Linkage of proton binding to the thermal unfolding of Sso7d from the hyperthermophilic archaebacterium Sulfolobus solfataricus.

In this study the pH dependence of the thermal stability of Sso7d from Sulfolobus solfataricus is analyzed. This small globular protein of 63 residues shows a very marked dependence of thermal stability on pH: the denaturation temperature passes from 65.2 degrees C at pH 2.5 to 97.9 degrees C at pH 4.5. Analysis of the data points out that the binding of at least two protons is coupled to the thermal unfolding. By linking the proton binding to the conformational unfolding equilibrium, a thermodynamic model, which is able to describe the dependence upon the solution pH of both the excess heat capacity function and the denaturation Gibbs energy change for Sso7d, is developed. The decreased stability in very acid conditions is due to the binding of two protons on identical and noninteracting sites of the unfolded state. Actually, such sites are two carboxyl groups possessing very low pKa values in the native structure, probably involved in salt-bridges on the protein surface.