Direct evidence of Na+/Ca2+ exchange in squid rhabdomeric membranes

Na⁺/Ca²⁺exchange has been investigated in squid(Loligopealei) rhabdomeric membranes.Ca²⁺-containing vesicles have beenprepared from purified rhabdomeric membranes by extrusion throughpolycarbonate filters of 1-µm pore size. After removal of externalCa²⁺, up to 90% of the entrappedCa²⁺ could be specificallyreleased by the addition of Na⁺;this finding indicates that most of the vesicles containedNa⁺/Ca²⁺exchanger. The Na⁺-inducedCa²⁺ efflux had a half-maximumvalue (K_1/2) of~44 mM and a Hill coefficient of ~1.7. The maximalNa⁺-inducedCa²⁺ efflux was ~0.6 nmolCa²⁺ · s¹ · mgprotein¹. SimilarNa⁺-inducedCa²⁺ effluxes were measured ifK⁺ was replaced withLi⁺ orCs⁺. Vesicles loaded withCa²⁺ byNa⁺/Ca²⁺exchange also released this Ca²⁺byNa⁺/Ca²⁺exchange, suggesting thatNa⁺/Ca²⁺exchange operated in both forward and reverse modes. Limited proteolysis by trypsin resulted in a rate ofCa²⁺ efflux enhanced byapproximately fivefold when efflux was activated with 95 mM NaCl. For vesicles subjected to limited proteolysis by trypsin,Na⁺/Ca²⁺exchange was characterized by aK_1/2 of ~25 mMand a Hill coefficient of 1.6. For these vesicles, the maximalNa⁺-inducedCa²⁺ efflux was about twice asgreat as in control vesicles. We conclude thatNa⁺/Ca²⁺exchange proteins localized in rhabdomeric membranes mediate Ca²⁺ extrusion in squid photoreceptors.     

Mechanism of Photosynthate Efflux from Vicia faba L. Seed Coats

In order to develop a tentative model of the mechanism of photosynthateefflux from the vascular region of Vicia faba L. seed coats,wash-out experiments were performed after removal of the embryo. The sulphydryl group modifiers, pCMBS and NEM, reduced ¹⁴C-photosynthateefflux by 40% and 50%, respectively. Their inhibitory effectcould be prevented or reduced (in the latter case) by includingDTT in the bathing solution. Maltose competed with sucrose forefflux; a concentration of 300 mol m^–3 inhibited ₁₄C-photosynthaterelease by 35%. The cations K⁺ , Na⁺ Mg²⁺ and TPP⁺ enhancedefflux significantly, whereas the countenon Cl^– had noeffect. The presence of the protonophore CCCP (0·1 molm^–3) led to a reduction of efflux by 50% net proton extrusiondropped by 34%. To a lesser extent, an efflux inhibition wasalso achieved by decreasing the cytoplasmic pH with the weakacid DM0. In contrast, alterations in the external pH causedonly a feeble response. The ATPase inhibitor, EB, decreasedphotosynthate efflux and H⁺ extrusion. DES reduced efflux slightly,presumably by affecting ATPase activity as well as energy metabolism. Based on these findings, it is proposed that a sucrose/protonantiport mechanism could be responsible for photosynthate effluxfrom Vicia faba seed coats. Key words: Photosynthate efflux, proton extrusion, proton/sucrose antiport, seed coat, Vicia faba L.     

Ionic and osmotic components of salt stress specifically modulate net ion fluxes from bean leaf mesophyll

