Mahendra Sandbhor

One-pot lipase-catalyzed synthesis of enantiopure secondary alcohols from carbonyl compounds: a new protocol for lipase-mediated resolution ☆

Abstract Reduction of acetophenones with sodium borohydride in the presence of neutral alumina in hexane followed by enantioselective acylation catalyzed by Pseudomonas cepacia lipase has been achieved in one-pot. Further, immobilized lipase offered a high degree of selectivity with spontaneity.

Application of a one-pot lipase resolution strategy for the synthesis of chiral γ- and δ-lactones

Abstract A successful one-pot reduction of γ-ketoesters, δ-ketoesters and lactones to the corresponding 1,4- and 1,5-diols followed by a lipase catalyzed kinetic resolution coupled with hydrolysis to afford optically active diols is described. The synthetic utility of this one-pot method was illustrated by the oxidation of these chiral diols to respective chiral γ-butyrolactone and δ-lactones. Lipase from Pseudomonas cepacia, immobilized on ceramic afforded the product with high enantiomeric excess in good yields under mild reaction conditions. This approach has been used to develop a convenient enantioselective route for several γ- and δ-lactones using achiral and corresponding racemic starting material.

One-pot synthesis and resolution of chiral allylic alcohols

Substituted α,β-unsaturated ketones were selectively reduced to the corresponding allylic alcohols under mild reaction conditions. The allylic alcohols thus obtained were kinetically resolved by lipase catalyzed transesterification in the same pot to afford chiral allylic alcohols in excellent enantioselectivity. Various lipases were screened for this one-pot transesterification of allylic alcohols. Effects of different solvent have also been studied under these conditions. Pseudomonas cepacia lipase immobilized on ceramic particles (PS-C) and on diatomaceous earth (PS-D) catalyzes this transesterification in diisopropyl ether in a highly efficient manner.

Efficient Chemoenzymatic Synthesis of (S)- and (R)-5-(1-Aminoethyl)-2-(cyclohexylmethoxy)benzamide: Key Intermediate for Src-SH2 Inhibitor

A facile chemoenzymatic synthesis of both the S and R forms of 5-(1-aminoethyl)-2-(cyclohexylmethoxy)benzamide a key intermediate of non-peptidic Src SH2 inhibitors is described. Both the enantiomers were synthesized in high optical purity (>99% ee) by reduction followed by lipase-mediated acylation of the precursor 6 in one-pot. Immobilized Pseudomonas cepacia lipase offered high degree of enantioselectivity with spontaneity.