Cell Wall Acidification and its Role in Auxin-Stimulated Growth

The role of cell wall acidification in auxin-stimulated growthwas examined in abraded hypocotyl segments of etiolated Cucumis.sativus seedlings. Acidification of the medium by these segmentswas strongly inhibited by a pretreatment and the continued presenceof 1?0 mol m^–3 vanadate, widely used as an inhibitor ofplasma membrane ATPase activity. Elongation of segments in pH6?5 buffer was almost completely inhibited by such a treatmentwith vanadate, and the promotion of growth by indole-3-aceticacid (IAA) seen in the absence of vanadate was completely abolished.However, both inhibited and uninhibited segments showed a pronouncedelongation in response to pH 4?0) buffer. In pH 4?0 buffer,in contrast to the results obtained at pH 6?5, IAA significantlypromoted growth in both the presence and absence of vanadate.The results indicate that IAA can promote growth in the absenceof endogenous acidification, but that an acid wall is necessaryfor wall loosening to occur. Key words: Acidification, auxin-stimulated growth, Cucumis sativus, vanadate     

Direct Effects of Ca2+-Channel Blockers on Plasma Membrane Cation Channels of Amaranthus tricolor Protoplasts

Ca²⁺-channel blockers at concentrations greater than 1 mmolm^–3, directly affect the activity of K ⁺selective channelsin the plasma membrane of Amaranthus tricolor protoplasts. Theseeffects are not mediated by the blockade of Ca²⁺ channels. Blockers tested included 1, 4-dihydropyridines (nifedipine,nicardipine), verapamil, bepridil, Gd³⁺ and La³⁺, applied towhole-cell and detached outside-out patches of plasma membraneat concentrations from 50µmol m^–3 to 100 mmol m^–3.For certain experiments the concentration of Ca²⁺ on the cytoplasmicside of the plasma membrane ([Ca²⁺]cyt) was buffered at either50ftmol m^–3 or 500 µmol m^–3. The principal currents observed in whole-cells flowed throughcation outward rectifier (OR) channels. Each blocker causedan immediate reduction of time-dependent outward currents atdoses down to 1 mmol m^–3 and produced a different, reversible,kinetic block of the outward current, independent of the levelof [Ca²⁺]cyt. Verapamil also activated a sustained inward cationcurrent at negative p.d. The same effects were found with individualchannels in detached outside-out patches. Conductance and selectivityof the cation OR channels were unchanged by the drugs. [Ca²⁺]ex, was varied over a range from 0 to 10 mol m^–3.Progressively lower [Ca²⁺]eI, increasingly enhanced the maximumamplitude of the time-dependent currents. Time-constants fordecay of inward tail currents were increased at low [Ca²⁺]eit.These effects were rapidly reversible. Although there was noevidence that the cation ORs in plasma membrane of Amaranthustricolor were dependent on [Ca²⁺]cyl for their activation, theywere sensitive to the concentration of free Ca²⁺ in the extracellularmedium. Key words: Verapamil, blocker, cation channels, Amaranthus, protoplasts     

Ionic mechanism for contractile response to hyposmotic challenge in canine basilar arteries

A hyposmotic challenge elicited contraction of isolated canine basilar arteries. The contractile response was nearly abolished by the removal of extracellular Ca²⁺ and by the voltage-dependent Ca²⁺ channel (VDCC) blocker nicardipine, but it was unaffected by thapsigargin, which depletes intracellular Ca²⁺ stores. The contraction was also inhibited by Gd³⁺ and ruthenium red, cation channel blockers, and Cl^– channel blockers DIDS and niflumic acid. The reduction of extracellular Cl^– concentrations enhanced the hypotonically induced contraction. Patch-clamp analysis showed that a hyposmotic challenge activated outwardly rectifying whole cell currents in isolated canine basilar artery myocytes. The reversal potential of the current was shifted toward negative potentials by reductions in intracellular Cl^– concentration, indicating that the currents were carried by Cl^–. Moreover, the currents were abolished by 10 mM BAPTA in the pipette solution and by the removal of extracellular Ca²⁺. Taken together, these results suggest that a hyposmotic challenge activates cation channels, which presumably cause Ca²⁺ influx, thereby activating Ca²⁺-activated Cl^– channels. The subsequent membrane depolarization is likely to increase Ca²⁺ influx through VDCC and elicit contraction. stretch-activated cation channels; Ca²⁺-activated Cl^– channels; voltage-dependent Ca²⁺ channels; large-conductance Ca²⁺-activated K⁺ channels; gadolinium     

