Shi-Miao Ren scite author profile

Shi-Miao Ren

3Publications

21Citation Statements Received

110Citation Statements Given

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East China University of Science and Technology

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Identification two key residues at the intersection of domains of a thioether monooxygenase for improving its sulfoxidation performance

Ren

Liu

et al. 2020

Biotech & Bioengineering

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AcCHMO, a cyclohexanone monooxygenase from Acinetobacter calcoaceticus, is a typical Type I Baeyer–Villiger monooxygenase (BVMO). We previously obtained the AcCHMOM6 mutant, which oxidizes omeprazole sulfide (OPS) to the chiral sulfoxide drug esomeprazole. To further improve the catalytic efficiency of the AcCHMOM6 mutant, a focused mutagenesis strategy was adopted at the intersections of the FAD‐binding domain, NADPH‐binding domain, and α‐helical domain based on structural characteristics of AcCHMO. By using focused mutagenesis and subsequent global evolution two key residues (L55 and P497) at the intersections of the domains were identified. Mutant of L55Y improved catalytic efficiency significantly, whereas the P497S mutant alleviated substrate inhibition remarkably. AcCHMOM7 (L55Y/P497S) was obtained by combining the two mutations, which increased the specific activity from 18.5 (M6) to 108 U/g, and an increase in the Ki of the substrate OPS from 34 to 265 μM. The results indicate that catalytic performance can be elevated by modification of the sensitive sites at the intersection of the domains of AcCHMO. The results also provided some insights for the engineering of other Type I BVMOs or other multidomain proteins.

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Protein engineering of thioether monooxygenase to improve its thermostability for enzymatic synthesis of chiral sulfoxide

Zhao

Ren

Liu

et al. 2021

Molecular Catalysis

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Colorimetric High‐Throughput Screening Method for Directed Evolution of Prazole Sulfide Monooxygenase

et al. 2022

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Baeyer‐Villiger monooxygenases (BVMOs) are important biocatalysts for the enzymatic synthesis of chiral sulfoxides, including chiral sulfoxide‐type proton pump inhibitors for the treatment of gastrointestinal diseases. However, native BVMOs are not yet suitable for practical application due to their unsatisfactory activity and thermostability. Although protein engineering approaches can help address these issues, few feasible high‐throughput methods are available for the engineering of such enzymes. Herein, a colorimetric detection method to distinguish sulfoxides from sulfides and sulfones was developed for prazole sulfide monooxygenases. Directed evolution enabled by this method has identified a prazole sulfide monooxygenase CbBVMO variant with improved activity and thermostability that catalyzes the asymmetric oxidation of lansoprazole sulfide. A 71.3 % increase in conversion and 6 °C enhancement in the melting point were achieved compared with the wild‐type enzyme. This new method is feasible for high‐throughput screening of prazole sulfide monooxygenase variants with improved activity, thermostability, and/or substrate specificity.

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Shi-Miao Ren

Identification two key residues at the intersection of domains of a thioether monooxygenase for improving its sulfoxidation performance

Protein engineering of thioether monooxygenase to improve its thermostability for enzymatic synthesis of chiral sulfoxide

Colorimetric High‐Throughput Screening Method for Directed Evolution of Prazole Sulfide Monooxygenase

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