Measurement of the Apoplastic Activity of K+ and Cl- in the Leaf Epidermis of Commelina communis in Relation to Stomatal Activity

Bowling, D. J. F. 1987. Measurement of the apoplastic activityof K⁺ and Cl^– in the leaf epidermis of Commelina communisin relation to stomatal activity.–J. exp. Bot. 38: 1351–1355. Ionic activity of K⁺ and Cl^– in the apoplast of the lowerepidermis of the leaf of Commelina communis was measured usingion selective micro-electrodes. Large gradients across the stomatalcomplex were observed which were related to stomatal aperture.On stomatal closure the activity of K⁺ and Cl^– in theapoplast of the guard cell rose from 3·0 mol m^–3to 100 mol m^–3 and 33 mol m^–3 respectively. It wasconcluded that the apoplast is an important pathway for iontransport between the cells. Key words: Stomata, ionic activity, leaves, apoplast     

Acid-Induced Stomatal Opening in Commelina communis and Vicia faba

The effects of H^$ and fusicoccin (FC) on stomatal opening inthe dark were investigated using epidermal strips of Commelinacommunis and Vicia faba cv. Ryosai Issun. Citrate-phosphatebuffer induced maximal opening of stomata at pH 3.0 when testedover the range of 2.7 to 5.0. HCl at 1 mM also induced stomatalopening without appreciable accumulation of K^$ in the guardcells. After 4 hr treatment with 10 µM FC, stomata openedwith concomitant accumulation of K^$ in the guard cells, although1–2 hr treatment caused opening without concomitant K^$increase. These results suggest that stomatal opening can be caused bysalt accumulation and/or changes of the physicochemical conditionsin the cell wall of the guard cells due to high acidity. ¹ Present address: Biological Laboratory, Faculty of Education,Nagasaki University, Nagasski 852, Japan. (Received April 30, 1982; Accepted July 17, 1982)     

Effect of the Mesophyll on Stomatal Opening in Commelina communis

The effect of a number of factors on the opening of stomatain the intact leaf and in the isolated leaf epidermis of Commelinacommunishas been investigated. Stomata in the intact leaf opened widein the light and closed rapidly on transfer to the dark. Theywere also sensitive to CO₂. In contrast, stomata in isolatedepidermis floated on an incubation solution containing 100 molm^–3KCl responded neither to light nor CO₂. They opened as widelyas those in the intact leaf when treated with fusicoccin. Stomata in isolated epidermis opened almost as wide as thosein the intact leaf when they were incubated with isolatedmesophyllcells in the light. The solution in which the mesophyll cellswere incubated was separated by centrifugation. Themedium fromcells previously incubated in the light caused the stomata inisolated epidermis to open but that from cells kept inthe darkhad no effect. A similar effect was observed when isolated chloroplastswere incubated with the isolated epidermis.However, the supernatantfrom the chloroplast suspension had no significant effect onstomatal opening. These results indicate that the mesophyll plays an importantrole in stomatal opening in the light. The mesophyll appearstoproduce in the light, but not in the dark, a soluble compoundwhich moves to the guard cells to bring about stomatal opening.Theexperiments with isolated chloroplasts suggest that this substanceis a product of photosynthesis. Key words: Commelina communis, stomata, light, mesophyll     

Role of Ca and EGTA on Stomatal Movements in Commelina communis L

Ca²⁺ (0.1-1.0 millimolar) accelerated dark-induced stomatal closure and reduced stomatal apertures in the light in epidermal peels of Commelina communis L. In contrast, ethyleneglycol-bis-(β-aminoethyl ether) N,N′tetraacetic acid (EGTA) (2 millimolar), a Ca²⁺ chelator, prevented closure in the dark and accelerated opening in the light. EGTA did not promote significant opening in the dark. It is therefore concluded that EGTA does not increase ion uptake into guard cells, but rather prevents ion efflux. Addition of EGTA to incubating solutions with 10 millimolar KCl resulted in steady state apertures of 15.6 micrometers, whereas in the absence of EGTA similar apertures required 55 millimolar KCl and 150 millimolar KCl was needed in the presence of 1 millimolar CaCl₂. The results demonstrate the importance of Ca²⁺ in the regulation of stomatal closure and point to a role of Ca²⁺ in the regulation of K⁺ efflux from stomatal guard cells.     

