从 1-十四炔和(4-甲氧基苯氧基)乙醛不对称合成 D-赤式-植鞘氨醇。
Asymmetric synthesis of D-ribo-phytosphingosine from 1-tetradecyne and (4-methoxyphenoxy)acetaldehyde.
机构信息
Department of Chemistry and Biochemistry, Queens College of The City University of New York, Flushing, New York 11367-1597, USA.
出版信息
J Org Chem. 2010 Jul 2;75(13):4356-64. doi: 10.1021/jo100707d.
Abstract
An asymmetric synthesis of d-ribo-phytosphingosine (1) was achieved by utilizing the ProPhenol (12)-catalyzed alkynylation of unsaturated aldehyde 8 to afford allylic propargylic alcohol (S)-6 followed by asymmetric epoxidation and opening of propargylic epoxy alcohol anti-5 with NaN(3)/NH(4)Cl. Deprotection and reduction of the resulting acyclic azide 3 then gave 1. Alkyne-azide 3 was subjected to an intramolecular click reaction, generating a bicyclic triazole, which was found to have unexpected vicinal coupling constants. Application of the advanced Mosher method verified the configurations of the three contiguous stereogenic centers of 1. An alkynyl azide analogue of 1, which may be useful as a glycosyl acceptor in the synthesis of alpha-galactosylceramide derivatives, was also readily prepared by this route.
摘要
通过利用 ProPhenol(12)催化不饱和醛 8 的炔基化反应,实现了 d-核糖-植物鞘氨醇(1)的不对称合成,得到了烯丙基丙炔醇(S)-6,然后进行不对称环氧化和反式开环丙炔基环氧醇 anti-5 与NaN(3)/NH(4)Cl。脱保护和还原得到的无环叠氮化物 3 然后得到 1。炔基叠氮化物 3 进行了分子内点击反应,生成了双环三唑,其具有意想不到的邻位偶合常数。高级 Mosher 方法的应用证实了 1 的三个连续立体中心的构型。1 的炔基叠氮化物类似物也可以通过这种路线轻松制备,作为α-半乳糖神经酰胺衍生物合成中的糖基受体。
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