Protoplasts isolated from aleurone layers of wild oat (Avena fatua L.) exhibit the classic response to gibberellic acid

Viable, long-lived, gibberellic acid (GA₃)-responsive protoplasts have, for the first time, been isolated from aleurone layers of mature wild oat (Avena fatua L.) grain. More than 90% of the cells of aleurone layers are recovered as protoplasts, and these respond to treatment with GA₃ in essentially the same manner as the tissue from which they were derived. Protoplasts become vacuolate during incubation in vitro and, although not dependent upon GA₃, vacuolation is markedly stimulated by the hormone. Amylase and ribonuclease (RNase) are produced and secreted only in the presence of GA₃ and only after lag periods of 3 d and 4 d respectively. The amounts of amylase produced and secreted are proportional to GA₃ concentrations as low as 1.61·10^-13 M. With increasing concentrations of mannitol in the culture medium both vacuolation and the GA₃-induced production and secretion of enzymes are inhibited progressively, the latter being precluded by 0.6 M to 0.7 M mannitol.Abbreviations GA₃ gibberellic acid₃ - RNase ribonuclease     

Gibberellic Acid Controls the Secretion of Acid Phosphatase in Aleurone Layers and Isolated Aleurone Protoplasts of Avena fatua

The role of gibberellic acid (GA₃) in controlling the secretion(across the plasma membrane) and release (through the cell wall)of acid phosphatase (E.C. 3.1.3.2 [EC] .) from Avena aleurone layershas been investigated. Evidence from this comparative studywith intact aleurone layers and isolated aleurone protoplastsreveals that the secretion of acid phosphatase is under GA₃control. The mechanism underlying secretion and release of theenzyme from aleurone cells is discussed. Key words: Avena fatua, Acid phosphatase, Aleurone protoplasts, Gibberellic acid, Secretion     

Localization of gibberellic acid-induced acid phosphatase activity in the endoplasmic reticulum of barley aleurone cells with the electron microscope

A metal-salt precipitation method with p-nitrophenyl phosphate as substrate has been used to localize in the electron microscope acid phosphatase activity in isolated aleurone layers of barley (Hordeum vulgare L.), treated for 16 h in the presence or absence of gibberellic acid (GA₃). The paper confirms results obtained earlier with an azo-dye precipitation method of enzyme localization. In addition the results show for the first time that in GA₃-treated tissue enzyme activity is associated with the endoplasmic reticulum (ER), there being reaction product deposited in the ER cisternae. It is suggested that this activity represents new enzyme synthesized on ER in response to GA₃ and probably destined for secretion.Abbreviation ER endoplasmic reticulum     

Ca-stimulated secretion of alpha-amylase during development in barley aleurone protoplasts

The effects of gibberellic acid (GA₃) and Ca²⁺ on the synthesis and secretion of α-amylase from protoplasts of barley (Hordeum vulgare L. cv Himalaya) aleurone were studied. Protoplasts undergo dramatic morphological changes whether or not the incubation medium contains GA₃, CaCl₂, or both. Incubation of protoplasts in medium containing both GA₃ and Ca²⁺, however, causes an increase in the α-amylase activity of both incubation medium and tissue extract relative to controls incubated in GA₃ or Ca²⁺ alone. Isoelectric focusing shows that adding Ca²⁺ to incubation media containing GA₃ increases the levels of α-amylase isozymes having high isoelectric points (pI). In the presence of GA₃ alone, only isozymes with low pIs accumulate. The increase in α-amylase activity in the incubation medium begins after 36 hours of incubation, and secretion is complete after about 72 hours. Protoplasts require continuous exposure to Ca²⁺ to maintain elevated levels of α-amylase release. Immunoelectrophoresis shows that Ca²⁺ stimulates the release of low-pI α-amylase isozymes by 3-fold and high-pI isozymes by 30-fold over controls incubated in GA₃ alone. Immunochemical data also show that the half-maximum concentration for this response is between 5 and 10 millimolar CaCl₂. The response is not specific for Ca²⁺ since Sr²⁺ can substitute, although less effectively than Ca²⁺. Pulse-labeling experiments show that α-amylase isozymes produced by aleurone protoplasts in response to GA₃ and Ca²⁺ are newly synthesized. The effects of Ca²⁺ on the process of enzyme synthesis and secretion is not mediated via an effect of this ion on α-amylase stability or on protoplast viability. We conclude that Ca²⁺ directly affects the process of enzyme synthesis and transport. Experiments with protoplasts also argue against the direct involvement of the cell wall in Ca²⁺-stimulated enzyme release.     