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     

Calcium Activation of Potassium Channels in the Plasmalemma of Eremosphaera viridis

The role of cytoplasmic calcium activity in activation of K⁺-channelsin the unicellular green alga Eremosphaera viridis has beenstudied. As reported previously, after a ‘light off’signal a voltage independent opening of K⁺-channels in the plasmalemmais observed. This effect is indicated by a transient polarization(TP) with a simultaneous increase of the membrane conductance.TPs can also be triggered by different treatments, which allowinvestigations within a ‘short-circuited’ signalchain. (i) After incubation with EGTA a single extended TP canbe released by a sudden increase of the external calcium concentration.The Ca²⁺-channel inhibitors nifedipine (10 ^–2 mol m^–3)and verapamil (5 ? 10^–2 mol m^–3) suppress the releaseof this TP. (ii) In the presence of external calcium the additionof the ionophore A23187 [GenBank] (10–3 mol m^–3) causes anextremely prolonged TP. (iii) Low external concentrations ofbarium (10^–2 mol m^–3) induce repetitive TPs in thepresence of external calcium. In this case the Ca²⁺-channelinhibitors are less effective. (iv) Strontium (0.1–1.0mol m^–3) is able to trigger repetitive TPs even withoutexternal calcium. Whereas barium may stimulate a calcium influx,strontium can serve as a substitute for calcium to induce anopening of K⁺-channels. These results indicate strongly a Ca²⁺-dependentand voltage-independent activation of K⁺-channels in the plasmalemmaof Eremosphaera. The participation of cytoplasmic calcium inthe signal transduction chain after a ‘light off’signal is discussed. Key words: Ca²⁺-dependent K⁺-channels, Ca²⁺-channel effectors, A23187, transient membrane potential, Eremosphaera     

Calcium Involvement In the IAA-induced Leaflet Opening of Cassia fasciculata

Opening of Cassia fasciculata leaflets was induced in darknessafter application of indole-3-acetic acid (IAA). This movementwas obtained with concentrations from 10^–6 M to 10^–4M, after a corresponding time-lag ranging from 120 to 30 min.IAA (5x10^–5 M) allowed leaflet opening at all the pH valuestested (from 3·5 to 7·5), the largest aperturebeing obtained at pH 60 in MES 2·5 mM. Our data suggesta functional involvement of calcium in the regulation of theturgor variations occurring in the pulvinar motor cells duringIAA-induced leaflet opening which occurs in darkness: indeed,this movement was inhibited by the Ca²⁺ chelator EGTA (thisinhibition was reversed by CaCl²) or by antagonists (LaCl³,TMB-8); on the contrary, the IAA-opening was enhanced by ionophoreA 23187. Calcium mobilization through specific channels was tested usingantagonists such as verapamil and nifedipine: at physiologicaldoses, these compounds did not significantly affect leafletresponse. The possibility that calcium could originate frominternal stores was checked using lithium chloride which isknown to block the phosphatidylinositol cycle in animal cells.This compound hindered auxin-induced opening for concentrationshigher than 5x10^–4 M. The calcium-binding protein calmodulinwas shown to be implicated in the IAA-induced response sinceopening was inhibited in a concentration-dependent manner aftertreatment with compound 48/80 and with W-7. Key words: Cassia fasciculata, auxin, calcium, second messenger, turgor regulation     

Passive Interactions of Ca2+ and other Multivalent Cations with the Membranes of Isolated Corn Mitochondria

