Thermodynamics of staphylococcal nuclease denaturation. II. The A-state

## Abstract Using high‐sensitivity differential scanning calorimetry, we reexamined the thermodynamics of denaturation of staphylococcal nuclease. The denaturational changes in enthalpy and heat capacity were found to be functions of both temperature and pH. The denatured state of staphylococcal nu

The rates of hydrogen exchange were measured in a ''physiological'' denatured state of staphylococcal nuclease using a NMR magnetization transfer experiment suitable for the measurement of exchange rates faster than 0.5 s 21 . The results are compared with predicted exchange rates (k ex ) for the ra

## Abstract Titration of a salt‐free solution of native staphylococcal nuclease by HC1 leads to an unfolding transition in the vicinity of pH 4, as determined by near‐ and far‐UV circular dichroism. At pH 2‐3, the protein is substantially unfolded. The addition of further HC1 results in a second tr

## Abstract Single alanine and glycine insertions were introduced at 20 randomly selected positions in staphylococcal nuclease. The resulting changes in catalytic activity and in stability to guanidine hydrochloride denaturation indicate that the native state structure is frequently able to accommo

## Abstract The effect of xylose on the rates of folding and unfolding of staphylococcal nuclease (nuclease) have been investigated using fluorescence‐detected pressure‐jump relaxation kinetics in order to establish the kinetic basis for the observed stabilization of nuclease by this sugar (Frye KJ

Fluorescence and circular dichroism data as a function of temperature were obtained to characterize the unfolding of nuclease A and two of its less stable mutants. These spectroscopic data were obtained with a modified instrument that enables the nearly simultaneous detection of both fluorescence an