Comparison of Plasma Membrane and Tonoplast H+-Translocating ATPases in Phaseolus mungo L. Roots

Two membrane fractions were obtained from 16%/26% and 34%/40%interfaces following discontinuous sucrose density gradientcentrifugation of a 10,000–80,000xg pellet from mung bean(Phaseolus mungo L.) roots. The ATPases in the fractions differedfrom each other in their sensitivity toward various inhibitors,activation with salts, dependence of activity on pH, and K_mfor ATP.Mg²⁺. Judging from their sensitivity toward inhibitors,the ATPases in the low and high density membranes are consideredmainly of tonoplast and plasma membrane origin, respectively.Both ATPases were activated by gramicidin D and nigericin. ATP-inducedquenching of quinacrine fluorescence in both fractions requiredMg²⁺ and permeant anions such as Cl^– and quenching wascollapsed by carbonylcyanide p-trifluoromethoxyphenyl hydrazone.The sensitivities of quenching to the inhibitors were essentiallythe same as those of ATPase activity in the membranes. Thesefindings suggest the involvement of ATPases in H⁺-pumping acrossa plasma membrane and tonoplast. (Received April 12, 1985; Accepted October 11, 1985)     

Characterization of ATPases Associated with Various Cellular Membranes Isolated from Etiolated Hypocotyls of Vigna radiata (L.) Wilczek

Cellular membrane fractions, including endoplasmic reticum (ER),Golgi-enriched membrane, plasma membrane and tonoplasts, wereisolated from Vigna radiata seedlings. Each of these membranefractions was associated with specific ATPases which were highlydependent on Mg²⁺. ATPases of ER, Golgi-enriched membrane andplasma membrane were sensitive to vanadate but the tonoplastATPase was not. ATPases were mostly dependent on Cl¹, but aslight stimulation by K⁺ was observed in the case of ATPasesof Golgi-enriched membrane and plasma membrane. KNO₃ inhibitedtonoplast ATPase but stimulated the other ATPases. ER ATPasecan be distinguished from other ATPases by the following characteristics:specific inhibition by KNO₂ and Triton X-100, stimulation bylow concentrations of diethylstilbestrol and 4,4'-diisothiocyanostilbene-2,2'-disulfonicacid, and high sensitivity to heat. The ATPases showed typicalMichaelis-Menten kinetics and had K_m values of 0.5 to 0.6 ITIMMg²⁺-ATP for ER, Golgienriched-membrane and tonoplast ATPases,and 2.27 msi Mg²⁺-ATP for plasma membrane ATPase. ATPases ofGolgi-enriched membranes and plasma membranes had similar properties,but they were still distinguishable by the differences in theirK_m values and their responses to Triton X-100. Based on theseresults, it is postulated that each cellular membrane is associatedwith a specific ATPase in cells of V. radiata. ¹Contribution No. 3171 from the Institute of Low TemperatureScience. (Received April 22, 1988; Accepted September 28, 1988)     

Effects of Cerebroside and Cholesterol on the Reconstitution of Tonoplast H+-ATPase Purified from Mung Bean (Vigna radiata L.) Hypocotyls in Liposomes