Gibberellic acid (GA3)-induced enhancement of α-amylase activity in the aleurone of Shrunken-2 maize kernels

The aleurone of RB-3 shrunken-2 (sh2) maize kernels is deficient in α-amylase activity during germination, but exogenous applications of gibberellic acid (GA₃) (0.001–10 μm ) induced low levels of activity. The highest activity was measured in the aleurone of kernels treated with 10 μm GA₃ (14,600 ± 945 units), but was lower than untreated Starchy (Su) aleurone tissues (35,280 ± 5,010 units). On isoelectric focusing gels, no α-amylase isozymes were detected in the untreated sh2 aleurone using starch zymograms or immunoblots, but the 1.0 and 10 μm mm GA₃ treatments induced nearly all the isozymes (eight to ten) present in the Su aleurone. There was a very low level of α-amylase mRNA in the untreated sh2 aleurone, an intermediate level in the 1.0 μm GA₃-treated sh2 aleurone, and the highest level in the untreated Su aleurone. On the confocal microscope, the 1.0 μm GA₃-treated aleurone cells had enhanced levels of cytoplasmic membranes and RNA compared to untreated sh2 aleurone cells. The 1.0 μm GA₃ treatment also induced shoot elongation in the sh2 seedlings. The data demonstrate that the sh2 aleurone is deficient in its function to produce α-amylases, and exogenous GA₃ can partially restore cell function in the sh2 kernels.     

Dormancy of the barley grain is correlated with gibberellic Acid responsiveness of the isolated aleurone layer

The relationship between barley grain dormancy and gibberellic acid (GA₃) responsiveness of aleurone layers has been investigated. Barley (Hordeum distichum L. cvs Triumph and Kristina) grains were matured under defined conditions in a phytotron. Grains of Triumph plants grown under long-day/warm conditions had lower dormancy levels than grains of plants grown under short-day/cool conditions. Aleurone layers isolated from grains of long-day Triumph plants secreted more α-amylase and had a higher responsiveness to GA₃ as measured by α-amylase secretion. Storage of the grains increased both the percentage of germination and the responsiveness of the aleurone to GA₃. Use of different sterilization methods to break dormancy confirmed the correlation between germination percentage and aleurone layer GA₃ responsiveness. The response of embryoless Triumph grains to GA₃ was lower than that of the isolated aleurone layers, suggesting a role of the starchy endosperm in regulating the GA₃ response of the aleurone layer. Grains of the cultivar Kristina harvested from short day- and long day-grown plants lacked dormancy, and their isolated aleurone layers had a similar responsiveness to GA₃ as measured by α-amylase secretion. The data indicate that the physiological state of the aleurone layers contributes to the percentage germination of the grains.     

Channel-mediated K+ flux in barley aleurone protoplasts

Gibberellic acid (GA₃) stimulates K⁺ efflux from the barley (Hordeum vulgare L. cv. Himalaya) aleurone. We investigated the mechanism of K⁺ flux across the plasma membrane of aleurone protoplasts using patch-clamp techniques. Potassium-ion currents, measured over the entire surface of the protoplast plasma membrane, were induced when the electrochemical gradient for K⁺ was inward (into the cytoplasm). The magnitude and voltage-dependence of this inward current were the same in protoplasts treated with GA₃ and in control protoplasts (no GA₃). Inward currents activated by negative shifts in the membrane potential (E_M) from the Nernst potential for K⁺ (E_K) showed membrane conductance to be a function of the electrochemical gradient (i.e. E_M-E_K). Single-channel influx currents of K⁺ were recorded in small patches of the plasma membrane. These channels had a single-channel conductance of 5–10 pS with 100 mM K⁺ on the inside and 10 mM K⁺ on the outside of the plasma membrane. Single-channel currents, like whole-cell currents, were the same in protoplasts treated with GA₃ and control protoplasts. Voltage-gated efflux currents were found only in protoplasts tha thad been incubated without GA₃. We conclude that K⁺ influx in the aleurone is mediated by channels and these membrane proteins are not greatly effected by GA₃.Abbreviations and symbols F_K Nernst potential for K⁺ - E_M membrane potential - E_rev reversal potential - GA₃ gibberellic acid - K_i concentration of K⁺ inside the cell - K_o concentration of K⁺ outside the cell - R gas constant - S conductance (siemens) - T temperature (^oK) - _i ionic activity coefficient for internal (cytoplasmic) solution - _o ionic activity coefficient for external medium     

