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了解I类黄素蛋白二硫键氧化还原酶中烟酰胺二核苷酸辅因子和底物特异性:谷胱甘肽酰胺还原酶的晶体学分析

Understanding nicotinamide dinucleotide cofactor and substrate specificity in class I flavoprotein disulfide oxidoreductases: crystallographic analysis of a glutathione amide reductase.

作者信息

Van Petegem Filip, De Vos Dirk, Savvides Savvas, Vergauwen Bjorn, Van Beeumen Jozef

机构信息

Laboratory of Protein Biochemistry and Protein Engineering, Ghent University, 9000 Ghent, Belgium.

出版信息

J Mol Biol. 2007 Dec 7;374(4):883-9. doi: 10.1016/j.jmb.2007.09.072. Epub 2007 Sep 29.

Abstract

Glutathione reductase (GR) plays a vital role in maintaining the antioxidant levels of the cytoplasm by catalyzing the reduction of glutathione disulfide to reduced glutathione, thereby using NADPH and flavin adenine dinucleotide as cofactors. Chromatiaceae have evolved an unusual homolog that prefers both a modified substrate (glutathione amide disulfide [GASSAG]) and a different cofactor (NADH). Herein, we present the crystal structure of the Chromatium gracile glutathione amide reductase (GAR) both alone and in complex with NAD(+). An altered charge distribution in the GASSAG binding pocket explains the difference in substrate specificity. The NADH binding pocket of GAR differs from that of wild-type GR as well as that of a low active GR that was engineered to mimic NADH binding. Based on the GAR structure, we propose two attractive rationales for producing an efficient GR enzyme with NADH specificity.

摘要

谷胱甘肽还原酶(GR)通过催化谷胱甘肽二硫化物还原为还原型谷胱甘肽,从而以烟酰胺腺嘌呤二核苷酸磷酸(NADPH)和黄素腺嘌呤二核苷酸作为辅助因子,在维持细胞质抗氧化水平方面发挥着至关重要的作用。着色菌科已经进化出一种不同寻常的同源物,它既偏好一种修饰的底物(谷胱甘肽酰胺二硫化物 [GASSAG]),又偏好一种不同的辅助因子(NADH)。在此,我们展示了纤细着色菌谷胱甘肽酰胺还原酶(GAR)单独以及与NAD(+) 形成复合物时的晶体结构。GASSAG结合口袋中电荷分布的改变解释了底物特异性的差异。GAR的NADH结合口袋与野生型GR以及为模拟NADH结合而设计的低活性GR的NADH结合口袋都不同。基于GAR的结构,我们提出了两种有吸引力的理论依据,用于生产具有NADH特异性的高效GR酶。

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