肌红蛋白重折叠途径中缔合中间体的证据。

Evidence of an associative intermediate on the myoglobin refolding pathway.

作者信息

Eliezer D, Chiba K, Tsuruta H, Doniach S, Hodgson K O, Kihara H

机构信息

Department of Physics, Stanford University, California 94305.

出版信息

Biophys J. 1993 Aug;65(2):912-7. doi: 10.1016/S0006-3495(93)81124-X.

DOI:10.1016/S0006-3495(93)81124-X

PMID:8218914

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1225792/

Abstract

Time-resolved small-angle x-ray scattering using the stopped-flow method has been applied successfully to investigate the refolding of myoglobin. This is the only method to date that yields direct information on protein physical dimensions during the folding process. It has the potential to detect and probe important processes, such as protein compaction and association, on a millisecond time scale. Initial experiments were performed with horse myoglobin denatured in high concentrations of urea. The denatured protein was diluted rapidly into a buffer containing no urea or low concentrations of urea. The time-course of the forward-scattered intensity shows a decrease in amplitude which is clearly not engendered by the compaction of the protein, but does correspond well to a dimer dissociation process. Initial and final radii of gyration correspond well to a dimer and a monomer, respectively. Kratky plots of the initial and final states also support the transient dimerization model. The apparent dissociation rate constant was obtainable directly from the data. An association rate constant and an equilibrium constant could be estimated. The dimerizing intermediate is speculated to be a globular non-native state with an exposed hydrophobic surface.

摘要

采用停流法的时间分辨小角X射线散射已成功应用于研究肌红蛋白的重折叠。这是迄今为止唯一一种能在折叠过程中提供蛋白质物理尺寸直接信息的方法。它有潜力在毫秒时间尺度上检测和探测重要过程，如蛋白质压缩和缔合。最初的实验是用在高浓度尿素中变性的马肌红蛋白进行的。将变性蛋白迅速稀释到不含尿素或低浓度尿素的缓冲液中。前向散射强度随时间的变化显示出振幅下降，这显然不是由蛋白质压缩引起的，但确实与二聚体解离过程很好地对应。初始和最终的回转半径分别与二聚体和单体很好地对应。初始和最终状态的Kratky图也支持瞬时二聚化模型。表观解离速率常数可直接从数据中获得。可以估计缔合速率常数和平衡常数。推测二聚化中间体是具有暴露疏水表面的球状非天然状态。

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