Gibberellic-acid-stimulated Ca2+ accumulation in endoplasmic reticulum of barley aleurone: Ca2+ transport and steady-state levels

The steady-state levels of Ca²⁺ within the endoplasmic reticulum (ER) and the transport of ⁴⁵Ca²⁺ into isolated ER of barley (Hordeum vulgare L. cv. Himalaya) aleurone layers were studied. The Ca²⁺-sensitive dye indo-1. Endoplasmic reticulum was isolated and purified from indo-1-loaded protoplasts, and the Ca²⁺ level in the ER was measured using the Ca²⁺-sensitive dye indo-1. Endoplasmic reticulum was isolated and purified from indo-1-loaded protoplasts, and the Ca²⁺ level in the lumen of the ER was determined by the fluorescence-ratio method to be at least 3 M. Transport of ⁴⁵Ca²⁺ into the ER was studied in microsomal fractions isolated from aleurone layers incubated in the presence and absence of gibberellic acid (GA₃) and Ca²⁺. Isopycinic sucrose density gradient centrifugation of microsomal fractions isolated from aleurone layers or protoplasts separates ER from tonoplast and plasma membranes but not from the Golgi apparatus. Transport of ⁴⁵Ca²⁺ occurs primarily in the microsomal fraction enriched in ER and Golgi. Using monensin and heat-shock treatments to discriminate between uptake into the ER and Golgi, we established that ⁴⁵Ca²⁺ transport was into the ER. The sensitivity of ⁴⁵Ca²⁺ transport to inhibitors and the K_m of ⁴⁵Ca²⁺ uptake for ATP and Ca²⁺ transport in the microsomal fraction of barley aleurone cells. The rate of ⁴⁵Ca²⁺ transport is stimulated several-fold by treatment with GA₃. This effect of GA₃ is mediated principally by an effect on the activity of the Ca²⁺ transporter rather than on the amount of ER.Abbreviations CCR cytochrome-c reductase - DCCD dicyclohexylcarbodiimide - EGTA ethylene glycol bis(-aminoethyl ether)-N,N,N,N-tetraacetic acid - ER endoplasmic reticulum - FCCP carbonylcyanide p-trifluoromethoxyphenyl hydrazone - GA₃ gibberellic acid - IDPase inosine diphosphatase - Mon monensin     

Gibberellin perception at the plasma membrane of Avena fatua aleurone protoplasts

A functional assay for gibberellin (GA) receptors is described based on the induction of -amylase gene expression in isolated aleurone protoplasts of Avena fatua L. by GA₄ immobilised to Sepharose beads. A 17-thiol derivative of GA₄, shown to be biologically active with aleurone protoplasts, has been coupled to epoxy-activated Sepharose 6B. This GA₄-17-Sepharose induces high levels of -amylase when incubated with isolated aleurone protoplasts, while cells of the intact aleurone layer do not respond appreciably to the immobilised GA₄. In order to eliminate the possibility that GA₄ may be released from the Sepharose when incubated with protoplasts, aleurone layers and isolated aleurone protoplasts have been co-incubated, and their responses to GA₄, GA₄-17-Sepharose and control Sepharose estimated by determining the relative amounts of -amylase mRNA induced in each tissue. Evidence from these experiments is consistent with the view that GA₄17-Sepharose induces -amylase gene expression in aleurone protoplasts by interacting with the protoplast surface. This indicates that GA receptors may be located at, or near, the external face of the aleurone plasma membrane.Abbreviation GA(n) gibberellin A(n) We thank Professor Jake MacMillan and Drs. Peter M. Chandler (CSIRO, Division of Plant Industry, Canberra, Australia), Peter Hedden and Johnathan Weir (Unilever, Port Sunlight, UK) for helpful discussions and suggestions. Computer graphics were performed by the University of Bristol Molecular Recognition Centre.     

