Surface Charge Density Estimation of Vigna mungo Protoplasts Using a Fluorescent Dye, 9-Aminoacridine

We showed that the surface charge density of protoplasts canbe estimated by the 9-aminoacridine method. The estimated surfacecharge density of the protoplasts isolated from elongating regionsof Vigna mungo root was – 39 ? 8 mC/m². The negative surfacecharge density increased when protoplasts were treated withglutaraldehyde or when EDTA was added to the protoplast suspensionmedium. These results support the validity of our estimationof the surface charge density of protoplasts by the 9-aminoacridinemethod. The concentration of amino groups at the surface ofthe protoplasts was estimated to be 34 mC/m². (Received June 19, 1987; Accepted April 11, 1988)     

Ferricyanide Reduction by Guard Cell Protoplasts

Guard cell protoplasts of Commelina communis L. reduced exogenousferricyanide at pH values lower than 5?0; upon addition of NADH,reduction of ferricyanide by guard cell protoplasts was stimulatedover the pH range 4?0 to 9?0 with two peaks of activity at pH5?0 and between pH 8?0 and pH 9?0. Calcium chloride (1?0 molm^–3) and MgCl2 (1?0 mol m^–3) increased the NADH-stimulatedreduction of ferricyanide. Superoxide dismutase and cyanidehad little effect on the NADH-stimulated reduction of ferricyanideby guard cell protoplasts, but, salicylhydroxamic acid completelyinhibited this activity. The NADH-stimulated reduction of ferricyanidealso occurred in the cell-free supernatant. Horseradish peroxidasedid not reduce ferricyanide in the absence of NADH over a broadrange of pH (4?0 to 9?0). However, in the presence of NADH,horseradish peroxidase reduced ferricyanide over the pH range5?0 to 9?0 with maximal activity at pH 8?0. The NADH-stimulatedreduction of ferricyanide by horseradish peroxidase showed similarproperties to those observed with guard cell protoplasts. Mannitol,superoxide dismutase, and cyanide did not inhibit the NADH-stimulatedreduction of ferricyanide by horseradish peroxidase; SHAM, however,completely inhibited the reduction of ferricyanide by horseradishperoxidase. Catalase inhibited the NADH-stimulated reductionof ferricyanide by horseradish peroxidase by 20%, while absenceof oxygen in the assay medium stimulated this activity over60%. We propose that the reduction of ferricyanide in the presenceof NADH by guard cell protoplasts, can be explained in termsof peroxidase activity associated with the plasma membrane andsecreted to the extracellular medium. However, the capacityof guard cell protoplasts to reduce ferricyanide at acid pHvalues where little peroxidase activity occurs may indicatethe presence of a plasma membrane redox system in guard cellsof C. communis. Key words: Commelina, guard cell protoplasts, ferricyanide reduction, peroxidase, redox system     

Effect of Phytolectins on Isolated Protoplasts from Plants

The effects of three phytolectins on isolated plant protoplastshave been examined. It was found that concanavalin A, phytohemagglutininand wheat germ agglutinin were all capable of agglutinatingprotoplasts isolated from a variety of plant species. The incorporationof ³H-uridine, ³H-thymidine and ¹⁴C-leucine into RNA, DNA andprotein respectively was also stimulated by the three lectinsin isolated protoplasts. Treatment with -methyl-D-mannosideabolished both the agglutinating and incorporation enhancingeffects of concanavalin A (Con A) on barley protoplasts. Protoplastswith a regenerated cell wall also failed to respond to lectintreatment. These results suggest that lectin-binding to theprotoplast membrane surface is required before either agglutinationor metabolic stimulation will result. isolated protoplasts, agglutination, lectins     

Ti Plasmid Homologous Sequences Present in Tissues from Agrobacterium Plasmid-transformed Petunia Protoplasts

Suspension cell protoplasts of albino Petunia hybrida have beentransformed by isolated Agrobacterium tumefaciens Ti plasmid.Uptake of octopine Ti plasmid (pTiACH5) into protoplasts wasstimulated by poly-L-ornithine and polyethylene glycol (PEG).The frequency and efficiency of transformation of protoplaststo phytohormone autotrophy was compared using the two uptakeagents with various concentrations of plasmid. Transformationwas most efficient with PEG-mediated uptake, 5 µg of Tiplasmid per 10⁶ protoplasts giving a frequency of 6?10^–5.Octopine was not synthesised in any of the transformants afterthe second subculture on hormone-free medium. DNA-DNA hybridisationshowed the presence of DNA homologous to the T-DNA region ofpTiACH5 in all clones analysed. (Received November 9, 1981; Accepted January 29, 1982)     

