Effect of mutagenic replacement of the carboxyl terminal amino acid, Val124, on the properties and regeneration of bovine pancreatic ribonuclease A

An important role of C-terminal amino acid residues of bovine pancreatic ribonuclease A (RNase A) in the formation of the three-dimensional structure was previously implied. In this study, we replaced the C-terminal amino acid, Val124, with amino acid residues with different properties by site-directed mutagenesis. The recombinant mutant enzymes were purified and subjected to a refolding study after being converted to a fully reduced and denatured state. There was a significant difference among the mutant enzymes in the rate of recovery of the activity when air oxidation was performed the rate decreased in the order of V124E, V124L, V124G, V124K, V124A, and V124W. On the other hand, the recovery rates for all the mutant RNase A in the presence of GSH and GSSG were almost the same. The recovered activity of V124E after 24 h incubation reached approximately 90% of that of the wild type enzyme, followed by V124L 80%, V124A and V124W 65%, and V124K and V124G 50%. The duration of the initial lag phase became shorter in the order of V124W, V124A, V124K or V124G, V124E, or V124L. The results imply that the C-terminal amino acid significantly influences the formation of correct disulfide bonds during the refolding process and that the hydraphobic interaction of Val124 is important for efficient packing of the RNase A molecule.