Ionic mechanisms of salt stress perception were investigated by non‐invasive measurements of net H⁺, K⁺, Ca²⁺, Na⁺, and Cl^? fluxes from leaf mesophyll of broad bean (Vicia faba L.) plants using vibrating ion‐selective microelectrodes (the MIFE technique). Treatment with 90 m M NaCl led to a significant increase in the net K⁺ efflux and enhanced activity of the plasma membrane H⁺‐pump. Both these events were effectively prevented by high (10 m M ) Ca²⁺ concentrations in the bath. At the same time, no significant difference in the net Na⁺ flux has been found between low‐ and high‐calcium treatments. It is likely that plasma membrane K⁺ and H⁺ transporters, but not the VIC channels, play the key role in the amelioration of negative salt effects by Ca²⁺ in the bean mesophyll. Experiments with isotonic mannitol application showed that cell ionic responses to hyperosmotic treatment are highly stress‐specific. The most striking difference in response was shown by K⁺ fluxes, which varied from an increased net K⁺ efflux (NaCl treatment) to a net K⁺ influx (mannitol treatment). It is concluded that different ionic mechanisms are involved in the perception of the ‘ionic’ and ‘osmotic’ components of salt stress.     

Dependency of H+ efflux on ATP in cells of Chara australis

The internodal cell of Chara australis was made tonoplast-freeby internal perfusion with a medium containing a Ca²⁺-chelatorEGTA and the net H⁺ efflux across the plasma membrane was estimatedeither by titration of the external medium or by measuring thechange in pH in the external medium. The amount of H⁺ effluxwas high in the presence of internal ATP and low in its absence.The ATP-dependent net H⁺ efflux was about 40 nmoles/m²/sec.This amount is smaller than that estimated for the pump currenton the basis of electrical data obtained earlier (3). This discrepancyis discussed. (Received June 18, 1980; )     

Mechanisms of solute efflux from seed coats: whole-cell K+ currents in transfer cell protoplasts derived from coats of developing seeds of Vicia faba L.

In developing seed ofVicia faba L., solutes imported throughthe phloem of the coats move symplastically from the sieve elementsto a specialized set of cells (the thin-walled parenchyma transfercells) for release to the seed apoplast. Potassium (K⁺) is thepredominant cation released from the seed coats. To elucidatethe mechanisms of K⁺ efflux from seed coat to seed apoplast,whole-cell currents across the plasma membranes of protoplastsof thin-walled parenchyma transfer cells were measured usingthe whole-cell patch-clamp technique. Membrane depolarizationelicited a time-dependent and an instantaneous outward current.The reversal potential (E_R of the time-dependent outward currentwas close to the potassium equilibrium potential (E_K and itshifted in the same direction as E_K upon changing the externalK⁺ concentration, indicating that this current was largely carriedby an efflux of K⁺. The activation of the time-dependent outwardK⁺ current could be well fitted by two exponential componentsplus a constant. The instantaneous outward current could alsobe carried by K⁺ efflux as suggested by ion substitution experiments.These K⁺ outward rectifier currents elicited by membrane depolarizationare probably too small to represent the mechanism for the normalK⁺ efflux from seed coat cells. Membrane hyperpolarization morenegative than –80 mV activated a time-dependent inwardcurrent. K⁺ influx was responsible for the inward current asthe current reversed at membrane voltage close to E_K and shiftedin the same direction as E_K when external [K⁺] was varied. Activationof this K⁺inward rectifier current was well fitted with twoexponential components plus a constant. A regulating functionfor this current is suggested. Key words: Potassium outward rectifier, potassium inward rectifier, transfer cell protoplast, seed coat, Vicia faba L     

Ca2+ Regulation of Outward Rectifying K+ Channel in the Plasma Membrane of Tobacco Cultured Cells in Suspension: a Role of the K +Channel in Mitigation of Salt-Stress Effects by External Ca2+

The patch-clamp technique was used to study effect of the Ca²⁺on K⁺ channels in the plasma membrane of protoplasts isolatedfrom tobacco (Nicotiana tabacum L., cv. Bright Yellow) culturedcells in suspension. The outward rectifying whole-cell K⁺ currentswere not affected by in-tracellular Ca²⁺, but they were reducedwith increasing extracellular Ca²⁺. Neither extracellular norintracellular Ca²⁺ affected the permeability ratios (p_K+/P_Na+)of the plasma membrane. These results suggest that the inhibitionof outward-rectifying K⁺ channels by extracellular Ca²⁺may partiallycontribute towards the mitigation of detrimental effects ofsalinity on growth by extracellular Ca²⁺. (Received January 19, 1998; Accepted July 30, 1998)     

