 days

期刊介绍： The European Journal of Cell Biology, a journal of experimental cell investigation, publishes reviews, original articles and short communications on the structure, function and macromolecular organization of cells and cell components. Contributions focusing on cellular dynamics, motility and differentiation, particularly if related to cellular biochemistry, molecular biology, immunology, neurobiology, and developmental biology are encouraged. Manuscripts describing significant technical advances are also welcome. In addition, papers dealing with biomedical issues of general interest to cell biologists will be published. Contributions addressing cell biological problems in prokaryotes and plants are also welcome.