线粒体转氢酶将 NADPH 转化为 NADH，对于 Euglena gracilis 维持无氧代谢是必不可少的。

NADPH-to-NADH conversion by mitochondrial transhydrogenase is indispensable for sustaining anaerobic metabolism in Euglena gracilis.

机构信息

Division of Applied Life Sciences, Graduate School of Life and Environmental Sciences, Osaka Prefecture University, Sakai, Japan.

Graduate School of Engineering, Fukui University of Technology, Fukui, Japan.

出版信息

FEBS Lett. 2021 Dec;595(23):2922-2930. doi: 10.1002/1873-3468.14221. Epub 2021 Nov 16.

DOI:10.1002/1873-3468.14221

PMID:34738635

Abstract

Euglena gracilis produces ATP in the anaerobic mitochondria with concomitant wax ester formation, and NADH is essential for ATP formation and fatty acid synthesis in the mitochondria. This study demonstrated that mitochondrial cofactor conversion by nicotinamide nucleotide transhydrogenase (NNT), converting NADPH/NAD to NADP /NADH, is indispensable for sustaining anaerobic metabolism. Silencing of NNT genes significantly decreased wax ester production and cellular viability during anaerobiosis but had no such marked effects under aerobic conditions. An analogous phenotype was observed in the silencing of the gene encoding a mitochondrial NADP -dependent malic enzyme. These results suggest that the reducing equivalents produced in glycolysis are shuttled to the mitochondria as malate, where cytosolic NAD regeneration is coupled with mitochondrial NADPH generation.

摘要

绿眼虫在无氧的线粒体中产生 ATP 的同时伴随着蜡酯的形成，NADH 对于线粒体中 ATP 的形成和脂肪酸的合成是必需的。本研究表明，通过烟酰胺核苷酸转氢酶（NNT）将线粒体辅酶转化，将 NADPH/NAD 转化为 NADP/NADH，对于维持无氧代谢是必不可少的。NNT 基因的沉默显著降低了无氧条件下蜡酯的产生和细胞活力，但在有氧条件下没有这种明显的影响。在沉默编码线粒体 NADP 依赖性苹果酸酶的基因时观察到类似的表型。这些结果表明，糖酵解中产生的还原当量作为苹果酸被转运到线粒体，其中细胞质 NAD 的再生与线粒体 NADPH 的产生偶联。

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NADPH-to-NADH conversion by mitochondrial transhydrogenase is indispensable for sustaining anaerobic metabolism in Euglena gracilis.线粒体转氢酶将 NADPH 转化为 NADH，对于 Euglena gracilis 维持无氧代谢是必不可少的。

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线粒体转氢酶将 NADPH 转化为 NADH，对于 Euglena gracilis 维持无氧代谢是必不可少的。

NADPH-to-NADH conversion by mitochondrial transhydrogenase is indispensable for sustaining anaerobic metabolism in Euglena gracilis.

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