重氮酰胺A的化学与生物学：首次全合成及真实结构的确证

Chemistry and biology of diazonamide A: first total synthesis and confirmation of the true structure.

作者信息

Nicolaou K C, Chen David Y-K, Huang Xianhai, Ling Taotao, Bella Marco, Snyder Scott A

机构信息

Contribution from the Department of Chemistry and The Skaggs Institute for Chemical Biology, The Scripps Research Institute, 10550 North Torrey Pines Road, La Jolla, CA 92037, USA.

出版信息

J Am Chem Soc. 2004 Oct 13;126(40):12888-96. doi: 10.1021/ja040092i.

DOI:10.1021/ja040092i

PMID:15469286

Abstract

With the addition of a tenth ring, the exchange of an oxygen atom for a nitrogen in the heart of the molecule, and a different terminal residue, the revised architecture for diazonamide A (1) provided an even more challenging molecular puzzle for chemical synthesis than its predecessor. In this article, we detail the first successful total synthesis of diazonamide A, an endeavor which not only verified its proper connectivities and established the stereochemistry of its previously unassignable C-37 chiral center, but which also was attended by the development of several new synthetic strategies and tactics.

摘要

随着第十个环的加入、分子核心处一个氧原子被一个氮原子取代以及末端残基的不同，重氮酰胺A（1）的修订结构给化学合成带来了比其前身更具挑战性的分子难题。在本文中，我们详细介绍了重氮酰胺A的首次成功全合成，这一努力不仅验证了其正确的连接方式并确定了其先前无法确定的C-37手性中心的立体化学，而且还伴随着几种新的合成策略和方法的发展。

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重氮酰胺A的化学与生物学：首次全合成及真实结构的确证

Chemistry and biology of diazonamide A: first total synthesis and confirmation of the true structure.

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