The presence of Ca²⁺ in a hypo-osmotic reaction medium reducessuccinate: cytochrome c reductase activity and the release ofouter membrane-specific antimycin A-insensitive NADH: cytochromec reductase. The action of Ca²⁺ is non-competitive and approximately30 mmol m^–3 Ca²⁺ affords half-maximal (I₅₀) protection.The effect of a range of inorganic and organic multivalent cationson succinate: cytochrome c reductase activity suggests thatthe action of Ca²⁺ is non-specific and probably involves Ca²⁺binding to outer membrane component(s) which may be proteins. Valinomycin- or gramicidin-induced passive swelling of isolatedcorn mitochondria in isotonic K.C1 is also non-competitivelyinhibited by up to 50% with Ca²⁺. Half-maximal inhibition (I₅₀)occurs at 0-35 mol m^–3 Ca²⁺ for valinomycin and 1-0 molm^–3 Ca²⁺ for gramicidin. Other divalent cations, Mg²⁺,Sr²⁺ and Ba²⁺, seem to inhibit similarly while the trivalentcations La³⁺ and Ho³⁺ show a maximum inhibition of up to 85%,with an I₅₀ of 0.1 mol m^–3 for valinomycin. It is suggestedthat non-specific cation binding may reduce membrane fluiditythereby slowing down the rate of ionophore penetration throughthe inner membrane. Key words: Calcium, Mitochondria, Membranes     

Membrane fluxes and comparative toxicities of aluminium, scandium and gallium

Measurements were made of the membrane fluxes and toxicitiesof three cations with trivalent forms, Al, Ga and Sc, in internodalcells of the giant alga Chara corallina. With this species itwas possible to separate the cell wall from the cell contentsto obtain membrane fluxes which were not complicated by adsorptionof cations to the cell wall. Net uptake of Al was low, approximately1.5 pmol m^–2 s^–1, compared to the influxes of thedivalent cation ⁴⁵Ca of 82 pmol m^–2 s^–1 and themonovalent cation ²²Na of 1100 pmol m^–2 s^–1 at thesame external concentration. Traditional desorption methodsfor removing cell wall cations were found to be relatively ineffectivein the case of trivalent cations and, consequently, influx measuredwithout separating the cell wall component would greatly overestimatethe true membrane flux, possibly by several orders of magnitude.Al, Ga and Sc all inhibited growth at 20 mmol m^–3 at pH4.4. Toxicity decreased in the order Sc>Al>Ga. Sc andAl were also toxic to mature non-growing cells. Influx of ⁴⁶Scincreased with increasing pH, consistent with membrane permeationby hydroxy Sc rather than Sc³⁺. However, Sc was more toxic atlow pH where Sc³⁺ was the dominant species and where influxwas low and binding to cell walls was high. These results argueagainst Sc acting intracellularly and favour a toxicity mechanismwhich is initiated extracellularly. Key words: Aluminium toxicity, trivalent cations, Chara corallina, scandium influx, gallium     

The Effect of pH on the Binding of Calcium to Pea Epicotyl Cell Walls and its Implications for the Control of Cell Extension

Cell walls were prepared from the epicotyls of dark-grown pea(Pisum sativum L.) seedlings. The walls were found to bind externally-added⁴⁵Ca²⁺, with a binding constant of 4 ? 10^–4 mol dm^–3and a maximum capacity of 1.5 ? 10^–8 g-ions of Ca²⁺ perg fresh weight of epicotyl. The binding capacity decreased asthe pH of the medium was decreased below 6.0, suggesting thatthe calcium was bound by an anionic group with an apparent pKof 4.7. More than half the calcium binding was due to polygalacturonicacid in the wall, since up to 60% of the calcium binding capacitywas removed by pre-incubation of the cell walls with polygalacturonase(E.C.3.2.1.15). Only small decreases in calcium binding wereseen following pre-incubation with protease, nucleases, phospholipaseand hemicellulase. These results indicate that calcium willbe displaced from the cell wall at hydrogen ion concentrationswhich are known to occur in the wall during wall extension.They are consistent with a mechanism by which calcium inhibitswall extension by forming ionic bridges between polygalacturonicacid molecules, and also with the hypothesis that calcium andhydrogen ions exert opposing influences on cell wall extensionby competing for the same binding sites on the polygalacturonicacid. Key words: Pea epicotyl, Cell wall, Calcium, pH     

