Engineered Styrene Monooxygenase by the RRIPE Strategy for Efficient Enantioselective Synthesis of Efinaconazole Intermediate

对映选择合成 苯乙烯 单加氧酶 催化作用 化学 组合化学 有机化学 共聚物 细胞色素P450 聚合物
作者
Kun Chen,Yulei Ma,Xuewen Zhang,Hongxuan Li,Yuyin Wang,Hongqian Dai,Muhammad I. Arif,Tianjiao Ma,Changming Dong,Xuecheng Jiao,Na Zhang
出处
期刊:ACS Catalysis [American Chemical Society]
卷期号:15 (10): 8060-8068 被引量:5
标识
DOI:10.1021/acscatal.5c01952
摘要

Styrene monooxygenase (SMO) has been extensively employed in the epoxidation of aromatic alkenes for synthesizing pharmaceutical intermediates. We explored SMO for the biocatalytic conversion of aromatic alkenes with significant steric hindrances. For this purpose, we selected an efinaconazole intermediate as the target product of the epoxidation reaction via SMO catalysis. Herein, we describe a strategy for synthesizing the key chiral intermediate 1b of efinaconazole. A styrene monooxygenase (SMO) from Streptomyces exfoliatus (SeStyA) was employed as a candidate for the biocatalytic asymmetric epoxidation of substrate 1a to 1b. By employing the RRIPE strategy (residue–residue interactions-guided protein engineering strategy), we tailored the enzyme activity for synthesizing efinaconazole intermediate starting from a nonreactive SeStyA toward the substrate 1a. RRIPE involves saturation mutagenesis of residues in the substrate binding pocket and residues within 5 Å of the identified positive residue after each round of mutagenesis. After 13 rounds of enzyme evolution through the RRIPE strategy, we obtained a variant, M13, that demonstrated approximately a 1680-fold increase in conversion compared to the M1 variant, which initially displayed an extremely low activity. On a gram-scale synthesis, M13 achieved both conversion and diastereomeric excess (de) exceeding 99% after 48 h. This study unveils an efficient approach to providing high-quality intermediates for pharmaceutical synthesis, including efinaconazole and other important antifungal agents. Furthermore, the general approach for constructing suitable enzymes through the RRIPE strategy contributes to the advancement of enzyme engineering in the pharmaceutical industry.
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