Departments of †Chemistry, ‡Molecular Biology & Biochemistry, and §Pharmaceutical Sciences, University of California , Irvine, California 92697, United States.
ACS Chem Biol. 2014 Mar 21;9(3):592-605. doi: 10.1021/cb400828a. Epub 2014 Jan 30.
Bioorthogonal chemistries can be used to tag diverse classes of biomolecules in cells and other complex environments. With over 20 unique transformations now available, though, selecting an appropriate reaction for a given experiment is challenging. In this article, we compare and contrast the most common classes of bioorthogonal chemistries and provide a framework for matching the reactions with downstream applications. We also discuss ongoing efforts to identify novel biocompatible reactions and methods to control their reactivity. The continued expansion of the bioorthogonal toolkit will provide new insights into biomolecule networks and functions and thus refine our understanding of living systems.
生物正交化学可用于标记细胞和其他复杂环境中不同类别的生物分子。然而,目前已有 20 多种独特的转化反应,因此为给定的实验选择合适的反应具有挑战性。在本文中,我们比较和对比了最常见的生物正交化学类别,并提供了一个将反应与下游应用相匹配的框架。我们还讨论了识别新的生物相容性反应和控制其反应性的方法的进展。生物正交工具包的不断扩展将为生物分子网络和功能提供新的见解,从而完善我们对生命系统的理解。
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