Effect of {alpha}-Tomatine on the Response of Wheat Coleoptile Segments to Exogenous Indole-3-acetic Acid

A concentration of 10^–5 M tomatine had no effect on leakagefrom, or elongation of, wheat coleoptile segments, but consistentlyreduced IAA-enhanced extension growth by c. 50 per cent. Therewas no evidence of chemical interaction between the alkaloidand the auxin in solution, and IAA action was not affected bypre-treatment for up to 3 h with 10^–5 M tomatine. Studieswith [2-¹⁴C]IAA revealed that 10^–5 M tomatine did notinhibit uptake of auxin into segments. The effect of pre-treatingsegments for up to 3 h with IAA could be virtually nullifiedby 10^–5 M tomatine, as could also IAA-induced changesin properties of coleoptile cell walls. Results are discussedin relation to the ability of tomatine to disrupt membrane functionand to current hypotheses implicating membranes in the primaryaction of auxin.     

Cytoplasmic Free Ca2+ in the Marine Alga Acetabularia: Measurement with Ca2+ -selective Microelectrodes and Kinetic Analysis

Neutral carrier–based Ca²⁺ –selective microelectrodeshave been examined for application in concentrated multi–ionsolutions. Calculations with data from the literature and ourcalibration series with Ca²⁺ –EGTA buffers (a convenientalgorithm for theircalculation is given) provide the physico–chemicalconditions for determination of submicromolar concentrationsof free Ca²⁺ in the cytoplasm (with about 400 mM K⁺ and 70 mMNa⁺) of the marine alga Acetabularia acetabulum. The experimentalresults give a cytoplasmic concentration of 560 nM free Ca²⁺corresponding to 140 nM activity. Recordings of cytoplasmicCa²⁺ uponremoval and re-addition of external (10 mM) Ca²⁺ showsteady–state changes by about 50 nM (following the directionof external Ca²⁺) which are preceded by transient over shoots.These kinetics are better described by damped oscillations ofa feedback control system than by two superimposed exponentials.Using the maximum rate of decrease of cytoplasmic Ca²⁺ uponremovalof external Ca²⁺, a unidirectional Ca²⁺ efflux of 0.3µmol m^–2 s^–1 is determined which is consideredto mark the steady–state turnover of Ca²⁺ at the plasmalemma.This high rate and the high electrochemical driving force forCa²⁺ (about – 580 mV)across the plasmalemma at a restingvoltage of about – 170 mV, point to a powerful Ca²⁺ transportsystem which cannot sufficiently be fuelled by ATP–hydrolysisbut requires additional energy Key words: Acetabularia, Ca²⁺–selective microelectrode, cytoplasmic free calcium, EGTA–buffer, homeostasis, plasmalemma     

Negative Phototropism in Vaucheria terrestris Regulated by Calcium III. The Role of Calcium Characterized by Use of a High-Power Argon-Ion Laser as the Source of Unilateral Blue Light

A tip-growing Xanthophycean algal coenocyte, Vaucheria terrestrissensu Gtz, is able to change the sign of its phototropic responsefrom positive to negative as a result of its ability to sensethe fluence rate (=intensity) of unilateral blue light (BL).The mechanism that determines the sign of phototropism was investigatedusing a high-power argon-ion laser (457.9 nm) as a source ofvery strong unilateral BL. The fluence-response relationshipwas determined by changing both the fluence rate and the durationof irradiation. Positive phototropic bending was induced whenthe fluence rate of BL from the laser was below 60 W m^–2.The positive bending obeyed the reciprocity law and was notaffected by the concentrations of external Ca²⁺ ions between0.4 mM and 4.4 mM. The positive curvature decreased when thealga was exposed to a unilateral pulse of BL with a durationof 10–300 s at fluence rates higher than 60 W m^–2.The alga finally showed a deep negative curvature when eitherthe fluence rate or the duration of irradiation was furtherincreased. The inversion of the phototropic response and developmentof the negative phototropic response was greatly enhanced inthe presence of 4.4 mM Ca²⁺ ions. However, the mechanism thatdetermine the sign of phototropism seemed to require a BL pulseof longer than several seconds, even when the fluence rate wassufficiently high. The role of cytoplasmic Ca²⁺ ions in positiveand negative phototropic responses is discussed. ¹This study was carried out as part of NIBB Cooperative ResearchProgram for the Okazaki Large Spectrograph (89-513 and 90-518). ²Part of this study was reported at the XXXII Yamada Conferenceon Plant Cell Walls as Biopolymers with Physiological Functions,May 5–8, 1992, Osaka (Kataoka and Watanabe 1992).     

