Light and Stomatal Metabolism : II. Effects of Sulfite and Arsenite on Stomatal Opening and Light Modulation of Enzymes in Epidermis

The effect of sulfite and arsenite on stomatal opening and light modulation of enzymes was examined in isolated epidermal strips of Pisum sativum L. var Little Marvel leaves. Sulfite or arsenite at 10 micromolar rapidly inhibited the stomatal opening process in light. Light activation of phosphoenolpyruvate carboxylase and NADP-malate dehydrogenase was completely diminished when the epidermal strips were incubated for 2 hours in light with either sulfite or arsenite at 10 micromolar. The data obtained suggest that the inhibition of stomatal opening by sulfite or arsenite in light might result from the inhibition of light modulation of key enzymes in guard cells.     

Stomatal movement and potassium transport in epidermal strips of Zea mays: The effect of CO2

Summary The correlation between stomatal action and potassium movement in the epidermis of Zea mays was examined in isolated epidermal strips floated on distilled water. Stomatal opening in the isolated epidermis is reversible in response to alternate periods of light or darkness, and is always correlated with a shift in the potassium content of the guard cells. K accumulates in guard cells during stomatal opening, and moves from the guard cells into the subsidiary cells during rapid stomatal closure. When epidermal strips are illuminated in normal air, as against CO₂-free air, the stomata do not open and there is a virtually complete depletion of K from the stomatal apparatus. In darkness CO₂-containing air inhibits stomatal opening and K accumulation in guard cells, but does not lead to a depletion of K from the stomata as observed in the light.     

Stomatal Opening in Isolated Epidermal Strips of Vicia faba. I. Response to Light and to CO(2)-free Air

This paper reports a consistent and large opening response to light + CO₂-free air in living stomata of isolated epidermal strips of Vicia faba. The response was compared to that of non-isolated stomata in leaf discs floating on water; stomatal apertures, guard cell solute potentials and starch contents were similar in the 2 situations. To obtain such stomatal behavior, it was necessary to float epidermal strips on dilute KCl solutions. This suggests that solute uptake is necessary for stomatal opening.

The demonstration of normal stomatal behavior in isolated epidermal strips provides a very useful system in which to investigate the mechanism of stomatal opening. It was possible to show independent responses in stomatal aperture to light and to CO₂-free air.

     

Effect of abscisic acid pretreatments on stomatal reopening in Vicia faba

After a pretreatment of 2 h exposure to a solution containing 2 × 10⁻⁴ M ABA, reopening of stomata occurred in epidermal strips of Vicia faba L. cv. Cavalier on an ABA-free incubation solution. After pretreatment with exogenous ABA stomatal apertures were greater when higher levels of KCl were incorporated into the solution used for reopening. Prolonged exposure to exogenous ABA (14 h) did not prevent stomatal reopening upon transfer to ABA-free solutions. However, for both ABA and ABA-free pretreatments, prolonged incubation (1 day after removal of epidermis) resulted in enhanced stomatal apertures when the epidermal strips were exposed to light. This effect was lost 2 days after removal of the epidermis and opening did not occur after 3 days. Epidermal strips containing endogenous ABA were obtained from wilted leaves. Reopening was greatly reduced by the endogenous ABA treatment, and variation of KCl concentration in the incubation solution had little effect on stomatal aperture. It is postulated that during wilting endogenous ABA becomes reversibly bound without loss of activity for a longer period than is obtained using exogenous ABA. The presence of other unidentified compounds may be involved in this process.     

Changes in stomatal movements in isolated epidermal strips of a CAM plant, Notonia grandiflora DC

The diuranl rhythm of the stomatal aperture size was investigatedusing isolated epidermal strips from a CAM plant, Notonia grandiflora.Maximal stomatal opening occurred at pH 6.5. The nocturnal stomatalopening was stimulated by KCl which produced stomatal closurein light. The stimulatory effect of KCl on stomatal openingin drakness was suppressed by ABA. (Received January 24, 1978; )     

Ion-Stimulated Stomatal Opening Induced by Preillumination in Epidermal Strips of Commelina communis