For an examination of the effects of cholesterol and cerebrosideon the rate and extent of proton-pumping across the membranesof proteoliposomes prepared with tonoplast H⁺-ATPase, the tonoplastH⁺-ATPase of mung bean (Vigna radiata L.) was purified by fastprotein liquid chromatography (FPLC) and incorporated into liposomesprepared from asolectin and cholesterol or cerebroside. Proteoliposomeswere formed after the removal of Triton X-100 from a mixtureof Triton X-100, asolectin and purified tonoplast H⁺-ATPaseby passage through an Ampure DT column. Proteoliposomes preparedfrom cholesterol and asolectin at a ratio of 45 : 55 (w/w) andat a ratio of lipid to protein of 200 : 1 (w/w) gave the largestpH gradient, as determined by the ATP-generated quenching ofquinacrine fluorescence. In the presence of cholesterol, thepH gradient formed across the membranes of proteoliposomes andthe average diameter of proteoliposomes increased about two-fold.The initial rate of proton-pumping decreased to 20% of thatobserved with proteoliposomes prepared from asolectin alone.The addition of cerebroside to asolectin at a ratio of 5 : 95(w/w) caused a 1.6-fold increase in the maximum pH gradientwithout any significant change in the initial rate of proton-pumpingor the diameter of proteoliposomes, but the maximum pH gradientdecreased greatly at ratios above 20 : 80 (w/w). The maximumpH gradient was transient and decreased spontaneously when onlyasolectin was used to prepare proteoliposomes, or when cerebrosideand asolectin were used together. Disappearance of the protongradient once it had formed and/or leakage of protons were suppressedby cholesterol at ratios above 30 : 70 (w/w). It was clear,therefore, that cholesterol and asolectin at ratios 30 : 70(w/w) to 45 : 55 (w/w) formed larger and more stable proteoliposomesthan did asolectin alone. ¹Present address: Laboratory of Climatic Stress Control, TohokuNational Agricultural Experiment Station, 4 Shimokuriyagawa,Morioka, Iwate, 020-01 Japan     

Reconstitution of Tonoplast H+-ATPase from Mung Bean (Vigna radiata L.) Hypocotyls in Liposomes

Reconstituted proteoliposomes of tonoplast ATPase are formedon solubilization of tonoplast membranes from mung bean (Vignaradiata L.) with deoxycholate (DOC) in the presence of a mixtureof soybean phospholipids (asolectin), after removal of DOC bypassage through a PD-10 column (Pharmacia). This method is idealbecause of its simplicity and rapidity. Selective insertionof sets of tonoplast H⁺-ATPase polypeptides (68 kDa, 60 kDa,16 kDa and several minor polypeptides) into liposomes usingthis method was confirmed by SDS-PAGE and immuno-blotting withantibodies raised against 68-kDa and 60-kDa polypeptides. Pumping of protons across the membranes of the proteoliposomeswas demonstrated by quinacrine-fluorescence quenching in thepresence of ATP-Mg²⁺. ATP-Mg²⁺ was shown to be the preferredsubstrate in both reconstituted and native tonoplast vesicles,and its optimum concentration was 0.75 to 3.0 mM. Quenchingwas completely abolished by a channel-forming ionophore, gramicidinD, and an inhibitor of tonoplast H⁺-ATPase, KNO₃. Antibodiesto 68-kDa and 60-kDa peptides partially inhibited the pumpingof protons. The rate of pumping of protons increased with thenumber of proteoliposomes, the maximal concentration of whichwas equivalent to 250 µg of protein per reaction mixture.The optimum pH for pumping was 6.5 when inside of proteoliposomeswere loaded pH at 7.2. The rate of pumping of protons was reducedwhen proteoliposomes were made using asolectin and cholesterolat 3 : 1 (w/w), as compared with those made with asolectin alone. The ATPase activity in reconstituted proteoliposomes was inhibitedby KNO₃, with half-maximal inhibition at approximately 7 mM.The enzyme actively hydrolyzed ATP in preference to GTP, CTP,UTP, and ADP, but it did not hydrolyze pNPP or AMP. Antibodiesagainst the 60-kDa polypeptide strongly inhibited ATPase activityas compared to antibodies against the 68-kDa polypeptide. Theresults obtained in this study demonstrate directly that functionaltonoplast H⁺-ATPase can be inserted selectively into liposomes. (Received August 31, 1990; Accepted April 18, 1991)     

Effects of Some Amino Acid Analogues on the Uptake and Transport of K+ and Ca2+ in Wheat and Mung Bean Seedlings: I. CORTICAL CELL FLUXES AND TRANSPORT TO THE STELE IN EXCISED ROOT SEGMENTS, AS AFFECTED BY p-FLUOROPHENYLALANINE

