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蛋白质折叠速度限制:变性的钌(氨)5(组氨酸-33)-锌-细胞色素c中电子转移速率所设定的链内扩散时间

The protein-folding speed limit: intrachain diffusion times set by electron-transfer rates in denatured Ru(NH3)5(His-33)-Zn-cytochrome c.

作者信息

Chang I-Jy, Lee Jennifer C, Winkler Jay R, Gray Harry B

机构信息

Beckman Institute, California Institute of Technology, Pasadena, CA 91125, USA.

出版信息

Proc Natl Acad Sci U S A. 2003 Apr 1;100(7):3838-40. doi: 10.1073/pnas.0637283100. Epub 2003 Mar 19.

DOI:10.1073/pnas.0637283100
PMID:12646702
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC153008/
Abstract

The kinetics of electron transfer from the triplet-excited Zn-porphyrin to a Ru(NH(3))(5)(His-33)(3+) complex have been measured in Zn-substituted ruthenium-modified cytochrome c under denaturing conditions. In the folded protein, the electron-tunneling rate constant is 7.5 x 10(5) s(-1). As the protein is denatured with guanidine hydrochloride, a faster adiabatic electron-transfer reaction appears (4.0 x 10(6) s(-1), [guanidine hydrochloride] = 5.4 M) that is limited by the rate of intrachain diffusion to bring the Zn-porphyrin and Ru complex into contact. The 250-ns contact time for formation of a 15-residue loop in denatured cytochrome c is in accord with a statistical model developed by Camacho and Thirumalai [Camacho, C. J. & Thirumalai, D. (1995) Proc. Natl. Acad. Sci. USA 92, 1277-1281] that predicts that the most probable transient loops formed in denatured proteins are comprised of 10 amino acids. Extrapolation of the cytochrome c contact time to a 10-residue loop sets the folding speed limit at approximately 10(7) s(-1).

摘要

在变性条件下,已对锌卟啉三重态激发态向Ru(NH(3))(5)(His - 33)(3+)配合物的电子转移动力学进行了测定,该过程发生在锌取代的钌修饰细胞色素c中。在折叠的蛋白质中,电子隧穿速率常数为7.5×10(5) s(-1)。随着蛋白质用盐酸胍变性,出现了更快的绝热电子转移反应(4.0×10(6) s(-1),[盐酸胍]=5.4 M),该反应受链内扩散速率限制,链内扩散使锌卟啉和钌配合物接触。变性细胞色素c中形成一个15个残基环的250纳秒接触时间,与卡马乔和蒂鲁马莱开发的统计模型[卡马乔,C. J. & 蒂鲁马莱,D.(1995年)《美国国家科学院院刊》92,1277 - 1281]相符,该模型预测变性蛋白质中形成的最可能的瞬态环由10个氨基酸组成。将细胞色素c的接触时间外推到一个10个残基的环,将折叠速度限制设定在约10(7) s(-1)。

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