线粒体辅酶Q生物合成的生物化学

Biochemistry of Mitochondrial Coenzyme Q Biosynthesis.

作者信息

Stefely Jonathan A, Pagliarini David J

机构信息

Morgridge Institute for Research, Madison, WI, USA; Department of Biochemistry, University of Wisconsin-Madison, Madison, WI, USA; School of Medicine and Public Health, University of Wisconsin-Madison, Madison, WI, USA.

Morgridge Institute for Research, Madison, WI, USA; Department of Biochemistry, University of Wisconsin-Madison, Madison, WI, USA.

出版信息

Trends Biochem Sci. 2017 Oct;42(10):824-843. doi: 10.1016/j.tibs.2017.06.008. Epub 2017 Sep 17.

DOI:10.1016/j.tibs.2017.06.008

PMID:28927698

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5731490/

Abstract

Coenzyme Q (CoQ, ubiquinone) is a redox-active lipid produced across all domains of life that functions in electron transport and oxidative phosphorylation and whose deficiency causes human diseases. Yet, CoQ biosynthesis has not been fully defined in any organism. Several proteins with unclear molecular functions facilitate CoQ biosynthesis through unknown means, and multiple steps in the pathway are catalyzed by currently unidentified enzymes. Here we highlight recent progress toward filling these knowledge gaps through both traditional biochemistry and cutting-edge 'omics' approaches. To help fill the remaining gaps, we present questions framed by the recently discovered CoQ biosynthetic complex and by putative biophysical barriers. Mapping CoQ biosynthesis, metabolism, and transport pathways has great potential to enhance treatment of numerous human diseases.

摘要

辅酶Q（CoQ，泛醌）是一种在所有生命域中产生的具有氧化还原活性的脂质，它在电子传递和氧化磷酸化中发挥作用，其缺乏会导致人类疾病。然而，辅酶Q的生物合成在任何生物体中都尚未完全明确。几种分子功能不明的蛋白质通过未知方式促进辅酶Q的生物合成，该途径中的多个步骤由目前尚未鉴定的酶催化。在这里，我们重点介绍通过传统生物化学和前沿的“组学”方法在填补这些知识空白方面取得的最新进展。为了帮助填补剩余的空白，我们提出了由最近发现的辅酶Q生物合成复合物和假定的生物物理障碍所引发的问题。绘制辅酶Q的生物合成、代谢和运输途径对于加强多种人类疾病的治疗具有巨大潜力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e64e/5731490/e156b84c223a/nihms890120f4.jpg

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