金属催化的不对称σ迁移重排反应的最新进展

Recent advances in metal-catalysed asymmetric sigmatropic rearrangements.

作者信息

Liu Yangbin, Liu Xiaohua, Feng Xiaoming

机构信息

Institute of Chemical Biology, Shenzhen Bay Laboratory Shenzhen 518132 China.

Key Laboratory of Green Chemistry & Technology, Ministry of Education, College of Chemistry, Sichuan University Chengdu 610064 China

出版信息

Chem Sci. 2022 Sep 23;13(42):12290-12308. doi: 10.1039/d2sc03806d. eCollection 2022 Nov 2.

DOI:10.1039/d2sc03806d

PMID:36382273

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9629009/

Abstract

Asymmetric sigmatropic rearrangement is a powerful organic transformation substrate-reorganization to efficiently increase molecular complexity from readily accessible starting materials. In particular, a high level of diastereo- and enantioselectivity can be readily accessed through well-defined and predictable transition states in [3,3], [2,3]-sigmatropic rearrangements, which have been widely applied in the synthesis of various chiral building blocks, natural products, and pharmaceuticals. In recent years, catalytic asymmetric sigmatropic rearrangements involving chiral metal complexes to induce stereocontrol have been intensively studied. This review presents an overview of metal-catalysed enantioselective versions of sigmatropic rearrangements in the past two decades, mainly focusing on [3,3], [2,3], and [1,3]-rearrangements, to show the development of substrate design, new catalyst exploitation, and novel cascade processes. In addition, their application in the asymmetric synthesis of complex natural products is also exemplified.

摘要

不对称σ迁移重排是一种强大的有机转化反应，可实现底物重排，从而有效地从易于获得的起始原料提高分子复杂性。特别是，通过[3,3]、[2,3] - σ迁移重排中明确且可预测的过渡态，能够轻松实现高水平的非对映和对映选择性，这些重排反应已广泛应用于各种手性结构单元、天然产物和药物的合成中。近年来，涉及手性金属配合物以诱导立体控制的催化不对称σ迁移重排受到了深入研究。本综述概述了过去二十年中金属催化的对映选择性σ迁移重排反应，主要聚焦于[3,3]、[2,3]和[1,3] - 重排反应，展示了底物设计、新型催化剂开发以及新型串联反应的发展。此外，还举例说明了它们在复杂天然产物不对称合成中的应用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c508/9629009/919340f8afde/d2sc03806d-s1.jpg

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金属催化的不对称σ迁移重排反应的最新进展

Recent advances in metal-catalysed asymmetric sigmatropic rearrangements.

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