Quantification of mRNA in Chloroplasts of Chlamydomonas reinhardii: Equal Distribution of mRNA for a Soluble and a Membrane Polypeptide in Stroma and Thylakoids

The relative contents of the mRNAs were analyzed for the 32kDa herbicide-binding protein and for the large subunit of ribulose-l,5-bisphosphatecarboxylase in the membrane fraction and in the soluble fractionof chloroplasts from Chlamydomonas reinhardii. The presenceof mRNA for the two proteins in both subchloroplast fractionswas demonstrated by in vitro translation of isolated RNA inthe reticulocyte lysate. The relative amounts of the two mRNAswere measured by hybridizations with cloned chloroplast DNAprobes at two stages of the cell cycle. Both mRNAs were distributedin the same ratio between membrane and soluble fractions, about75% of both mRNAs being in the membrane and 25% in the solublefraction. Therefore, in chloroplasts the accumulation of mRNAson thylakoid membranes does not reflect the final localizationof soluble and membrane proteins. ¹Present address: Department of Biology, Ben Gurion University,Beer-Sheva, Israel. (Received April 28, 1987; Accepted September 29, 1987)     

Intracellular Localization of 3H-IAA in the Apical Bud of Lycopersicon esculentum

Driss-Ecole, D. and Perbal, G. 1987. Intracellular localizationof ³H-IAA in the apical bud of Lycopersicon esculentum.—J.exp. Bot. 38: 1362–1372. High resolution autoradiography of ³H-IAA was performed on ultra-thinsections of the apical bud of Lycopersicon esculentum treatedby DCC or glutaraldehyde. A quantitative study of the localizationof the labelling in the compartments (cell wall, cytoplasm,vacuoles and nucleus) of four types of cells (cells of the lateralzone of the apex, cells of the pith meristem, proximal and distalcells of the upper part of the pith) was made. The statisticalanalysis of the results has proved that the variability of thelabelling of the cell compartments in the four cell types wassimilar after treatment by DCC or glutaraldehyde. The densityof labelling is higher in each compartment of the meristematiccells compared with those of the differentiating cells. Thecells of the pith meristem can be distinguished from the meristematiccells of the lateral zone of the apex by a greater density oflabelling in the cytoplasm and the nucleus. These two cellulartypes contain a high density of radioactivity in vacuoles. Byconsidering the percentage of labelling of each compartmentrelative to the total labelling in the cell, it can be shownthat the meristematic cells are characterized by a high percentagein the nucleus whereas the vacuoles of the differentiating cellscontain the highest percentage of radioactivity. Key words: ³H-IAA, tomato shoot     

Subcellular Localization of Sorbitol-6-phosphate Dehydrogenase in Protoplast from Apple Cotyledons

The subcellular localization of sorbitol-6-phosphate (S6P) dehydrogenasein protoplasts of apple cotyledons was examined by differentialcentrifugation and linear sucrose density gradient centrifugation(30–60%, w/w). The distribution of S6P dehydrogenase activitywas 55% in the 500 x g pellet of the homogenate and 35% in thesupernatant of 105,000 x g. When the x g pellet was recentrifugedin a linear sucrose density gradient, one major peak of activitywas found at a density of 1.23. This peak coincided with themajor peak of chlorophyll and NADP⁺-triose-P dehydrogenase activity.When the 500 x g pellet was sonicated, the major peak of S6Pdehydrogenase activity shifted to a lighter density (d=1.18).The shifted peak also coincided with the peak of chlorophyll.The enzyme detected in the major peak of chlorophyll (d=1.23)was partially solubilized by sonic or detergent treatment, butnot by hypotonic solution. The results supported the localizationof S6P dehydrogenase in chloroplasts, and presumably their associationwith thylakoid membranes. Part of the enzyme was assumed tobe naturally present in the cytosol, too. (Received November 4, 1980; Accepted January 21, 1981)     

