Abstract
Thermolysin is remarkably activated in the presence of high concentrations (1-5M) of neutral salts and its activity is enhanced 15 times by 4M NaCl at pH 7.0 and 25°C [Inouye, K. (1992) J. Biochem. 112, 335-340]. In this study, the effects of nitration and amination of tyrosyl residues in thermolysin on its halophilic properties were examined. Nitration and successive amination inactivate thermolysin progressively as the degree of modification increases. When 16 tyrosyl residues were nitrated, the activity decreased to 10% of that of the native enzyme, whereas it recovered to 30% when they were aminated. The decrease in the activity by the nitration and amination was shown to be brought about only by a decrease in the molecular activity, kcat; the Michaelis constant, Km, was unaltered. When 14 tyrosyl residues of thermolysin were nitrated, the degree of activation by 4M NaCl at pH 7.0 decreased from 15 to 10, and this decreased further to 5 when the pH of the reaction medium was raised to 8.5. However, when the nitrated tyrosyl residues were reduced to aminotyrosyl residues, the degree of activation was restored to that of the native enzyme. The change in the degree of activation by nitration and amination of thermolysin could be due to the change in the ionization of tyrosyl residues, and it was suggested that removing negative charges from tyrosyl residues of thermolysin enhances its halophilicity.