The release of α-amylase through gibberellin-treated barley aleurone cell walls

Localisation of -amylase (EC 3.2.1.1.) in low-temperature-embedded isolated barley (Hordeum vulgare L.) aleurone has been achieved using rhodamine-labelled secondary antibodies and the protein A-gold technique. Treatment with gibberellic acid (GA₃) resulted in an increase of immunofluorescence in the cytoplasm of aleurone cells and also its appearance in specific regions of the cell walls. Cytoplasmic label was neither perinuclear nor associated specifically with aleurone grains as had been found in earlier work, but was present throughout the cytoplasm of all cells. A relatively high level of labelling occurred in hydrolysed wall regions. Label was also associated with plasmodesmata in both hydrolysed and unhydrolysed wall regions. The pattern of labelling indicates that -amylase is released from aleurone via digested wall channels and that, except for the inner wall layer, unhydrolysed regions are impermeable to the enzyme. It is suggested that the resistant wall tubes around plasmodesmata may facilitate enzyme release by providing a pathway for transfer, especially of wall hydrolases, into the more impermeable parts of the wall.Abbreviations ER endoplasmic reticulum - GA₃ gibberellic acid - RER rough endoplasmic reticulum     

Slender barley: A constitutive gibberellin-response mutant

In barley (Hordeum vulgare L. cv. Herta), slender (sln1) is a single-locus recessive mutation which causes a plant to appear as if it had been grown in sturating concentrations of gibberellin (GA). We have investigated two of the GA-mediated processes in slender barley, shoot elongation and the induction of hydrolytic enzymes in aleurone layers. Shoot elongation is severely retarded in normal (wild-type) barley if the biosynthesis of GA is blocked by an inhibitor, ancymidol (-cyclopropyl--(p-methoxyphenyl)-5-pyrimidinemethanol). However, the slender mutant continues to elongate in the presence of ancymidol. In isolated normal aleurone layers, the synthesis and secretion of -amylase (EC 3.2.1.1), protease (EC 3.4) and nuclease (EC 3.1.30.2) are induced by exogenously applied GA₃. However, in the aleurone layers of the slender mutant these enzymes are produced even in the absence of GA but their synthesis is still susceptible to inhibition by abscisic acid. Bioassays of half-seeds of the slender mutant and their normal siblings show no detectable differences in endogenous levels of GA-like substances. We suggest that the slender mutation allows competent tissues to express fully, or over-express, appropriate GA-induced processes independent of GA. We also conclude that shoot elongation, and hydrolytic-enzyme secretion in aleurone layers, share a common regulatory element.Abbreviations ABA abscisic acid - GA gibberellin - GA₃ gibberellic acid     

Localization of ATPase in the endoplasmic reticulum and golgi apparatus of barley aleurone

Summary The cytochemical localization of adenosine triphosphatase (ATPase) was studied in the aleurone layer of barley (Hordeum vulgare L. cv. Himalaya). Isolated barley aleurone layers secrete numerous enzymes having acid phosphatase activity, including ATPase. The secretion of these enzymes was stimulated by incubation of the aleurone layer in gibberellic acid (GA₃). ATPase was localized using the metal-salt method in tissue incubated in CaCl₂ with and without GA₃. In sections of tissue incubated without GA₃, cytochemical staining was confined to a narrow band of cytoplasm adjacent to the starchy endosperm and to the cell wall of the innermost tier of aleurone cells. Cytochemical staining was absent from the organelles of tissues not treated with GA₃. In tissue incubated in the presence of GA₃, cytochemical staining was evident throughout the cytoplasm and cell walls of the tissue. In the cell wall, electron-dense deposits were found only in digested channels. The cell-wall matrix of GA₃-treated aleurone did not stain, indicating that it does not permit diffusion of enzyme. In the cytoplasm of GA₃-treated aleurone, all organelles except microbodies, plastids, and spherosomes stained for ATPase activity; endoplasmic reticulum (ER), Golgi apparatus, and mitochondria showed intense deposits of stain. The ER of the aleurone is a complex system made up of flattened sheets of membrane, which may be associated with both the Golgi apparatus and the plasma membrane. The dictyosome did not stain uniformly for ATPase activity; rather there was a gradation in staining of the cisternae from thecis (lightly stained) to thetrans (heavily stained) face. Vesicles associated with dictyosome cisternae also stained intensely as did the protein bodies of GA₃-treated aleurone cells.     