The effects of preillumination were investigated on ion-stimulated stomatal opening of epidermal strips isolated from Commelina communis L. leaves, which are dark-starved 24 hours or more. The rate and the extent of ion-stimulated stomatal openings were increased by preexposure of epidermal strips to light. The evidences are interpreted as indicating that the energy induced by preillumination can be conserved in guard cells for considerable time periods and then used for a delayed stomatal opening in the presence of higher concentration of potassium or sodium ions. Action spectrum showed two peaks, one in blue and one in the red light region. The ratio of the blue peak to the red peak is 1.2; which is the smallest reported value in action spectra of stomatal movements. 3-(4-chlorophenyl)-1,-1-Dimethylurea suppressed the ion-stimulated stomatal opening induced by the preillumination. We conclude that the photosynthetic electron transport system, containing photosystem II, in guard cell chloroplasts is a basic system of energy acquirement for stomatal opening.     

Effect of different sugars on stomatal behaviour inMerremia aegyptia (L.) Urban andM. dissecta Hallier F.

The effect of mannitol, glucose and sucrose on the stomatal behaviour of two desert species,Merremia aegyptia andM. dissecta has been studied. Stomatal opening did not uniformly depend on the decrease in turgor of the epidermal and subsidiary cells caused by the different osmotic potential of the sugars. Sucrose caused plasmolysis of the subsidiary cells only but this was not accompanied by the opening of the stomatal pore. InM. aegyptia, no plasmolysis was seen either in epidermal or subsidiary cells, even the stomata opened; inM. dissecta, on the other hand, plasmolysis occurred in these cells without any stomatal opening, after incubation in glucose or mannitol. Mannitol is least absorbed, glucose slightly more and sucrose is absorbed to a very large extent in the guard cells when the materials were inoubated in the respective sugar solutions. However, the absorption of these three sugars was almost always larger in isolated epidermal strips than in discs; in detached intact leaves it was still more reduced.     

Blue light-promoted stomatal opening in abaxial epidermis of Commelina benghalensis is maximal at low calcium

The requirement for calcium in blue light-promoted stomatal opening, in comparison with that in red light, was studied in epidermal strips of Commelina benghalensis L. Blue light promoted stomatal opening in the presence of a low level of calcium, whereas in red light opening was relatively tolerant to calcium. Stomatal opening under blue light was restricted by external calcium (above 5 μ M ) or abscisic acid. When present in the incubation medium, EGTA increased the extent of stomatal opening under blue light. Verapamil (a calcium-channel blocker) and trifluoperazine (TFP, a calmodulin antagonist) reduced the stimulation of stomatal opening by blue light. Lanthanum, an external calcium-channel antagonist, had no significant effect on stomatal opening under either blue or red light. These observations indicate that blue light-promoted stomatal opening preferentially occurs at low levels of calcium, and modulation by calmodulin is strongly suggested. We conclude that a fine-tuning of the calcium level within guard cells is essential during the transduction of the blue light signal.     

Effect of boron on stomatal opening in epidermal strips of Commelina communis

Boron enhances stomalal opening in epidermal strips of Commelina communis L. under conditions conductive to opening, i.e . light and KCI. This effect is obtained when boron is given together or before KCI application. Since boron increases ⁸⁶Rb net uptake in both illuminated epidermal strips and illuminated isolated guard cells, it is suggested that boron acts either by reducing potassium leakage or by increasing its uptake, thus leading to increased osmotic potential and, as a result, to stomatal opening.     

The effect of water stress during ontogeny of primary bean leaves on the light-induced stomatal opening

The increase in epidermal conductance of primary bean leaves started within 10 min after irradiation by 1200 μmol m⁻² s⁻¹ of darkened plants. The rate of stomatal opening increased toa maximum and then decreased till a steady-state value of epidermal conductance was reached. Stomata on the abaxial epidermis always started to open sooner and opened faster than stomata on adaxial epidermis. Both water stress and ageing of leaves delayed the beginning of opening and decreased the opening rate as well as the steady-state values of epidermal conductance.     

