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Transmembrane potential-mediated coupling between H+ pump operation and K+ fluxes in Elodea densa leaves hyperpolarized by fusicoccin, light or acid load (1995)

BELLANDO, M. ; MARRÈ, M.T. ; SACCO, S. ; [et al.]

Oxford, UK : Blackwell Publishing Ltd

Plant, cell & environment 18 (1995), S. 0

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ISSN: 1365-3040

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Biology

Notes: In isolated Elodea densa leaves, the relationships between H+ extrusion (-ΔH+), K+ fluxes and membrane potential (Em) were investigated for two different conditions of activation of the ATP-dependent H+ pump. The ‘basal condition’ (darkness, no pump activator present) was characterized by low values of-ΔH+ and K+ uptake (ΔK+), wide variability of the −ΔH+/ΔK+ ratio, relatively low membrane polarization and Em values more positive than EK for external K+ concentrations (|K+]o of up to 2mol m−3. A net K+ uptake was seen already at [K+]o below 1 mol m−3, suggesting that K+ influx in this condition was a thermodynamically uphill process involving an active mechanism. When the H+ pump was stimulated by fusicoccin (FC), by cytosol acidification, or by light (the ‘high polarization condition’), K+ influx largely dominated K+ and C− efflux, and the −ΔH+/ΔK+ ratio approached unity. In the range 50 mmol m−3−5 mol m−3 [K+]0, Em was consistently more negative than EK. The curve of K+ influx at [K+]0 ranging from 50 to 5000mmol m−3 fitted a monophasic, hyperbolic curve, with an apparent half saturation value = 0–2 mol m−3. Increasing |K+]0 progressively depolarized Em, counteracting the strong hyperpolarizing effect of FC. The effects of K+ in depolarizing Em were well correlated with the effects on both K+ influx and −ΔH+, suggesting a cause-effect chain: K+0 influx → depolarization → activation of H+ extrusion. Cs+ competitively inhibited K+ influx much more strongly in the ‘high polarization’ than in the ‘basal’ condition (50% inhibition at [Cs+]/[K+]0 ratios of 1:14 and 1:2, respectively) thus confirming the involvement of different K+ uptake systems in the two conditions. These results suggest that in E. densa leaves two distinct modes of interactions rule the relationships between H+ pump, membrane polarization and K+ transport. At low membrane polarization, corresponding to a low state of activation of the PM H+-ATPase and to Em values more positive than EK, K+ influx would mainly

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1365-3040.1995.tb00607.x

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Evidence that the partial resistance of the Arabidopsis 5-2 mutant to fusicoccin depends on a decreased capacity of the H+ pump to respond to activating factors (1995)

MARRÉ, M. T. ; VENEGONI, A. ; TALARICO, A. ; [et al.]

Oxford, UK : Blackwell Publishing Ltd

Plant, cell & environment 18 (1995), S. 0

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ISSN: 1365-3040

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Biology

Notes: Measurements of H+ extrusion activity K+ influx, and Es bm in 3-d-old seedlings of the 5-2 mutant of Arabidopsis thaliana (which is partially insensitive to fusicoccin) showed the following, (i) The reduced response of 5-2 to fusicoccin (FC) does not depend on the penetration of FC to its site of action, or on decreased affinity of the FC receptor, (ii) The reduced response of H+ and K+ transport to FC does not depend on an impairment of the K+ absorption system, (iii) The mutation can influence the H+ extrusion system independently of the presence of FC. In the presence of factors other than FC known to activate the plasma membrane H+-ATPase (e.g. a cytosol-acidifying treatment), the response in 5-2 is about 50% lower than in wt. (iv) When both genotypes grow in optimal conditions, the rate of fresh weight increase and stem elongation is higher in wt than 5-2. These data indicate that the 5-2 mutation affects some intrinsic component of the H+-extrusion machinery, the limiting effect of which becomes considerable when either the physiological or the experimental conditions induce a high level of proton pump activity. An alteration either of the ATPase itself or of a factor controlling its activity is compatible with our observations.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1365-3040.1995.tb00566.x

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