Light Saturation of Stomatal Opening on the Adaxial and Abaxial Epidermis of Commelina communis

The responses of adaxial and abaxial stomata to light were examinedon detached epidermis of Commelina communis. Stomata on theabaxial epidermis were considerably more sensitive to lightthan those on the adaxial epidermis, supporting the view thatthe differences in photosensitivity are inherent rather thanthe result of differences in the microenvironment within theleaf. The sensitivity of adaxial and abaxial stomata to bluelight was also examined. The quantum flux received by a pairof guard cells appears to be sufficient to support a directeffect of blue light on ion transport into the guard cells,but there is no evidence to suggest that blue light is essentialfor stomatal opening.     

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.     

不同叶龄鸭跖草耐咪唑乙烟酸能力差异的生理生化基础

比较不同叶龄鸭跖草耐咪唑乙烟酸能力的结果表明,鸭跖草受咪唑乙烟酸伤害的程度有随着鸭跖草叶龄的增加而减轻的趋势,株高和鲜重的抑制率也有减小的趋势。另外,随着叶龄的增大,鸭跖草叶中超氧化物歧化酶（SOD）、过氧化物酶（POD）、谷胱甘肽-S-转移酶（GST）、乙酰乳酸合成酶（ALS）的活性和谷胱甘肽（GSH）的含量增大。三叶龄以上鸭跖草的各项指标与二叶龄之间差异显著。     

Calcium Inhibits Ion-Stimulated Stomatal Opening in Epidermal Strips of Commelina communis L.

Inoue, H. and Katoh, Y. 1987. Calcium inhibitsion-stimulatedstomatal opening in epidermal strips of Commelina communis L.—J.exp. Bot. 38: 142–149. Ca²⁺ suppressed both the ion-stimulated stomatal opening andH⁺ extrusion of pre-illuminated epidermal strips isolated fromCommelina communis L. In the absence of Ca²⁺, the rate of H⁺release was 18 nmol H⁺ cm^–2 h^–1 per epidermal stripunit area in 150 mol m^–3 KCL at pH 7?4. Half-maximum inhibitionof stomatal opening was observed with 220 mmol m^–3 ofCa²⁺. The hexavalent dye, ruthenium red, showed concentration-dependentprevention of the inhibition by Ca²⁺ of the ion-stimulated stomatalopening. The effect of ruthenium red was non-competitive, andthe K₁ for the calcium inhibition was found to be 3?6 mmol m^–3.The calcium inhibition of H⁺ extrusion was also prevented byruthenium red. These results suggest that Ca²⁺ inhibits theactivity of electrogenic H⁺ translocating ATPase of the guardcell plasma membrane and leads to the suppression of stomatalopening. Key words: Calcium, Commelina communis, ruthenium red, stomata     

Guard Cell Metabolism in Epidermis of Commelina communis L. During Stomatal Opening and Closing

The rates of CO² incorporation into the epidermis of C. communiswere linear and were similar during the completion of opening(2 h) and closing (1 h) movements of stomata. The kinetics of¹⁴C turnover between metabolites and the rates of ‘leakage’of metabolites were determined for opening and closing movements.When stomata were opening there was a slow turnover of ¹⁴C frommalate chiefly into sugars. Upon stomatal closure ¹⁴C was initiallymainly in sugars, malate, and sugar phosphates. Thereafter,there was a slight loss of label from sugar phosphates witha corresponding increase in malate. Starch became labelled duringopening and closing movements. Rates of incorporation of CO₂found in the ‘leakage’ fraction were greatest whenstomata were opening. Of the labelled compounds Most‘from the tissue, malate was the most highly labelled whetherstomata were opening or closing. Although interpretation of the turnover patterns is difficultwithout knowledge of pool sizes for the metabolites it is suggestedthat a pool of sugars exists within the guard cells, which havefairly direct and reversible access to carbon from starch andmalate. The implications of loss of malate from guard cellsduring stomatal opening and closing are discussed.     

