1. Engineering Isopropanol Dehydrogenase for Efficient Regeneration of Nicotinamide Cofactors.
- Author
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Qiao Jia, Yu-Cong Zheng, Hai-Peng Li, Xiao-Long Qian, Zhi-Jun Zhang, and Jian-He Xu
- Subjects
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ISOPROPYL alcohol , *NICOTINAMIDE , *LACTATE dehydrogenase , *BIOCONVERSION , *CATALYTIC activity , *NICOTINAMIDE adenine dinucleotide phosphate - Abstract
Isopropanol dehydrogenase (IPADH) is one of the most attractive options for nicotinamide cofactor regeneration due to its low cost and simple downstream processing. However, poor thermostability and strict cofactor dependency hinder its practical application for bioconversions. In this study, we simultaneously improved the thermostability (433-fold) and catalytic activity (3.3-fold) of IPADH from Brucella suis via a flexible segment engineering strategy. Meanwhile, the cofactor preference of IPADH was successfully switched from NAD(H) to NADP(H) by 1.23 × 106-fold. When these variants were employed in three typical bioredox reactions to drive the synthesis of important chiral pharmaceutical building blocks, they outperformed the commonly used cofactor regeneration systems (glucose dehydrogenase [GDH], formate dehydrogenase [FDH], and lactate dehydrogenase [LDH]) with respect to efficiency of cofactor regeneration. Overall, our study provides two promising IPADH variants with complementary cofactor specificities that have great potential for wide applications. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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