Structure-Guided Regulation in the Enantioselectivity of an Epoxide Hydrolase to Produce Enantiomeric Monosubstituted Epoxides and Vicinal Diols via Kinetic Resolution
Die Hu, Bo-Chun Hu, Xiaodong Hou, Dong Zhang, Yuqing Lei, Yijian Rao, Minchen Wu
Abstract
Structure-guided microtuning of an Aspergillus usamii epoxide hydrolase was executed. One mutant, A214C/A250I, displayed a 12.6-fold enhanced enantiomeric ratio (E = 202) toward rac-styrene oxide, achieving its nearly perfect kinetic resolution at 0.8 M in pure water or 1.6 M in n-hexanol/water. Several other beneficial mutants also displayed significantly improved E values, offering promising biocatalysts to access 19 structurally diverse chiral monosubstituted epoxides (97.1 – ≥ 99% ees) and vicinal diols (56.2–98.0% eep) with high yields.
Topics & Concepts
ChemistryKinetic resolutionEpoxide hydrolaseVicinalEpoxideEnantiomerStereochemistryStyrene oxideHydrolaseEnantioselective synthesisEnantiomeric excessOrganic chemistryStyreneEnzymeCatalysisCopolymerPolymerMicrosomeEnzyme Catalysis and ImmobilizationCyclopropane Reaction MechanismsSynthesis and Catalytic Reactions