血清白蛋白有机配体结合区域的可及速率受熵控制。
The rate of access to the organic ligand-binding region of serum albumin is entropy controlled.
作者信息
Scheider W
出版信息
Proc Natl Acad Sci U S A. 1979 May;76(5):2283-7. doi: 10.1073/pnas.76.5.2283.
Abstract
The technique of real time dielectric relaxation measurement coupled with a conventional stopped-flow device has made it possible to measure the rates of association and dissociation of the complex of human serum albumin with its most prevalent ligands, the long-chain fatty acids. This association was previously shown to proceed in two steps: a fast, probably diffusion-controlled, nonspecific association, followed by a slower (approximately 3 sec--1) rearrangement of the intermediate protein--ligand configuration, whose kinetics is first order. By use of the Arrhenius relation and standard theory of rate processes it is determined that there is virtually no activation enthalpy in the forward binding reaction and that the rate of access to the interior hydrophobic binding region of serum albumin is controlled by a negative entropy of activation, reflecting a high degree of ordering in the transition state. A complete thermodynamic and kinetic profile of the association reaction is given.
摘要
将实时介电弛豫测量技术与传统的停流装置相结合,使得测量人血清白蛋白与其最常见的配体长链脂肪酸形成的复合物的缔合和解离速率成为可能。先前已表明这种缔合过程分两步进行:第一步是快速的、可能受扩散控制的非特异性缔合,随后是较慢的(约3秒⁻¹)中间蛋白质 - 配体构型重排,其动力学为一级反应。通过使用阿伦尼乌斯关系式和速率过程的标准理论,确定在正向结合反应中几乎没有活化焓,并且进入血清白蛋白内部疏水结合区域的速率受活化熵的负值控制,这反映了过渡态的高度有序性。给出了缔合反应完整的热力学和动力学概况。
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