Litcius/Paper detail

Brown Allylation: Application to the Synthesis of Natural Products

Zlata Boiarska, Tommaso Braga, Alessandra Silvani, Daniele Passarella

2021European Journal of Organic Chemistry37 citationsDOIOpen Access PDF

Abstract

Abstract Asymmetric allylation represents an important reaction applied in the natural product synthesis. The stereoselective introduction of an allyl group allows to obtain versatile chiral building blocks, which may further undergo various transformations due to the presence of the carbon–carbon double bond. In this review, we address the Brown allylation, which involves the conversion of aldehydes into homoallylic alcohols using B‐allyldiisopinocampheylborane as a chiral reagent. We provide a comprehensive overview of the reaction and highlight its application in the synthesis of natural products, while assessing its performance in comparison to other approaches. The total of 17 syntheses have been described, including the synthesis of biologically active macrolides disciformycin B, biselyngbyolide B, peloruside A, and gliomasolide A, bis‐piperidine alkaloid (−)‐anaferine and dysoxylactam A.

Topics & Concepts

ChemistryPiperidineNatural productTotal synthesisStereoselectivityReagentEnantioselective synthesisDouble bondCombinatorial chemistryOrganic chemistryStereochemistryCatalysisAsymmetric Synthesis and CatalysisAlkaloids: synthesis and pharmacologySynthetic Organic Chemistry Methods