Inhibition of Al-induced root elongation and enhancement of Al-induced peroxidase activity in Al-sensitive and Al-resistant barley cultivars are positively correlated

The quantitative changes in peroxidase activity and composition of anionic and cationic isoperoxidases were investigated in roots of two barley cultivars differing in Al resistance. Root growth of Al-resistant cv. Bavaria was in lesser extent reduced by Al treatment (23% after 24 h Al-treatment), whereas 40% reduction of the root growth was observed in Al-sensitive cv. Alfor. The strong root growth inhibition in Al-sensitive cv. Alfor correlated with a 6-fold enhancement of peroxidase activity by Al treatment. Al-induced enhancement of peroxidase activity was found also in roots of Al-resistant cv. Bavaria, but this increase was only half of the Al-sensitive cv. Alfor. Comparison of peroxidase isoenzyme composition of Al-treated and non-treated roots revealed that activity of at least five anionic and four cationic isoperoxidases was stimulated by Al treatment. Three of anionic isoperoxidases (aPOD2-4) were selectively induced only in the Al-sensitive cv. Alfor. A possible involvement of peroxidases in root-growth inhibition is discussed.