Guard Cell Chloroplasts Are Essential for Blue Light-Dependent Stomatal Opening in Arabidopsis

Blue light (BL) induces stomatal opening through the activation of H⁺-ATPases with subsequent ion accumulation in guard cells. In most plant species, red light (RL) enhances BL-dependent stomatal opening. This RL effect is attributable to the chloroplasts of guard cell, the only cells in the epidermis possessing this organelle. To clarify the role of chloroplasts in stomatal regulation, we investigated the effects of RL on BL-dependent stomatal opening in isolated epidermis, guard cell protoplasts, and intact leaves of Arabidopsis thaliana. In isolated epidermal tissues and intact leaves, weak BL superimposed on RL enhanced stomatal opening while BL alone was less effective. In guard cell protoplasts, RL enhanced BL-dependent H⁺-pumping and DCMU, a photosynthetic electron transport inhibitor, eliminated this effect. RL enhanced phosphorylation levels of the H⁺-ATPase in response to BL, but this RL effect was not suppressed by DCMU. Furthermore, DCMU inhibited both RL-induced and BL-dependent stomatal opening in intact leaves. The photosynthetic rate in leaves correlated positively with BL-dependent stomatal opening in the presence of DCMU. We conclude that guard cell chloroplasts provide ATP and/or reducing equivalents that fuel BL-dependent stomatal opening, and that they indirectly monitor photosynthetic CO₂ fixation in mesophyll chloroplasts by absorbing PAR in the epidermis.     

A conserved functional role of pectic polymers in stomatal guard cells from a range of plant species

Guard cell walls combine exceptional strength and flexibility in order to accommodate the turgor pressure-driven changes in size and shape that underlie the opening and closing of stomatal pores. To investigate the molecular basis of these exceptional qualities, we have used a combination of compositional and functional analyses in three different plant species. We show that comparisons of FTIR spectra from stomatal guard cells and those of other epidermal cells indicate a number of clear differences in cell-wall composition. The most obvious characteristics are that stomatal guard cells are enriched in phenolic esters of pectins. This enrichment is apparent in guard cells from Vicia faba (possessing a type I cell wall) and Commelina communis and Zea mays (having a type II wall). We further show that these common defining elements of guard cell walls have conserved functional roles. As previously reported in C. communis, we show that enzymatic modification of the pectin network in guard cell walls in both V. faba and Z. mays has profound effects on stomatal function. In all three species, incubation of epidermal strips with a combination of pectin methyl esterase and endopolygalacturonase (EPG) caused an increase in stomatal aperture on opening. This effect was not seen when strips were incubated with EPG alone indicating that the methyl-esterified fraction of homogalacturonan is key to this effect. In contrast, arabinanase treatment, and incubation with feruloyl esterase both impeded stomatal opening. It therefore appears that pectins and phenolic esters have a conserved functional role in guard cell walls even in grass species with type II walls, which characteristically are composed of low levels of pectins.     

Energy Supply for Stomatal Opening in Epidermal Strips of Commelina benghalensis

The influence of light or darkness on stomatal opening in epidermal strips of Commelina benghalensis was evaluated in the presence or absence of O₂ and/or metabolic inhibitors. Opening was restricted in nitrogen and was promoted by NADH and acids of the tricarboxylic acid cycle (succinate and α-ketoglutarate) in CO₂-free air in light as well as in darkness. The enhancement by light of stomatal opening was prevalent under nitrogen or in the presence of the respiratory inhibitors (sodium azide and oligomycin). Respiratory inhibitors decreased the opening in light or darkness under CO₂-free air but exhibited no effect under nitrogen, whereas phosphorylation uncouplers were inhibitory in light or darkness under both CO₂-free air and nitrogen. The results suggest that oxidative phosphorylation is a basic source of energy for stomatal opening, although photophosphorylation could be an energy source.     

ACTION OF FUSICOCCIN ON THE POTASSIUM BALANCE OF GUARD CELLS OF PHASEOLUS VULGARIS

Fusicoccin induces stomatal opening in both the light and dark. The stomatal aperture and K content of guard cells was measured to determine whether the action of fusicoccin in inducing stomatal opening is directly related to the uptake of K by the guard cells. Both detached and attached epidermis was treated with fusicoccin and the K content was determined by staining with cobalt sodium nitrite or by electron probe microanalysis. The K content of guard cells in detached epidermal strips floated on 10 μm fusicoccin in 10 mm KCl and aqueous CH₃OH (0.02%, v/v) increased in the light and dark as the stomata opened. After exposure to fusicoccin for 6 hr in the light, however, the stomata were closed and no K could be detected in the guard cells. The K content of guard cells of attached epidermis painted with fusicoccin also increased as the stomata opened, but the concentration of K in the subsidiary cells was not significantly altered by fusicoccin-stimulated opening. Moreover, painting with fusicoccin did not significantly change the Ca and P content of the guard or subsidiary cells. Stomata of epidermal strips, opened to their maximum width by fusicoccin, showed only a small and temporary closure when transferred to a solution of 10 μm abscisic acid. The use of metabolic inhibitors suggested that energy for the uptake of the K may be provided by both photophosphorylation and oxidative phosphorylation.     