Separation and Purification of Protoplast Types from Commelina communis L. Leaf Epidermis

Guard cell and epidermal/subsidiary cell protoplasts obtainedby enzymic digestion of peeled Commelina communis leaf epidermiswere separated and purified by discontinuous density gradientccntrifugation with media based on Percoll (Pharmacia Fine ChemicalsAB, Uppsala, Sweden). The cell types were recovered over 99.9%pure at yields exceeding 50% efficiency, and mesophyll contaminationcould be virtually eliminated when desired. Osmotic characteristicsof the protoplast types were evaluated and compared to in vivovalues, and the viability of the protoplasts, assessed usinga range of criteria, was found to be high. Purified Commelinaguard cell protoplasts were able to evolve O₂ when illuminated,and this was substantially reduced in the presence of the inhibitorDCMU, indicating that they possess photosystem II activity.Specific advantages of this method of protoplast purification,and the potential uses of separate suspensions of guard cellsand epidermal/subsidiary cells in experiments on stomatal physiologyare discussed. Key words: Commelina communis, Protoplasts, Epidermis     

Abaxial and Adaxial Stomatal Responses to Light of Different Wavelengths and to Phenylacetic Acid on Isolated Epidermes of Commelina communis L.

Abaxial and adaxial stomatal responses to light of differentwavelengths and to phenylacetic acid (PAA), a molecule knownto form complexes with irradiated flavins, were examined onisolated epidermes of Commelina communis L. Blue light was superiorto red and green in promoting opening. Potassium accumulationand malate production were common to both abaxial and adaxialstomatal cells, but the photosensitivity was markedly higherin the former than in the latter. PAA suppressed opening andpotassium accumulation in guard cells, but hardly affected thelevel of epidermal malate; CO₂-free air failed to reverse thesesuppressions. The PAA-effect was more substantial in blue lightthan in red, green or darkness; thus, a flavin photoreceptoris indicated. Because of the overall effect of PAA under allconditions it is suggested that, in addition to its interactionwith blue light reception, PAA also has a more general effecton guard cells.     

Calcium Effects on Stomatal Movement in Commelina communis L. : Use of EGTA to Modulate Stomatal Response to Light, KCl and CO(2)

Stomatal movements depend on both ion influx and efflux; attainment of steady state apertures reflects modulation of either or both processes. The role of Ca²⁺ in those two processes was investigated in isolated epidermal strips of Commelina communis, using the Ca²⁺ chelator EGTA to reduce apoplastic [Ca²⁺]. The results suggest that a certain concentration of Ca²⁺ is an absolute requirement for salt efflux and stomatal closure. EGTA (2 millimolar) increased KCl-dependent stomatal opening in darkness and completely inhibited the dark-induced closure of initially open stomata. Closure was inhibited even in a KCl-free medium. Thus, maintenance of stomata in the open state does not necessarily depend on continued K⁺ influx but on the inhibition of salt efflux. Opening in the dark was stimulated by IAA in a concentration-dependent manner, up to 15.4 micrometer without reaching saturation, while the response to EGTA leveled off at 9.2 micrometer. IAA did not inhibit stomatal closure to the extent it stimulated opening. The response to IAA is thus consistent with a primary stimulation of opening, while EGTA can be considered a specific inhibitor of stomatal closing since it inhibits closure to a much larger degree than it stimulates opening. CO₂ causes concentration-dependent reduction in the steady state stomatal aperture. EGTA completely reversed CO₂-induced closing of open stomata but only partially prevented the inhibition of opening.     

Calcium influx at the plasmalemma of isolated guard cells of Commelina communis

The influx of ⁴⁵Ca into isolated guard cells of Commelina communis L. has been measured, using short uptake times, and washing in ice-cold La³⁺-containing solutions to remove extracellular tracer after the loading period. Over 0.5–4 min the uptake was linear with time, through the origin. Over 20–200M external Ca²⁺ the influx measured with 10–20 mM external KCl was in the range 0.3–2.3 pmol·cm^-2·s^-1 (on the basis of estimated guard-cell area); with only 1 mM KCl externally the ⁴⁵Ca influx was significantly reduced, in the range 0.3–1.1 pmol·cm^-2·s^-1 for external Ca²⁺ of 50–100 M. The results indicate that the Ca-channel is voltage-sensitive, opening with depolarisation. No consistent effect of the addition of abscisic acid could be found. In different experiments, on the addition of 0.1 mM abscisic acid the Ca²⁺ influx was sometimes stimulated by 28–79%, was sometimes unaffected, and was sometimes inhibited by 16–29%. The results rule out a long-lasting stimulation of ⁴⁵Ca influx by ABA, but they do not rule out a transient stimulation followed by inhibition, perphaps as a consequence of down-regulation of Ca²⁺ influx by increasing cytoplasmic Ca²⁺. The hypothesis that ABA may act via an action on Ca²⁺ influx, increasing cytoplasmic Ca²⁺, with consequent effects on voltage-dependent and Ca²⁺-dependent ion channels in both plasmalemma and tonoplast, is neither proved nor disproved by these results.Abbreviations ABA abscisic acid - Ca_o, K_o external Ca and K concentrations     