Isolation of cDNA for a Plasma Membrane H+-ATPase from Guard Cells of Vicia faba L.

cDNA encoding the plasma membrane H⁺-ATPase of guard cells ofVicia faba L. was isolated. The clone encoded a 105-kDa polypeptide(956 amino acids) that was 79–85% identical in terms ofamino acid sequence to other plant H⁺-ATPases. High levels ofmRNA explain the high H⁺-ATPase activity of these plasma membranes. (Received December 24, 1994; Accepted April 12, 1995)     

Effect of Cytoplasmic Ca2+ on the Membrane Potential and Membrane Resistance of Chara Plasmalemma

Effects of cytoplasmic Ca²⁺ on the electrical properties ofthe plasma membrane were investigated in tonoplast-free cellsof Chara australis that had been internally perfused with media,containing either 1 mM ATP to fuel the electrogenic pump orhexokinase and glucose to deplete the ATP and stop the pump. In the presence of ATP, cytoplasmic Ca²⁺ up to 2.5?10^–5M did not affect the membrane potential (about -190 mV), butmembrane resistance decreased uniformly with increasing [Ca²⁺]_i.In the absence of ATP, the membrane potential, which was onlyabout -110 mV, was depolarized further by raising [Ca²⁺]_i from1.4?10^–6 to 2.5?10^–5 M. Membrane resistance, whichwas nearly the twofold that of ATP-provided cells, decreasedmarkedly with an increase in [Ca²⁺]_i from zero to 1.38?10^–6M, but showed no change for further increases. Internodal cellsof Nitellopsis obtusa were more sensitive to intracellular Ca²⁺with respect to membrane potential than were those of Charaaustralis, reconfirming the results obtained by Mimura and Tazawa(1983). The effect of cytoplasmic Ca²⁺ on the ATP-dependent H⁺ effluxwas measured. No marked difference in H⁺ effluxes was detectedbetween zero and 2.5?10^–5 M [Ca²⁺]_i; but, at 10^–4M the ATP-dependent H⁺ efflux was almost zero. Ca²⁺ efflux experimentswere done to investigate dependencies on [Ca²⁺]_i and [ATP]_i.The efflux was about 1 pmol cm^–2 s^–1 at all [Ca²⁺]_iconcentrations tested (1.38?10^–6, 2.5?10^–5, 10^–4M).This value is much higher than the influx reported by Hayamaet al. (1979), and this efflux was independent of [ATP]_i. Thepossibility of a Ca²⁺-extruding pump is discussed. ¹ Present address: Botanisches Institut der Universit?t Bonn,Venusbergweg 22, 5300 Bonn, F.R.G. (Received September 22, 1984; Accepted February 19, 1985)     

Ionic Diffusion Through the Nitella Cell Wall in the Presence of Calcium

Diffusion potentials (concentration and bi- or multi-ionic potentials)in KC1, NaCl, or LiCl solutions have been measured across anisolated cell wall of Nitella, with or without the same concentrationof CaCl² on either side of the cell wall. The absolute valueof the potentials decreases as the external Ca²⁺concentrationincreases and it may happen that an inversion of the sign ofthe concentration potentials results when the external Ca²⁺solution reaches 1 mM. Dosages of K⁺ and Ca²⁺ in the cell wallhave shown that Ca²⁺ easily displaces the monovalent ion fromthe exchange sites and tends to neutralize the cationic exchanger.However, in most cases, the measured potentials are still morenegative than the theoretical potentials which would be setup by a neutral-site membrane in the same conditions. Theseresults suggest that Ca²⁺ largely reduces the discriminationproperties of the cell wall between cations and anions.     