Effluxes of K⁺ and Ca²⁺ from root segments of both wheat, Triticunaestivum L. cv. Capelle and mung bean, Vigna radiata (L.) Wilczek,were measured in the presence or absence of 20 mol m^–3para-fluorophenylalanine (p-FPA). The results were used to estimatethe compartment contents and transmembrane K⁺ and Ca²⁺ fluxesin root cortex cells. Using the Ussing-Teorell flux equationas the criterion, it was concluded that entry of K⁺ from theoutside solution to the cytoplasm, and from the cytoplasm tothe vacuole were active in both wheat and mung bean. Also, inboth species, Ca²⁺ entered the cytoplasm passively across theplasmalemma and was actively pumped back to the external solution.However, interpretation of the direction of active transportacross the tonoplast depends upon an assumption about Ca²⁺ activityin the cytoplasm. The only qualitative effect of p-FPA was to alter the drivingforce for K⁺ influx, across the plasmalemma in wheat, from anactive to a passive one. Quantitative effects of the analoguewere seen for K⁺ fluxes in both wheat and mung bean and forCa²⁺ fluxes in wheat. The p-FPA reduced transport of K⁺ in bothspecies, while transport of Ca²⁺ was unaffected. The implicationsof these results for the ‘two pump hypothesis’ arediscussed. Key words: Triticum aestivum, Vigna radiata, Two pump hypothesis     

Impairment of Tonoplast H-ATPase as an Initial Physiological Response of Cells to Chilling in Mung Bean (Vigna radiata [L.] Wilczek)

Biochemical alterations of cellular membranes in chilling-sensitive mung bean (Vigna radiata [L.] Wilczek) hypocotyls were investigated with reference to chilling injury. Reversible decreases in activities of tonoplast H⁺-ATPase and in vivo respiration became manifest within 24 hours of chilling when tissues suffered no permanent injury as assessed by electrolyte leakage and regrowth capacity. These changes were found to be the earliest cellular responses to chilling. A density-shift on a sucrose density gradient was observed in Golgi membranes early in the chilling treatment, suggesting that Golgi function and/or membrane biogenesis via the Golgi may have been altered upon chilling. After chilling more than 2 days, irreversible changes were generally produced in cellular membranes including the plasma membrane, endoplasmic reticulum, and mitochondria. Respiratory functions remained intact in mitochondria isolated from tissues prechilled for 24 hours, but were impaired after prechilling for 3 days. Given the important role of the tonoplast H⁺-ATPase in the active transport of ions and metabolites, the early decline in the tonoplast H⁺-ATPase activity may give rise to an alteration of the cytoplasmic environment and, consequently, trigger a series of degenerative reactions in the cells.     

Effects of Gamma-Irradiation on the Activity of Tonoplast H+-ATPase from Potato Tubers (Solanum tuberosum L.)

Tonoplast vesicles were prepared from potato tubers (Solariumtuberosum L.) on a step gradient (0% and 6%, w/w) of dextranT-70 to clarify the mechanism by which the tonoplast H⁺-ATPaseis inactivated by gamma-irradiation. H⁺-ATPase activity andH⁺ -pumping were examined after irradiation of tubers (in vivoirradiation) and of isolated tonoplast vesicles (in vitro irradiation)at doses up to 1.0 kGy. Both in vivo irradiation and in vitroirradiation resulted in significant decreases in ATPase andH⁺-pumping activities. The ATPase and H⁺-pumping activities12 h after irradiation were much lower than those 2 h afterirradiation. Solubilized H⁺-ATPase was inactivated, in a dose-dependentmanner, by irradiation (enzyme irradiation) to a greater extentthan was observed after in vitro irradiation or in vivo irradiation.The activity of ATPase 12 h after enzyme irradiation was almostthe same as it was 2 h after enzyme irradiation. The free fattyacid content of vacuolar membranes was increased by in vivoirradiation and by in vitro irradiation with an accompanyingdecrease in tonoplast H⁺-ATPase activity. Lipids from irradiatedtonoplasts had a considerable inhibitory effect on the activityof solubilized H⁺-ATPase. This result suggests that the directinactivation of H⁺-ATPase in potato tonoplast by gamma-irradiationis augmented by the effects of deterioration of membrane lipidsthat is induced by the irradiation. (Received December 21, 1994; Accepted May 16, 1994)     

