Membrane proteins in thin films

Abstract

Molecular functions and structural changes of membrane proteins in an aqueous environment can be elucidated by reaction-induced FTIR difference spectroscopy upon photolysis of caged compounds. The achieved detection of IR band changes even due to single amino acid residues is, however, only possible in the presence of very high protein concentrations, implying that a low water content must be present. In general, the films are formed by controlled dehydration of membrane protein suspensions at reduced pressure and low temperature. For the retention of enzymatic activity of Na,K-ATPase, for example, a cosolvent such as glycerol is required. In order to interprete the results obtained by FTIR spectroscopy, it is important to know whether essential properties of the proteins such as hydration are changed upon film formation. Therefore, a differential scanning calorimetry (DSC) study has been carried out with purified Na,K-ATPase and Ca-ATPase in suspension, in form of pellets obtained by high-speed ultracentrifugation and in thin films. As relevant thermoanalytical properties, the endothermic denaturation transitions of the proteins have been studied.