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AtNDB2 是线粒体中主要的外部 NADH 脱氢酶,对环境胁迫的耐受性很重要。

AtNDB2 Is the Main External NADH Dehydrogenase in Mitochondria and Is Important for Tolerance to Environmental Stress.

机构信息

College of Science and Engineering, Flinders University of South Australia, Adelaide, South Australia 5042, Australia.

Department of Animal, Plant, and Soil Sciences, School of Life Sciences, Latrobe University, Bundoora, Victoria 3083, Australia.

出版信息

Plant Physiol. 2019 Oct;181(2):774-788. doi: 10.1104/pp.19.00877. Epub 2019 Aug 13.

DOI:10.1104/pp.19.00877
PMID:31409698
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6776847/
Abstract

In addition to the classical electron transport pathway coupled to ATP synthesis, plant mitochondria have an alternative pathway that involves type II NAD(P)H dehydrogenases (NDs) and alternative oxidase (AOX). This alternative pathway participates in thermogenesis in select organs of some species and is thought to help prevent cellular damage during exposure to environmental stress. Here, we investigated the function and role of one alternative path component, AtNDB2, using a transgenic approach in Arabidopsis (). Disruption of expression via T-DNA insertion led to a 90% decrease of external NADH oxidation in isolated mitochondria. Overexpression of led to increased AtNDB2 protein abundance in mitochondria but did not enhance external NADH oxidation significantly unless was concomitantly overexpressed and activated, demonstrating a functional link between these enzymes. Plants lacking either or were more sensitive to combined drought and elevated light treatments, whereas plants overexpressing these components showed increased tolerance and capacity for poststress recovery. We conclude that AtNDB2 is the predominant external NADH dehydrogenase in mitochondria and together with AtAOX1A forms a complete, functional, nonphosphorylating pathway of electron transport, whose operation enhances tolerance to environmental stress. This study demonstrates that at least one of the alternative NDs, as well as AOX, are important for the stress response.

摘要

除了与 ATP 合成偶联的经典电子传递途径外,植物线粒体还具有一种替代途径,涉及 II 型 NAD(P)H 脱氢酶(NDs)和替代氧化酶(AOX)。这种替代途径参与某些物种的特定器官的生热作用,并被认为有助于防止细胞在暴露于环境胁迫时受损。在这里,我们使用拟南芥()中的转基因方法研究了替代途径的一个组成部分 AtNDB2 的功能和作用。通过 T-DNA 插入破坏表达导致分离的线粒体中外源 NADH 氧化减少 90%。过表达导致线粒体中 AtNDB2 蛋白丰度增加,但除非同时过表达和激活,否则不会显著增强外源 NADH 氧化,这表明这些酶之间存在功能联系。缺乏或的植物对干旱和高光联合处理更敏感,而过表达这些成分的植物表现出更高的耐受性和应激后恢复能力。我们得出结论,AtNDB2 是线粒体中主要的外源 NADH 脱氢酶,与 AtAOX1A 一起形成完整的、功能的、非磷酸化的电子传递途径,其运转增强了对环境胁迫的耐受性。本研究表明,至少一种替代 NDs 以及 AOX 对于应激反应很重要。

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Suppression of NDA-type alternative mitochondrial NAD(P)H dehydrogenases in arabidopsis thaliana modifies growth and metabolism, but not high light stimulation of mitochondrial electron transport.拟南芥中NDA型替代性线粒体NAD(P)H脱氢酶的抑制改变了生长和代谢,但不影响高光对线粒体电子传递的刺激作用。
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