In Situ and IAA-Induced Cell Elongation is Correlated to the Oleoyl Phosphatidylcholine Content along the Vigna radiata Hypocotyl

Successive segments of mung bean hypocotyls (Vigna radiata)show fatty acid changes according to the lengths of their cells.Only the accumulation of oleic acid was related to the growthprocess; its level was markedly increased all along the hypocotyl. When segments were treated with IAA in vitro, all that had incrementsin length also had increased oleic acid contents. These twofactors were highly correlated. Phosphatidylcholine, and toa less extent phosphatidylethanolamine, were the two phospholipidsinvolved in this phenomenon. Fusicoccin increased cell length but made little, if any, changein the fatty acid content. These results have been interpreted in terms of membrane synthesisand transfer of the membrane from the endoplasmic reticulumtoward the plasmalemma and tonoplast. (Received July 19, 1982; Accepted January 20, 1983)     

The Fine Structure of some Dry Seed Tissues Observed after Completely Anhydrous Chemical Fixation

Completely anhydrous fixation with acrolein vapour or osmiumtetroxide vapour was applied to tissues of air-dry seeds: thecoleoptile of wheat (Trilicum aestivum), and plumule and radicleof mung bean (Vigna radiata). Great shrinkage of cells and organelleswas noted, but all the usual organelles could be identified,except for Golgi bodies and (in most cases) ribosomes. The endoplasmicreticulum was very abundant and endoplasmic reticulum tubuleswere closely associated with the storage organelles, namelylipid bodies in the wheat coleoptile, and protein bodies inthe mung bean embryo axis. Aqueous fixation resulted in considerabledistortion of cellular structure. Triticum aestivum L., wheat, Vigna radiata L., mung bean, seed, fine structure, anhydrous fixation     

The Permeability of the Guard Cell Plasma Membrane and Tonoplast

Uptake experiments and efflux compartmental analysis of planthormones, osmotica and toxins using ‘isolated’ guardcells of Valerianella locusta and guard cell protoplasts (GCP)of Vicia faba were performed in order to study the permeabilityproperties of guard cell plasma membrane and tonoplast. Theplasma membrane of guard cells exhibits a higher permeabilitythan plasma membranes of mesophyll cells for most solutes investigated.The permeability coefficients (P_s calculated for the guard cellplasma membranes are also significantly higher than the P_s valuesfor the guard cell tonoplast. This applies also for protonatedABA. We suppose that the high permeability for ABAH could bepart of the target cell properties. A Collander analysis demonstratesa linear correlation between P_s, values and the ratio K_r/M_r^1,5for both plasma membrane (r = 0.87) and for the tonoplast (r=0.93). Because of deviations from the observed correlations,the permeation of some solutes (ABA, GA, IAA through the tonoplast;methylamine through the plasma membrane) seems to be facilitatedby an additional transport mechanism. The Collander analysisof the plasma membrane of GCP shows very similar results tothe analysis of the plasma membrane of ‘isolated’guard cells, indicating that isolation of protoplasts does notalter the permeability of the guard cell plasma membrane. Key words: Permeability coefficient, guard cells, plasma membrane, tonoplast     

In Vitro Localization of Hydroxyproline O-Glycosyl Transferases in Chlamydomonas reinhardii