Tentoxin Suppresses Stomatal Opening by Inhibiting Photophosphorylation

Tentoxin and, to a lesser extent, dihydrotentoxin (both at 10mmol m^–3) reduce stomatal opening in epidermal stripsof Commelina communis in the light but not in darkness. Thiseffect was significantly greater in normal air than in CO₂-freeair. Fusicoccin overcame the tentoxin effect. However, tentoxindid not inhibit stomatal opening in the light in epidermal stripsof Paphiopedilum harrisianum, a species which lacks guard cellchloroplasts. It is concluded that tentoxin exerts its actionon stomata not by an ionophorous effect in the plasmalemma ofguard cells but by the inhibition of photophosphorylation intheir chloroplasts. The effects of DCMU and tentoxin on guardcells are discussed in terms of their effects on chloroplastsand the extent to which energy is supplied from this organelleduring stomatal opening in the light. The results indicate thatneither photophosphorylation nor non-cyclic electron transportin guard cell chloroplasts are essential for stomatal opening. Key words: Commelina, epidermal strips, Paphiopedilum, photophosphorylation, stomata, tentoxin     

The ultraviolet action spectrum for stomatal opening in broad bean

The ultraviolet action spectrum for stomatal opening was measured using epidermal peels from leaves of broad bean (Vicia faba). The spectrum was calculated from hyperbolic fluence response curves using 11 wavelengths ranging from 275 to 459 nm. The action spectrum exhibits a major peak at approximately 280 nm and a minor peak at approximately 360 nm. The response at 280 nm is about three times greater than the response at 459 nm. Under the conditions utilized (i.e. the absence of saturating red light), stomatal opening saturated at extremely low fluence rates: <0.2 μmol m⁻² s⁻¹ at 280 nm, and approximately 1.0 μmol m⁻² s⁻¹ at 459 nm. The threshold for blue-light-induced stomatal opening was approximately 0.02 μmol m⁻² s⁻¹. In light-mixing experiments, the addition of 280 nm light to saturating 650 nm (red) light caused additional stomatal opening, which is indicative of separate photoreceptors. In contrast, adding 280 nm of light to saturating 459 nm (blue) light did not increase stomatal opening, suggesting that they both excite the same receptor. The results with white light were similar to those with blue light. We infer that ultraviolet light acts via the blue light photoreceptor rather than through photosynthesis. The additional absorbance peak at 360 nm suggests that the chromophore is either a flavin or a cis-carotenoid, both of which exhibit peaks in this region. It is proposed that the chromophore can be excited either directly by blue light or by energy transferred from the protein portion of the protein-pigment complex after it absorbs 280 nm light.     

Suppression of the stomatal opening by morphactins in isolated epidermal strips

The effects of three morphactins, chlorflurenol, flurenol andEMD 7301 W, were examined on the stomatal aperture using isolatedepidermal strips of Commelina benghalensis. Morphactins produced,a striking decrease in the stomatal opening in light but hadno effect on stomatal closure in darkness. Various catalystsand inhibitors of photophosphorylation had no influence on themorphactin-induced stomatal closure. The stimulatory effectsof ATP, pyruvate and KC1 on stomatal opening were suppressedby the morphactins. The cytokinin, benzyladenine stimulatedthe stomatal opening even in the presence of a morphactin. Theinfluence of morphactins on the stomatal aperture closely resembledthe effect of abscisic acid. ¹Present address: Central Plantation Crops Research Institute,Regional Station, Vittal 574243, Karnataka, India. (Received September 16, 1975; )     

Synergistic effect of light and fusicoccin on stomatal opening : epidermal peel and patch clamp experiments

