P(v) intermediate-mediated E1cB elimination for the synthesis of glycals

Fen Liu; Haiyang Huang; Longgen Sun; Zeen Yan; Xiao Tan; Jing Li; Xinyue Luo; Haixin Ding; Qiang Xiao

doi:10.1039/d2sc01423h

P(v) intermediate-mediated E1cB elimination for the synthesis of glycals

Chem Sci. 2022 Apr 22;13(19):5588-5596. doi: 10.1039/d2sc01423h. eCollection 2022 May 18.

Authors

Fen Liu¹, Haiyang Huang¹, Longgen Sun¹, Zeen Yan¹, Xiao Tan¹, Jing Li¹, Xinyue Luo¹, Haixin Ding¹, Qiang Xiao¹

Affiliation

¹ Key Laboratory of Organic Chemistry, Institute of Organic Chemistry, Jiangxi Science & Technology Normal University Nanchang 330013 Jiangxi Province China huanghaiyang1209@163.com xiaoqiang@tsinghua.org.cn.

Abstract

Glycals are highly versatile and useful building blocks in the chemistry of carbohydrate and natural products. However, the practical synthesis of glycals remains a long-standing and mostly unsolved problem in synthetic chemistry. Herein, we present an unprecedented approach to make a variety of glycals using phosphonium hydrolysis-induced, P(v) intermediate-mediated E1cB elimination. The method provides a highly efficient, practical and scalable strategy for the synthesis of glycals with good generality and excellent yields. Furthermore, the strategy was successfully applied to late-stage modification of complex drug-like molecules. Additionally, the corresponding 1-deuterium-glycals were produced easily by simple ^t BuONa/D₂O-hydrolysis-elimination. Mechanistic investigations indicated that the oxaphosphorane intermediate-mediated E1cB mechanism is responsible for the elimination reaction.