The induction of sensitivity to gibberellin in aleurone tissue of developing wheat grains

A method for isolating viable protoplasts in high yield from the aleurone layers of developing wheat grains is described, and the techniques for their subsequent culture outlined. Protoplasts from untreated tissue do not produce α-amylase in response to gibberellic acid (GA₃) if the incubation temperature is left at 25°C. However, pre-treatment of the protoplast preparation at temperatures above 27°C for at least 8 h followed by a short incubation at 25°C induces sensitivity to the growth regulator such that α-amylase is produced. The requirements of the sensitisation process are similar to those for intact aleurone tissue although additional adjustment to the calcium ion is beneficial. Pre-treatment of aleurone layers with the sensitising temperature regimes prior to protoplast isolation have the advantage of increasing protoplast viability. Once sensitised, the protoplasts respond to a GA₃ concentration as low as 10^-11 mol dm^-3 with a maximal response at 10^-9 mol dm^-3. The successful isolation of wheat aleurone protoplasts whose sensitivity to GA₃ can be manipulated represents a useful step towards investigating the role of cell membranes in growth-regulator action.     

Isolation and characterization of aleurone protoplasts from a malting variety of barley (Hordeum vulgare L.)

Summary A procedure has been developed to isolate protoplasts from mature aleurone layers of the malting variety Alexis and four other barley genotypes. It combines induction of endogenous cell wall degrading enzymes together with use of Onuzuka cellulase R 10 and driselase and results in better yields for two varieties than can be obtained with the huskless variety Himalaya. The viability of the freshly isolated protoplasts is greater than 90% and in spite of the presence of gibberellic acid during isolation procedures, most of the protoplasts are at an early developmental stage, as judged by ultrastructure. Gibberellic acid-induced changes in protoplast structure resemble those reported for Himalaya protoplasts. The protoplasts secrete both -amylase (EC 3.2.1.1) and (1-3, 1-4)--glucanase (EC 3.2.1.73) into the surrounding medium. Transfection studies using a low pI -amylase promoter to direct chloramphenicol acetyltransferase expression in aleurone protoplasts from Alexis and Himalaya revealed significant differences in their hormone responsiveness. In the absence of hormones, low levels of expression of the reporter enzyme were obtained in Alexis protoplasts, while high levels were characteristic for Himalaya protoplasts. An 8-fold increase in the expression of the reporter gene was induced by supplying the transfected Alexis protoplasts with gibberellin A₃, whereas expression in Himalaya protoplasts remained unchanged. When Himalaya protoplasts were isolated from aleurone layers that had not been incubated with GA₃ during the initial stages of protoplasting (the classical procedure), the hormone response of the promoter was 2.5-fold. It is thus possible to optimize the aleurone protoplast isolation procedure for different barley genotypes and mutants of interest in studies of transgenic gene expression and hormone induced secretion of proteins from this unique secretory plant tissue.Abbreviations ABA abscisic acid - APIM aleurone protoplast isolation medium - CAT chloramphenicol acetyltransferase - EDTA ethylenediamine tetraacetic acid - ER endoplasmic reticulum - GA₃ gibberellin A₃ - IgG immunoglobulin G - MES 2-(N-morpholino)-ethanesulfonic acid - PAGE polyacrylamide gel electrophoresis - PEG polyethylene glycol - pI isoelectric point - PIPES piperazine N,N-bis-(diethanesulfonic acid) - SDS sodium dodecyl sulfate     

The monoclonal antibody JIM19 modulates abscisic acid action in barley aleurone protoplasts

