Institute of Organic Chemistry, Polish Academy of Sciences, ul. Kasprzaka 44/52, 01-224 Warsaw 48, Poland.
J Org Chem. 2010 Dec 17;75(24):8337-50. doi: 10.1021/jo101758t. Epub 2010 Nov 17.
An efficient and operationally simple synthesis of the neodolestane diterpenoids (±)-heptemerone G and (±)-guanacastepene A is reported. The common tricyclic scaffold (±)-4 was prepared from 2-methylcyclopent-2-en-1-one via 23 isolated intermediates in 5.1% yield. The key features include a novel annulation sequence combining tandem conjugate addition, methylenation, and metathesis reaction and completely diastereoselective transformation of the azulene derivative 23 into rings AB building block 32. Stereochemistry of alkylation of both saturated trans-azulene enolate 38 and its α,β-unsaturated counterpart 48 was examined. Rather surprisingly, a different facial selectivity was recorded. Several synthetic methods were modified or developed, including an alternative methodology for the Wharton-type rearrangement, ketalization of epimerizable ketone under mild conditions, and efficient alkylation of a ketone via its kinetic enolate.
报道了一种高效、操作简单的新型 neodolestane 二萜类化合物(±)-heptemerone G 和(±)-guanacastepene A 的合成方法。通过 23 个分离的中间体,以 2-甲基环戊-2-烯-1-酮为起始原料,以 5.1%的收率得到了常见的三环支架(±)-4。关键特征包括串联共轭加成、亚甲基化和复分解反应的新型环合序列,以及完全非对映选择性地将薁衍生物 23 转化为 AB 环构建块 32。还考察了两种饱和反式薁烯醇盐 38 和其α,β-不饱和类似物 48 的烷基化立体化学。令人惊讶的是,记录到了不同的面选择性。对几种合成方法进行了修改或开发,包括 Wharton 重排的替代方法、在温和条件下可互变异构酮的缩酮化、以及通过动力学烯醇盐有效实现酮的烷基化。
