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通过选择性构象调整,利用新型卤代醇脱卤酶制备(S)-环氧氯丙烷。

Preparation of (S)-epichlorohydrin using a novel halohydrin dehalogenase by selective conformation adjustment.

作者信息

Zhang Xiao-Jian, Huang Meng-Yu, Peng Xin-Xin, Cao Min, Deng Han-Zhong, Gong Yi-Chuan, Tang Xiao-Ling, Liu Zhi-Qiang, Zheng Yu-Guo

机构信息

The National and Local Joint Engineering Research Center for Biomanufacturing of Chiral Chemicals, Zhejiang University of Technology, 18 Chaowang Road, Hangzhou, 310014, People's Republic of China.

Key Laboratory of Bioorganic Synthesis of Zhejiang Province, College of Biotechnology and Bioengineering, Zhejiang University of Technology, 18 Chaowang Road, Hangzhou, 310014, People's Republic of China.

出版信息

Biotechnol Lett. 2024 Aug;46(4):699-711. doi: 10.1007/s10529-024-03479-y. Epub 2024 May 11.

DOI:10.1007/s10529-024-03479-y
PMID:38733437
Abstract

Chiral epichlorohydrin (ECH) is an attractive intermediate for chiral pharmaceuticals and chemicals preparation. The asymmetric synthesis of chiral ECH using 1,3-dicholoro-2-propanol (1,3-DCP) catalyzed by a haloalcohol dehalogenase (HHDH) was considered as a feasible approach. However, the reverse ring opening reaction caused low optical purity of chiral ECH, thus severely restricts the industrial application of HHDHs. In the present study, a novel selective conformation adjustment strategy was developed with an engineered HheC to regulate the kinetic parameters of the forward and reverse reactions, based on site saturation mutation and molecular simulation analysis. The HheC mutant E85P was constructed with a markable change in the conformation of (S)-ECH in the substrate pocket and a slight impact on the interaction between 1,3-DCP and the enzyme, which resulted in the kinetic deceleration of the reverse reactions. Compared with HheC, the catalytic efficiency (k/K) of the reversed reaction dropped to 0.23-fold (from 0.13 to 0.03 mM s), while the catalytic efficiency (k/K) of the forward reaction only reduced from 0.83 to 0.71 mM s. With 40 mM 1,3-DCP as substrate, HheC E85P catalyzed the synthesis of (S)-ECH with the yield up to 55.35% and the e.e. increased from 92.54 to >99%. Our work provided an effective approach for understanding the stereoselective catalytic mechanism as well as the green manufacturing of chiral epoxides.

摘要

手性环氧氯丙烷(ECH)是用于制备手性药物和化学品的一种有吸引力的中间体。利用卤代醇脱卤酶(HHDH)催化1,3 - 二氯 - 2 - 丙醇(1,3 - DCP)不对称合成手性ECH被认为是一种可行的方法。然而,开环逆反应导致手性ECH的光学纯度较低,从而严重限制了HHDHs的工业应用。在本研究中,基于位点饱和突变和分子模拟分析,开发了一种新的选择性构象调整策略,利用工程化的HheC来调节正向和逆向反应动力学参数。构建了HheC突变体E85P,其底物口袋中(S)-ECH的构象有显著变化,而对1,3 - DCP与酶之间的相互作用影响较小,这导致逆向反应的动力学减速。与HheC相比,逆向反应的催化效率(k/K)降至0.23倍(从0.13降至0.03 mM s),而正向反应的催化效率(k/K)仅从0.83降至0.71 mM s。以40 mM 1,3 - DCP为底物,HheC E85P催化合成(S)-ECH,产率高达55.35%,对映体过量值从92.54%提高到>99%。我们的工作为理解立体选择性催化机制以及手性环氧化物的绿色制造提供了一种有效方法。

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本文引用的文献

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Enhancing the biocatalytic manufacture of the key intermediate of atorvastatin by focused directed evolution of halohydrin dehalogenase.通过卤代醇脱卤酶的定向进化聚焦,提高阿托伐他汀关键中间体的生物催化制造。
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