从格拉瑞韦（MK-5172）的合成就可以发现噁二嗪类的复分解催化剂。

The Discovery of Quinoxaline-Based Metathesis Catalysts from Synthesis of Grazoprevir (MK-5172).

机构信息

Department of Process and Analytical Chemistry, Merck Research Laboratories , Rahway, New Jersey 07065, United States.

出版信息

Org Lett. 2016 May 6;18(9):1952-5. doi: 10.1021/acs.orglett.6b00070. Epub 2016 Apr 28.

DOI:10.1021/acs.orglett.6b00070

Abstract

Olefin metathesis (OM) is a reliable and practical synthetic methodology for challenging carbon-carbon bond formations. While existing catalysts can effect many of these transformations, the synthesis and development of new catalysts is essential to increase the application breadth of OM and to achieve improved catalyst activity. The unexpected initial discovery of a novel olefin metathesis catalyst derived from synthetic efforts toward the HCV therapeutic agent grazoprevir (MK-5172) is described. This initial finding has evolved into a class of tunable, shelf-stable ruthenium OM catalysts that are easily prepared and exhibit unique catalytic activity.

摘要

烯烃复分解（OM）是一种可靠且实用的合成方法，可用于构建具有挑战性的碳-碳键。尽管现有的催化剂可以实现许多此类转化，但合成和开发新型催化剂对于增加 OM 的应用范围和提高催化剂的活性至关重要。本文描述了一种新型烯烃复分解催化剂的意外初步发现，该催化剂源自 HCV 治疗药物格拉替雷（MK-5172）的合成努力。这一初步发现已经发展成为一类可调节、稳定储存的钌 OM 催化剂，它们易于制备并具有独特的催化活性。

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The Discovery of Quinoxaline-Based Metathesis Catalysts from Synthesis of Grazoprevir (MK-5172).从格拉瑞韦（MK-5172）的合成就可以发现噁二嗪类的复分解催化剂。

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从格拉瑞韦（MK-5172）的合成就可以发现噁二嗪类的复分解催化剂。

The Discovery of Quinoxaline-Based Metathesis Catalysts from Synthesis of Grazoprevir (MK-5172).

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