Asymmetric reductions of propargyl ketones : An effective approach to the synthesis of optically-active compounds

Abstract

Propargyl ketones are readily reduced by the asymmetric reducing agent B-3-pinanyl-9- borabicyclo[3.3.1]-nonane (Alpine-borane). The reagent prepared from (+)-α-pinene and 9-BBN provides the R enantiomer while the S enantiomer can be obtained from (-)-α-pinene. Alternatively the S enantiomer can be prepared from the reagent derived from 9-BBN and the benzyl ether of nopol (6,6-dimethyl-bicyclo[3.11.]hept-2-ene-2-ethanol). The limiting factor in obtaining high enantiomeric induction is often the enantiomeric purity of the α-pinene. With 100% enantiomerically pure α-pinene, propargyl alcohols of essentially 100% ee can be obtained. A predictive rationalization of the transition state leading to this remarkable selection is presented. The acetylene unit of the propargyl alcohol provides a convenient handle for transformations to other useful, optically-active products. The use of propargyl alcohols for the synthesis of optically-active α- and β-substituted γ-lactones, and δ-lactones is illustrated