Effect of Sudden Salt Stress on Ion Fluxes in Intact Wheat Suspension Cells

Although salinity is one of the major problems limiting agriculturalproduction around the world, the underlying mechanisms of highNaCl perception and tolerance are still poorly understood. Theeffects of different bathing solutions and fusicoccin (FC),a known activator of plasma membrane ATPase, on plasma membranepotential (E_m) and net fluxes of Na⁺, K⁺and H⁺were studied inwheat suspension cells (Triticum aestivum) in response to differentNaCl treatments. E_mof cells in Murashige and Skoog (MS) mediumwas less negative than in cells exposed to a medium containing10 mM KCl + 0.1 m M CaCl₂(KSM) and to a basic salt medium (BSM),containing 1 m M KCl and 0.1 m M CaCl₂. Multiphasic Na⁺accumulationin cells was observed, peaking at 13 min after addition of 120m M NaCl to MS medium. This time scale was in good agreementwith net Na⁺flux changes measured non-invasively by moving ion-selectivemicroelectrodes (the MIFE system). When 120 m M NaCl was addedto all media studied, a quick rise of Na⁺influx was reversedwithin the first 20 min. In both 120 and 20 m M NaCl treatmentsin MS medium, net Na⁺efflux was observed, indicating that activeNa⁺transporters function in the plant cell response to saltstress. Lower external K⁺concentrations (KSM and BSM) and FCpre-treatment caused shifts in Na⁺fluxes towards net influxat 120 m M NaCl stress. Copyright 2000 Annals of Botany Company Sodium, potassium, proton, membrane potential, fusicoccin, salt stress, wheat, Triticum aestivum     

Effect of Divalent Cations on Na+ Permeability of Chara corallina and Freshwater Grown Chara buckellii

The effect of elevated Na⁺ concentration on Na⁺ permeability(P_Na) and Na⁺ influx in the presence of two levels of externaldivalent cations was determined in Chara corallina and freshwater-culturedChara buckellii. When Na⁺ in the medium was increased from 1.0to 70 mol m^–3, Na⁺ influx increased in both species ifCa²⁺ was low (0.1 mol m–3). If Ca²⁺ was increased to 7.0mol m^–3 when Na⁺ was increased, Na⁺ influx remained atthe low control level in C. corallina, and showed only a temporaryincrease in C. buckellii. Mg²⁺ was a better substitute for Ca²⁺in C. buckellii than in C. corallina. Na⁺ permeability data suggest that when the external Ca²⁺ concentrationis low, P_Na does not increase in the presence of elevated NaCl;the increase in Na⁺ influx appears to be due to the increasein external Na⁺ concentration alone. Ca^{2 +} supplementation appearsto decrease P_Na whereas supplemental Mg²⁺ has no effect. Na⁺ effluxes were computed from previously determined net fluxesand the influxes. It was found that for both species, fluxesin both directions were stimulated in response to all experimentaltreatments, but Na⁺ influx always exceeded efflux. This resultedin net Na⁺ accumulation in the vacuoles of both species. The results are discussed with reference to net flux and electrophysiologicaldata obtained previously under identical conditions, as wellas the comparative salinity tolerance of both species and theNa⁺/divalent cation ratio. Key words: Na⁺ influx, Na⁺ tolerance, membrane potential, permeability, Chara     

Outward-Rectifying K+ Channels in Stomatal Guard Cell Protoplasts

Ion channels in stomatal guard cell protoplasts from Vicia fabawere examined using the patch-clamp technique. Most ion channelshaving unit conductance ranging between 10 and 30 pS showedclear outward-rectification in symmetrical 50mM KCl. The largeinside-out membranes contained these outward-rectifiers as themajor and relatively stable channels. The channels were K⁺ ion-selective.Kinetic analysis revealed that the channels have three conductancestates: open, closed and inactivated. The rates of transitionto and from the inactivated state were highly voltage-dependent. (Received April 6, 1988; Accepted May 25, 1988)     

Protoplast ion fluxes: their measurement and variation with time, position and osmoticum

