A model of the changes in denatured state structure underlying m value effects in staphylococcal nuclease.

Hydrogen exchange kinetics were measured on the native states of wild type staphylococcal nuclease and four mutants with values of mGuHCl (defined as dDeltaG/d[guanidine hydrochloride]) ranging from 0.8 to 1.4 of the wild type value. Residues within the five-strand beta-barrel of wild type and E75A and D77A, two mutants with reduced values of m GuHCl, were significantly more protected from exchange than expected on the basis of global stability as measured by fluorescence. In contrast, mutants V23A and M26G with elevated values of mGuHCl approach a flat profile of more or less constant protection independent of position in the structure. Differences in exchange protection between the C-terminus and the beta-barrel region correlate with mGuHCl, suggesting that a residual barrel-like structure becomes more highly populated in the denatured states of m- mutants and less populated in m+ mutants. Variations in the population of such a molten globule-like structure would account for the large changes in solvent accessible surface area of the denatured state thought to underlie m value effects.