酿酒酵母线粒体中一种定位于胞质的NADH脱氢酶的鉴定。

Identification of a cytosolically directed NADH dehydrogenase in mitochondria of Saccharomyces cerevisiae.

作者信息

Small W C, McAlister-Henn L

机构信息

Department of Biochemistry, University of Texas Health Science Center, San Antonio, Texas 78284-7760, USA.

出版信息

J Bacteriol. 1998 Aug;180(16):4051-5. doi: 10.1128/JB.180.16.4051-4055.1998.

DOI:10.1128/JB.180.16.4051-4055.1998

PMID:9696750

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC107398/

Abstract

The reoxidation of NADH generated in reactions within the mitochondrial matrix of Saccharomyces cerevisiae is catalyzed by an NADH dehydrogenase designated Ndi1p (C. A. M. Marres, S. de Vries, and L. A. Grivell, Eur. J. Biochem. 195:857-862, 1991). Gene disruption analysis was used to examine possible metabolic functions of two proteins encoded by open reading frames having significant primary sequence similarity to Ndi1p. Disruption of the gene designated NDH1 results in a threefold reduction in total mitochondrial NADH dehydrogenase activity in cells cultivated with glucose and in a fourfold reduction in the respiration of isolated mitochondria with NADH as the substrate. Thus, Ndh1p appears to be a mitochondrial dehydrogenase capable of using exogenous NADH. Disruption of a closely related gene designated NDH2 has no effect on these properties. Growth phenotype analyses suggest that the external NADH dehydrogenase activity of Ndh1p is important for optimum cellular growth with a number of nonfermentable carbon sources, including ethanol. Codisruption of NDH1 and genes encoding malate dehydrogenases essentially eliminates growth on nonfermentable carbon sources, suggesting that the external mitochondrial NADH dehydrogenase and the malate-aspartate shuttle may both contribute to reoxidation of cytosolic NADH under these growth conditions.

摘要

酿酒酵母线粒体基质中反应所产生的NADH的再氧化由一种名为Ndi1p的NADH脱氢酶催化（C.A.M.Marres、S.de Vries和L.A.Grivell，《欧洲生物化学杂志》195:857 - 862，1991年）。基因破坏分析用于研究由与Ndi1p具有显著一级序列相似性的开放阅读框所编码的两种蛋白质可能的代谢功能。名为NDH1的基因被破坏后，在用葡萄糖培养的细胞中，线粒体总的NADH脱氢酶活性降低了三倍，而以NADH为底物时，分离出的线粒体的呼吸作用降低了四倍。因此，Ndh1p似乎是一种能够利用外源NADH的线粒体脱氢酶。破坏一个与之密切相关的名为NDH2的基因对这些特性没有影响。生长表型分析表明，Ndh1p的外部NADH脱氢酶活性对于利用包括乙醇在内的多种非发酵碳源实现最佳细胞生长很重要。NDH1与编码苹果酸脱氢酶的基因共同被破坏基本上消除了在非发酵碳源上的生长，这表明外部线粒体NADH脱氢酶和苹果酸 - 天冬氨酸穿梭在这些生长条件下可能都有助于胞质NADH的再氧化。

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