Title

Prevalence of temperature-dependent heat capacity changes in protein-DNA interactions

Document Type

Article

Publication Date

4-15-2008

Abstract

A large, negative ΔCp of DNA binding is a thermodynamic property of the majority of sequence-specific DNA-protein interactions, and a common, but not universal property of non-sequence-specific DNA binding. In a recent study of the binding of Taq polymerase to DNA, we showed that both the full-length polymerase and its "Klentaq" large fragment bind to primed-template DNA with significant negative heat capacities. Herein, we have extended this analysis by analyzing this data for temperature-variable heat capacity effects (ΔΔCp), and have similarly analyzed an additional 47 protein-DNA binding pairs from the scientific literature. Over half of the systems examined can be easily fit to a function that includes a ΔΔCp parameter. Of these, 90% display negative ΔΔCp values, with the result that the ΔCp of DNA binding will become more negative with rising temperature. The results of this collective analysis have potentially significant consequences for current quantitative theories relating ΔCp values to changes in accessible surface area, which rely on the assumption of temperature invariance of the ΔCp of binding. Solution structural data for Klentaq polymerase demonstrate that the observed heat capacity effects are not the result of a coupled folding event. © 2008 by the Biophysical Society.

Publication Source (Journal or Book title)

Biophysical Journal

First Page

3258

Last Page

3265

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