CpTiCl促进的自由基环化反应的应用：一种用于合成环烯醚萜单萜类化合物的统一策略。

Application of CpTiCl-Promoted Radical Cyclization: A Unified Strategy for the Syntheses of Iridoid Monoterpenes.

作者信息

Khan Hina P A, Das Dipendu, Chakraborty Tushar Kanti

机构信息

Department of Organic Chemistry , Indian Institute of Science , Bengaluru 560012 , India.

出版信息

J Org Chem. 2018 Jun 1;83(11):6086-6092. doi: 10.1021/acs.joc.8b00752. Epub 2018 May 22.

DOI:10.1021/acs.joc.8b00752

PMID:29766719

Abstract

An expedient approach toward the unified total syntheses of (+)-iridomyrmecin, (-)-isoiridomyrmecin, (+)-7- epi-boschnialactone, (+)-teucriumlactone, and (-)-dolichodial in chirally pure forms starting from readily available (+)-β-citronellene is delineated combining step economy and simplicity. Highlights include a Ti(III)-mediated reductive epoxide opening-cyclization for the construction of the core cyclopenta[ c]pyran skeleton of the iridoid lactones with complete diastereoselectivity for the newly created bridgehead stereogenic centers. Subsequent transformations facilitate a short access to (+)-teucriumlactone and (-)-dolichodial and formal access to potentially other iridoids.

摘要

本文描述了一种从容易获得的(+)-β-香茅烯出发，以手性纯形式统一全合成(+)-虹彩蚁巢素、(-)-异虹彩蚁巢素、(+)-7-表-波氏内酯、(+)-香科科内酯和(-)-长叶醛的便捷方法，该方法结合了步骤经济性和简便性。其中的亮点包括钛(III)介导的还原环氧开环环化反应，用于构建环烯醚萜内酯的核心环戊并[c]吡喃骨架，对新形成的桥头立体中心具有完全的非对映选择性。随后的转化反应有助于短步骤合成(+)-香科科内酯和(-)-长叶醛，并为潜在的其他环烯醚萜提供形式上的合成途径。

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CpTiCl促进的自由基环化反应的应用：一种用于合成环烯醚萜单萜类化合物的统一策略。

Application of CpTiCl-Promoted Radical Cyclization: A Unified Strategy for the Syntheses of Iridoid Monoterpenes.

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