吡咯烷酮 B 的全合成：通过顺序氧化 C-C 和 C-O 偶联实现酚的三聚

Total Synthesis of Pyrolaside B: Phenol Trimerization through Sequenced Oxidative C-C and C-O Coupling.

机构信息

Department of Chemistry, University of Pennsylvania, Philadelphia, PA, 19104, USA.

出版信息

Angew Chem Int Ed Engl. 2020 May 11;59(20):7842-7847. doi: 10.1002/anie.201915654. Epub 2020 Mar 6.

DOI:10.1002/anie.201915654

PMID:32026544

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7200290/

Abstract

A facile method to oxidatively trimerize phenols using a catalytic aerobic copper system is described. The mechanism of this transformation was probed, yielding insight that enabled cross-coupling trimerizations. With this method, the natural product pyrolaside B was synthesized for the first time. The key strategy used for this novel synthesis is the facile one-step construction of a spiroketal trimer intermediate, which can be selectively reduced to give the natural product framework without recourse to stepwise Ullmann- and Suzuki-type couplings. As a result, pyrolaside B can be obtained expeditiously in five steps and 16 % overall yield. Three other analogues were synthesized, thus highlighting the utility of the method, which provides new accessibility to this area of chemical space. A novel xanthene was also synthesized through controlled Lewis acid promoted rearrangement of a spiroketal trimer.

摘要

本文描述了一种使用催化有氧铜体系将苯酚氧化三聚的简便方法。该方法可用于交叉偶联三聚反应，因此对这种转化的机理进行了探究，为反应提供了新的见解。利用该方法，首次合成了天然产物吡咯烷酮 B。这种新颖合成的关键策略是使用简便的一步法构建螺缩酮三聚体中间体，该中间体可以选择性还原而无需分步进行乌尔曼型和铃木型偶联反应，从而可以直接得到天然产物的骨架。因此，吡咯烷酮 B 可以在五步反应和 16%的总收率下快速得到。此外，还合成了三个类似物，这突出了该方法的实用性，为该化学空间提供了新的合成途径。通过控制路易斯酸促进螺缩酮三聚体的重排，还合成了一种新型呫吨。

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