The role of peroxidase isoenzyme groups of Nicotiana tabacum in hydrogen peroxide formation

Abstract

Three peroxidase isoenzyme-groups found in cell walls of tobacco were tested for their capacity to form H₂O₂. Isoenzyme-group G_I, located only in cell walls (G_II and G_III are also found in protoplasts) showed the highest K_app-value for H₂O₂-formation. The lowest K_app-value, i.e., maximal H₂O₂-formation was received for group G_III which is ionically bound to the cell wall. As shown before, G_I yields maximal polymerization rates for coniferyl- and p-coumarylalcohol. These facts indicate that each of the peroxidase isoenzyme groups of the cell wall is involved with different catalytic functions within the same pathways of H₂O₂-formation and succeeding lignification. H₂O₂-formation catalyzed by all 3 groups was increased by very low concentrations of Mn²⁺-ions. The required amount of Mn²⁺ leading to maximal stimulation was in each case dependent on the basic rate of H₂O₂-formation. Maximal stimulation of H₂O₂-formation by phenolic compounds was achieved by coniferylalcohol at a concentration of 10^-4M for all groups. Stimulation by p-coumaryl-and by sinapylalcohol was not as significant.