Total synthesis of 1,2,11,12E-tetradehydrohardwickiic acid

Tetrahedron chem Pub Date : 2023-12-09 DOI:10.1016/j.tchem.2023.100057

Wenming Zhu , Duo Zhang , Yucheng Li, Ming Yang

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Abstract

Clerodane diterpenoids are a large class of natural products found in various species and exhibit a wide range of biological activities. trans-Clerodanes, which feature a trans-decalin core structure, are the most common subfamily of clerodane diterpenoids. Previously, we have developed a tail-to-head cyclization strategy via a titanium(III) catalyzed alkyne terminated radical polyene cyclization to synthesis C18 non-oxidized trans-clerodanes and sesquiterpene (hydro)quinones with a similar trans-decalin skeleton. In this communication, we reported the first asymmetric total synthesis of 1,2,11,12E-tetradehydrohardwickiic acid, a C18 oxidized trans-clerodane, through the product of titanium(III) catalyzed tail-to-head polyene cyclization of the derivative of farnesol. A hydroxyl group directed hydrogenation of alkene, an E-selective hydrobromination of terminal alkyne, and a Suzuki coupling were the key steps of the synthesis.

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1,2,11,12E-四氢哈德猕猴酸的全合成

反式萜类化合物具有反式癸烷核心结构，是最常见的萜类化合物亚家族。此前，我们通过钛（III）催化的炔端自由基多烯环化，开发了一种尾对头环化策略，以合成 C18 非氧化反式clerodanes 和具有类似反式萘烷骨架的倍半萜（氢）醌类化合物。在这篇通讯中，我们首次报道了 1,2,11,12E-tetradehydrohardwickiic acid 的不对称全合成，它是一种 C18 氧化型反式-氯丹，通过钛（III）催化的法呢醇衍生物尾对头多烯环化产物合成。烯的羟基定向氢化、末端炔的 E 选择性氢溴化和铃木偶联是合成的关键步骤。

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