Li Wen Wang scite author profile

Directed evolution of enzymes as enantioselective catalysts in organic chemistry is an alternative to traditional asymmetric catalysis using chiral transition metal complexes or organocatalysts, the different approaches often being complementary. Moreover, directed evolution studies allow us to learn more about how enzymes perform mechanistically. The present study concerns a previously evolved highly enantioselective mutant of the epoxide hydrolase from Aspergillus niger in the hydrolytic kinetic resolution of racemic glycidyl phenyl ether. Kinetic data, molecular dynamics calculations, molecular modeling, inhibition experiments and X-ray structural work for the wild-type (WT) enzyme and the best mutant reveal the basis of the large increase in enantioselectivity (E = 4.6 versus E = 115). The overall structures of the WT and the mutant are essentially identical, but dramatic differences are observed in the active site as revealed by the X-ray structures. All of the experimental and computational results support a model in which productive positioning of the preferred (S)-glycidyl phenyl ether, but not the (R)-enantiomer, forms the basis of enhanced enantioselectivity. Predictions regarding substrate scope and enantioselectivity of the best mutant are shown to be possible.

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VerSe: A Vertebrae labelling and segmentation benchmark for multi-detector CT images

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Bayat

et al. 2021

Medical Image Analysis

196

141

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Highly sensitive hydrogen gas sensor based on a MoS2-Pt nanoparticle composite

Gottam

Tsai

Wang

et al. 2020

Applied Surface Science

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Li Wen Wang

Directed Evolution of an Enantioselective Epoxide Hydrolase: Uncovering the Source of Enantioselectivity at Each Evolutionary Stage

VerSe: A Vertebrae labelling and segmentation benchmark for multi-detector CT images

Highly sensitive hydrogen gas sensor based on a MoS2-Pt nanoparticle composite

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