通过半胱氨酸氧化扩展蛋白质的功能多样性。

Expanding the functional diversity of proteins through cysteine oxidation.

作者信息

Reddie Khalilah G, Carroll Kate S

机构信息

Life Sciences Institute, University of Michigan, Ann Arbor, MI 48109-2216, USA.

出版信息

Curr Opin Chem Biol. 2008 Dec;12(6):746-54. doi: 10.1016/j.cbpa.2008.07.028. Epub 2008 Sep 17.

DOI:10.1016/j.cbpa.2008.07.028

PMID:18804173

Abstract

The polarizable sulfur atom in cysteine is subject to numerous post-translational oxidative modifications in the cellular milieu, which regulates a wide variety of biological phenomena such as catalysis, metal binding, protein turnover, and signal transduction. The application of chemical rationale to describe the features of different cysteine oxoforms affords a unique perspective on this rapidly expanding field. Moreover, a chemical framework broadens our understanding of the functional roles that specific cysteine oxidation states can play and facilitates the development of mechanistic proposals, which can be tested in both biochemical and cellular studies.

摘要

半胱氨酸中可极化的硫原子在细胞环境中会经历多种翻译后氧化修饰，这些修饰调节着各种各样的生物学现象，如催化、金属结合、蛋白质周转和信号转导。应用化学原理来描述不同半胱氨酸氧化形式的特征，为这个迅速发展的领域提供了独特的视角。此外，一个化学框架拓宽了我们对特定半胱氨酸氧化态所能发挥的功能作用的理解，并促进了机理假说的发展，这些假说可在生化和细胞研究中进行验证。

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通过半胱氨酸氧化扩展蛋白质的功能多样性。

Expanding the functional diversity of proteins through cysteine oxidation.

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