Anti-Selective Asymmetric Nitro-Michael Reaction of Furanones: Diastereocontrol by Catalyst

Overview

Journal Org Lett

Publisher American Chemical Society

Specialties Biochemistry
Chemistry

Date 2016 Feb 3

PMID 26835718

Citations 7

Authors

Tohru Sekikawa

Takayuki Kitaguchi

Hayato Kitaura

Tatsuya Minami

Yasuo Hatanaka

Affiliations

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Abstract

Catalyst-controlled switching of diastereoselectivity from high syn-selectivity (>98/2 dr, syn) to anti-selectivity (up to 96/4 dr, anti) of the asymmetric nitro-Michael reaction of furanones is described. Anti-diastereoselectivity of the nitro-Michael reaction is very rare. With 0.1-5 mol % loadings of an epi-quinine catalyst, the reaction of 5-substituted 2(3H)-furanones with nitroalkenes smoothly proceeded to give the anti-Michael adducts in good yields (up to 95%) with excellent diastereo- and enantioselectivities (up to 96/4 dr, anti; up to 99% ee). DFT calculations support a model that accounts the high anti-diastereoselectivity.

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