Isoforms of NADP-dependent Malic Enzyme in Tissues of the Greening Maize Leaf

Scagliarini, S., Pupillo, P. and Valenti, V. 1988. Isoformsof NADP-dependent malic enzyme in tissues of the greening maizeleaf.—J. exp. Bot. 39: 1109–1119. The compartmentation of the isoforms of NADP-dependent malicenzyme (E.C. 1.1.1.40 [EC] ) has been studied in cell-free extractsand in enzymatically-isolated protoplasts of mesophyll tissue(MT) and bundle sheath (BS) strands of greening maize leaves.The etiolated leaf of 10-d-old seedlings contains a cytosolicisozyme with a pl of 5.4 ?0.1 at low specific activity (s.a,45 ? 3 nmol min^–1 mg^–1 protein), found both in MTand BS. The green leaf on the other hand contains the dominantBS chloroplast isozyme with pl 4.6 ? 0.2 at a s.a, of 370 ?40 nmol min^–1 mg^–1 protein (3.2 ? 0.5 µmolmin^–1 mg^–1 chl) and a minor, previously undescribedisoform with pl 6.5 ? 0.1 also localized in the BS at a s.a.of 38 ? 6 nmol min^–1 mg^–1 protein. Green MT protoplastshave only traces of pl 4.6 isozyme. After illumination of dark-grown seedlings, the total leaf activityshows a rapid increase (1.5-fold within 2 h), attributed mainlyto the pl 5.4 isozyme of MT protoplasts and BS strands. Thisis followed by a large increase of enzyme activity due to thecontinued rise of pl 5.4 isozyme for about 24 h and, after aninitial lag of a few hours, to the accumulation of pl 4.6 isozyme.After 18 h illumination, pl 4.6 and 5.4 isozyme activities tendto decline in the MT whereas they are still increasing in theBS, particularly the former. This pl 4.6 species has becomethe major one by 48 h illumination. The final pattern of greenleaves is established around 96 h light, when the chloroplastisozyme has attained its maximum level, the pl 5.4 isozyme ofBS strands has been superceded by the pl 6.5 species (also supposedto be cytosolic) and MT protoplasts retain little residual activity.Some metabolic implications of the changing pattern of NADP-dependentmalic isozymes during maize leaf greening are discussed. Key words: C₄, isozymes, malic enzyme, photodifferentiation, Zea mays     

Macromolecular synthesis in oat leaf protoplasts

Oat mesophyll protoplasts isolated by 2 hr cellulysin treatmentof peeled young leaves incorporate tritiated leucine, uridineand thymidine into trichloroacetic acidinsoluble materials.Neither the protoplast-free final supernatant liquid nor protoplastsdisrupted by rapid passagethrough the tip of a Pasteur pipetteshow any incorporation activity, while intact protoplasts incubatedin the presence of penicillin and streptomycin are active. Thus,the cycloheximide and actinomycin D inhibitable incorporationprocesses appear to represent, respectively, synthesis of proteinand nucleic acids by intact protoplasts, uncomplicated by organellaror microbial contributions. Net leucine and uridine incorporation by protoplasts continueat a steady rate for about 6 hr, dien abruptly cease, whilethymidine incorporation continues linearly for at least 21 hr.Preincubation of protoplasts in leucine-free media for severalhours diminishes the duration, but not the initial rate of incorporation.The titer of protoplasts declines progressively with increasedtime of incubation. Kinetin (10^–9 to 10^–4 M) progressively inhibitsleucine incorporation, 2,4-D at concentrations higher than 10^–7M inhibits uridine incorporation, while gibberellins, abscisicacid and ethylene are without effect on any process studied. ¹ Permanent address: Department of Fruit and Vegetable Storage,.The Volcani Institute, Bet Dagan, Israel. (Received December 24, 1976; )     

