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Hoffmann, R. A wiki for the life sciences where authorship matters. Nature Genetics (2008)

Alteration of anion channel kinetics in wild-type and abi1-1 transgenic Nicotiana benthamiana guard cells by abscisic acid.

The influence of the plant water-stress hormone abscisic acid (ABA) on anion channel activity and its interaction with protein kinase and phosphatase antagonists was examined in stomatal guard cells of wild-type Nicotiana benthamiana L. and of transgenic plants expressing the dominant-negative (mutant) Arabidopsis abi1-1 protein phosphatase. Intact guard cells were impaled with double-barrelled micro-electrodes and membrane current was recorded under voltage clamp in the presence of 15 mM CsCl and 15 mM tetraethylammonium chloride (TEA-Cl) to eliminate K+ channel currents. Under these conditions, the free-running voltage was situated close to 0 mV (+9 +/- 6 mV, n = 18) and the membrane under voltage clamp was dominated by anion channel current (ICl) as indicated from tall current reversal near the expected chloride equilibrium potential, current sensitivity to the anion channel blockers 9-anthracene carboxylic acid and niflumic acid, and by its voltage-dependent kinetics. Pronounced activation of ICl was recorded on stepping from a conditioning voltage of -250 mV to voltages between -30 and +50 mV, and the current deactivated with a voltage-dependent halftime at more negative voltages (tau approximately equal to 0.3 sec at -150 mV). Challenge with 20 microM ABA increased the steady-state current conductance, gCl, near 0 mV by 1.2- to 2.6-fold and at -150 mV by 4.5- to sixfold with a time constant of 40 +/- 4 sec, and it slowed ICl deactivation as much as fourfold at voltages near -50 mV, introducing two additional voltage-sensitive kinetic components to these current relaxations. Neither the steady-state and kinetic characteristics of ICl nor its sensitivity to ABA were influenced by H7 or staurosporine, both broad-range protein kinase antagonists. However, the protein phosphatase 1/2A antagonist calyculin A mimicked the effects of ABA on gCl and current relaxations on its own and exhibited a synergistic interaction with ABA, enhancing ICl sensitivity to ABA three- to four-fold. Quantitatively similar current characteristics were recorded from guard cells of abi1-1 transgenic N. benthamiana, indicating that the abi1-1 protein phosphatase does not influence the anion current or its response to ABA directly. These results demonstrate that ABA stimulates ICl and modulates its voltage sensitivity. Furthermore, they show that ABA promotes ICl, either by introducing additional long-lived states of the channel or by activating a second anion channel with similar permeation characteristics but with a very long dwell time in the open state. Overall, the data are broadly consistent with the view that ABA action engenders coordinate control of ICl together with guard cell K+ channels to effect solute loss and stomatal closure.[1]


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