卡利什海绵内酯的全合成，第 2 部分：Ynoate 复分解/顺式还原策略。

Total Synthesis of Callyspongiolide, Part 2: The Ynoate Metathesis/cis-Reduction Strategy.

机构信息

Max-Planck-Institut für Kohlenforschung, 45470, Mülheim/Ruhr, Germany.

出版信息

Chemistry. 2019 Jan 2;25(1):255-259. doi: 10.1002/chem.201804988. Epub 2018 Dec 11.

DOI:10.1002/chem.201804988

Abstract

The macrocyclic core of the cytotoxic marine natural product callyspongiolide (1) was forged by ring-closing alkyne metathesis (RCAM) of an ynoate precursor using a molybdenum alkylidyne complex endowed with triarylsilanolate ligands as the catalyst. This result is remarkable in view of the failed attempts documented in the literature at converting electron deficient alkynes with the aid of more classical catalysts. The subsequent Z-selective semi-reduction of the resulting cycloalkyne by hydrogenation over nickel boride required careful optimization in order to minimize overreduction and competing dehalogenation of the compound's alkenyl iodide terminus as needed for final attachment of the side chain of 1 by Sonogashira coupling. The required cyclization precursor itself was prepared via Kocienski olefination.

摘要

细胞毒性海洋天然产物 callyspongiolide（1）的大环核心是通过使用带有三芳基硅烷醇配体的钼烷基卡宾络合物作为催化剂对 yn 酸酯前体进行炔烃闭环复分解（RCAM）形成的。鉴于文献中记载的使用更经典的催化剂转化缺电子炔烃的尝试均以失败告终，这一结果令人瞩目。随后，镍硼化物氢化对所得环炔的 Z-选择性半还原需要仔细优化，以尽量减少化合物烯基碘端的过度还原和竞争脱卤，这是通过 Sonogashira 偶联最终连接 1 的侧链所必需的。所需的环化前体本身是通过 Kocienski 烯烃化制备的。

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卡利什海绵内酯的全合成，第 2 部分：Ynoate 复分解/顺式还原策略。

Total Synthesis of Callyspongiolide, Part 2: The Ynoate Metathesis/cis-Reduction Strategy.

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