The Effect of Morphactin (Methyl 2-Chloro-9-hydroxyfluorene-9-carboxylate) on Basipetal Transport of Indol-3-ylacetic Acid in Hypocotyl Sections of Phaseolus vulgaris L.

The effect of morphactin (methyl 2-chloro-9-hydroxyfluorene-9-carboxylate)on basipetal transport of auxin (Indol-3-ylacetic acid-2-¹⁴C)was studied in bean (Phaseolus vulgaris) hypocotyl with thedonor-receiver block method. Morphactin (5 x 10^–6m) reduced IAA (5 x 10^–6m) transportintensity by an average of 83 per cent and auxin transport capacityby 90 per cent, but transport velocity was not affected. Morphactin did not inhibit uptake of IAA into hypocotyl tissue,but it did prevent transfer of IAA from the tissue into receiverblocks. Chromatographic analysis of the tissue after 4 h IAA-2-¹⁴Ctransport showed that 54 per cent of the total activity wasin the form of IAA in the control and 42 per cent in the morphactintreated tissue. No difference was found in the rate of decarboxylationof IAA-1-¹⁴C between control and morphactin treated tissue sections.Nor could any difference between control and morphactin be shownin the radioactivity associated with a TCA ppt fraction. Ina study of the transportable auxin pool, morphactin decreasedthe size of the pool and increased the half-life of decay ofauxin transport from 1•22 h to 3•85 h. In a kineticanalysis of the reversal of morphactin (5 x 10^–6m) inhibitionby increasing concentration of IAA-2-14C (5 x 10^–6m to2 x 10^–5m), it was shown that IAA transport resemblesMichaelis-Menten enzyme reaction kinetics, and that inhibitionby morphactin fitted a ‘mixed type’ model. IAA hada dissociation constant of 8•5 x 10^–6m and morphactinthat of 4•3 x 10^–7m with a K_m for the transport processof 8•5 x 10^–6m.     

Promotion by Calcium Ions and Cytochalasin D of the Rounding Up Process (Spherulation) of Electrofused Barley Protoplasts and its Relation to the Cytoskeleton

Various agents were tested for the effects on both the electrofusionand the subsequent rounding up (spherulation) of fused protoplastsfrom barley (Hordeum vulgare var. Moor). The microfilament (MF)inhibitor, cytochalasin D (CD), had no effect on the frequencyof fusion, but greatly increased the frequency of spherulation.The effects of CD were rapid, long-lived and maximal at 2 to10 mmol m^–3. Ca²⁺ also promoted spherulation of fusionproducts, whereas phalloidin and the calcium inonophore A₂₃₁₈₇completely abolished the effect of both CD and Ca²⁺. An internalCa²⁺ antagonist, 8-(diethylamino)octyl 3, 4, 5-trimethoxybenzoate(TMB8) at 50 mmol m^–3 also inhibited spherulation withoutaffecting the frequency of fusion and CD could almost completelyreverse its effects. The effects of CD persisted for up to 1h after its removal, whereas the effects of Ca²⁺ and TMB8 wereexerted at the beginning of incubation and were immediatelyabolished by washing. These results indicate that the effectof Ca²⁺ on the formation of spherical fusion products is closelycorrelated with the status of the microfilaments and that theinternal Ca²⁺ concentration and, perhaps, its transient changewhich affects the MF, are intimately involved in the process. Key words: Cytoskeleton, electrofusion, calcium effect     

