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Fast activation of a time-dependent outward current in protoplasts derived from coats of developing Phaseolus vulgaris seeds
Wen-Hao Zhang, N. Alan Walker, Stephen D. Tyerman and John W. Patrick
Vol. 211, No. 6 (November 2000), pp. 894-898
Published by: Springer
Stable URL: http://www.jstor.org/stable/23386039
Page Count: 5
You can always find the topics here!Topics: Protoplasts, Cell membranes, Electric potential, Electric current, Time constants, Plasma currents, Plant cells, Testa, Plant roots, Parenchyma
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An outward current that appeared to activate instantaneously in response to depolarising voltage pulses at low sampling frequencies predominated in the plasma membrane of ground-parenchyma protoplasts derived from coats of developing Phaseolus vulgaris L. (cv. Redland Pioneer) seeds. However, the outward current showed time-dependent activation when higher sampling frequencies were used to measure the current. Activation of the current was best described as a double-exponential time course with the fast and slow time constants being 1 and 20 ms, respectively. The current also exhibited a rapid deactivation that followed a double-exponential time course with time constants of approximately 2 and 30 ms, respectively. "Tail-current" analysis allowed us to show that this current exhibited a low selectivity between K+ and Cl- (PK:Cl = 1.8). Such a fast-activating current may account for some of the reports of time-independent, instantaneous currents that have been observed in plasma membranes of plant cells digitised at low sampling frequencies. Therefore, when "instantaneous" currents appear it is advisable to characterise these currents using higher sampling frequencies with correspondingly higher filtering frequency cut-offs.
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