Individual amide proton exchange rates in thermally unfolded basic pancreatic trypsin inhibitor

Abstract

A novel experiment is described for measurements of amide proton exchange rates in protein with a time resolution of about 1 s. A flow apparatus was used to expose protein solutions of 2H2O first to high temperature for a predetermined time period, during which 1H-2H exchange proceeded, and then to ice-water. The technique was applied for exchange studies in thermally unfolded, selectively reduced basic pancreatic trypsin inhibitor. Measurements were made by 1H nuclear magnetic resonance after the exchange was quenched by rapid cooling. Thereby, the sequence-specific resonance assignments for the folded protein could be used, which had been previously obtained. The results of this study indicate that the exchange rates in the thermally unfolded protein are close to those expected for a random chain and that the NH exchange is catalyzed by 2H+ and O2H- up to high temperature, with no significant contributions from p2H-independent catalysis. We conclude that the parameters derived by Molday et al. [Molday, R. S., Englander, S. W., and Kallen, R. G. (1972) Biochemistry 11, 150-158] from measurements with small model peptides can be used to calculate intrinsic exchange rates in unfolded proteins and thus provide a reliable reference for the interpretation of exchange rates measured under native conditions.