Pretransitional structural changes in the thermal denaturation of ribonuclease S and S protein.

Two mechanisms have been proposed for the thermal unfolding of ribonuclease S (RNase S). The first is a sequential partial unfolding of the S peptide/S protein complex followed by dissociation, whereas the second is a concerted denaturation/dissociation. The thermal denaturation of ribonuclease S and its fragment, the S protein, were followed with circular dichroism and infrared spectra. These spectra were analyzed by the principal component method of factor analysis. The use of multiple spectral techniques and of factor analysis monitored different aspects of the denaturation simultaneously. The unfolding pathway was compared with that of the parent enzyme ribonuclease A (RNase A), and a model was devised to assess the importance of the dissociation in the unfolding. The unfolding patterns obtained from the melting curves of each protein imply the existence of multiple intermediate states and/or processes. Our data provide evidence that the pretransition in the unfolding of ribonuclease S is due to partial unfolding of the S protein/S peptide complex and that the dissociation occurs at higher temperature. Our observations are consistent with a sequential denaturation mechanism in which at least one partial unfolding step comes before the main conformational transition, which is instead a concerted, final unfolding/dissociation step.