酵母中两种老黄色酶在烯酮化合物不对称还原中不同底物偏好的结构基础。

Structural basis of different substrate preferences of two old yellow enzymes from yeasts in the asymmetric reduction of enone compounds.

作者信息

Horita Shoichiro, Kataoka Michihiko, Kitamura Nahoko, Miyakawa Takuya, Ohtsuka Jun, Maejima Yuko, Shimomura Kenju, Nagata Koji, Shimizu Sakayu, Tanokura Masaru

机构信息

a Department of Applied Biologic al Chemistry , Graduate School of Agricultural and Life Sciences, University of Tokyo , Tokyo , Japan.

b Department of Bioregulation and Pharmacological Medicine , Fukushima Medical University School of Medicine , Fukushima , Japan.

出版信息

Biosci Biotechnol Biochem. 2019 Mar;83(3):456-462. doi: 10.1080/09168451.2018.1543014. Epub 2018 Nov 16.

DOI:10.1080/09168451.2018.1543014

PMID:30445889

Abstract

Old yellow enzymes (OYEs) are potential targets of protein engineering for useful biocatalysts because of their excellent asymmetric reductions of enone compounds. Two OYEs from different yeast strains, Candida macedoniensis AKU4588 OYE (CmOYE) and Pichia sp. AKU4542 OYE (PsOYE), have a sequence identity of 46%, but show different substrate preferences; PsOYE shows 3.4-fold and 39-fold higher catalytic activities than CmOYE toward ketoisophorone and (4S)-phorenol, respectively. To gain insights into structural basis of their different substrate preferences, we have solved a crystal structure of PsOYE, and compared its catalytic site structure with that of CmOYE, revealing the catalytic pocket of PsOYE is wider than that of CmOYE due to different positions of Phe (PsOYE)/Phe (CmOYE) in static Loop 5. This study shows a significance of 3D structural information to explain the different substrate preferences of yeast OYEs which cannot be understood from their amino acid sequences. Abbreviations: OYE: Old yellow enzymes, CmOYE: Candida macedoniensis AKU4588 OYE, PsOYE: Pichia sp. AKU4542 OYE.

摘要

老黄色酶（OYEs）因其对烯酮化合物出色的不对称还原能力，是用于制备有用生物催化剂的蛋白质工程潜在靶点。来自不同酵母菌株的两种OYEs，即马其顿假丝酵母AKU4588 OYE（CmOYE）和毕赤酵母属AKU4542 OYE（PsOYE），序列同一性为46%，但表现出不同的底物偏好；PsOYE对酮异佛尔酮和（4S）-佛尔诺醇的催化活性分别比CmOYE高3.4倍和39倍。为深入了解它们不同底物偏好的结构基础，我们解析了PsOYE的晶体结构，并将其催化位点结构与CmOYE的进行比较，结果表明由于静态环5中苯丙氨酸（PsOYE）/苯丙氨酸（CmOYE）位置不同，PsOYE的催化口袋比CmOYE的更宽。这项研究表明三维结构信息对于解释酵母OYEs不同的底物偏好具有重要意义，而仅从其氨基酸序列无法理解这些偏好。缩写：OYE：老黄色酶，CmOYE：马其顿假丝酵母AKU4588 OYE，PsOYE：毕赤酵母属AKU4542 OYE。

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