Dependence of Plasmalemma Conductance and Potential on Intracellular Free Ca2+ in Tonoplast-Removed Cells of a Brackish Water Characeae Lamprothamnium

In response to hypotonic treatment internodal cells of the brackishwater Characeae Lamprothamnium regulate turgor pressure by releasingK⁺ and Cl^–, accompanying membrane depolarization and atransient increase in membrane electrical conductance (Okazakiet al. 1984b). The hypothesis that a transient increase in cytoplasmicfree Ca²⁺ concentration ([Ca²⁺]_c) caused by hypotonic treatmenttriggers release of K⁺ and Cl^– from the cell (Okazakiand Tazawa 1986a, b, c) was tested using tonoplast-removed cells.These cells did not regulate turgor pressure. The plasmalemmaconductance remained almost constant for a change in the intracellularfree Ca²⁺ concentration ([Ca²⁺],) from 10^–6 to 10^–2mol?m^–3. The results suggest that some cytoplasmic Ca²⁺-sensitizingsoluble components, which work as mediators to activate K⁺ and/orCl^– channels in the plasmalemma and/or the tonoplast,were lost after desintegration of the tonoplast. The plasmalemmapotential was depolarized under high [Ca²⁺]_i. However, no membranedepolarization was observed upon hypotonic treatment. Sincemembrane depolarization has been suggsted to occur under normal[Ca²⁺]_c in intact cells (Okazaki and Tazawa 1986a, b), its absencesuggests that some cytoplasmic factors, which induce the membranedepolarization in a Ca²⁺-independent manner, are lost in tonoplast-removedcells. ¹ Present address: Department of Biology, Osaka Medical College,Sawaragi-cho 2-41, Takatsuki, Osaka 569, Japan. (Received October 22, 1986; Accepted March 31, 1987)     

Light affects the flux of Ca2+ from excised tomato leaves within four seconds

The flux of Ca²⁺ from excised tomato leaves, conditioned in100 mM KCI for 60 min, was shown to be affected by turning anincandescent light (32 µmol m^–2 s^–1) on oroff. Calcium concentrations were measured with a single junctioncombination electrode connected to a high impedence electrometeramplifier interfaced with a microcomputer. Net Ca²⁺ fluxes fromexcised leaves 30 s prior to and 30 s after turning on the lightwere 68 and 122pmol g ^–1 dry weight s ^–1 respectively.The Ca²⁺ fluxes for the 30 s prior to and 30 s after turningoff the light were 113 and 51 pmol g^–1 dry weight s^–1respectively. Close examination of the first 10 s after thelight was turned off showed that there was a 4 s delay in theflux of Ca²⁺ . The heat given off by the incandescent bulb hadno effect on Ca²⁺ flux during these short time periods. Theeffect of light on the Ca²⁺ flux was evident for at least 2h after the initial treatment. Key words: Ca²⁺, signalling, light, tomato     

Effect of Ca2+ on Tonoplast Potential of Permeabilized Characeae Cells

Using permeabilized characean cells in which the ionic conditionsat the cytoplasmic side of the tonoplast are easily controlled,effects of Ca²⁺ ion on tonoplast potential were examined. Whenthe cell was treated with 1 µM Ca²⁺, the tonoplast potential(E_M became positive in a complicated manner in Chara corallinawhile it simply became negative in Nitella axilliformis. Whenthe cell was treated with 9-antracenecarboxylic acid, a Cl^–-channelinhibitor, E_m became more negative and the response of E_m toCa²⁺ was significantly suppressed. It is suggested that Ca²⁺activates Cl^–-channel at a low concentration and inactivatesat a higher one in C. corallina while it simply inactivate Cl^–-channelin N. axilliformis. ¹Present address: Biological Laboratory, The University of theAir, Wakaba 2-11, Wakaba, 260 Japan. (Received August 22, 1988; Accepted December 26, 1988)     