The ability to measure directly individual protoplast ion fluxes is a valuable addition to patch clamp and other techniques when using protoplasts to study membrane transporters. Before interpreting observations on protoplasts in terms of behaviour of intact cells and tissues, some methodological questions should be addressed. These include effects of space and time variations of transporter activities over the membrane, the osmotic dependence of specific ion transporters and the effect of the regenerating cell wall. In this study net H⁺ and Ca²⁺ fluxes were measured from individual corn (Zea mays L.) coleoptile protoplasts using a non-invasive microelectrode technique for ion flux measurements. For Ca²⁺, the flux distribution was almost symmetrical, ranging ±30 nmol · m⁻² · s⁻¹ around zero. For H⁺ it was skewed towards efflux ranging from −100 to +10 nmol · m⁻² · s⁻¹. The distribution of H⁺ fluxes through the protoplast surface was a complex mosaic which changed with time, sometimes showing oscillations. These flux variations with time and position around the surface, apparently driven by endogenous mechanisms, may be relevant to protoplast pH homeostasis. When the new cell wall was partially regenerated on the next day, the correlation between H⁺ and Ca²⁺ fluxes increased, which is consistent with the weak-acid Donnan-Manning model of cell wall ion exchange. Received: 11 June 1997 / Accepted: 10 July 1997     

Effects of External Ca2+ on K+ Permeability of the Elongating Region of Mung Bean Roots under High KCl Stress

Simultaneous measurements of the extracellular potential andthe K⁺(⁸⁶Rb) efflux, and of the intracellular and extracellularpotentials of the cortical cells were used to study the effectsof external Ca²⁺ on the plasma membrane K⁺(⁸⁶Rb) permeabilityin two-day-old mung bean (Vigna mungo L. Hepper, ‘Blackmatpe’) roots under high KCl stress. The K⁺ efflux wasenhanced by a high KCl solution (>7.5 mM), and addition of0.5 mM Ca²⁺ could suppress this efflux. The removal of membrane-associatedCa⁺ from the root surface with EDTA led to a recovery of theK⁺ efflux along with a marked decrease in the extracellularpotential. (Received November 19, 1986; Accepted March 6, 1987)     

Measurement of Changes in Cytosolic Ca2+ in Arabidopsis Guard Cells and Mesophyll Cells in Response to Blue Light

Phototropins (phot1 and phot2) are blue light (BL) receptorsthat mediate responses including phototropism, chloroplast movementand stomatal opening, and increased cytosolic Ca²⁺. BL absorbedby phototropins activates plasma membrane H⁺-ATPase in guardcells, resulting in membrane hyperpolarization, and drives K⁺uptake and stomatal opening. However, it is unclear whetherthe phototropin-mediated Ca²⁺ increase activates the H⁺-ATPase.Here, we determined cytosolic Ca²⁺ concentrations in guard cellprotoplasts (GCPs) from Arabidopsis transformed with aequorin.Cytosolic Ca²⁺ increased rapidly in response to BL in GCPs fromboth the wild type and phot1 phot2 double mutants, but was mostlysuppressed by an inhibitor of photosynthetic electron flow (DCMU).With depleted external K⁺, we observed another slower Ca²⁺ increase,which was phototropin- dependent. Fusicoccin, a H⁺-ATPase activator,mimicked the effect of BL. The slow Ca²⁺ increase thus appearsto result from membrane hyperpolarization. The slow Ca²⁺ increasewas suppressed by external K⁺ and was restored by blockers ofinward-rectifying K⁺ channels, CsCl and tetraethylammonium,suggesting the preferential uptake of K⁺ over Ca²⁺. Such efficientK⁺ uptake in response to BL was not found in mesophyll cells.Both the fast and the slow Ca²⁺ increases were inhibited byCa²⁺ channel blockers (CoCl₂ and LaCl₃) and a chelating agent(EGTA). These results indicate that the phototropin-mediatedCa²⁺ increase was not observed prior to H⁺-ATPase activationin guard cells and that Ca²⁺ entered guard cells via Ca²⁺ channelsthrough photosynthesis and phototropin-mediated membrane hyperpolarization.     

