人造金属蛋白的设计与工程:从从头金属配位到催化。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Andreas S Klein, Cathleen Zeymer
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引用次数: 9

摘要

金属蛋白对维持生命至关重要。自然进化优化了它们复杂的结构、调节和催化功能,这是蛋白质或金属离子无法单独完成的。为了理解这种协同作用和自然系统背后复杂的设计原则,通过在天然或完全设计的人造蛋白质支架中安装全新的金属位点,从下到上设计了更简单的模拟。这篇综述的重点是与该方法相关的主要挑战。我们讨论了蛋白质如何配备结合位点,为选择的金属辅助因子提供最佳的配位环境,金属辅助因子可以是单个金属离子或复杂的多核簇。此外,我们还重点介绍了最近研究中人造金属蛋白的新功能,包括电子转移和催化。在此背景下,金属酶的开发强调了从头蛋白质设计和定向进化的强大结合。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Design and engineering of artificial metalloproteins: from de novo metal coordination to catalysis.

Metalloproteins are essential to sustain life. Natural evolution optimized them for intricate structural, regulatory and catalytic functions that cannot be fulfilled by either a protein or a metal ion alone. In order to understand this synergy and the complex design principles behind the natural systems, simpler mimics were engineered from the bottom up by installing de novo metal sites in either natural or fully designed, artificial protein scaffolds. This review focuses on key challenges associated with this approach. We discuss how proteins can be equipped with binding sites that provide an optimal coordination environment for a metal cofactor of choice, which can be a single metal ion or a complex multinuclear cluster. Furthermore, we highlight recent studies in which artificial metalloproteins were engineered towards new functions, including electron transfer and catalysis. In this context, the powerful combination of de novo protein design and directed evolution is emphasized for metalloenzyme development.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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