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在酵母线粒体中,ATP 合酶的亚基 6(Atp6)和 9(Atp9)的组装依赖性翻译。

Assembly-dependent translation of subunits 6 (Atp6) and 9 (Atp9) of ATP synthase in yeast mitochondria.

机构信息

CNRS, IBGC, University of Bordeaux, UMR 5095, F-33000 Bordeaux, France.

Institute of Biochemistry and Biophysics, Polish Academy of Sciences, 01-224 Warsaw, Poland.

出版信息

Genetics. 2022 Mar 3;220(3). doi: 10.1093/genetics/iyac007.

DOI:10.1093/genetics/iyac007
PMID:35100419
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8893259/
Abstract

The yeast mitochondrial ATP synthase is an assembly of 28 subunits of 17 types of which 3 (subunits 6, 8, and 9) are encoded by mitochondrial genes, while the 14 others have a nuclear genetic origin. Within the membrane domain (FO) of this enzyme, the subunit 6 and a ring of 10 identical subunits 9 transport protons across the mitochondrial inner membrane coupled to ATP synthesis in the extra-membrane structure (F1) of ATP synthase. As a result of their dual genetic origin, the ATP synthase subunits are synthesized in the cytosol and inside the mitochondrion. How they are produced in the proper stoichiometry from two different cellular compartments is still poorly understood. The experiments herein reported show that the rate of translation of the subunits 9 and 6 is enhanced in strains with mutations leading to specific defects in the assembly of these proteins. These translation modifications involve assembly intermediates interacting with subunits 6 and 9 within the final enzyme and cis-regulatory sequences that control gene expression in the organelle. In addition to enabling a balanced output of the ATP synthase subunits, these assembly-dependent feedback loops are presumably important to limit the accumulation of harmful assembly intermediates that have the potential to dissipate the mitochondrial membrane electrical potential and the main source of chemical energy of the cell.

摘要

酵母线粒体 ATP 合酶是由 28 个亚基组成的复合物,其中 3 个(亚基 6、8 和 9)由线粒体基因编码,而其余 14 个则具有核遗传起源。在该酶的膜域(FO)中,亚基 6 和由 10 个相同的亚基 9 组成的环将质子从线粒体内部膜转运到 ATP 合酶的膜外结构(F1),同时与 ATP 合成偶联。由于其双重遗传起源,ATP 合酶亚基在细胞质和线粒体内部合成。从两个不同的细胞区室以适当的化学计量生产它们的机制仍知之甚少。本文报道的实验表明,在导致这些蛋白质组装特定缺陷的突变菌株中,亚基 9 和 6 的翻译速度增强。这些翻译修饰涉及与最终酶中亚基 6 和 9 相互作用的组装中间体,以及控制细胞器中基因表达的顺式调节序列。除了使 ATP 合酶亚基的输出达到平衡之外,这些组装依赖性反馈回路可能对于限制有害组装中间体的积累很重要,这些中间体有可能耗散线粒体膜的电化学势和细胞的主要化学能量源。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5f2e/8893259/06cbbe58ef53/iyac007f8.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5f2e/8893259/06cbbe58ef53/iyac007f8.jpg
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