在设计和天然支架中工程化金属蛋白酶功能。

Engineering Metalloprotein Functions in Designed and Native Scaffolds.

机构信息

Department of Chemical Sciences, University of Napoli 'Federico II', Via Cintia, I-80126 Napoli, Italy.

出版信息

Trends Biochem Sci. 2019 Dec;44(12):1022-1040. doi: 10.1016/j.tibs.2019.06.006. Epub 2019 Jul 13.

DOI:10.1016/j.tibs.2019.06.006

Abstract

Metalloproteins are crucial for life. The mutual relationship between metal ions and proteins makes metalloproteins able to accomplish key processes in biological systems, often very difficult to reproduce with inorganic coordination compounds under mild conditions. Taking inspiration from nature, many efforts have been devoted to developing artificial molecules as metalloprotein mimics. We have witnessed an explosion of protein design strategies leading to designed metalloproteins, ranging from stable structures to functional molecules. This review illustrates the most recent results for inserting metalloprotein functions in designed and engineered protein scaffolds. The selected examples highlight the potential of different approaches for the construction of artificial molecules capable of simulating and even overcoming the features of natural metalloproteins.

摘要

金属蛋白对于生命至关重要。金属离子与蛋白质的相互关系使得金属蛋白能够完成生物系统中的关键过程，而这些过程通常很难在温和条件下用无机配位化合物来复制。受自然界的启发，人们付出了很多努力来开发人工分子作为金属蛋白模拟物。我们见证了设计金属蛋白的策略的爆发，从稳定的结构到功能性分子。本综述说明了在设计和工程蛋白支架中插入金属蛋白功能的最新结果。所选的例子突出了不同方法在构建能够模拟甚至超越天然金属蛋白特性的人工分子方面的潜力。

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在设计和天然支架中工程化金属蛋白酶功能。

Engineering Metalloprotein Functions in Designed and Native Scaffolds.

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