States of amino acid residues in proteins: V. Different reactivities with H 2O 2 of tryptophan residues in lysozyme, proteinases and zymogens

Abstract

Hydrogen and organic peroxides were examined in a search for a reagent to differentiate between various states of tryptophan residues in proteins. Hydrogen peroxide in a solution of 0.5 M bicarbonate buffer (pH 8.1–9.4) containing 10% dioxane was found to possess a moderate oxidizing power to oxidize free and bound tryptophan residues at different concentrations of H 2O 2, and the strength of the tryptophan absorption band of the protein was lowered stepwise with increasing concentration. By the use of this reagent, tryptophan residues in several proteins were classified into various types with different oxidizabilities, and the moles, n, of each type per mole of proteine were determined; n=5 and 1 for lysozyme (EC 3.2.1.17), n=5, 1 and 1 for chymotrypsinogen and α-chymotrypsin (EC 3.4.4.5), and n=2, 1 and 1 for trypsinogen and trypsin (EC 3.4.4.4.) which are arranged in the order of decreasing oxidizability. On the activation of chymotrypsinogen, the oxidizability of the most strongly bound residue decreased greatly whereas, on the activation of trypsinogen, the oxidizability of the secondly oxidized residue increased slightly. The structural rearrangement on the activation was discussed in terms of these changes in state of tryptophan as well as those of other amino acids determined previously. The enzymic activity of lysozyme an proteinases was also measured as a function of H 2O 2 concentration, and the results were correlated with the degree of oxidation of tryptophan residues. All of the tryptophan residues in denatured proteins were oxidized at a low concentration of H 2O 2, so that the reagent is applicable for the determination of the molar tryptophan content in protein.