External pH effects on the depolarization-activated K channels in guard cell protoplasts of Vicia faba.

Ilan, Nitza; Schwartz, Amnon; Moran, Nava

doi:10.1085/jgp.103.5.807

Cited by 48 publications

(24 citation statements)

References 63 publications

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“…The E,,,s of the two current types were determined from tailcurrent experiments (Hodgkin and Huxley, 1952). The linearity of the instantaneous whole-cell IK-E, relationships, as well as of the unitary is-EM relationships, in the presence of 11 mMK+ in the externa1 solution (Ilan et al, 1994;and our unpublished data), justifies the use of Equation 1 for the calculation of G, of both K, and K, channels. At a11 E,s, G, reflects two factors:…”

Section: Ana1 Ysismentioning

confidence: 85%

“…Plants of Vicia faba were grown under controlled environmental conditions as described previously (Ilan et al, 1994). Growth temperature was kept at 22°C during the day and 17°C at night.…”

Section: Plant Materialsmentioning

confidence: 99%

“…Experiments were performed in a voltage-clamp mode as described by Ilan et al (1994), and we measured currents elicited by preprogrammed depolarizing and hyperpolarizing voltage pulses applied at 20-or 13-s intervals, respectively. A11 E, values were corrected for liquid-junction potentials, measured using 3 M KC1-agar bridges, by -17 mV when the [K+l, was 11 mM and by -8 mV when [Kt], was 50 mM.…”

Section: Electrophysiologymentioning

confidence: 99%

“…IK values were obtained by subtracting the leak current (the instantaneous current at the beginning of the voltage pulses, Ilan et al, 1994) from the current measured at the end of the voltage pulses. We calculated G, at various E,s, from the relation between IK and E, .…”

Section: Ana1 Ysismentioning

confidence: 99%

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The Role of Potassium Channels in the Temperature Control of Stomatal Aperture

1995

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We used the patch-clamp technique to examine the effect of temperature (1 3-36OC) on the depolarization-activated K channels (K, channels) and on the hyperpolarization-activated channels (K, channels) in the plasma membrane of Vicia faba guard-cell protoplasts. The steady-state whole-cell conductance of both K channel types increased with temperature up to 20°C. However, whereas the whole-cell conductance of the K, channels increased further and saturated at 2 8 T , that of K, channels decreased at higher temperatures. The unitary conductance of both channel types increased with temperature like the rate of diffusion in water (temperature quotient of approximately 1.5), constituting the major contribution to the conductance increase in the whole cells. The mean number of available K, channels was not affected significantly by temperature, but the mean number of available K, channels increased significantly between 1 3 and 20°C and declined drastically above 2OOC. This decrease and the reduced steady-state voltage-dependent probability of opening of the K, channels above 28°C (because of a shift of voltage dependence by +21 mV) account for the depression of the whole-cell K, conductance at the higher temperatures. This may be a basic mechanism by which leaves of well-watered plants keep their stomata open during heat stress to promote cooling by transpiration.Diffusion of both water vapor and CO, across the leaf epidermal tissue is modulated by variation in stomatal aperture. In the intact leaf as well as in isolated epidermal strips, the aperture of the stomatal pore is controlled by diverse environmental signals, such as light, humidity, CO, concentration, and temperature (Zeiger, 1983;Mansfield et al., 1990;Assmann, 1993). When the leaf temperature increases, stomata tend to open wider in unstressed plants of a number of C, and C, species (Raschke, 1975; Sheriff, 1979; Berry and Bjorkman, 1980, and refs. therein). In leaves of a well-watered plant at high temperature, large stomatal conductance will promote transpirational cooling and thereby will keep the leaf temperature lower than that of the surrounding air (Gates, 1968;Radin et al., 1994). to heat-stress conditions (>40"C), indicated that stomatal conductance remained high even when photosynthesis was temporarily impaired. Furthermore, down-regulation of leaf temperature in extreme heat conditions will be more efficient if stomata closing signals are ignored. Indeed, at high temperature (>35"C) open stomata of Z. mays became insensitive to the increase in the leaf internal CO, concentration, a known signal for stomatal closing. In intact leaves of Xantkium pennsylvanicum that were exposed to high temperature (36"C), stomata opened even in the dark. The dark opening was then followed by a slow reclosure. The rate of stomatal closure in the dark was significantly slower at a high (36°C) than at a lower (27°C) temperature (Mansfield, 1965). Similarly, in intact leaves of Vicia faba (Kappen et al., 1994) and in isolated epidermal strips of the same species (...

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Section: Ana1 Ysismentioning

confidence: 85%

Section: Plant Materialsmentioning

confidence: 99%

Section: Electrophysiologymentioning

confidence: 99%

Section: Ana1 Ysismentioning

confidence: 99%

See 2 more Smart Citations

The Role of Potassium Channels in the Temperature Control of Stomatal Aperture

1995

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“…fying K + (K + in ) channels (Schroeder et al, 1987;Pilot et al, 2001) and activates outward-rectifying K + (K + out ) channels (Schroeder et al, 1987;Hosy et al, 2003), resulting in a net K + efflux from guard cells (Figure 1). In addition, during stomatal closure ABA causes an alkalization of the guard cell cytosol (Blatt and Armstrong, 1993) which directly enhances K + out channel activity (Blatt, 1992;Blatt and Armstrong, 1993;Ilan et al, 1994;Miedema and Assmann, 1996), but also down-regulates the transient R-type anion channels (Schulz-Lessdorf et al, 1996). The efflux of both anions and K + from guard cells via anion and K + out channels contributes to loss of guard cell turgor, which leads to stomatal closing (Schroeder and Hagiwara, 1989;Pei et al, 1997;Vahisalu et al, 2008).…”

Section: The Roles Of Ion Channels In Stomatal Movementsmentioning

confidence: 99%