The intracellular location of the two major O-glycosylatingenzymes (hydroxyproline-arabinosyl and -galactosyl transferases)involved in the synthesis of the cell wall glycoproteins ofChlamydomonas reinhardii was determined by isopycnic sucrosedensity gradient centrifugation. A comparison of gradients preparedunder low and high Mg²⁺-conditions has enabled us to clearlyallocate the galactosyl transferase to membranes of the Golgiapparatus. In contrast, the membranes which bear the arabinosyltransferase respond to a change in Mg²⁺-concentration in justthe same way as the endoplasmic reticulum does. Analysis ofthe product formed in vitro from UDP-[¹⁴C]arabinose and microsomalmembranes has confirmed the synthesis of an arabinose-containinghydroxyproline-rich glycoprotein. Our results indicate thatwhilst the Golgi apparatus is responsible for some of the glycosylationreactions in hydroxyproline-rich glycoprotein biosynthesis anappreciable portion of the arabinosylation is accomplished whilethe polypeptide is still in the lumen of the endoplasmic reticulum. ³This paper is dedicated to Professor Lothar Jaenicke on theoccasion of his 65th birthday. (Received July 2, 1988; Accepted March 8, 1989)     

Plasma membrane isolation from freshwater and salt-tolerant species of Chara: antibody cross-reactions and phosphohydrolase activities

Plasma membranes were isolated using the aqueous polymer two-phasepartition method from the algae Chara corallina and Chara longifolia,algae which differ in their ability to grow in saline environments.Enrichment of plasma membrane and depletion of tonoplast relativeto the microsomal fraction was monitored using phosphohydrolaseassays and crossreactions to antibodies raised against higherplant transporters. Antibodies to the vacuolar ATPase and pyrophosphatasecross-reacted with epitopes in the microsomal fraction, butshowed little affinity for the plasma membrane fraction. Pyrophosphataseactivity also declined in the plasma membrane fraction relativeto the microsomal fraction. The V-type H⁺ -ATPase activity,sensitive to nitrate or bafilomycin, was low in both fractions,though the cross-reaction to the antibody was reduced in theplasma membrane fraction. By contrast, the antibody recognitionof a P-type H⁺-ATPase amino acid sequence from Arabidopsis didnot occur strongly in the anticipated 90–100 kDa range.While there was enhanced recognition of a polypeptide at around140 kDa in the plasma membrane fraction, salt treatment of Charalongifolia resulted in plasma membrane fractions with reducedamounts of this epitope, but no change in vanadate-sensitiveATPase activity, suggesting that it does not represent the onlyP-type ATPase. Microsomal membranes from saltadapted C. longifoliahave higher reactivity with the antibody to the tonoplast ATPase. Key words: Chara, plasma membrane, salt tolerance, ATPase     

Reconstitution and Characterization of H+-Translocating ATPase from the Plasma Membrane of Phaseolus mungo L. Roots

Plasma membrane H⁺-translocating ATPase was partially purifiedfrom mung bean (Phaseolus mungo L.) roots and reconstitutedinto soybean phospholipid (asolectin) liposomes by the n-octylglucosidedilution method. The resulting proteoliposomes were mainly unilamellarvesicles ranging in size from 0.05 to 0.2 µm. The existenceof ATP-drived H⁺-pumping across the proteoliposomes was demonstratedby the quenching of quinacrine fluorescence in the presenceof Mg²⁺. The quenching could be abolished by an uncoupler, FCCP,and an inhibitor of H⁺-translocating ATPase, vanadate. The reconstitutedATPase consisted of three major polypeptides of 105 KDa, 67KDa and 57 KDa. Its pH optimum, divalent cation stimulationand vanadate sensitivity were similar to those of partiallypurified ATPase. However, the specificity toward ATP was muchgreater following reconstitution. Also reconstitution reducedthe degree of inhibition by DCCD. Local anesthetics (e.g. dibucaine)had no effect on H⁺-pumping activity but increased the ATPaseactivity when proteoliposomes were reconstituted in their presence. (Received May 2, 1986; Accepted October 17, 1986)     

Separation of K+-and Cl --selective ion channels from rye roots on a continuous sucrose density gradient

