Kinetics of prolyl hydroxylation,intracellular transport and C-terminal processing of the tobacco vacuolar chitinase

The dynamics of intracellular transport and processing of one of the vacuolar chitinases of tobacco (Nic-otiana tabacum L.), chitinase A (CHN A; EC 3.2.1.14), was investigated with pulse-chase experiments in conjunction with cell fractionation and immunoprecipitation. Mature CHN A is composed of two domains, the N-terminal cysteine-rich chitin-binding domain and the catalytic domain, linked by a short peptide spacer containing several hydroxyprolines. It is synthetized as a preproprotein with a signal peptide for cotranslational transport into the endoplasmic reticulum (ER) and a C-terminal, vacuolar targeting peptide (VTP) required for targeting to the vacuole, which is removed by proteolytic cleavage. We investigated transformed N. sylvestris plants constitutively expressing CHN A or a mutant CHN A lacking the chitin-binding domain and spacer (CS CHN A), as well as N. plumbaginifolia protoplasts transiently expressing the same constructs. Processing and transport in the two systems was very similar. A shift in the apparent molecular weight of chitinase, indicative of prolyl hydroxylation, was detectable only 30 min after appearance of newly synthesized prochitinase, indicating that it might occur in a post-ER compartment. In total, labelled chitinase was detected in the microsomal fraction for up to 90–120 min as a prochitinase, bearing the VTP. Later, it appeared only in the soluble fraction (comprising the vacuolar sap) as the mature CHN A without the VTP. In both systems, intracellular transport and processing of CS CHN A was faster than that of the wildtype form, indicating that correct folding of the cysteine-rich chitin-binding domain and/or prolyl hydroxylation of the spacer delays transport to the vacuole.Abbbreviations CBD chitin-binding domain - CHN A chitinase A - PBS phosphate-buffered saline - S proline-rich spacer - VTP vacuolar targeting peptide - CS deletion of CBD and S; - VTP deletion of VTP We thank M. Müller and T. Hohn, Friedrich Miescher-Institute, Basel, for the preparation of the protoplasts and F. Fischer, Friedrich Miescher-Institute, Basel, for the synthesis of the peptide. This work was supported by the Swiss National Science Foundation, Grants 31-26402.89 and 3100-037434.93.     

The protein-body proteins phytohemagglutinin and tonoplast intrinsic protein are targeted to vacuoles in leaves of transgenic tobacco

To demonstrate the relationship between protein-bodies in seeds and vacuoles in other tissues, we expressed the coding sequences of two bean (Phaseolus vulgaris L.) protein-body proteins in tobacco (Nicotiana tabacum L.). We chose phytohemagglutinin-L (PHA-L) and tonoplast intrinsic protein (TIP) as representatives of the protein-body contents and protein-body membrane, respectively. The location of the two proteins in the leaves of transgenic tobacco was examined by immunocytochemistry and in preparations of isolated vacuoles. Tonoplast intrinsic protein accumulates primarily in tonoplasts in tobacco leaves, whereas PHA is found exclusively in the vacuolar sap, showing that the signals that target proteins to protein-bodies and their limiting membranes in seeds are correctly recognized in leaves. This observation provides further evidence that proteinbodies of dicotyledonous seeds should be considered as protein-storage vacuoles.Abbreviations TIP tonoplast intrinsic protein - PHA phytohemagglutinin - SDS-PAGE sodium dodecyl sulfate-polyacrylamide gel electrophoresis This work has been supported by a grant from the U.S. Department of Agriculture Competitive Research Grants Office to Maarten J. Chrispeels. Herman Höfte is a recipient of a Postdoctoral Fellow-ship from the European Molecular Biology Organization. Craig Dickinson is a recipient of a National Institutes of Health Postdoctoral Fellowship. Loîc Faye was on leave from the Centre National de la Recherche Scientifique, UA203, Université de Rouen, Mont Saint Aignan France and supported by a cooperative CNRS — National S cience Foundation grant. The mention of vendor or product in this paper does not imply that they are endorsed or recommended by the U.S. Department of Agriculture over vendors of similar products not mentioned. We thank Jürgen Denecke for providing plasmid pDE1001, Antje von Schaewen for the plant expression cassette and Marie-Theres Hauser for the modified vacuole preparation protocol.     

