Recent synthesis of functionalized s-tetrazines and their application in ligation reactions under physiological conditions: a concise overview

Catalysis Reviews Pub Date : 2020-02-15 DOI:10.1080/01614940.2020.1726009

Li Wang, Jingwen Zhang, Jizhong Zhao, Ping Yu, Shenglin Wang, Hongmei Hu, Rui Wang

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引用次数: 6

Abstract

ABSTRACT Inverse electron demand Diels–Alder reactions have gained comprehensive attraction in recent years. Accordingly, the synthetic approaches for one of the coupling partners, namely s-tetrazine, have been extensively investigated. Generally, the main synthetic method of s-tetrazine relied on the condensation of two nitriles to give the corresponding symmetric/asymmetric tetrazines with moderate to excellent yields. However, the practical synthesis route and commercial/synthetic availability of the feedstock nitriles are still elusive. It is therefore probably worth summarizing the existing methods and typical biological applications that have been demonstrated in recent years. In brief, this overview will be split into three parts. First, we will summarize the typical approaches toward the synthesis of s-tetrazines till now. Then, we will provide the representative bio-orthogonal reactions by the combination of s-tetrazines with unsaturated compounds under physiological conditions. Eventually, we will propose a direction for the practical and efficient synthesis of s-tetrazine.

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近年来功能化s-四嗪的合成及其在生理条件下结扎反应中的应用综述

逆电子需求Diels-Alder反应近年来受到了广泛的关注。因此，对其中一个偶联伙伴s-四氮的合成方法进行了广泛的研究。一般来说，s-四嗪的主要合成方法是通过两个腈的缩合得到相应的对称/不对称四嗪，收率中等至优异。然而，实际的合成路线和原料腈的商业/合成可用性仍然难以捉摸。因此，可能有必要总结一下近年来已经证明的现有方法和典型的生物学应用。简而言之，本文将分为三个部分。首先，我们将总结目前合成s-四嗪的典型方法。然后，我们将在生理条件下提供具有代表性的s-四嗪与不饱和化合物结合的生物正交反应。最后，为实用高效的合成s-四氮指明了方向。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Catalysis Reviews

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