| Summary: | Horino S, Wagner K, Hummel A, Kanomata K, Gröger H, Akai S. Kinetic Resolution of Cyclic Tertiary Alcohols with Lipase A from Candida Antarctica . European Journal of Organic Chemistry . 2024. Enzyme-catalyzed acylative kinetic resolution (KR) and dynamic kinetic resolution (DKR) of racemic primary and secondary alcohols have been widely reported to produce esters with high enantiomeric purity. In contrast, similar KRs of tertiary alcohols have been reported for only a limited range of substrates and require prolonged reaction times of several days. To gain deeper insight into the substrate scope and increase the process efficiency, we examined the reaction conditions using commercially available immobilized lipase A from Candida antarctica and found that the addition of the heterogeneous, inorganic base sodium carbonate significantly increased the reaction rate while maintaining high enantioselectivity. The use of vinyl hexanoate as the acyl donor provided esters that were stable during chromatography purification. The optimized reaction conditions were then successfully applied to a range of cyclic tertiary alcohols containing tetralin, dihydroindene, chromane, and thiochromane skeletons having, in part, a substituent on the aromatic ring. In this study on the structure-reactivity relationship of enzymatic KR-type reactions, we achieved >30 % conversion for various tertiary alcohols in 24 h at 25 degrees C, producing optically active esters with 88-99 % ee.
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