利用重新定义的密码子实现蛋白质稳定化。

Protein stabilization utilizing a redefined codon.

作者信息

Ohtake Kazumasa, Yamaguchi Atsushi, Mukai Takahito, Kashimura Hiroki, Hirano Nobutaka, Haruki Mitsuru, Kohashi Sosuke, Yamagishi Kenji, Murayama Kazutaka, Tomabechi Yuri, Itagaki Takashi, Akasaka Ryogo, Kawazoe Masahito, Takemoto Chie, Shirouzu Mikako, Yokoyama Shigeyuki, Sakamoto Kensaku

机构信息

1] Division of Structural and Synthetic Biology, RIKEN Center for Life Science Technologies, 1-7-22 Suehiro-cho, Tsurumi, Yokohama 230-0045, Japan [2] RIKEN Systems and Structural Biology Center, 1-7-22 Suehiro-cho, Tsurumi, Yokohama 230-0045, Japan.

Department of Chemical Biology and Applied Chemistry, College of Engineering, Nihon University, Koriyama, Fukushima 963-8642, Japan.

出版信息

Sci Rep. 2015 May 18;5:9762. doi: 10.1038/srep09762.

DOI:10.1038/srep09762

PMID:25985257

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4434908/

Abstract

Recent advances have fundamentally changed the ways in which synthetic amino acids are incorporated into proteins, enabling their efficient and multiple-site incorporation, in addition to the 20 canonical amino acids. This development provides opportunities for fresh approaches toward addressing fundamental problems in bioengineering. In the present study, we showed that the structural stability of proteins can be enhanced by integrating bulky halogenated amino acids at multiple selected sites. Glutathione S-transferase was thus stabilized significantly (by 5.2 and 5.6 kcal/mol) with 3-chloro- and 3-bromo-l-tyrosines, respectively, incorporated at seven selected sites. X-ray crystallographic analyses revealed that the bulky halogen moieties filled internal spaces within the molecules, and formed non-canonical stabilizing interactions with the neighboring residues. This new mechanism for protein stabilization is quite simple and applicable to a wide range of proteins, as demonstrated by the rapid stabilization of the industrially relevant azoreductase.

摘要

最近的进展从根本上改变了将合成氨基酸掺入蛋白质的方式，除了20种标准氨基酸外，还能实现其高效和多位点掺入。这一进展为解决生物工程中的基本问题提供了新方法的机会。在本研究中，我们表明通过在多个选定位置整合体积较大的卤代氨基酸，可以增强蛋白质的结构稳定性。因此，在七个选定位置分别掺入3-氯-L-酪氨酸和3-溴-L-酪氨酸后，谷胱甘肽S-转移酶得到了显著稳定（分别提高了5.2和5.6千卡/摩尔）。X射线晶体学分析表明，体积较大的卤素部分填充了分子内部空间，并与相邻残基形成了非标准的稳定相互作用。这种蛋白质稳定的新机制非常简单，适用于广泛的蛋白质，工业相关的偶氮还原酶的快速稳定就证明了这一点。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aab9/4434908/32721ebce1bb/srep09762-f1.jpg

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利用重新定义的密码子实现蛋白质稳定化。

Protein stabilization utilizing a redefined codon.

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