氧化还原活性最小型类红氧还蛋白的从头设计。

De novo design of a redox-active minimal rubredoxin mimic.

作者信息

Nanda Vikas, Rosenblatt Michael M, Osyczka Artur, Kono Hidetoshi, Getahun Zelleka, Dutton P Leslie, Saven Jeffery G, Degrado William F

机构信息

Department of Biochemistry and Biophysics, Johnson Foundation, School of Medicine, University of Pennsylvania, Philadelphia, Pennsylvania 19104, Japan.

出版信息

J Am Chem Soc. 2005 Apr 27;127(16):5804-5. doi: 10.1021/ja050553f.

DOI:10.1021/ja050553f

PMID:15839675

Abstract

Metal-binding sites in metalloproteins frequently occur at the interfaces of elements of secondary structure, which has enabled the retrostructural analysis of natural proteins and the de novo design of helical bundles that bind metal ion cofactors. However, the design of metalloproteins containing beta-structure is less well developed, despite the frequent occurrence of beta-conformations in natural metalloproteins. Here, we describe the design and construction of a beta-protein, RM1, that forms a stable, redox-active 4-Cys thiolate Fe(II/III) site analogous to the active site of rubredoxin. The protein folds into a beta-structure in the presence and absence of metal ions and binds Fe(II/III) to form a redox-active site that is stable to repeated cycles of oxidation and reduction, even in an aerobic environment.

摘要

金属蛋白中的金属结合位点常常出现在二级结构元件的界面处，这使得对天然蛋白质进行逆向结构分析以及从头设计能够结合金属离子辅因子的螺旋束成为可能。然而，尽管β-构象在天然金属蛋白中经常出现，但含β-结构的金属蛋白的设计却不太完善。在此，我们描述了一种β-蛋白RM1的设计与构建，它形成了一个稳定的、具有氧化还原活性的4-半胱氨酸硫醇盐Fe(II/III)位点，类似于铁氧化还原蛋白的活性位点。该蛋白在存在和不存在金属离子的情况下都折叠成β-结构，并结合Fe(II/III)形成一个氧化还原活性位点，即使在有氧环境中，该位点在反复的氧化和还原循环中也很稳定。

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氧化还原活性最小型类红氧还蛋白的从头设计。

De novo design of a redox-active minimal rubredoxin mimic.

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