Engineering of NADPH-dependent aldo-keto reductase from Penicillium citrinum by directed evolution to improve thermostability and enantioselectivity

被引：0

作者：

Hiroyuki Asako

Masatoshi Shimizu

Nobuya Itoh

机构：

[1] Organic Synthesis Research Laboratory,Department of Biotechnology (Biotechnology Research Center), Faculty of Engineering

[2] Sumitomo Chemical Co.,undefined

[3] Ltd.,undefined

[4] Toyama Prefectural University,undefined

来源：

Applied Microbiology and Biotechnology | 2008年 / 80卷

关键词：

Aldo-keto reductase (NADPH); Thermostability; Enantioselectivity; Directed evolution; Mutagenesis;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

Penicillium citrinum β-keto ester reductase (KER) can catalyze the reduction of methyl 4-bromo-3-oxobutyrate (BAM) to methyl (S)-4-bromo-3-hydroxybutyrate with high optical purity. To improve the thermostability of KER, protein engineering was performed using error-prone polymerase chain reaction-based random mutagenesis. Variants with the highest levels of thermostability contained the single amino acid substitutions L54Q, K245R, and N271D. The engineered L54Q variant of KER retained 62% of its initial activity after heat treatment at 30°C for 6 h, whereas wild-type KER showed only 15% activity. The L54Q substitution also conferred improved enantioselectivity by KER. An Escherichia coli cell biocatalyst that overproduced the L54Q mutant of KER and glucose dehydrogenase as a cofactor regeneration enzyme showed the highest level of BAM reduction in a water/butyl acetate two-phase system.

引用

页码：805 / 812

页数：7

共 60 条

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