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Enhancement of the light-triggered electrical response in plant cells following their de-energization with uncouplers
Authors:Alexander A. Bulychev  Wim J. Vredenberg
Affiliation:Dept of Biophysics, Biology Faculty, Moscow State Univ, Moscow, 119899, Russia;Dept of Plant Physiology, Wageningen Agricultural Univ., Arboretumlaan 4, Wageningen. NL 6703 BD. The Netherlands.
Abstract:Light-triggered membrane potential changes in cells of a liverwort Anthoceros are greatly enhanced by the ionophorous uncouplers nigericin and monesin. Stimulation of the light-triggered electrical response (LTER) by nigericin occurred concomitantly with inhibition of a slow decline in the chlorophyll fluorescence, which suggests that the transmembrane pH gradient in thylakoids is not essential for generation of LTER at the plasma membrane. The extent of monensin-stimulated LTER remained high under a diminished driving force for the ionophore-induced proton-cation exchange across the plasma membrane (elevation of the external Na+ concentration from 1 to 50 m M ), which indicates that energy uncoupling in chloroplasts is more related to the electric response enhancement than the induction of the H+/K+(Na+) exchange at the plasma membrane. Enhancement of LTER by ionophores occurs in parallel with stimulation of light-triggered pH changes (alkalinization) in the vicinity of the cell surface, which suggests an association of trans-membrane H+ fluxes with LTER. The results are consistent with the hypothesis that illumination produces a temporary inhibition of the plasma membrane H+ pump with a subsequent activation of gated channels and transient rapid depolarization of the cell.
Keywords:Anthoceros    chlorophyll fluorescence    H+-pump    light response    membrane potential
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