Stomatal Responses to Applied ABA and CO2 in Epidermis Detached from Well-Watered and Water-Stressed Plants of Commelina communis L.

Epidermal strips from either well-watered or water-stressedplants of Commelina communis L. were subjected to a range ofABA concentrations (10^–6–10^–3 mol m^–3)in the presence (330 parts 10^–6 in air) or virtual absence(3 parts 10–6 in air) of CO₂. The stomatal response toCO₂ was greater in epidermis from water-stressed plants, althoughthere was a distinct CO₂ response in epidermis from well-wateredplants. Additions of ABA via the incubation medium had littleeffect on the relative CO₂ response. Stomata responded to ABAboth in the presence and virtual absence of CO₂, but the relativeresponse to ABA was greatest in the high CO₂ treatment. Whenwell-watered plants were sprayed with a 10^–1 mol m^–3ABA solution 1 d prior to use, the stomatal response of detachedepidermis to both CO₂ and ABA was very similar to that of epidermisdetached from water-stressed leaves. It is hypothesized thata prolonged exposure to ABA is necessary before there is anymodification of the CO₂ response of stomata.     

Stomatal movement in response to long distance-communicated signals initiated by heat shock in partial roots of Commelina communis L.

The systematic or long-distance signal transmission plays crucial roles in animal lives. Compared with animals, however, much less is known about the roles of long-distance signal communication in plant lives. Using the model plant Commelina communis L., we have probed the root to shoot communication mediated by heat-shock signals. The results showed that a heat shock of 5 min at 40℃ in partial roots, i.e. half or even 1/4 root system, could lead to a significant decrease in stomatal conductance. The regulation capability depends on both heat shock temperature and the amount of root system, i.e. with higher temperature and more roots stressed, the leaf conductance would decrease more significantly. Interestingly, the stomatal regulation by heat shock signal is in a manner of oscillation: when stomata conductance decreased to the lowest level within about 30 min, it would increase rapidly and sometimes even exceed the initial level, and after several cycles the stomata conductance would be finally stabilized at a lower level. Feeding xylem sap collected from heat-shocked plants could lead to a decrease in stomata conductance, suggesting that the heat shock-initiated signal is basically a positive signal. Further studies showed that heat shock was not able to affect ABA content in xylem sap, and also, not able to lead to a decrease in leaf water status, which suggested that the stomatal regulation was neither mediated by ABA nor by a hydraulic signal. Heat shock could lead to an increase in xylem sap H₂O₂ content, and moreover, the removal of H₂O₂ by catalase could partially recover the stomatal inhibition by xylem sap collected from heat-shocked plants, suggesting that H₂O₂ might be able to act as one of the root signals to control the stomatal movement. Due to the fact that heat-shock and drought are usually two concomitant stresses, the stomatal regulation by heat-shock signal should be of significance for plant response to stresses. The observation for the stomatal regulation in an oscillation manner by presently identified new signals should contribute to further understanding of the mystery for the pant systematic signaling in response to stresses.     

Stomatal Opening Is Induced in Epidermal Peels of Commelina communis L. by GTP Analogs or Pertussis Toxin

Pretreatment with pertussis toxin or microinjection of guanosine- 5[prime]-(3-thiotriphosphate) (GTP-[gamma]-S) into guard cells in peeled epidermis of Commelina communis L. promoted stomatal opening under subsaturating white light. Guanosine-5[prime]-(2-thiodiphosphate) (GDP-[beta]-S) and adenosine-5[prime]-(3-thiotriphosphate) (ATP-[gamma]-S) did not change stomatal aperture under identical conditions. These results indicate that G proteins may be involved in the regulation of stomatal opening.     