A panel of hybridoma products generated against pea (Pisum sativum L.) guard-cell protoplasts has been assayed for anti-abscisic acid (ABA) biological activity in barley (Hordeum vulgare L.) aleurone protoplasts. The effects of the antibodies on ABA-induced accumulation of mRNA transcribed from RAB-16, a gene responsive to ABA, were determined. Most of the antibodies, and culture medium, had no effect, but five monoclonal antibodies (MAbs) were found to inhibit ABA-induced RAB-16 gene expression and one MAb enhanced it. The effects of one inhibitory MAb, JIM19, were studied in some detail. These effects were specific to ABA-induced events, as incubation with JIM19 had no effect on the expression of a constitutively-expressed gene, GAPDH, encoding glyceraldehyde-3-phosphate dehydrogenase, and only a slight effect on the production of -amylase induced by gibberellic acid. Increasing concentrations of ABA in the incubation medium partly overcame the inhibitory effect of JIM19. Immunolabelling and biological activity remained together during immuno-purification of JIM19 from hybridoma culture supernatant. Immunoblotting of JIM19 to membrane preparations from barley aleurone protoplasts revealed that JIM19 recognised a number of proteins.Abbreviations ABA abscisic acid - GA gibberellin - GA₃ gibberellic acid - GAPDH gene encoding glyceraldehyde-3-phosphate dehydrogenase - GCP guard-cell protoplast - MAb monoclonal antibody - RAB (gene) responsive to ABA We thank the Agricultural and Food Research Council and The Nuffield Foundation for financial support, Professor Keith Roberts (John Innes Institute, Norwich, UK) for advice and generous use of his laboratory and Jan Peart (John Innes Institute) for animal cell culture. S.J.N. is grateful to Professor Colin Hawkes (University of the West of England, Bristol) for his continued support of this project.     

Calmodulin stimulation of unidirectional calcium uptake by the endoplasmic reticulum of barley aleurone

The role of calmodulin (CaM) in gibberellic acid (GA₃)-stimulated Ca²⁺ uptake was investigated in endomembranes isolated from aleurone cells of barley (Hordeum vulgare L.). Unidirectional Ca²⁺ -uptake activity of endoplasmic reticulum (ER) was higher in membranes isolated from aleurone layers treated for 16 h with GA₃ and Ca²⁺ compared with those isolated from layers incubated in Ca²⁺ alone. However, the level of uptake from Ca²⁺-treated tissue could be stimulated to that of the GA₃-treated cells by applying exogenous CaM which increased the V _max of the Ca²⁺ transporter approximately threefold. Calcium uptake in ER from GA₃-treated tissue was inhibited by the CaM antagonist W7 in 50% of experiments, whereas the activity in membranes from non-GA₃-treated tissue was unaffected. Treatment with GA₃ also led to a twofold increase in CaM levels in aleurone layers within 4–6 h, paralleling the time course of the stimulation of Ca²⁺ uptake and preceding the stimulation of α-amylase secretion. We propose that the elevation of Ca²⁺ uptake into the ER induced by GA₃ may be coordinated and regulated by elevated levels of membrane-associated CaM and this may regulate Ca²⁺-dependent α-amylase synthesis in the lumen of the ER.     

Total protein release from barley aleurone layers as a bioassay for gibberellins

The effect of gibberellic acid on the secretion of proteins from barley (Hordeum vulgare L.) aleurone layers has been investigated for its suitability as a gibberellin bioassay. Concentrations from 10^–4 g/ml to 100 g/ml of GA₃ resulted in the release of proportionally increasing amounts of total protein. The release of proteins is not affected by indoleacetic acid and kinetin. This method has been applied and compared with the -amylase assay for the estimation of gibberellin in extracts of tomato fruits and maize seedlings.Abbreviations GA₃ gibberellic acid - IAA indoleactic acid - K kinetin     

