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ubiI 基因,大肠杆菌辅酶 Q 生物合成中的一个新基因,参与有氧 C5-羟化作用。

ubiI, a new gene in Escherichia coli coenzyme Q biosynthesis, is involved in aerobic C5-hydroxylation.

机构信息

Commissariat à l'Energie Atomique, Institut de Recherches en Technologies et Sciences pour le Vivant, Laboratoire Chimie et Biologie des Métaux, F-38054 Grenoble, France.

出版信息

J Biol Chem. 2013 Jul 5;288(27):20085-92. doi: 10.1074/jbc.M113.480368. Epub 2013 May 24.

DOI:10.1074/jbc.M113.480368
PMID:23709220
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3707705/
Abstract

Coenzyme Q (ubiquinone or Q) is a redox-active lipid found in organisms ranging from bacteria to mammals in which it plays a crucial role in energy-generating processes. Q biosynthesis is a complex pathway that involves multiple proteins. In this work, we show that the uncharacterized conserved visC gene is involved in Q biosynthesis in Escherichia coli, and we have renamed it ubiI. Based on genetic and biochemical experiments, we establish that the UbiI protein functions in the C5-hydroxylation reaction. A strain deficient in ubiI has a low level of Q and accumulates a compound derived from the Q biosynthetic pathway, which we purified and characterized. We also demonstrate that UbiI is only implicated in aerobic Q biosynthesis and that an alternative enzyme catalyzes the C5-hydroxylation reaction in the absence of oxygen. We have solved the crystal structure of a truncated form of UbiI. This structure shares many features with the canonical FAD-dependent para-hydroxybenzoate hydroxylase and represents the first structural characterization of a monooxygenase involved in Q biosynthesis. Site-directed mutagenesis confirms that residues of the flavin binding pocket of UbiI are important for activity. With our identification of UbiI, the three monooxygenases necessary for aerobic Q biosynthesis in E. coli are known.

摘要

辅酶 Q(泛醌或 Q)是一种在从细菌到哺乳动物等生物体中发现的氧化还原活性脂质,它在能量产生过程中起着至关重要的作用。Q 的生物合成是一个复杂的途径,涉及多种蛋白质。在这项工作中,我们表明未被描述的保守 visC 基因参与大肠杆菌中的 Q 生物合成,并将其重新命名为 ubiI。基于遗传和生化实验,我们确定 UbiI 蛋白在 C5-羟化反应中起作用。ubiI 缺陷型菌株的 Q 水平较低,并积累来自 Q 生物合成途径的化合物,我们对其进行了纯化和表征。我们还证明 UbiI 仅参与需氧 Q 的生物合成,并且在没有氧气的情况下,另一种酶催化 C5-羟化反应。我们已经解决了截短形式的 UbiI 的晶体结构。该结构与典型的 FAD 依赖性对羟基苯甲酸羟化酶具有许多共同特征,代表了第一个参与 Q 生物合成的单加氧酶的结构特征。定点突变确认 UbiI 的黄素结合口袋的残基对活性很重要。随着 UbiI 的鉴定,大肠杆菌中需氧 Q 生物合成所需的三种单加氧酶已被确定。

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