Accumulation of stress-proteins in intercellular spaces of barley leaves induced by biotic and abiotic factors

Abstract

Accumulation of the extracellular proteins localized in intercellular spaces of barley primary leaves was examined after inoculation with powdery mildew (Erysiphe graminis f. sp. hordei) as biotic stress factor and after abiotic stresses such as heat shock, low temperature and heavy metal (Mg, Zn, Cu, Al, Cd and Co) treatment using native polyacrylamide gel electrophoresis. Six to eight major pathogen-induced proteins (bands on native gel) have been identified. Their accumulation at host-parasite incompatibility was more expressive than at compatibility interaction. Elevated temperature did not induce pathogenesis-related (PR) proteins while low temperature induced three of them. Cu, Al, Cd and Co induced accumulation pattern of extracellular proteins was very similar to that in powdery mildew inoculated leaves. Mg and Zn had no effect on the induction of protein accumulation in the intercellular spaces of leaves. Induction of PR proteins by different stresses indicated their general function in the resistance of plants to changing environment.