通过基因掺入氧化还原活性非天然氨基酸，氧化酶活性得到显著改善。

Significant improvement of oxidase activity through the genetic incorporation of a redox-active unnatural amino acid.

作者信息

Yu Yang, Zhou Qing, Wang Li, Liu Xiaohong, Zhang Wei, Hu Meirong, Dong Jianshu, Li Jiasong, Lv Xiaoxuan, Ouyang Hanlin, Li Han, Gao Feng, Gong Weimin, Lu Yi, Wang Jiangyun

机构信息

Center of Biophysics and Computational Biology and Department of Chemistry , University of Illinois at Urbana-Champaign , Urbana , Illinois 61801 , USA . Email:

Laboratory of RNA Biology , Institute of Biophysics , Chinese Academy of Sciences , 15 Datun Road, Chaoyang District , Beijing , 100101 , China . Email:

出版信息

Chem Sci. 2015 Jul 1;6(7):3881-3885. doi: 10.1039/C5SC01126D. Epub 2015 Apr 13.

DOI:10.1039/C5SC01126D

PMID:26417427

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4583198/

Abstract

While nature employs various covalent and non-covalent strategies to modulate tyrosine (Y) redox potential and p in order to optimize enzyme activities, such approaches have not been systematically applied for the design of functional metalloproteins. Through the genetic incorporation of 3-methoxytyrosine (OMeY) into myoglobin, we replicated important features of cytochrome c oxidase (CcO) in this small soluble protein, which exhibits selective O reduction activity while generating a small amount of reactive oxygen species (ROS). These results demonstrate that the electron donating ability of a tyrosine residue in the active site is important for CcO function. Moreover, we elucidated the structural basis for the genetic incorporation of OMeY into proteins by solving the X-ray structure of OMeY specific aminoacyl-tRNA synthetase complexed with OMeY.

摘要

虽然自然界采用各种共价和非共价策略来调节酪氨酸（Y）的氧化还原电位和p值，以优化酶的活性，但这些方法尚未系统地应用于功能性金属蛋白的设计。通过将3-甲氧基酪氨酸（OMeY）基因掺入肌红蛋白中，我们在这种小的可溶性蛋白中复制了细胞色素c氧化酶（CcO）的重要特征，该蛋白表现出选择性的O还原活性，同时产生少量活性氧（ROS）。这些结果表明，活性位点中酪氨酸残基的供电子能力对CcO功能很重要。此外，我们通过解析与OMeY复合的OMeY特异性氨酰-tRNA合成酶的X射线结构，阐明了将OMeY基因掺入蛋白质的结构基础。

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通过基因掺入氧化还原活性非天然氨基酸，氧化酶活性得到显著改善。

Significant improvement of oxidase activity through the genetic incorporation of a redox-active unnatural amino acid.

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