Ultraviolet light and ozone stimulate accumulation of salicylic acid,pathogenesis-related proteins and virus resistance in tobacco

In tobacco (Nicotiana tabacum L. cv. Xanthinc), salicylic acid (SA) levels increase in leaves inoculated by necrotizing pathogens and in healthy leaves located above the inoculated site. Systemic SA increase may trigger disease resistance and synthesis of pathogenesis-related proteins (PR proteins). Here we report that ultraviolet (UV)-C light or ozone induced biochemical responses similar to those induced by necrotizing pathogens. Exposure of leaves to UV-C light or ozone resulted in a transient ninefold increase in SA compared to controls. In addition, in UV-light-irradiated plants, SA increased nearly fourfold to 0.77 g·g^–1 fresh weight in leaves that were shielded from UV light. Increased SA levels were accompanied by accumulation of an SA conjugate and by an increase in the activity of benzoic acid 2-hydroxylase which catalyzes SA biosynthesis. In irradiated and in unirradiated leaves of plants treated with UV light, as well as in plants fumigated with ozone, PR proteins 1a and 1b accumulated. This was paralleled by the appearance of induced resistance to a subsequent challenge with tobacco mosaic virus. The results suggest that UV light, ozone fumigation and tobacco mosaic virus can activate a common signal-transduction pathway that leads to SA and PR-protein accumulation and increased disease resistance.Abbreviations PR protein pathogenesis-related protein - SA salicylic acid - TMV tobacco mosaic virus - UV ultraviolet This work was financed by grants from the U.S. Department of Agriculture (Competitive Research Grants Office), Division of Energy Biosciences of U.S. Department of Energy, the Rockefeller Foundation, the New Jersey Commission for Science and Technology, and the New Jersey Agricultural Experiment Station.     

The vacuolar localization of basic isoperoxidases in grapevine suspension cell cultures and its significance in indole-3-acetic acid catabolism

The study of the subcellular localization of the basic isoperoxidases in grapevines was carried out by using cells cultured in suspension as a model system. Results from subcellular fractionation, isoenzyme analysis, enzyme binding and cytochemical probes suggest that basic isoperoxidases are localized mainly in the vacuolar sap of the suspension cultured cells, probably in equilibrium with a pool of the same basic isoperoxidases bound to the internal face of tonoplast membranes through a Ca²⁺-saline bridge. This vacuolar location of basic isoperoxidases raised the question of their function, since indole-3-acetic acid (IAA) oxidase activity of these isoperoxidases is almost totally inhibited by vacuolar anthocyanins in the in vivo concentration range of these compounds. Thus, a central role is proposed for these isoenzymes in the H₂O₂-dependent oxidative phenol metabolism which occurs in grapevines, discarding therefore a possible role of these isoperoxidases in the control of IAA levels during the later stages of development of anthocyanin-rich grapes.     

Apoptotic cell death in suspension cultures of Taxus cuspidata co-treated with salicylic acid and hydrogen peroxide

Apoptotic cell death in suspension cultures of Taxus cuspidata induced by exogenous salicylic acid and/or H₂O₂ was investigated. H₂O₂ (0.012% v/v) alone changed the permeability of cell membrane while salicylic acid (0.375 mM) not only altered the permeability but also caused nuclei condensation and a small amount of nuclei fragments. The combined use of salicylic acid (0.375 mM) and H₂O₂ (0.012% v/v) changed the cell membrane permeability more significantly and nuclei fragments occurred in ca. 30% of the cells at 48 h. DNA ladders of 180 bp and oligopolymers, characteristics of the apoptotic cleavage of nuclei DNA, were observed by agar electrophoresis. These results show that exogenous salicylic acid and H2O2 could synergistically induce the apoptotic cell death of suspension cultures of Taxus cuspidata.     

Role of vacuolar transporter proteins in plant secondary metabolism: Catharanthus roseus cell culture

Here the current status of knowledge on some well-characterized transporters located in the vacuolar membrane is reviewed. As different cellular compartments and even different cells may be involved in certain steps of a biosynthetic pathway, the regulation of the flux is not only dependent on structural genes encoding enzymes catabolizing certain steps but also transport has a major regulatory function. The aim of the present review is to give an overview of the present knowledge of transport of secondary metabolites in plants, and to use this information in the context of our knowledge about Catharanthus roseus alkaloid biosynthesis. This should lead to further insight in the possible role of various transporters in the regulation of the biosynthesis of these alkaloids.     

