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一种与UBIAD1同源的膜嵌入异戊二烯基转移酶的结构。

Structure of a membrane-embedded prenyltransferase homologous to UBIAD1.

作者信息

Huang Hua, Levin Elena J, Liu Shian, Bai Yonghong, Lockless Steve W, Zhou Ming

机构信息

Verna and Marrs McLean Department of Biochemistry and Molecular Biology, Baylor College of Medicine, Houston, Texas, United States of America.

Department of Biology, Texas A&M University, College Station, Texas, United States of America.

出版信息

PLoS Biol. 2014 Jul 22;12(7):e1001911. doi: 10.1371/journal.pbio.1001911. eCollection 2014 Jul.

DOI:10.1371/journal.pbio.1001911
PMID:25051182
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4106721/
Abstract

Membrane-embedded prenyltransferases from the UbiA family catalyze the Mg2+-dependent transfer of a hydrophobic polyprenyl chain onto a variety of acceptor molecules and are involved in the synthesis of molecules that mediate electron transport, including Vitamin K and Coenzyme Q. In humans, missense mutations to the protein UbiA prenyltransferase domain-containing 1 (UBIAD1) are responsible for Schnyder crystalline corneal dystrophy, which is a genetic disease that causes blindness. Mechanistic understanding of this family of enzymes has been hampered by a lack of three-dimensional structures. We have solved structures of a UBIAD1 homolog from Archaeoglobus fulgidus, AfUbiA, in an unliganded form and bound to Mg2+ and two different isoprenyl diphosphates. Functional assays on MenA, a UbiA family member from E. coli, verified the importance of residues involved in Mg2+ and substrate binding. The structural and functional studies led us to propose a mechanism for the prenyl transfer reaction. Disease-causing mutations in UBIAD1 are clustered around the active site in AfUbiA, suggesting the mechanism of catalysis is conserved between the two homologs.

摘要

泛醌生物合成途径中膜嵌入的异戊二烯基转移酶催化Mg2+依赖的疏水多聚异戊二烯链转移到各种受体分子上,并参与介导电子传递分子的合成,包括维生素K和辅酶Q。在人类中,含泛醌生物合成途径异戊二烯基转移酶结构域1(UBIAD1)的蛋白质错义突变是施奈德结晶性角膜营养不良的病因,这是一种导致失明的遗传疾病。由于缺乏三维结构,对该酶家族的机制理解受到了阻碍。我们解析了来自嗜热栖热菌的UBIAD1同源物AfUbiA的无配体形式以及与Mg2+和两种不同异戊二烯基二磷酸结合的结构。对大肠杆菌UBIAD1家族成员MenA的功能测定证实了参与Mg2+和底物结合的残基的重要性。结构和功能研究使我们提出了异戊二烯基转移反应的机制。UBIAD1中的致病突变聚集在AfUbiA的活性位点周围,表明两种同源物之间的催化机制是保守的。

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