Sutherland J W
Proc Natl Acad Sci U S A. 1977 May;74(5):2002-6. doi: 10.1073/pnas.74.5.2002.
The effect of temperature on the extent of association of self-assembling protein polymers is expressed mathematically in terms of the van't Hoff enthalpy of polymerization, deltaHV.H. This quantity has been experimentally defined in two ways--from the respective temperature derivatives of the critical polymerization concentration and of the fractional conversion of protein into polymer. These two definitions are shown not to be identical, except in certain limits. In terms of both definitions, it is shown that deltaHV.H. depends not only upon the enthalpy changes but also upon the corresponding equilibrium constants for the various equilibria involved in polymer formation. This has two consequences: (i) large deltaHV.H. values may result from reactions having small calorimetric enthalpy changes; and (ii) deltaHV.H. can depend strongly on temperature. These considerations are applied to two systems for which there exist considerable experimental data--namely, hemoglobin S and tubulin. The large discrepancy between the calorimetric and van't Hoff enthalpies for the polymerization of tubulin is shown to be explicable in terms of these considerations.
温度对自组装蛋白质聚合物缔合程度的影响,根据范特霍夫聚合焓(deltaHV.H)以数学方式表示。该量已通过两种方式在实验中定义——分别从临界聚合浓度和蛋白质转化为聚合物的分数转化率的温度导数来定义。结果表明,这两种定义并不相同,除非在某些极限情况下。从这两种定义来看,都表明deltaHV.H不仅取决于焓变,还取决于聚合物形成过程中所涉及的各种平衡的相应平衡常数。这有两个后果:(i)具有小的量热焓变的反应可能导致大的deltaHV.H值;(ii)deltaHV.H可能强烈依赖于温度。这些考虑因素应用于两个有大量实验数据的系统——即血红蛋白S和微管蛋白。结果表明,微管蛋白聚合的量热焓和范特霍夫焓之间的巨大差异可以根据这些考虑因素来解释。