关于多黄酮A全合成的研究。
Studies toward the total synthesis of pluraflavin A.
作者信息
Hartung John, J D Wright Benjamin, Danishefsky Samuel J
机构信息
Department of Chemistry, Columbia University, 3000 Broadway, New York, NY 10027 (USA).
出版信息
Chemistry. 2014 Jul 7;20(28):8731-6. doi: 10.1002/chem.201402254. Epub 2014 Jun 12.
Abstract
A synthetic strategy towards the potent cytostatic agent pluraflavin A has been developed. Formation of the enantioenriched anthrapyran core bearing a halogen atom enabled the introduction of the α C-aryl glycoside by Stille cross-coupling and subsequent hydrogenation of the aryl glycal. Chemo- and stereoselective O-glycosylations of α oliose and β 3-epi vancosamine residues afforded a fully glycosylated aromatic core. Attempts to install the dimethylamino group of the C-disaccharide suggest that introduction of an azide group by displacement and subsequent reduction may pave the way to the total synthesis of pluraflavin A.
摘要
已开发出一种合成强效细胞生长抑制剂多黄酮A的策略。带有卤原子的对映体富集蒽并吡喃核心的形成,使得通过Stille交叉偶联引入α-C-芳基糖苷以及随后对芳基糖烯进行氢化成为可能。α-寡糖和β-3-表万古糖胺残基的化学和立体选择性O-糖基化得到了一个完全糖基化的芳香核心。尝试引入C-二糖的二甲氨基表明,通过取代引入叠氮基团并随后还原可能为多黄酮A的全合成铺平道路。
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