Microsomal membranes from rye (Secale cereale L.) roots wereseparated by isopycnic sucrose density gradient centrifugation.The ion channels present in gradient fractions were assayedby reconstitution into planar 1-palmitoyl-2-oleoyl phosphatidylethanolaminebilayers (PLB) and the distributions of ion channel activitieswere compared with membrane markerenzyme activities. A numberof ion channel activities were observed and could be distinguishedon the combined bases of their conductance, selectivity, kineticsand pharmacology. A voltage-dependent maxi (498 pS) cation-channel,a voltage-dependent 199-pS cationchannel, 48-pS and 18-pS K⁺channels, and a 148-pS Cl^– channel (all unitary conductancesdetermined in asymmetrical cis trans 325:100mM KCl) colocalizedwith the plasma membrane marker-enzyme, vanadatesensitive ATPase.A weakly K ⁺-selective (108 pS) channel, a 1249-pS cation-channeland a 98-pS K ⁺ channel colocalized with the tonoplast markerenzyme,nitrate-sensitive ATPase. A 706-pS K⁺ channel colocalized withthe expected distribution of intact plastids and a 38-pS Cl^–channel colocalized with either plastid or ER membranes. Themembrane location of several other channels including a hypervoltage-sensitivemaxi (497 pS) cation-channel, a 270-pS K⁺ channel, an 8-pS K⁺channel and a 4-pS K⁺ channel was equivocal, but they were tentativelyassigned to the Golgi. Thus, the plasma membrane and tonoplastorigin of ion channels previously characterized following theincorporation of plasma membrane prepared by aqueous-polymertwo-phase partitioning or tonoplast derived from isolated vacuolesinto PLB was confirmed and the ion channel complement of previouslyunassayed membranes was defined. This demonstrates the usefulnessof PLB in identifying and characterizing ion channels from plantcell membranes, in particular, those of membranes which areinaccessible to patch-clamp electrodes. Key words: Chloride (Cl^–) channel, potassium (K⁺) channel, planar lipid bilayer, root, rye, Secale cerealeL.     

Multiple effects of the inhibitory protein of ethylene production on cellular metabolisms

The effects of an inhibitory protein of ethylene productionisolated from etiolated mung bean hypocotyls (Planta 113: 115,1973) were investigated. Etiolated mung bean hypocotyl segmentsincubated with IAA for 3 hr (1st incubation) to induce ethylene-producingactivity were incubated for 1 hr with IAA in the presence ofthe inhibitory protein and a radioactive material to measuremetabolic activity. Under the conditions where ethylene productionwas inhibited 80% or more by the protein, RNA synthesis, proteinsynthesis and phosphate uptake were suppressed 55–60,65–80, and 60–75%, respectively. Conversion of 1-¹⁴C-acetateto CO₂, lipid, basic and neutral fractions was also inhibited,but the degrees of inhibition were much less than those forthe other processes. When the segments pretreated with the inhibitoryprotein during the 1st incubation period were washed free ofthe protein and assayed for their metabolic activities, theinhibition of RNA and protein syntheses and of phosphate uptakewas partially restored, while ethylene-producing activity wasfully restored to the control level. Similar reversible inhibitoryeffects were also observed for those metabolic activities inthe tissue segments not treated with IAA, thus not producinginduced ethylene. Oxygen uptake and conversion of U-¹⁴C-glucoseto CO₂ were not affected by the inhibitory protein. The possibilitythat the inhibitory protein acts on cell surface membranes andthe modified membranes affect the regulatory mechanism of cellularmetabolism is discussed. ¹ This investigation was supported in part by grants from theMinistries of Education (B-248009), and of Agriculture and Forestryof Japan. (Received November 4, 1977; )     

Ultrastructural features of chilling injury: injured cells and the early events during chilling of suspension-cultured mung bean cells

The ultrastructure of cells of mung bean (Vigna radiata L. var. Wilczek) in suspension culture was studied during chilling. During such treatment, three kinds of injured cells were observed: swollen cells, cells with broken vacuolar membranes, and cells with shrunken plasma membranes. Swelling was observed from the early stages of chilling, and in most cells during chilling. The other two types of cells were observed at the late stages of chilling. At the early stage of chilling, whorls of rough endoplasmic reticulum that surrounded clear regions of cytoplasm were observed. At the same time, markedly rough vacuolar membranes, plastids and mitochondria with vacuoles, enlargement of Golgi vesicles, and dilation of the ER were seen. These changes preceded the swelling of cells. These ultrastructural features of chilling injury are discussed in terms of biochemical observations. The disruption of the vacuolar membrane and the shrinking of the plasma membrane are discussed in terms of destruction of the cytoskeleton.     

