Mechanism of Acylative Oxidation-Reduction-Condensation Reactions Using Benzoisothiazolones as Oxidant and Triethylphosphite as Stoichiometric Reductant

Abstract

We previously described a new organocatalytic oxidation-reduction-condensation for amide/peptide construction. The reaction system relies on triethylphosphite as the stoichiometric reductant and organocatalytic benzoisothiazolone/O₂ in air as the oxidant. The reaction was assumed to generate catalytic quantities of S-acylthiosalicylamides as electrophiles, which are rapidly intercepted by amine reactants to generate amides/peptides and o-mercaptobenzamides. The latter are then gently reoxidized to the benzoisothiazolones under Cu-catalyzed aerobic conditions to complete the catalytic cycle. To gain a mechanistic understanding, we describe herein our studies of the stoichiometric generation of S-acylthiosalicylamides under oxidation-reduction-condensation conditions from a variety of benzoisothiazolones and carboxylic acids using triethylphosphite as the terminal reductant. These studies have revealed the presence of more than one reaction pathway when benzoisothiazolones react with triethylphosphite (including a rapid, direct deoxygenation of certain classes of benzoisothiazolones by triethylphosphite) and allow the identification of optimal reaction characteristics (benzoisothiazolone structure and solvent) for the generation of thioesters. These explorations will inform our efforts to develop highly effective and robust organocatalytic oxidation-reduction-condensation reactions that are based on the benzoisothiazolone and related motifs.