Effect of Zinc Deficiency on Proton Fluxes in Plasma Membrane-Enriched Vesicles Isolated from Bean Roots

Plasma membrane-enriched vesicles were isolated by density gradientcentrifugation from roots of zinc-sufficient and zinc-deficientbean (Phaseolus vulgaris L. cv. Prélude) plants. Thetwo populations of vesicles had similar activities of specificmembrane marker enzymes and ATP hydrolysis and were competentfor proton transport. However, vesicles from zinc-deficientroots showed lower rates of ATP-dependent intravesicular acidificationand increases in passive permeability to protons as well asin the rate, of dissipation of a non-metabolic transmembranepH gradient. The decrease of the rate of proton accumulationin isolated vesicles closely paralleled the increase in potassiumleakage from intact roots and the appearance of visual zincdeficiency symptoms in the shoots. Re-supply of zinc to deficientplants for 24 h promoted shoot growth, reduced potassium leakagefrom roots and led to partial recovery of the proton accumulationcapacity and to a decrease in passive permeability to protonsin isolated vesicles. The results obtained with isolated vesiclesconfirm the previously observed ‘in vivo’ effectsof zinc deficiency and are consistent with the idea that analteration of plasma membrane lipids leads to an increase inpermeability and an impairment in trans-plasma membrane protongradient. Key words: Plasma membrane, H⁺ fluxes, ATPase, zinc deficiency