尿素溶液中蛋白质展开过程的平衡常数和自由能
Equilibrium constants and free energies in unfolding of proteins in urea solutions.
作者信息
Klotz I M
机构信息
Department of Chemistry, Northwestern University, Evanston, IL 60208-3113, USA.
出版信息
Proc Natl Acad Sci U S A. 1996 Dec 10;93(25):14411-5. doi: 10.1073/pnas.93.25.14411.
A novel thermodynamic approach to the reversible unfolding of proteins in aqueous urea solutions has been developed based on the premise that urea ligands are bound cooperatively to the macromolecule. When successive stoichiometric binding constants have values larger than expected from statistical effects, an equation for moles of bound urea can be derived that contains imaginary terms. For a very steep unfolding curve, one can then show that the fraction of protein unfolded, B, depends on the square of the urea concentration, U, and is given by [equation: see text] A12 is the binding constant as B-->0, and lambda is a parameter that reflects the augmentation in affinities of protein for urea as the moles bound increases to the saturation number, n. This equation provides an analytic expression that reproduces the unfolding curve with good precision, suggests a simple linear graphical procedure for evaluating A12 and lambda, and leads to the appropriate standard free energy changes. The calculated delta G degree values reflect the coupling of urea binding with unfolding of the protein. Some possible implications of this analysis to protein folding in vivo are described.
基于尿素配体与大分子协同结合的前提,已开发出一种用于研究蛋白质在尿素水溶液中可逆展开的新型热力学方法。当连续的化学计量结合常数的值大于统计效应预期的值时,可以推导出一个包含虚数项的结合尿素摩尔数方程。对于非常陡峭的展开曲线,可以证明展开的蛋白质分数(B)取决于尿素浓度(U)的平方,其表达式为[方程:见原文]。(A_{12})是(B\to0)时的结合常数,(\lambda)是一个参数,它反映了随着结合摩尔数增加到饱和数(n),蛋白质对尿素亲和力的增强。该方程提供了一个解析表达式,能高精度地重现展开曲线,提出了一种评估(A_{12})和(\lambda)的简单线性图形方法,并得出了适当的标准自由能变化。计算得到的(\Delta G^{\circ})值反映了尿素结合与蛋白质展开的耦合。描述了该分析对体内蛋白质折叠的一些可能影响。
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