SEA-0400, a potent inhibitor of the Na+/Ca2+ exchanger, as a tool to study exchanger ionic and metabolic regulation

The effects of a new, potent, and selective inhibitor of the Na⁺/Ca²⁺ exchange, SEA-0400 (SEA), on steady-state outward (forward exchange), inward (reverse exchange), and Ca²⁺/Ca²⁺ transport exchange modes were studied in internally dialyzed squid giant axons from both the extra- and intracellular sides. Inhibition by SEA takes place preferentially from the intracellular side of the membrane. Its inhibition has the following characteristics: it increases synergic intracellular Na⁺ (Na_i⁺) + intracellular H⁺ (H_i⁺) inactivation, is antagonized by ATP and intracellular alkalinization, and is enhanced by intracellular acidification even in the absence of Na⁺. Inhibition by SEA is still present even after 1 h of its removal from the experimental solutions, whereas removal of the cointeracting agents of inhibition, Na_i⁺ and H_i⁺, even in the continuous presence of SEA, releases inhibition, indicating that SEA facilitates the reversible attachment of the natural H_i⁺ and Na_i⁺ synergic inhibitors. On the basis of a recent model of squid Na⁺/Ca²⁺ exchange regulation (DiPolo R and Beaugé L. J Physiol 539: 791–803, 2002), we suggest that SEA acts on the H_i⁺ + Na_i⁺ inactivation process and can interact with the Na⁺-free and Na⁺-bound protonized carrier. Protection by ATP concurs with the antagonism of the nucleotide by H_i⁺ + Na_i⁺ synergic inhibition. ionic-metabolic interactions     

Extensor protoplasts of the Phaseolus pulvinus: light-induced swelling may require extracellular Ca2+ influx, dark-induced shrinking inositol 1,4,5-trisphosphate-induced Ca2+ mobilization

The photonastic upward movement and scotonastic downward movementof the primary leaf of Phaseolus coccineus L. depends on ionfluxes across the plasma membrane of extensor and flexor cellsof the laminar pulvinus. Extensor protoplasts cultured in 0.4M mannitol, 10 mM KCl, 1 mM CaCl₂ and 5 mM MES-KOH buffer pH6 were found to swell upon switching on white light at the endof a 15 h dark period and to shrink upon switching off the lightat the end of the following 9 h light period, behaviour consistentwith that expected in the cells of intact plants. Light-inducedswelling requires Ca²⁺ in the surrounding medium. Both the Ca²⁺channel blocker verapamil and La³⁺ inhibited this reaction,whereas TMB-8, an inhibitor of intracellular Ca²⁺ transport,had no effect. When the Ca²⁺ iono phore A 23187, the Ca²⁺ channelagonist Bay K-8644, or thapsigargin, an inhibitor of Ca²⁺ -ATPasesat endo-membranes, was added to the medium, extensor proto-plastsswelled in the dark. These results suggest that in extensorprotoplasts light opens Ca²⁺ channels in the plasma membraneand that the influx of extracellular Ca²⁺ results in an increasedcytoplasmic Ca²⁺ concentration which is sufficient to mimicthe light-on signal in activating or deactivating the ion transportersrequired for swelling. Dark-induced shrinking occurred in Ca²⁺-free medium. It was not inhibited by verapamil, but was byTMB-8. Both neomycin and Li⁺ , substances which are known toinhibit the phosphoinositide path way of transmembrane signalling,inhibited dark induced shrinking. Myo-inositol nullified theLi⁺ inhibition of dark-induced shrinking. Neither A 23187 norBay K-8644 induced shrinking in the light, but were able tonullify the inhibitory effect of TMB-8 on dark-induced shrinking.These results suggest that, in extensor protoplasts, the shrinkingsignal ‘light off’ is transduced through phosphoinositidehydrolysis and Ca²⁺ release from internal stores. In additionto the inositol 1,4,5-trisphosphate (IP₃)-induced increase ofthe cytoplasmic Ca²⁺ concentration, further events dependingon the light-off signal appear to be required for shrinking. Key words: Phaseolus pulvinus, extensor protoplasts, light-induced swelling, dark-induced shrinking, Ca²⁺, phosphoinositide signalling     

Activities of Ca2+ pump and low affinity Ca2+/H+ antiport in plasma membrane vesicles of corn roots

