Institut de Biochimie et Génétique Cellulaires, UMR 5095 CNRS, Université Victor Segalen Bordeaux 2, 33077 Bordeaux, France.
J Biol Chem. 2011 May 20;286(20):18181-9. doi: 10.1074/jbc.M110.214825. Epub 2011 Mar 28.
In yeast, the two main F(O) proton-translocating subunits of the ATP synthase (subunits 6/a and 9/c) are encoded by mitochondrial DNA (mtDNA). Unfortunately, mutations that inactivate the F(O) typically result in loss of mtDNA under the form of ρ(-)/ρ(0) cells. Thus, we have designed a novel genetic strategy to circumvent this problem. It exploits previous findings that a null mutation in the nuclear ATP16 gene encoding ATP synthase subunit δ results in massive and lethal F(O)-mediated protons leaks across the inner mitochondrial membrane. Mutations that inactivate the F(O) can thus, in these conditions, be selected positively as cell viability rescuing events. A first set of seven mutants was analyzed and all showed, as expected, very severe F(O) deficiencies. Two mutants carried nuclear mutations in known genes (AEP1, AEP2) required for subunit c expression. The five other mutations were located in mtDNA. Of these, three affect synthesis or stability of subunit a transcripts and the two last consisted in a single amino acid replacement in subunit c. One of the subunit c mutations is particularly interesting. It consists in an alanine to valine change at position 60 of subunit c adjacent to the essential glutamate of subunit c (at position 59) that interacts with the essential arginine 186 of subunit a. The properties of this mutant suggest that the contact zone between subunit a and the ten subunits c-ring structure only involves critical transient interactions confined to the region where protons are exchanged between the subunit a and the c-ring.
在酵母中,ATP 合酶的两个主要 F(O)质子转运亚基(亚基 6/a 和 9/c)由线粒体 DNA(mtDNA)编码。不幸的是,使 F(O)失活的突变通常导致以 ρ(-)/ρ(0)细胞形式丢失 mtDNA。因此,我们设计了一种新的遗传策略来解决这个问题。它利用了先前的发现,即核 ATP16 基因(编码 ATP 合酶亚基 δ)的无效突变会导致大量致命的 F(O)介导的质子在内膜上泄漏。因此,在这些条件下,失活 F(O)的突变可以作为细胞存活拯救事件被积极选择。我们分析了一组七个突变体,所有突变体都如预期的那样表现出非常严重的 F(O)缺陷。两个突变体携带核突变,这些核突变在已知的基因(AEP1、AEP2)中,这些基因对于亚基 c 的表达是必需的。另外五个突变位于 mtDNA 中。其中,三个影响亚基 a 转录物的合成或稳定性,而最后两个突变则是亚基 c 中的一个氨基酸替换。亚基 c 的一个突变特别有趣。它是亚基 c 第 60 位的丙氨酸到缬氨酸的变化,与亚基 c 的必需谷氨酸(第 59 位)相邻,该谷氨酸与亚基 a 的必需精氨酸 186 相互作用。该突变体的性质表明,亚基 a 和十个亚基 c 环结构之间的接触区域仅涉及关键的瞬时相互作用,这些相互作用仅限于质子在亚基 a 和 c 环之间交换的区域。