Effect of yeast elicitor and salicylic acid on the fluctuation of phytohormone contents in Ti-transformed Salvia miltiorrhiza cell cultures

When Ti transformed Salvia miltiorrhiza cells werecultured in a MS-NH₄ medium (MS without ammonium nitrate, containing30 g/L sucrose) at 25 °C in darkness for 18d, the total tanshinone (cryptotanshinone and tashinone IIA)contents in cultures were 12.23 mg/L and 15.07 mg/Lfor yeast elicitor (4 g/L), and yeast elicitor plus 200mol/L salicylic acid (SA) treated cultures, respectively,whereas only trace amounts of tanshinone were detected in the control or SAtreated cells. To explore the hormonal background concerning these phenomena,endogenous phytohormones were determined using ELISA kits. We found that ABA andiPAs contents in yeast elicitor plus SA treated cell cultures were increased 2.8to 9.8-fold and 3.6 to 5.8-fold respectively, while contents of GA₁and IAA were decreased by 13.2%–56.9% and 34.8%–74.6% respectively.This suggests that higher levels of ABA and iPAs combined with lower levels ofGA₁ and IAA inhibit the growth of cells, then probably stimulate thetanshinone production.     

Reconstitution of the tonoplast amino-acid carrier into liposomes

The tonoplast amino-acid transporter of barley (Hordeum vulgare L.) mesophyll cells was functionally reconstituted by incorporating solubilized tonoplast membranes, vacuoplast membranes or tonoplast-enriched microsomal vesicles into phosphatidylcholine liposomes. (i) Time-, concentration- and ATP-dependence of amino-acid uptake were similar to results with isolated vacuoles. Although the orientation of incorporation could not be controlled, the results indicate that the transporter functions as a uniport system which allows regulated equilibration by diffusion between the cytosolic and vacuolar amino-acid pools. (ii) The ATP-modulated amino-acid carrier was also successfully reconstituted from barley epidermal protoplasts and Valerianella or Tulipa vacuoplasts, indicating its general occurrence. (iii) Fractionation of solubilized tonoplasts by size-exclusion chromatography followed by reconstitution of the fractions for glutamine transport gave two activity peaks: the first eluted in the region of high-molecular-mass vesicles and the second at a size of 300 kDa for the Triton-protein micelle.Abbreviation SDS-PAGE sodium dodecyl sulfate-polyacryl-amide gel electrophoresis This work was part of our research efforts within the Sonderforschungsbereich 176 of the University. We gratefully acknowledge experimental support by Marion Betz and valuable discussions with Professors U. Heber and U.-I. Flügge and Dr. Armin Gross (University of Würzburg) and Dr. E. Martinoia (ETH, Zürich, Switzerland).     

Some characteristics of anion transport at the tonoplast of oat roots,determined from the effects of anions on pyrophosphatedependent proton transport

The effects of anions on inorganicpyrophosphate-dependent H⁺-transport in isolated tonoplast vesicles from oat (Avena sativa L.) roots were determined. Both fluorescent and radioactive probes were used to measure formation of pH gradients and membrane potential in the vesicles. Pyrophosphate hydrolysis by the H⁺-translocating pyrophosphatase was unaffected by anions. Nonetheless, some anions (Cl^-, Br^- and NO₃-) stimulated H⁺-transport while others (malate, and iminodiacetate) did not. These differential effects were abolished when the membrane potential was clamped at zero mV using potassium and valinomycin. Stimulation of H⁺-transport by Cl^- showed saturation kinetics whereas that by NO₃- consisted of both a saturable component and a linear phase. For Cl^- and NO₃-, the saturable phase had a K _m of about 2 mol·m^-3. The anions that stimulated H⁺-transport also dissipated the membrane potential (.) generated by the pyrophosphatase. It is suggested that the stimulatory anions cross the tonoplast in response to the positive generated by the pyrophosphatase, causing dissipation of and stimulation of pH, as expected by the chemiosmotic hypothesis. The work is discussed in relation to recent studies of the effects of anions on ATP-dependent H⁺-transport at the tonoplast, and its relevance to anion accumulation in the vacuole in vivo is considered.Abbreviations and symools BTP 1,3-bis[tris(hydroxymethyl)-methylamino]-propane - EGTA ethylene glycol-bis(-aminoethyl ether)-N,N,N,N-tetraacetic acid - Hepes 4-(2-hydroxyethyl)-1-piperazine ethanesulphonic acid - IDA iminodiacetate - membrane potential - pH pH gradient - PPase inorganic pyrophosphatase - PPi morganic pyrophosphate     

