硫肽工程：迈向未来药物的多学科努力。

Thiopeptide engineering: a multidisciplinary effort towards future drugs.

机构信息

Institute for Research in Biomedicine, Barcelona Science Park, University of Barcelona, Baldiri Reixac 10, 08028 Barcelona (Spain) http://www.pcb.ub.edu/fama/htm/home.htm; CIBER-BBN, Networking Centre on Bioengineering Biomaterials and Nanomedicine, 08028 Barcelona (Spain).

出版信息

Angew Chem Int Ed Engl. 2014 Jun 23;53(26):6602-16. doi: 10.1002/anie.201307288. Epub 2014 May 23.

DOI:10.1002/anie.201307288

PMID:24861213

Abstract

The recent development of thiopeptide analogues of antibiotics has allowed some of the limitations inherent to these naturally occurring substances to be overcome. Chemical synthesis, semisynthetic derivatization, and engineering of the biosynthetic pathway have independently led to complementary modifications of various thiopeptides. Some of the new substances have displayed improved profiles, not only as antibiotics, but also as antiplasmodial and anticancer drugs. The design of novel molecules based on the thiopeptide scaffold appears to be the only strategy to exploit the high potential they have shown in vitro. Herein we present the most relevant achievements in the production of thiopeptide analogues and also discuss the way the different approaches might be combined in a multidisciplinary strategy to produce more sophisticated structures.

摘要

近年来，抗生素硫肽类似物的发展克服了这些天然物质固有的一些局限性。化学合成、半合成衍生化和生物合成途径的工程改造独立地导致了各种硫肽的互补修饰。一些新物质不仅表现出更好的抗生素特性，而且还具有抗疟原虫和抗癌药物的特性。基于硫肽支架设计新型分子似乎是唯一一种能够充分发挥其体外高潜力的策略。本文介绍了在硫肽类似物生产方面的最相关成就，并讨论了如何结合不同的方法，形成一个多学科的策略，以生产更复杂的结构。

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硫肽工程：迈向未来药物的多学科努力。

Thiopeptide engineering: a multidisciplinary effort towards future drugs.

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