A Possible Double Role for Brassinolide in the Reorientation of Cortical Microtubules in the Epidermal Cells of Azuki Bean Epicotyls

Brassinolide, at 10^–8M or higher, enhanced the elongationof epicotyl segments from azuki bean seedlings that was inducedby IAA, but it did not enhance the increase in fresh weightof the segments, an indication that brassinolide suppressedthe lateral expansion of the segments. The additional elongationcaused by brassinolide was completely prevented in the presenceof 10^–5 M cremart, which disrupted the cortical microtubules(MTs) in epidermal cells in the segments, and in the presenceof 10^–6M 2,6-dichlorobenzonitrile, an inhibitor of thesynthesis of cellulose. Brassinolide at 10^–7M, appliedtogether with IAA, increased the percentage of epidermal cellswith transversely oriented cortical MTs. Brassinolide appearsto enhance the longitudinal expansion and suppress the lateralexpansion of epicotyl cells by organizing cortical MTs transverselyto the cell axis and, thereby, causing the deposition of cellulosemicrofibrils in the same orientation. Brassinolide by itself, at 10^–8M or higher, induced theelongation of epicotyl segments and the elongation caused bybrassinolide was partially prevented by 10^–5M cremart,results that suggest that brassinolide regulates cell expansionvia at least two processes, an MT-dependent process and an MT-independentprocess. Brassinolide by itself increased the percentage ofepidermal cells with transversely oriented cortical MTs. Since,in azuki bean epicotyls, the percentage of cells with transverseMTs is increased only by the combination of auxin and gibberellinbut not by either alone, brassinolide applied alone seems toplay a double role, similar to that of auxin and of gibberellin,in organizing cortical MTs. (Received September 2, 1994; Accepted November 16, 1994)     

Growth and Nutrient Status of Quercus rubra L. in Response to Al and Ca

Northern red oak (Quercus rubra L.) seedlings were grown for63 d in a complete nutrient solution (pH 3.8) containing oneof three concentrations of Al (0, 0.75 or 2-0 mol m^–3)and either 10 or 250 mmol m^–3 Ca. Of all solution variables,the In of (Al³⁺)/(Ca²⁺), the solution activities ratio, wasmost closely correlated with declines in shoot and root growth.Ln (Al³⁺)/(Ca²⁺) also most closely predicted leaf and root [Mg],[Al], and [Al]/[Ca]. These three variables in turn were closelyrelated to growth. Toxic levels of (Al³⁺) and (Al³⁺)/(Ca²⁺)in solution are compared to levels in forest soils. Key words: Al phytotoxicity, Al x Ca interaction, Quercus rubra     

Effects of Ions and Membrane Potential on the Elongation of the Unicellular Green Alga Closterium

Cells of the unicellular green alga Closterium ehrenbergii elongatedexclusively at septa and for 4–5 hours after cell division.Cell elongation was strongly inhibited by a decrease in eitherthe external concentration of Ca²⁺ or pH, and was also inhibitedby several competitive Ca²⁺ channel blockers. Changes in concentrationsof other external ions had no effect on the elongation. Theaverage concentrations of ions in the intracellular fluid ofthe interphase cell before cell division was as follows (inmM): K⁺=56.5, Na⁺=4.8, Ca²⁺=2.4, Mg²⁺=1.3, Cl^–=59.5; thepH was 7.4. The levels of K⁺, Na⁺ and Cl^– ions decreasedsignificantly with cell elongation, suggesting that this process,which proceeds with water uptake, surpasses ion absorption.The plasma membrane potential (Vm) in both the interphase cellsand in the elongating cells was in the range of –90 to–105 mV (interior negative). The Vm was entirely determinedby the simple diffusion of K⁺. A decrease in the external concentrationof Ca²⁺ caused depolarization, probably by an indirect effectof low Ca²⁺. Changes in the extracellular level of H⁺ and othercations barely affected Vm. Thus, external Ca²⁺ and H⁺ are concludedto affect cell elongation but not via a change in the Vm acrossthe plasma membrane. (Received February 29, 1988; Accepted June 8, 1988)