离子强度和有机溶剂对蛋白质酸转变的影响

Charles C. Bigelow , Thomas A. Krenitsky
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引用次数: 12

摘要

1.1. 用差分光光度法研究了离子强度、二氧六环和乙二醇对核糖核酸酶酸转变的影响。在这种转变中,如果温度足够高,分子中三个埋藏的酪基残基中的两个可以被归一化,但离子强度的增加会抑制其中一个的归一化。二氧六环使二氧六环的正规化更容易,乙二醇的作用很小。二氧六环也提高了转变的pK。核糖核酸酶、血清白蛋白和乙酸均表现出Δ pK对二氧六环浓度的相同依赖性,表明其增加是由介质的体积介电常数变化引起的。胰凝乳酶原受影响更大,而溶菌酶受影响较小。核糖核酸酶在pH为2.3时被二氧六烷变性,表现出一些非常不寻常的特征。差谱是反常的。变性受到离子强度的强烈影响,并且与通常观察到的方向相反:随着离子强度的提高,在较低的二氧六烷浓度下发生变性。对于这些不寻常的特征,一个可能的解释是基于韦伯的观察,即二氧六环首先使核糖核酸酶变性,并且在较高的浓度下促进分子中螺旋区域的形成。
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The influence of ionic strength and organic solvents on acid transitions of proteins

  • 1.

    1. The influence of ionic strength, dioxane, and ethylene glycol on the acid transition of ribonuclease has been studied by difference spectrophotometry. In this transition two of the three buried tyrosyl residues of the molecule can be normalized if the temperature is high enough, but an increase in the ionic strength will repress the normalization of one of them. Dioxane makes the normalization of the second one easier, and ethylene glycol has very little effect.

  • 2.

    2. Dioxane also raises the pK of the transition. Ribonuclease, serum albumin, and acetic acid all show the same dependence of Δ pK on dioxane concentration, suggesting that the increase is caused by a change in the bulk dielectric constant of the medium. Chymotrypsinogen is much more strongly affected, and lysozyme is less strongly affected.

  • 3.

    3. The denaturation of ribonuclease at pH 2.3 by dioxane shows some very unusual features. The difference spectra are anomalous. The denaturation is very strongly affected by the ionic strength, and in an opposite direction to what is usually observed: denaturation occurs at lower dioxane concentrations as the ionic strength is raised. A possible explanation for these unusual features is based on Weber's observation that dioxane first denatures ribonuclease, and at higher concentrations promotes the formation of helical regions in the molecule.

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