Metabolism of Pyrimidines in Protoplasts from Cultured Catharanthus roseus Cells

The metabolism of [2-¹⁴C]thymine, [2-¹⁴C]thymidine, [2-¹⁴C]uraciland [¹⁴C]uridine was investigated in protoplasts obtained fromsuspension cultures of Catharanthus roseus. Most of the exogenouslysupplied thymine, thymidine and uracil was degraded, and salvageof these pyrimidines accounted for 5–36 per cent of thetotal amount of ¹⁴C-labelled precursors which was metabolized.However, more than 80 per cent of the labelled uridine was utilizedfor the biosynthesis of nucleotides and nucleic acids, and therest was degraded. In contrast to the results from protoplastsof sugar cane cells in suspension culture, the data indicatethat protoplasts possess a pathway for the degradation of pyrimidines,and that the overall metabolism of these pyrimidines in protoplastsis very similar to the metabolism in the intact cells. Catharanthus roseus, madagascar periwinkle, protoplasts, pyrimidine metabolism     

Glucose Transport in Vitis vinifera L. Protoplasts

Transport of glucose and its analogues was studied in grapevine(Viris vinfera L. cv. Soultanina) leaf protoplasts. The transportsystem was hexose specific and the stereospecificity was closelyrelated to carbon-1 of the glucose molecule. Glucose structuralanalogues were not metabolized beyond the stage of phosphorylationand differences between these compounds and glucose were observedin their transport rates and in their specificity for the carrier.Concentration-dependent uptake of labelled glucose by grapevineprotoplasts was linear for concentrations higher than 1?5 molm^–3 at lower concentrations a saturating pattern was observed.The carrier was driven by the proton motive force and the substrateentered the cell probably in an unchanged form. Efflux studieswere not useful as an indication of the rate of metabolism orassimilation of transported compounds in grapevine protoplasts. Key words: Sugar transport, protoplasts, grapevine     

Effects of cycloheximide and kinetin pretreatments on responses of susceptible and resistant Avena leaf protoplasts to the phytotoxin victorin

Avena leaf protoplasts from varieties susceptible (cv. Park)and resistant (cv. Victory) to victorin incorporate the labelfrom ³H-L-leucine, ³H-uridine and ³H-thymidine into trichloroaceticacid-insoluble materials at comparable rates. When incubatedin the presence of the toxin, susceptible protoplasts beginto lyse after a short period of time; the effect on resistantprotoplasts is minimal. Victorin also significantly reducesincorporation of label from leucine and to a lesser extent fromuridine and thymidine into susceptible protoplasts but has anegligible effect on resistant protoplasts. Pretreatment ofsusceptible leaves with cycloheximide but not kinetin protectsagainst the subsequent action of victorin on apparent proteinsynthesis and lysis of protoplasts. ¹Permanent address: Institut National de la Recherche Agronomique,Station de Physiologie et Biochemie Végétales,"La Grande Ferrade", Centre de Recherches de Bordeaux, 33 Pont-de-la-Maye,Bordeaux, France. ²School of Forestry and Environmental Studies, Yale University. ³Supported by grant GI-32958 of the RANN program of the NationalScience Foundation to A. W. Galston. We are indebted to WhitneyAdams, jr. for expert assistance. (Received April 10, 1976; )     

A simple method for the isolation of intact mesophyll protoplasts from cereal plants

Intact mesophyll protoplasts from cereal plants were easilyprepared by incubating leaves with the abaxial epidermis peeledoff at 20–25?C for 2–3 hr in 0.6 M mannitol containing1% cellulase at pH 5.6. From one gram (fresh weight) of leaves1.5–6?10⁶ protoplasts, more than 90% of which were morphologicallyintact, could be obtained. Protoplasts isolated from wheat,oat, corn and barley were efficiently infected with brome mosaicvirus (BMV), and supported viral multiplication. (Received June 21, 1977; )     

Characterization of the vacuolar-type H+-ATPase from guard cell protoplasts of Commelina

