从顶复门的 ATP 合酶中鉴定隐蔽亚基。

Identification of cryptic subunits from an apicomplexan ATP synthase.

机构信息

Whitehead Institute for Biomedical Research, Cambridge, United States.

Research School of Biology, Australian National University, Canberra, Australia.

出版信息

Elife. 2018 Sep 11;7:e38097. doi: 10.7554/eLife.38097.

DOI:10.7554/eLife.38097

PMID:30204085

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6133553/

Abstract

The mitochondrial ATP synthase is a macromolecular motor that uses the proton gradient to generate ATP. Proper ATP synthase function requires a stator linking the catalytic and rotary portions of the complex. However, sequence-based searches fail to identify genes encoding stator subunits in apicomplexan parasites like or the related organisms that cause malaria. Here, we identify 11 previously unknown subunits from the ATP synthase, which lack homologs outside the phylum. Modeling suggests that two of them, ICAP2 and ICAP18, are distantly related to mammalian stator subunits. Our analysis shows that both proteins form part of the ATP synthase complex. Depletion of ICAP2 leads to aberrant mitochondrial morphology, decreased oxygen consumption, and disassembly of the complex, consistent with its role as an essential component of the ATP synthase. Our findings highlight divergent features of the central metabolic machinery in apicomplexans, which may reveal new therapeutic opportunities.

摘要

线粒体 ATP 合酶是一种利用质子梯度产生 ATP 的大分子马达。适当的 ATP 合酶功能需要一个定子将复合物的催化和旋转部分连接起来。然而，基于序列的搜索无法识别出顶复门寄生虫（如）或引起疟疾的相关生物编码定子亚基的基因。在这里，我们从 ATP 合酶中鉴定出 11 个以前未知的亚基，这些亚基在门之外没有同源物。建模表明，其中两个亚基，ICAP2 和 ICAP18，与哺乳动物定子亚基有远亲关系。我们的分析表明，这两种蛋白质都是 ATP 合酶复合物的一部分。ICAP2 的耗竭导致线粒体形态异常、耗氧量降低和复合物解体，这与其作为 ATP 合酶的必需组成部分的作用一致。我们的发现强调了顶复门生物中心代谢机制的不同特征，这可能揭示出新的治疗机会。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4f3f/6133553/8220ac025755/elife-38097-fig1.jpg

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从顶复门的 ATP 合酶中鉴定隐蔽亚基。

Identification of cryptic subunits from an apicomplexan ATP synthase.

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