Salicylic acid enhances the activity of the alternative pathway of respiration in tobacco leaves and induces thermogenicity

A rise in the level of endogenous salicylic acid (SA) during flowering of the thermogenic voodoo lily, Sauromatum guttatum, leads to a pronounced temperature elevation by stimulation of the alternative respiratory pathway. We have studied the thermal response of tobacco (Nicotiana tabacum L.) leaves, a non-thermogenic tissue, to exogenous SA, and its relation to alternative respiration. A reproducible increase in surface temperature of 0.5–1.0°C was registered with high-resolution infrared cameras. The same phenomenon was observed when 2,6-dihydroxybenzoic acid, an active analogue of SA, was used. Non-active SA analogues, such as 3- and 4-hydroxybenzoic acid, did not induce thermogenicity. The thermal effect of SA was abolished with inhibitors of the alternative pathway, such as salicylhydroxamic acid and propyl gallate. Polarographic measurement of the respiratory activity, including that of the alternative pathway in SA-treated plants, showed a significant increase of both total respiration and the alternative pathway compared with non-treated controls. Therefore, we postulate that, as in thermogenic species, SA enhances the activity of total respiration and of the cyanide-resistant pathway in tobacco leaves, subsequently leading to an elevation in surface temperature.     

Isolation of abscisic acid-resistant variants from tobacco cell cultures

Variant clones were isolated from Nicotiana silvestris Speg. et Comes cell cultures at low frequencies following severe abscisic-acid (ABA) or mannitol-induced water-stress treatments of plated cells. N. tabacum L. variants were not recovered. Variants from the ABA selection experiments exhibited a 10-fold increase in resistance to the hormone. This trait was stable in non-selective conditions for as long as was tested (200 days), but did not alter the response of the cells to water stress. Cell lines from the waterstress selection were not more resistant to mannitol than the parent line, and had a wide range of response to ABA.     

Accumulation of chlorogenic acid in cell suspension cultures of Eucommia ulmoides

Suspension cultures of Eucommia ulmoides were developed and shown to accumulate chlorogenic acid. MS medium plus 2.0 mg l^–1 2,4-dichlorophenoxy acetic acid was used for the cell suspension cultures of Eucommia ulmoides. The chlorogenic acid content of suspension cells was analyzed by capillary electrophoresis, and the mean content was 2.15%, approximate to that of Eucommia ulmoides leaves.     

Ca2+ effects on glucose transport and fatty acid oxidation in L6 skeletal muscle cell cultures

We examined the effect of Ca²⁺ on skeletal muscle glucose transport and fatty acid oxidation using L6 cell cultures. Ca²⁺ stimulation of glucose transport is controversial. We found that caffeine (a Ca²⁺ secretagogue) stimulation of glucose transport was only evident in a two-part incubation protocol (“post-incubation”). Caffeine was present in the first incubation, the media removed, and labeled glucose added for the second. Caffeine elicited a rise in Ca²⁺ in the first incubation that was dissipated by the second. This post-incubation procedure was insensitive to glucose concentrations in the first incubation. With a single, direct incubation system (all components present together) caffeine caused a slight inhibition of glucose transport. This was likely due to caffeine induced inhibition of phosphatidylinositol 3-kinase (PI3K), since nanomolar concentrations of wortmannin, a selective PI3K inhibitor, also inhibited glucose transport, and previous investigators have also found this action.We did find a Ca²⁺ stimulation (using either caffeine or ionomycin) of fatty acid oxidation. This was observed in the absence (but not the presence) of added glucose. We conclude that Ca²⁺ stimulates fatty acid oxidation at a mitochondrial site, secondary to malonyl CoA inhibition (represented by the presence of glucose in our experiments). In summary, the experiments resolve a controversy on Ca²⁺ stimulation of glucose transport by skeletal muscle, introduce an important experimental consideration for the measurement of glucose transport, and uncover a new site of action for Ca²⁺ stimulation of fatty acid oxidation.     

