在真核延胡索酸还原酶中通过磷酸酯键连接的催化重要黄素。

Catalytically important flavin linked through a phosphoester bond in a eukaryotic fumarate reductase.

机构信息

Belozersky Institute of Physico-Chemical Biology, Lomonosov Moscow State University, Moscow 119234, Russia.

Faculty of Biology, Lomonosov Moscow State University, Moscow 119234, Russia.

出版信息

Biochimie. 2018 Jun;149:34-40. doi: 10.1016/j.biochi.2018.03.013. Epub 2018 Apr 3.

DOI:10.1016/j.biochi.2018.03.013

PMID:29621574

Abstract

One of the three domains of kinetoplastid NADH:fumarate oxidoreductase (FRD) is homologous to bacterial flavin transferase that catalyzes transfer of FMN residue from FAD to threonine in flavoproteins. Leptomonas pyrrhocoris FRD produced in yeast cells, which lack flavin transferase gene in their proteome, reduces fumarate in the presence of NADH and contains an FMN residue covalently linked to a Ser9 residue. The conserved flavinylation motif of FRD, D(g/s)x(s/t)(s/g)AS, is similar to the Dxx(s/t)gAT motif recognized by flavin transferase in prokaryotic proteins. Ser9 replacement abolished the flavinylation and fumarate reductase activity of FRD. These findings suggest that the flavinylation is important for the activity of FRD and that this post-translational modification is carried out by the own flavin transferase domain.

摘要

动基体 NADH:延胡索酸氧化还原酶（FRD）的三个结构域之一与细菌黄素转移酶同源，后者催化黄素蛋白中 FMN 残基从 FAD 转移到苏氨酸。在酵母细胞中产生的嗜热变形菌 FRD 缺乏其蛋白质组中的黄素转移酶基因，在 NADH 存在的情况下还原延胡索酸，并含有与 Ser9 残基共价连接的 FMN 残基。FRD 的保守黄素化模体 D(g/s)x(s/t)(s/g)AS 类似于黄素转移酶在原核蛋白中识别的 Dxx(s/t)gAT 模体。Ser9 取代会使 FRD 的黄素化和延胡索酸还原酶活性丧失。这些发现表明，黄素化对 FRD 的活性很重要，并且这种翻译后修饰是由自身的黄素转移酶结构域完成的。

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在真核延胡索酸还原酶中通过磷酸酯键连接的催化重要黄素。

Catalytically important flavin linked through a phosphoester bond in a eukaryotic fumarate reductase.

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