Reshaping the Binding Pocket of Aldo–Keto Reductase for Enhanced Stereoselectivity and Activity
Jiafeng Niu, Xiaoyu Zhu, Huibing Chi, Bin Ma, Hao Zhu, Zhaoxin Lu, Ping Zhu, Fengxia Lu
Journal:JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY
IF:6.7
DOI:10.1021/acs.jafc.5c15071
PMID:
Published:2026-03-17
research field:分子生物学生物催化酶工程食品安全生物化学
Abstract
The bioremediation strategy is a promising environmentally friendly alternative to eliminate deoxynivalenol (DON) contamination in feed and foodstuffs, but few direct and effective enzyme-catalyzed detoxification methods are currently available. Here, we identified an aldo–keto reductase with DON-degrading ability from the Devosia strain A6-243 (AKR6D2) through a stepwise gene mining approach. AKR6D2 was found to have great thermostability toward the reduction of C3 carbonyl oxygen of 3-keto- deoxynivalenol (3-keto-DON) but with poor stereoselectivity (44.97% e.e. for 3-epi- deoxynivalenol (3-epi-DON)), which limited its practical application. By reshaping the substrate-binding pocket of AKR6D2, a mutant W21A/G53N with excellent catalytic activity (330-fold higher) and stereoselectivity (>99% e.e. for 3-epi-DON) was obtained. Based on the insights provided by molecular dynamics simulations, W21A/G53N-3-keto-DONproR was more favorable in the formation of prereaction states to produce the R-configuration product. This work confirmed that engineered AKR6D2 is a powerful biocatalyst for the detoxification of DON in contaminated food and feed.
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