The function of tonoplast ATPase in intact vacuoles of red beet is governed by direct and indirect ion effects

The pH gradient and the electric potential across the tonoplast in mechanically isolated beetroot vacuoles has been studied by following the uptake of [¹⁴C]methylamine and [¹⁴C]triphenyl-methylphosphoniumchloride. In response to Mg-ATP, the vacuolar interior is acidified by 0.8 units. This strong acidification is accompanied by a slight hyperpolarization of the membrane potential, which is probably caused by a proton diffusion potential. In preparations where only a small acidification (0.4 units) occurred, the membrane potential was depolarized by the addition of Mg-ATP. Different monovalent cations and anions were tested concerning their effect on the pH gradient and ATPase activity in proton-conducting tonoplasts. Chloride stimulation and NO ₃ ^- inhibition were clearly present. The observed decline of the pH gradient upon the addition of Na⁺ salts is probably caused by an Na⁺/H⁺ antiport system.Abbreviations and symbol CCCP carbonylcyanide-m-chlorophenylhydrazone - Mes 2(N-morpholino)ethanesulfonic acid - TPMP⁺ triphenylmethylphosphoniumchloride - Tris 2-amino-2-(hydroxymethyl)-1,3-propanediol - membrane potential Dedicated to Professor A. Betz on the occasion of his 65th birthday     

Interaction of sulfate and glutathione transport in cultured tobacco cells

Photoheterotrophic and heterotrophic suspension cultures of tobacco (Nicotiana tabacum L.) were grown with 1 mM glutathione (reduced; GSH) as sole source of sulfur. Addition of sulfate to both cultures did not alter the rate of exponential growth, but affected the removal of GSH and sulfate in different ways. In photoheterotrophic suspensions, addition of sulfate caused a decline in the net uptake of GSH, whereas sulfate was taken up by the green cells immediately. In heterotrophic suspensions, however, addition of sulfate did not affect the net uptake of GSH and sulfate was only taken up by the cells after the GSH supply in the medium had been exhausted. Apparently, GSH uptake in photoheterotrophic cells is inhibited by sulfate, whereas sulfate uptake is inhibited by GSH in heterotrophic cells. The differences in the effect of GSH on sulfate uptake in photoheterotrophic and heterotrophic tobacco suspensions cannot be attributed to differences in the kinetic properties of sulfate carriers. In short-time transport experiments, both cultures took up sulfate almost entirely by an active-transport system as shown by experiments with metabolic inhibitors; sulfate transport of both cultures obeyed monophasic Michaelis-Menten kinetics with similar app. K_m (photoheterotrophic cells: 16.0±2.0 M; heterotrophic cells: 11.8±1.8 M) and V_max (photoheterotrophic cells: 323±50 nmol·min^-1·g^-1 dry weight; heterotrophic cells: 233±3 nmol·min^-1·g^-1 dry weight). Temperature- and pH-dependence of sulfate transport showed almost identical patterns. However, the cultures exhibited remarkable differences in the inhibition of sulfur influx by GSH in short-time transport experiments. Whereas 1 mM GSH inhibited sulfate transport into heterotrophic tobacco cells completely, sulfate transport into photoheterotrophic cells proceeded at more than two-thirds of its maximum velocity at this GSH concentration. The mode of action of GSH on sulfate transport in chloroplast-free tobacco cell does not appear to be direct: a 14-h exposure to 1 mM GSH was found to be necessary to completely block sulfate transport; a 4-h time of exposure did not affect this process. Consequently, glutathione does not seem to be a product of sulfur metabolism acting on sulfate-carrier entities by negative feedback control. When transferred to the whole plant, the observed differences in sulfate and glutathione influx into green and chloroplast-free cells may be interpreted as a regulatory device to prevent the uptake of excess sulfate by plants.Abbreviations DCCD N,N-dicyclohexylcarbodiimide - DNP dinitrophenol - DW dry weight - FW fresh weight - GSH reduced glutathione     

Incorporation of phytol precursors into chlorophylls of tobacco cell cultures

The incorporation of [1-³H] geranylgeranyl diphosphate (GGPP), [1-³H] geranylgeranyl monophosphate (GGMP) and [U-¹⁴C] phytyl diphosphate (PhPP) into chlorophylls a and b in growing tobacco cell cultures was investigated. The substrates were effectively incorporated into chlorophylls a and b, 3.2% of the total activity of applied GGPP or GGMP and 12.4% of the total activity of applied PhPP being found in chlorophylls a and b after 24 h incubation. The radioactivity was found in phytyl chlorophyllide through-out which means effective hydrogenation of the alcohol moiety in the case of GGPP and GGMP. With increasing substrate concentration, the specific radioactivity of chlorophyll increased up to a saturation level which was reached either at 20–40 M PhPP or at 60 M GGPP and GGMP. The specific radioactivity of the chlorophyll formed during the 24-h incubation period was the same as that of the applied substrate at saturating substrate concentration. The specific radioactivity of chlorophyll a was higher than that of chlorophyll b only in the case of PhPP.Abbreviations Chlide chlorophyllide a - Chl_Ph phytyl chloro-phyllide - Chl_GG geranylgeranyl chlorophyllide a - GGPP geranylgeranyl diphosphate - GGMP geranylgeranyl monophosphate - HPLC high-performance liquid chromatography - PhPP phytyl diphosphate Dedicated to Professor Dr. Hubert Ziegler on the occasion of his 60th birthday     

