Lipase B from Candida antarctica (CAL-B) catalyzes the slow, but highly enantioselective (E >200), ring-opening alcoholysis of two bicyclic and two 4-aryl-substituted b-lactams. Surprisingly, the rate of the reaction varies with the nature of the alcohols and was fastest with either enantiomer of 2-octanol. A 0.5-g scale reaction with 2-octanol as the nucleophile in diisopropyl ether at 60 8C yielded the unreacted b-lactam in 39 ± 46% yield (maximum yield is 50%) with ! 96% ee. The product b-amino acid esters reacted further by polymerization (not isolated or characterized) or by hydrolysis due to small amounts of water in the reaction mixture yielding bamino acids (7 ± 11% yield, ! 96% ee). The favored enantiomer of all four b-lactams had similar 3-D orientation of substituents, as did most previously reported b-lactams and b-lactones in similar ringopening reactions. Computer modeling of the ring opening of 4-phenylazetidin-2-one suggests that the reaction proceeds via an unusual substrate-assisted transition state, where the substrate alcohol bridges between the catalytic histidine and the nitrogen of the b-lactam. Computer modeling also suggested that the molecular basis for the high enantioselectivity is a severe steric clash between Ile189 in CAL-B and the phenyl substituent on the slow-reacting enantiomer of the b-lactam.
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