Upon incubation of epidermal peels of Commelina communis in 1 millimolar KCl, a synergistic effect of light and low fusicoccin (FC) concentrations on stomatal opening is observed. In 1 millimolar KCl, stomata remain closed even in the light. However, addition of 0.1 micromolar FC results in opening up to 12 micrometers. The same FC concentration stimulates less than 5 micrometers of opening in darkness. The synergistic effect (a) decreases with increasing FC or KCl concentrations; (b) is dark-reversible; (c) like stomatal opening in high KCl concentrations (120 millimolar) is partially inhibited by the K⁺ channel blocker, tetraethyl-ammonium⁺ (20 millimolar). In whole-cell patch-clamp experiments with guard cell protoplasts of Vicia faba, FC (1 or 10 micromolar) stimulates an increase in outward current that is essentially voltage independent between - 100 and +60 millivolts, and occurs even when the membrane potential is held at a voltage (−60 millivolts) at which K⁺ channels are inactivated. These results are indicative of FC activation of a H⁺ pump. FC effects on the magnitude of inward and outward K⁺ currents are not observed. Epidermal peel and patch clamp data are both consistent with the hypothesis that the plasma membrane H⁺ ATPase of guard cells is a primary locus for the FC effect on stomatal apertures.     

Role of H2O2 dynamics in brassinosteroid‐induced stomatal closure and opening in Solanum lycopersicum

Brassinosteroids (BRs) are essential for plant growth and development; however, their roles in the regulation of stomatal opening or closure remain obscure. Here, the mechanism underlying BR‐induced stomatal movements is studied. The effects of 24‐epibrassinolide (EBR) on the stomatal apertures of tomato (Solanum lycopersicum) were measured by light microscopy using epidermal strips of wild type (WT), the abscisic acid (ABA)‐deficient notabilis (not) mutant, and plants silenced for SlBRI1, SlRBOH1 and SlGSH1. EBR induced stomatal opening within an appropriate range of concentrations, whereas high concentrations of EBR induced stomatal closure. EBR‐induced stomatal movements were closely related to dynamic changes in H₂O₂ and redox status in guard cells. The stomata of SlRBOH1‐silenced plants showed a significant loss of sensitivity to EBR. However, ABA deficiency abolished EBR‐induced stomatal closure but did not affect EBR‐induced stomatal opening. Silencing of SlGSH1, the critical gene involved in glutathione biosynthesis, disrupted glutathione redox homeostasis and abolished EBR‐induced stomatal opening. The results suggest that transient H₂O₂ production is essential for poising the cellular redox status of glutathione, which plays an important role in BR‐induced stomatal opening. However, a prolonged increase in H₂O₂ facilitated ABA signalling and stomatal closure.     

Rubisco activity in guard cells compared with the solute requirement for stomatal opening

We investigated whether the reductive pentose phosphate path in guard cells of Pisum sativum had the capacity to contribute significantly to the production of osmotica during stomatal opening in the light. Amounts of ribulose 1,5-bisphophate carboxylase/oxygenase (Rubisco) were determined by the [¹⁴C]carboxyarabinitol bisphosphate assay. A guard cell contained about 1.2 and a mesophyll cell about 324 picograms of the enzyme; the ratio was 1:270. The specific activities of Rubisco in guard cells and in mesophyll cells were equal; there was no indication of a specific inhibitor of Rubisco in guard cells. Rubisco activity was 115 femtomol per guard-cell protoplast and hour. This value was different from zero with a probability of 0.99. After exposure of guard-cell protoplasts to ¹⁴CO₂ for 2 seconds in the light, about one-half of the radioactivity was in phosphorylated compounds and <10% in malate. Guard cells in epidermal strips produced a different labelling pattern; in the light, <10% of the label was in phosphorylated compounds and about 60% in malate. The rate of solute accumulation in intact guard cells was estimated to have been 900 femto-osmol per cell and hour. If Rubisco operated at full capacity in guard cells, and hexoses were produced as osmotica, solutes could be supplied at a rate of 19 femto-osmol per cell and hour, which would constitute 2% of the estimated requirement. The capacity of guard-cell Rubisco to meet the solute requirement for stomatal opening in leaves of Pisum sativum is insignificant.