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Evaluation of Arsenate- and Vanadate-Associated Changes of Electrical Membrane Potential and Phosphate Transport in Lemna gibba G1 总被引:8,自引:0,他引:8
Interference of arsenate and vanadate with phosphate uptakein Lemna gibba L. was studied by measuring voltage changes and(32P)phosphate uptake. Arsenate proved to be competitive withthe high- and low-affinity phosphate uptake system. It inducedtransient membrane potential changes of up to 120 mV which weresimilar to those induced by phosphate and indicated a cotransportmechanism with at least 2H+/H2As. The amplitude of the transient arsenate-induced membrane depolarization wasstrongly influenced by phosphate starvation. A permanent membranedepolarization to the diffusion potential was achieved within2 to 6 h in P-starved plants. Thus, arsenate is indeed a stronglycompetitive physiological analogue of phosphate in higher plants. Vanadate was easily transported into L. gibba as concluded fromtransient Em changes of up to 110 mV. Vanadate interfered onlyslightly and non-specifically with the two phosphate transportmechanisms. Like phosphate, vanadate uptake seems to be an H+-cotransportmechanism, both with similar optima at pH 6.0. Unlike phosphateuptake, vanadate-linked membrane depolarization was not affectedby high intracellular phosphate concentrations. P-starvationdid not enhance the weak long-term effect on Em. Hence, vanadate,in contrast to arsenate, is not regarded as a physiologicalphosphate analogue. The distinct and rapid vanadate-inducedand permanent membrane depolarization of Avena sativa, Triticumaestivum and Glycine max leaves was not seen in Lemna nor inleaves of Gossypium hirsutum and Nicotiana tabacum. Plasmalemma-enrichedpreparations of L. gibba revealed, however, a high vanadate-sensitiveATPase activity (87%). As a possible explanation for these differencesit is suggested that the latter plant species have cytosolicvanadate-detoxifying properties, i.e. they can reduce vanadateto vanadyl ions, in contrast to the former group of plant species. Key words: Arsenate, vanadate, H+/solute cotransport, membrane potential, phosphate competition 相似文献
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