ATP-dependent Ca₂₊-uptake was investigated in sealed plasmamembrane vesicles isolated from corn roots (Zea mays L. cv.Hybrid-3352/Palma-Pioneer). In a chloride-containing medium,at high calcium concentrations, about 30% of the total Ca²⁺accumulation ({small tilde}4 nmol Ca²⁺ mg^–1 protein) wasshown to be protonophore-sensitive and corresponded to the fractionof Ca²⁺ not accumulated in a sulphate-containing medium. Furthermore,vesicles in the presence of nitrate, which stimulates H⁺ transport,or vesicles preloaded with H⁺, take up Ca²⁺ more rapidly, suggestingthat, at high calcium concentrations, there is a mechanism forCa²⁺ transport which depends on the magnitude of the protongradient across the membrane. The fraction of Ca²⁺ uptake shownto be sensitive to the protonophore CCCP increased by about150–200% as the Ca²⁺ concentration in the medium increasedfrom 50µM to 250µM. Under the same conditions, theCCCP-insensitive fraction of Ca²⁺ accumulated was reduced byabout 25–30% suggesting that different Ca²⁺ affinitiesexist in the two Ca²⁺ uptake processes. Although calmodulinstimulation was not observed, the sensitivity to Ca²⁺ and externalpH indicates that H⁺ gradient-independent Ca²⁺ accumulationreflects activity of the Ca²⁺–pump. These results indicatethat the plasma membrane of corn roots contain two distinctmechanisms of Ca²⁺ transport: a high Ca²⁺ affinity, proton gradient-independentCa²⁺ pump and a low Ca²⁺ affinity, proton gradient-dependentCa²⁺/H⁺ antiport, which have greatest activity at concentrationsof Ca²⁺ below and above 50+M, respectively. Key words: Ca²⁺/H+ antiport, Ca²⁺ pump, plasmalemma, roots, Zea mays L.     

Na+ fluxes in Chara under salt stress

The influx and efflux of Na⁺ across the plasma membrane of Characorallina and Chara longifolia were examined under mild saltstress conditions. Na⁺ influx was found to be rapid in bothspecies with the freely exchangeable cytoplasmic Na⁺ cominginto isotopic equilibrium with external ²²Na⁺ within 1 h ofexposure to isotope. Cytoplasmlc Na⁺ concentration and Na⁺ influxwere greater in C. corallina than in C. longifolla under thesame conditions. Na⁺ influx across the tonoplast was much lowerthan the flux across the plasma membrane. Na⁺ efflux was stimulatedat pH 5 relative to pH 7 by 218% in C. coralllna and 320% inC. longifolia. In both species externally applied Li⁺ inhibitedNa⁺ efflux at pH 5 but not at pH 7. Na⁺ etflux was not significantlyinhibited by amiloride. Key words: Na⁺ influx, Na⁺ efflux, Na⁺/H⁺ antiport, Chara     

Utilization of the Vibrating Probe and Ion-Selective Microelectrode Techniques to Investigate Electrophysiological Responses to Wounding in Pea Roots

This paper examines the ionic composition of wound-induced electricalcurrents in higher plant tissue, using two non-injurious electrophysiologicaltechniques. By simultaneous recording of K⁺, H⁺ , and Ca²⁺ ionfluxes with extracellular ion-selective microelectrodes, wehave determined that a Ca²⁺ influx (2.4 µA cm^–2),a small H⁺ influx (0.17 µA cm^–2) and a large K⁺efflux (16 µA cm^–2) occur immediately after woundingin roots of Pisum sativum L. var. Greenfeast. Using an extracellularvibrating probe at the wound site, net ion currents of 26 µAcm^–2 were measured 5 min after wounding. In a more concentratedbathing medium (1/4 rather than 1/16 strength Hoagland's solution),net ion currents of 59 µA cm^–2 were measured, andthese would appear to be the largest extracellular currentsthat have been measured in plants. We made a quantitative comparisonof the summed ion fluxes with the net ion currents and thisrevealed that ion fluxes, in addition to those measured here,occur after wounding. Key words: Wounding, ion flux, electric current, calcium, potassium