Stomatal movement in response to long distance- communicated signals initiated by heat shock in partial roots of Commelina communis L.

It is well known that animals are able to positively respond to environmental stimuli, thereby avoiding or reducing the possible injures or impacts on them, and the base for the rapid and positive responses is long- distance signal transmission mediated b…     

Regulation of Mg,K-ATPase Activity in Guard Cells of Commelina communis by Phytochrome and ABA

The microsomal fraction obtained from guard cell protoplastswas assayed for ATPase activity at pH 6.5. Triton X-100 didnot affect this stimulation of activity of ATPase by K⁺ up to5 mM, but the detergent abolished the stimulatory effect ofK⁺ at higher concentrations. The ATPase activity was inhibitedby N,N-dicyclohexylcarbodiimide and ABA. Irradiation with redlight enhanced the ATPase activity more than did irradiationwith far-red light. ABA and irradiation with red or far-redlight were effective only in the presence of K⁺. These resultssuggest the possibility that the ATPase activity is modulatedonly indirectly by light and ABA. (Received January 9, 1989; Accepted July 10, 1989)     

Oligogalacturonic Acid and Chitosan Reduce Stomatal Aperture by Inducing the Evolution of Reactive Oxygen Species from Guard Cells of Tomato and Commelina communis

Stomatal opening provides access to inner leaf tissues for many plant pathogens, so narrowing stomatal apertures may be advantageous for plant defense. We investigated how guard cells respond to elicitors that can be generated from cell walls of plants or pathogens during pathogen infection. The effect of oligogalacturonic acid (OGA), a degradation product of the plant cell wall, and chitosan (beta-1,4-linked glucosamine), a component of the fungal cell wall, on stomatal movements were examined in leaf epidermis of tomato (Lycopersicon esculentum L.) and Commelina communis L. These elicitors reduced the size of the stomatal aperture. OGA not only inhibited light-induced stomatal opening, but also accelerated stomatal closing in both species; chitosan inhibited light-induced stomatal opening in tomato epidermis. The effects of OGA and chitosan were suppressed when EGTA, catalase, or ascorbic acid was present in the medium, suggesting that Ca(2+) and H(2)O(2) mediate the elicitor-induced decrease of stomatal apertures. We show that the H(2)O(2) that is involved in this process is produced by guard cells in response to elicitors. Our results suggest that guard cells infected by pathogens may close their stomata via a pathway involving H(2)O(2) production, thus interfering with the continuous invasion of pathogens through the stomatal pores.     

Relationship between Respiration and Photosynthesis in Guard Cell and Mesophyll Cell Protoplasts of Commelina communis L

A mass spectrometric method combining ¹⁶O/¹⁸O and ¹²C/¹³C isotopes was used to quantify the unidirectional fluxes of O₂ and CO₂ during a dark to light transition for guard cell protoplasts and mesophyll cell protoplasts of Commelina communis L. In darkness, O₂ uptake and CO₂ evolution were similar on a protein basis. Under light, guard cell protoplasts evolved O₂ (61 micromoles of O₂ per milligram of chlorophyll per hour) almost at the same rate as mesophyll cell protoplasts (73 micromoles of O₂ per milligram of chlorophyll per hour). However, carbon assimilation was totally different. In contrast with mesophyll cell protoplasts, guard cell protoplasts were able to fix CO₂ in darkness at a rate of 27 micromoles of CO₂ per milligram of chlorophyll per hour, which was increased by 50% in light. At the onset of light, a delay observed for guard cell protoplasts between O₂ evolution and CO₂ fixation and a time lag before the rate of saturation suggested a carbon metabolism based on phosphoenolpyruvate carboxylase activity. Under light, CO₂ evolution by guard cell protoplasts was sharply decreased (37%), while O₂ uptake was slowly inhibited (14%). A control of mitochondrial activity by guard cell chloroplasts under light via redox equivalents and ATP transfer in the cytosol is discussed. From this study on protoplasts, we conclude that the energy produced at the chloroplast level under light is not totally used for CO₂ assimilation and may be dissipated for other purposes such as ion uptake.