利用构象门控电子转移反应探究折叠漏斗底部

Probing the bottom of a folding funnel using conformationally gated electron transfer reactions.

作者信息

Bandi Swati, Bowler Bruce E

机构信息

Department of Chemistry and Center for Biomolecular Structure and Dynamics, The University of Montana, Missoula, Montana 59812, USA.

出版信息

J Am Chem Soc. 2008 Jun 18;130(24):7540-1. doi: 10.1021/ja801941r. Epub 2008 May 22.

DOI:10.1021/ja801941r

PMID:18494471

Abstract

The effect of global stability on the kinetics of interconversion between the native (N) and a compact, partially unfolded form (I) of iso-1-cytochrome c stabilized by His73-heme ligation is investigated using a novel conformationally gated ET method. For the K73H variant and the 2-fold less stable AcH73 variant, the N and I conformers are of nearly equal stability at pH 7.5. The pH jump kinetic data yield kobs = kNI + kIN of 35-40 s-1 at final pH values from 6 to 8 for the AcH73 variant, about 3-fold faster than for the more stable K73H variant. Gated ET measurements give kNI = 28 s-1 and kIN = 13 s-1 for the AcH73 variant, 10- and 2-fold greater than that for the more stable K73H variant. Thus, funneled landscapes have evolved such that loss of global stability lowers barriers at the bottom of a folding funnel, still allowing for efficient folding.

摘要

使用一种新型的构象门控电子转移方法，研究了全局稳定性对通过His73-血红素连接稳定的异-1-细胞色素c的天然态（N）和紧密的部分未折叠态（I）之间相互转化动力学的影响。对于K73H变体和稳定性低两倍的AcH73变体，在pH 7.5时，N和I构象体的稳定性几乎相等。pH跃变动力学数据表明，对于AcH73变体，在最终pH值为6至8时，观测速率常数kobs = kNI + kIN为35 - 40 s-1，比更稳定的K73H变体快约3倍。门控电子转移测量得出，AcH73变体的kNI = 28 s-1，kIN = 13 s-1，分别比更稳定的K73H变体大10倍和2倍。因此，漏斗状景观已经演化，使得全局稳定性的丧失降低了折叠漏斗底部的障碍，仍然允许高效折叠。

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利用构象门控电子转移反应探究折叠漏斗底部

Probing the bottom of a folding funnel using conformationally gated electron transfer reactions.

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