Characteristics of the vacuolar-type (V-type) H⁺-ATPase fromguard cell protoplasts of Commelina communis L. were investigatedusing a linked enzyme assay and nitrate inhibition as a diagnosticindicator of the enzyme activity. ATPase activity was completelyinhibited by about 50 mol m^–3 nitrate and activity wasoptimal near pH 8.0. The temperature optimum for activity wasabout 37 C and an Arrhenius plot indicated changes in activationenergy for the ATPase at 15C and possibly at about 30 C. Theenzyme was stimulated by Cl^– while Ca²⁺ inhibited activity(l₅₀ = 1.5 mol m^–3). The apparent K_m (MgATP) was 0.62mol m^–3. Incubation of guard cell protoplasts for up to 5 h in 50 µMabscisic acid (ABA) or 25µM fusicoccin (FC) did not affectsubsequent ATPase activity. In vitro assays with FC or ABA alsodid not affect enzyme activity. Activity was not affected bylight or potassium ferricyanide, two factors which are knownto influence stomatal activity. Beticoline was a potent inhibitorof activity (l₅₀ = 50 µM) while DCCD was less effective(l₅₀ = 90µM). On chlorophyll, protein and protoplast bases, V-type ATPaseactivity was greater in guard cell protoplasts than mesophyllcell protoplasts by 66, 13.9 and 1.9, respectively. On atonoplast surface area basis the enzyme activity was 5.6 timeshigher in guard cell protoplasts than in mesophyll cell protoplasts Thus, although the characteristics of the V-type, H ⁺-ATPaseof GCP are very similar to those found in other cell types,rates of activity and probably tonoplast enzyme density aremuch greater in guard cell protoplasts than mesophyll cell protoplastsof C. communis which corresponds with the large and rapid ionfluxes across the tonoplast associated with stomatal movements Key words: Guard cell protoplasts, stomata, V-type H ⁺-ATPase     

The Distribution of some NADP-Linked Dehydrogenases in Photosynthetic Tissues5

Mesophyll protoplasts of one-month-old maize leaves were separatedenzymatically from bundle sheath strands, and purified by centrifugationthrough a Percoll layer. The protoplasts and BS strands wereessentially pure as judged by microscopy, chl a/b ratios, andlevels of enzyme markers (PEP carboxylase and NADP-malic enzyme).Chioroplasts were obtained from the protoplasts and from homogenates,and purified through Percoll. The distribution of four NAD P-linked dehydrogenases in tissuesand organdies was examined. NADP-triose phosphate dehydrogenasc,used as a chloroplast marker, shows high and comparable specificactivities in both main tissues. Glucose 6-phosphate dehydrogenaseis located mainly in the mesophyll (at a specific activity of15.1 µmol h^–1 mg^–1chl in protoplasts) andis exclusively cytosolic. 6-Phosphogluconate dehydrogenase,also present in both tissue types, has a higher activity inthe BS (12.6 in purified strands versus 7.3 µmol h^–1mg^–1 chl in protoplasts). It is a cytosolic enzyme, althoughplastids may contain a low activity. Glyceraldehyde 3-phosphate:NADP reductasc is entirely in the mcsophyll cytoplasm (11.2µmol h^–1 mg^–1 chl). It is suggested that thecytoplasm of mcsophyll cells is a site of diversion of sugarphosphates for production of NADPH, at rates, however, compatiblewith the operation of the triose phosphate shuttle to bundlesheath cells for the synthesis of starch. Key words: Glucose-6-phosphate dehydrogenase, 6-phosphogluconate dchydrogenase, glyceralde-hyde-3-phosphate : NADP reductase, Zea mays     

The Generation of Non-Spherical Oat Protoplasts Indicates that Hyperpolarization is both Necessary and Sufficient for Stimulating Membrane Incorporation into the Plasma Membrane

We have devised conditions which produced isolated protoplastsof non-spherical shape and which, therefore, affected the mechanismsthat control the exchange of membrane material between the plasmamembrane and an intracellular membrane reservoir. Non-sphericalprotoplasts of Avena sativa were obtained if protoplasts weretreated with hypertonic shock in the presence of 1.0 mol m^–3LaCl₃ at pH 8.3. This indicated that their ability to removeplasma membrane material via endocytotic vesiculation was suppressed.Non-spherical protoplasts were obtained under isotonic conditionsif protoplasts were incubated with 1.0 mol m^-3 LaCl₃ at pH 8.3and the proton carrier CCCP (12 mmol m^–3) was added. Thenon-spherical protoplasts had intact membranes as judged bystaining with fluorescein diacetate. The loss of the sphericalshape was reversible. On addition of EDTA protoplasts resphericulatedimmediately. Incubation in isotonic solution at pH 8.3 containingeither only 1.0 mol m^–3 LaCl₃ or only CCCP did not influencethe protoplast shape. We conclude that the membrane hyperpolarizationinduced by CCCP at high pH acted to stimulate the incorporationof membrane material into the plasma membrane and, subsequently,produced nonspherical protoplasts if the removal of membranematerial was simultaneously suppressed. This demonstrates thatmembrane incorporation and removal are two largely independentprocesses.     

