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CPP: Fachverband Chemische Physik und Polymerphysik

CPP 36: Biopolymers and Biological Systems

CPP 36.9: Vortrag

Freitag, 29. Februar 2008, 12:30–12:45, C 264

Thermodynamics of proteins: pressure and temperature denaturation curves — •Johannes Wiedersich^1,2, Simone Köhler¹, Josef Friedrich¹, and Arne Skerra³ — ¹Lehrstuhl für Physik Weihenstephan, TU München — ²Physikdepartment E13, TU München — ³Lehrstuhl für Biologische Chemie, TU München

The folding and unfolding of proteins shows a complex scenario, the details of which are not yet fully understood. One important aspect concerns the stability of proteins. By means of fluorescence spectroscopy we obtain the equillibrium constant for the denaturation of the engineered fluorescein-binding protein FluA as a function of both pressure and temperature. From the full thermodynamic analysis of the transition curves all of the involved global thermodynamic parameters of protein folding are determined, in particular the changes in entropy and volume, compressibility, thermal expansion and specific heat.

We demonstrate that the phase diagram of protein folding is closed and assumes an elliptic shape. The thermodynamic condition for such an elliptic phase diagram is related to the degree of correlation between fluctuations of the changes in volume and enthalpy at the phase boundary. This correlation is moderately low, on the order of 0.05 in our case. Our study suggests that the elliptic phase diagram is a consequence of the inherent conformational disorder of proteins and that it may be viewed as the thermodynamic manifestation of the high degeneracy of conformational energies that is characteristic for this class of macromolecules.