Influence of exogenous salicylic acid on flavonolignans and lipoxygenase activity in the hairy root cultures of Silybum marianum

Silymarin is one of the most potent antioxidant so far developed from plant sources used as hepatoprotectants. Influence of different concentrations (0, 1, 2, 4, 6 and 8 mg/50 ml culture) and exposure time (24, 48, 72, 96 and 120 h) of salicylic acid on lipoxygenase activity, linoleic acid content, growth and production of silymarin in hairy root cultures of S. marianum were investigated. Detection and identification of flavonolignans was carried out by high performance liquid chromatograph method. Salicylic acid enhanced silymarin production (1.89 mg g⁻¹ DW). The optimal feeding condition was the addition of salicylic acid (6 mg/50 ml culture) after 24 h in which the silymarin content was 2.42 times higher than the control (0.78 mg g⁻¹ DW). The content of silybin, isosilybin, silychristin, silydianin and taxifolin were 0.703, 0.017, 0.289, 0.02 and 0.863 mg g⁻¹ DW respectively in these samples, while in non-treated hairy roots were 0.027, 0.046, 0.23, 0.022 and 0.453 respectively. Lipoxygenase activity also affected by elicitation. lipoxygenase activity increased 24 h after treatment by ∼1.57- fold (0.21 Δ OD₂₃₄/mg protein min⁻¹). Upon elicitation with salicylic acid, linoleic acid content of hairy roots (38.26 mg g⁻¹ DW) were also elevated after 24 h, in which the linoleic acid content was 2.37 times higher than the control (16.1 mg g⁻¹ DW). It is feasible that elicitation with salicylic acid regulates the jasmonate pathway, which in turn mediates the elicitor-induced accumulation of silymarin.     

The cantharidin-induced oxidative burst in tobacco BY-2 cell suspension cultures

Summary The in vivo induction of H₂O₂ production was tested on tobacco cell suspension cultures (Nicotiana tabacum cv. Bright Yellow-2). The measurement of H₂O₂ was based on the oxidation of 3,5-dichloro-2-hydroxybenzensulfonic acid by endogenous peroxidases and spectrophotometric detection after reaction with 4-aminoanti-pyrine. The phosphatase inhibitor cantharidin induced a transient increase in H₂O₂ synthesis. The timing of the H₂O₂ production, the level of induction by cantharidin and the background H₂O₂ production were dependent on the tobacco cell concentration used. A concentration curve of cantharidin revealed saturating kinetics for the H₂O₂ detection (E₅₀=46 to 70 M, E_max=101 to 128 mol/h·g fresh weight). An inhibitor study with the tobacco BY-2 cells showed high inhibitions of the H₂O₂ induction with the flavin analogues diphenylene iodonium (I₅₀=1.26M) and acridine orange and with membrane-permeative thiol reagents (N-ethyl maleimide, N-pyrene maleimide, iodoacetate); whereas the nonpermeative thiol reagentp-chloromercuribenzoic acid was ineffective. Therefore, the induction of H₂O₂ production with phosphatase inhibitors (cantharidin) showed comparable properties to the elicitor-induced oxidative-burst response in other plant cells.Abbreviations AcOr acridine orange - AOS active-oxygen species - BY-2 Bright Yellow-2 - pCMBS p-chloromercuribenzoic acid - DHBS 3,5-dichloro-2-hydroxybenzenesulfonic acid - DMSO dimethylsulfoxide - DPI diphenylene iodonium - EtOH ethanol - H₂O₂ hydrogen peroxide - HRP horseradish peroxidase - MS Murashige and Skoog - NEM N-ethyl maleimide - NPM N-pyrene maleimide - O ₂ ^– superoxide - SOD superoxide dismutase