Calcium-Sensitivity of Cortical Microtubules in the Green Alga Mougeotia

Membrane ghosts were prepared from protoplasts of the greenalga Mougeotia, and the Ca²⁺-sensitivity of microtubules onthe ghosts was examined. Microtubules on the protoplast ghosts were not depolymerizedby 3 min treatment with 1 mM Ca²⁺. As the treatment was prolonged,some depolymerization of microtubules became evident, but evenafter 10 min about 50% of the ghosts showed no depolymerization.Ca²⁺ introduced into intact protoplasts seemed to be ineffectivein depolymerizing microtubules; abundant microtubules were presenton membrane ghosts prepared from protoplasts which had beentreated with 2x10^–5M Ca²⁺-ionophore A23187 [GenBank] plus 1 mM Ca²⁺for 20 or 30 min. Neither 3 min treatment with 0.2% Triton X-100 nor with 1 mMCa²⁺ solution containing 5 min MgSO₄ and 100 mM KCl caused depolymerisationof microtubules on protoplast ghosts. However, when given successively,these treatments caused complete depolymerization of microtubules. These results suggest that Mougeotia microtubules are stableto Ca²⁺ and that the stability is conferred by a microtubule-associatedfactor which can easily be removed by Triton X-100 treatment. (Received July 19, 1985; Accepted October 25, 1985)     

Photosynthetic Properties of Guard Cell Protoplasts from Vicia faba L.

Guard cell protoplasts were isolated enzymatically from theepidermis of Vicia faba L. and their photosynthetic activitieswere investigated. Time courses of light-induced changes inthe chlorophyll a fluorescence intensity of these protoplastsshowed essentially the same induction kinetics as found formesophyll protoplasts of Vicia. The transient change in thefluorescence intensity was affected by DCMU, an inhibitor ofphotosystem II; by phenylmercuric acetate, an inhibitor of ferredoxinand ferredoxin NADP reductase; and by methyl viologen, an acceptorof photosystem I. Low temperature (77 K) emission spectra ofthe protoplasts had peaks at 684 and 735 nm and a shoulder near695 nm. A high O₂ uptake (175 µmol mg^–1 Chl hr^–1)was observed in guard cell protoplasts kept in darkness, whichwas inhibited by 2 mM KCN or NaN₃ by about 60%. On illumination,this O₂ uptake was partially or completely suppressed, but itssuppression was removed by DCMU, which indicates that oxygenwas evolved (150 µmol mg^–1 Chl hr^–1) photosynthetically.We concluded that both photosystems I and II function in guardcell chloroplasts and that these protoplasts have high respiratoryactivity. (Received January 30, 1982; Accepted May 15, 1982)     

Cytological studies on mitochondria-induced cytoplasmic transformation in yeasts

In Saccharomyces cerevisiae, protoplasts from respiratory-deficient(rho^–) cytoplasmic mutant cells were transformed intorespiratory-sufficient (rho⁺) cells by incubation with mitochondriaprepared from rho⁺ cells in the presence of polyethylene glycoland CaCl₂. Mitochondria prepared from different species, Hansenulawingei and Schizosaccharomyces pombe, also caused the transformationof S. cerevisiae rho^– protoplasts into the rho⁺ cellsas previously reported (14) The obtained transformants wereconfirmed to contain one nucleus and several mitochondrial DNAsby fluorescent staining of DNA. The transformants clearly restoredcytochromes a and b while untransformed recipient cells lackedthe cytochromes. In order to know the mechanism of the transformation,physiological measurement of endocytotic activity of protoplastsand cytological examination of mitochondria-protoplast aggregatesunder the transforming condition were performed. Protoplastshad significant endocytotic activity under this condition. Onthe other hand, fluorescence and electron microscopic observationsindicated that mitochondria forming aggregates with protoplastswere subsequently integrated into recipient protoplasts throughfusion rather than endocytosis. However, the possibility ofendocytosis could not be completely excluded when the low frequencyof the transformation (about 10^–6 to 10^–7) was takeninto account. This is discussed in this paper. A new convenientmethod for measuring endocytosis is also presented. (Received September 27, 1979; )