醇盐导向的金属环介导的环化交叉偶联化学的发展
The Development of Alkoxide-Directed Metallacycle-Mediated Annulative Cross-Coupling Chemistry.
作者信息
Micalizio Glenn C, Mizoguchi Haruki
机构信息
Department of Chemistry, Dartmouth College Hanover, NH 03755.
出版信息
Isr J Chem. 2017 Apr;57(3-4):228-238. doi: 10.1002/ijch.201600098. Epub 2016 Nov 9.
Abstract
Alkoxide-directed metallacycle-mediated cross-coupling is a rapidly growing area of reaction methodology in organic chemistry. Over the last decade, developments have resulted in > thirty new and highly selective intermolecular (or "convergent") C-C bond-forming reactions that have established powerful retrosynthetic relationships in stereoselective synthesis. While early studies were focused on developing transformations that forge a single C-C bond by way of a functionalized and unsaturated metallacyclopentane intermediate, recent advances mark the ability to employ this organometallic intermediate in additional stereoselective transformations. Among these more advanced coupling processes, those that embrace the metallacycle in subsequent [4+2] chemistry have resulted in the realization of a number of highly selective annulative cross-coupling reactions that deliver densely functionalized and angularly substituted carbocycles. This review discusses the early development of this chemistry, recent advances in reaction methodology, and shares a glimpse of the power of these processes in natural product synthesis.
摘要
醇盐导向的金属环介导的交叉偶联是有机化学中反应方法学一个快速发展的领域。在过去十年中,相关进展已产生了超过三十种新型且高度选择性的分子间(或“汇聚式”)碳 - 碳键形成反应,这些反应在立体选择性合成中建立了强大的逆合成关系。早期研究聚焦于开发通过官能化和不饱和金属环戊烷中间体形成单一碳 - 碳键的转化反应,而最近的进展标志着能够在其他立体选择性转化中应用这种有机金属中间体。在这些更先进的偶联过程中,那些在后续的[4 + 2]化学中包含金属环的反应,已实现了许多高度选择性的环化交叉偶联反应,这些反应可生成高度官能化且具有角取代的碳环。本综述讨论了该化学领域的早期发展、反应方法学的最新进展,并展示了这些过程在天然产物合成中的强大作用。
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