Zinc‐dependent changes in ESR signals, NADPH oxidase and plasma membrane permeability in cotton roots

Abstract

The effect of Zn²⁺on the plasma membrane permeability and superoxide radical (O₂^‐) formation in roots was studied with cotton (Gossypium hirsutumL. cv. Delta‐pine 15/21) plants grown in nutrient solution with different Zn²⁺supply. Compared to Zn‐sufficient plants, the plasma membrane permeability of Zn‐deficient plants was increased as indicated by a 3‐, 5‐ and 2.5‐fold increase in root cell leakage of K⁺, NO₃^‐and organic carbon compounds, respectively. Resupply of Zn²⁺to Zn‐deficient plants for 12 h substantially decreased this leakage. The effects of Zn²⁺on membrane permeability were closely correlated with the levels of O₂^‐measured by electron spin resonance (ESR) spectroscopy in the microsomal membrane fraction and in the cytosol fraction of root cells. The amplitudes of the O₂^‐‐derived Tiron ESR signal also coincided with a O₂^‐‐generating oxidase activity which was strongly dependent on the presence of NADPH and FAD. The results suggest that Zn²⁺directly affects the integrity of the plasma membrane, at least in part, by interfering with O₂^‐generation by a membrane‐bound NADPH oxidase.