Abstract

Abstract The plants have developed several defense mechanisms to counteract pathogens. Among others, it includes activation of antioxidant enzymes like β -glucosidase and guaiacol peroxidase (GPX). These proteins participate in the oxidation of phenolic compounds, contributing to their increased fungitoxicity. The study aimed to analyze changes in the activity of β -glucosidase and GPX in four genotypes of winter oilseed rape (Mendel, Monolit, Polka, line L1425) inoculated with seven isolates: Alternaria brassicicola , Alternaria brassicae , Alternaria alternata (3 strains), Ulocladium chartarum (syn. A. chartarum ), and Cladosporium cladosporioides . We noted that the varieties of oilseed rape, tested fungal species, and time of the plant material collection had significant ( P < 0.001) effect on the activity of β -glucosidase and GPX per protein and fresh matter content comparing to the control group. A. brassicicola caused the highest mean increase in β -glucosidase and GPX activity in all examined genotypes, while other pathogens had a lower impact. Significantly lower β -glucosidase activity inoculated by various pathogens was noted between the L 1425 line and other varieties. GPX activity was in the opposite, the lowest activity was recorded in the Mendel variety, and the highest in the L 1425 line.