Genetic and biochemical characterization of a Cat2 catalase null mutant of zea mays

Summary In all maize inbred lines examined to date, the Cat2 gene which codes for the CAT-2 catalase is expressed primarily in the scutellum upon seed imbibition. The activity of CAT-2 increases dramatically during the initial four days after germination and subsequently declines. In contrast, we have recently identified and inbred strain (A16) of maize which does not express the Cat2 gene (i.e., the CAT-2 catalase is undetectable). Electrophoretic and immunological analyses indicate that the CAT-2 protein is not present in either an active or inactive form in line A16. Genetic analysis suggests that the absence of CAT-2 expression in line A16 is due to a null allele at the Cat2 gene locus although the possibility of a mutation at a regulatory locus, closely linked to the structural gene has not been excluded. Two other enzymes involved in H₂O₂ metabolism (superoxide dismutase and peroxidase) were also compared in W64A and A16 with no significant differences being observed. Aminotriazole (AT), a known inhibitor of catalase, has been used to simulate the A16 phenomenon by inhibiting catalase activity in line W64A (which has normal expression of CAT-2). AT, in very low concentrations, effectively inhibits the expression of CAT-2 in the scutellum. This inhibition of catalase by AT does not result in changes of the developmental time-course of superoxide dismutase and peroxidase.Research supported by National Institutes of Health Grant No. GM 22733-05 to J.G.S.Paper No. 6601 of the Journal Series of the North Carolina Agricultural Research Service, Raleigh, NC