β-Amino acid catalyzed asymmetric Michael additions: design of organocatalysts with catalytic acid/base dyad inspired by serine proteases

Hui Yang; Ming Wah Wong

doi:10.1021/jo2011413

β-Amino acid catalyzed asymmetric Michael additions: design of organocatalysts with catalytic acid/base dyad inspired by serine proteases

J Org Chem. 2011 Sep 16;76(18):7399-405. doi: 10.1021/jo2011413. Epub 2011 Aug 15.

Authors

Hui Yang¹, Ming Wah Wong

Affiliation

¹ Department of Chemistry, National University of Singapore, 3 Science Drive 3, Singapore 117543.

PMID: 21806031
DOI: 10.1021/jo2011413

Abstract

A new type of chiral β-amino acid catalyst has been computationally designed, mimicking the enzyme catalysis of serine proteases. Our catalyst approach is based on the bioinspired catalytic acid/base dyad, namely, a carboxyl and imidazole pair. DFT calculations predict that this designed organocatalyst catalyzes Michael additions of aldehydes to nitroalkenes with excellent enantioselectivities and remarkably high anti diastereoselectivities. The unusual stacked geometry of the enamine intermediate, hydrogen bonding network, and the adoption of an exo transition state are the keys to understand the stereoselectivity.

MeSH terms

Acids / chemistry*
Alkalies / chemistry*
Amino Acids / chemistry*
Catalysis
Serine Proteases / chemistry*
Stereoisomerism

Substances

Acids
Alkalies
Amino Acids
Serine Proteases