Heterogeneous distribution of glycosyltransferases in the endoplasmic reticulum of castor bean endosperm

Endoplasmic reticulum membranes stripped of attached ribosomes were isolated from homogenates of germinating castor bean (Ricinus communis L.) endosperm by sucrose density gradient centrifugation. The isolated endoplasmic reticulum fraction was further separated into two major membrane subfractions by centrifugation on a flotation gradient. Both subfractions appeared to be derived from the endoplasmic reticulum inasmuch as they share several enzymic markers including cholinephosphotransferase, NADH-cytochrome c reductase, and glycoprotein fucosyl-transferase and phase separation of membrane polypeptides using Triton X-114 revealed a striking similarity in both their hydrophilic and hydrophobic protein components. The endoplasmic reticulum membrane subfractions contain glycoproteins which were readily labeled by incubating intact endosperm tissue with radioactive sugars prior to fractionation.

Castor bean endosperm endoplasmic reticulum apparently exhibits a degree of enzymic heterogeneity, however, since the enzymes responsible for the synthesis of dolicholpyrophosphate N-acetylglucosamine and dolicholmonophosphate mannose together with their incorporation into the oligosaccharide-lipid precursor of protein N-glycosylation were largely recovered in a single endoplasmic reticulum subfraction.

     

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)     

Differential stimulation by Cl- of H+ transport and ATPase activity in purified plasma membrane vesicles from maize (Zea mays L.) roots

Maize (Zea mays L.) root plasma membranes purified by the aqueouspolymer two-phase technique have previously been shown to bevery low in tonoplast H⁺ -ATPase and H⁺ -PPase activities. Westernblots of a similar preparation showed that, compared to a microsomalfraction, there was practically no reaction with antibodiesto the tonoplast enzymes, but a strong reaction with an antibodyto the plasma membrane H⁺ -ATPase. Freeze/thaw treatment ofthe plasma membrane vesicles increased the proportion with aninsideout orientation to about 40%. This preparation was usedto demonstrate that substitution of KCl for K₂S0₄ resulted ina 14-fold stimulation of H⁺ transport, but an increase in ATPaseactivity of less than 10%. In contrast to its effect on tonoplastvesicles, Cl^– had only a small effect on the membranepotential of plasma membrane vesicles, assayed by oxonol V fluorescencequench recovery. To account for the apparent variability inthe H⁺/ATP coupling ratio, it may be necessary to devise a modelthat takes into consideration the possibility of non-linearbehaviour with respect to the membrane potential of the protonleak and/or of slip in the ATPase. Key words: ATPase, plasma membrane, anion stimulation, proton transport     

Freezing injury and phospholipid degradation in vivo in woody plant cells: I. Subcellular localization of phospholipase d in living bark tissues of the black locust tree (robinia pseudoacacia L.)

The subcellular localization of phospholipase D in homogenates of living bark tissues of the black locust tree (Robinia pseudoacacia L.) was examined and found in both soluble and particulate fractions. At least some of the soluble enzyme was considered to be compartmentalized in vacuoles. Considerable amounts of phospholipase D seemed to be tightly bound on several membranes such as endoplasmic reticulum, tonoplast, and a membrane associated with potassium-stimulated ATPase (pH 6.1). The mitochondrial fraction banding at the 40 to 43% (w/w) sucrose layer, however, had the lowest specific activity. The soluble and the particulate phospholipase D were considered to be similar in nature. It is possible that the particulate enzyme, as a part, may be derived from the coexisting nonvesiculated materials visualized in the electron micrograph of each membrane fraction. An involvement of the soluble or the presumed membrane-bound phospholipase D in phospholipid degradation in vivo during freezing at sublethal temperatures was discussed with special reference to freezing injury of plant cells.