Effect of proline mutations on the stability and kinetics of folding of staphylococcal nuclease

Abstract

Listen

Translate article

The role of proline in the stability and kinetics of folding of wild-type staphylococcal nuclease and its P117G, P117T, and P31A mutants was examined as a function of guanidinium thiocyanate (Gdn-SCN) concentration. Replacement of Pro-117 with Gly or Thr caused small increases in stability, whereas substitution of Pro-31 by Ala led to a small decrease in stability. The slopes of the plots of delta G against denaturant concentration (m) for the mutant proteins are significantly smaller than for the wild-type, suggesting a decrease in the solvent-accessible surface area of the denatured state relative to that of the wild-type. The rates of unfolding and refolding were monitored using tryptophan fluorescence. The kinetic traces for refolding in the presence of Gdn-SCN were triphasic for the wild-type protein and P31A but biphasic for P117G and P117T mutants. The slower phases were typically 10% of the total amplitude except in the transition region. The rates of the fastest and medium phases of the wild-type were essentially unaffected by the mutations. Double-jump experiments in which the protein was unfolded in a high concentration of denaturant for a short time period and then refolded to final Gdn-SCN concentrations near the Cm revealed a fast increase in fluorescence emission corresponding to formation of the native state, followed by a slower decrease with an amplitude that varied with the guanidine concentration and time of unfolding.(ABSTRACT TRUNCATED AT 250 WORDS)