The responsiveness of Avena fatua aleurone protoplasts to gibberellic acid

The sensitivity to gibberellic acid (GA₃) of aleurone protoplasts isolated from a single harvest of an inbred line of Avena fatua seed that had been after-ripened over anhydrous CaCl₂ at 25±2°C and 4±2°C for three years was assessed. Protoplasts isolated from aleurones of seed stored at 25°C produced substantially more -amylase in response to 10^–7 M GA₃ than those isolated from aleurones of seed stored at 4°C. The apparent difference in responsiveness does not appear to be due to a change in the duration of the lag phase between addition of GA₃ and the production of -amylase. The dose response of aleurone protoplasts to GA₃, measured as -amylase production, is complex and appears to have three phases. Protoplasts from seed stored at both temperatures respond appreciably to 10^–14 M GA₃. With increasing concentrations of GA₃, up to 10^–9 M, -amylase production increases similarly in protoplasts from both lots of seed, reaching a level approximately 2.7–3.8 times greater than when no GA₃ is applied. GA₃-induced -amylase production increases markedly as the concentration is raised from 10^–9 M to 10^–6 M, and the response then appears to be saturated. Over this part of the response curve protoplasts from the two seed lots differ markedly in their responsiveness to GA₃. Those from seed stored at 25°C produce considerably more -amylase, >130-fold higher than the minus GA₃ control, than those from seed stored at 4°C, <35-fold higher than the minus GA₃ control. This apparent difference in the responsiveness of aleurone protoplasts to GA₃ could be correlated with the loss of embryo dormancy in seed stored at 25°C. Seed stored at 4°C retained the dormancy characteristics present immediately after harvesting.     

Quantitative and qualitative changes in the endoplasmic reticulum of barley aleurone layers

Changes in the level of the endoplasmicreticulum (ER) marker enzyme cytochrome-c reductase (EC 1.6.2.1) were followed with time of imbibition of de-embryonated half-seeds of barley (Hordeum vulgare L.) and the subsequent incubation of their aleurone layers in gibberellic acid (GA₃) and H₂O. During imbibition there is an increase in the level of cytochrome-c-reductase activity and in the amount of 280-nm absorbance associated with this enzyme. When aleurone layers are incubated for a further 42 h in water, there is a doubling of the cytochrome-c-reductase activity. In GA₃, the activity of cytochrome-c reductase reaches a maximum at 24 h of incubation and thereafter falls to below 70% of its level at the beginning of the incubation period. Changes in the cytochrome-c-reductase activity correlate with changes in the fine structure of the aleurone cell. The ER isolated in low Mg²⁺ from aleurone layers incubated in buffer for up to 18 h has buoyant density of 1.13–1.14 g cc^-1 while that from layers incubated in GA₃ for 7.5–18 h has a density of 1.11–1.12 g cc^-1. The -amylase (EC3.2.1.1) isolated with the organelle fraction by Sepharose gel filtration is associated with the ER on isopycnic and rate-zonal density gradients, and its activity can be enhanced by Triton X-100. The soluble -amylase fraction from Separose-4B columns, on the other hand, is not Triton-activated but is acid-labile. Acid phosphatase (EC3.1.3.2) is distributed in at least three peaks on isopycnic gradients. In low Mg²⁺ the second peak of activity has a density of 1.12 g cc^-1 in GA₃-treated tissue and 1.13–1.14 g cc^-1 in H₂O-treated tissue. With high-Mg²⁺ buffers, this peak of phosphatase activity disappears. Acid-phosphatase activity is not enhanced by Triton X-100 nor is it acid-labile.Abbreviations EDTA ethylenediaminetetraacetic acid - ER endoplasmic reticulum - GA gibberellin - GA₃ gibberellic acid     

Effects of gibberellic acid and environmental factors on cytosolic calcium in wheat aleurone cells

Gibberellins (GAs) control a wide range of physiological functions in plants from germination to flowering. The cellular mechanisms by which gibberellic acid (GA₃) acts have been most extensively studied in the cereal aleurone. In this tissue, alterations in cellular calcium are known to be important for the primary response to GA, which is the production and secretion of hydrolytic enzymes. The extent to which cytosolic Ca²⁺ mediates the early events in GA action, however, is not known. In order to address this question, changes in cytosolic Ca²⁺ in wheat (Triticum aestivum L. cv. Inia) aleurone cells that occur rapidly after treatment with GA were characterized. In addition, GA-induced changes were compared with changes induced by three environmental stimuli that are known to modify the GA response: osmotic stress, salt (NaCl), and hypoxia. The Ca²⁺-sensitive dye fluo-3 was used to photometrically measure cytosolic Ca²⁺. It was found that GA₃ induced a steady-state increase in cytosolic Ca²⁺ of 100–500 nM. This increase was initiated within a few minutes of treatment with GA and was fully developed after 30–90 min. The changes in cytosolic Ca²⁺ that were induced by GA were distinct from those induced by mannitol, NaCl, or hypoxia. Mannitol caused a steady-state decrease whereas NaCl and hypoxia both increased cytosolic Ca²⁺. In the case of NaCl this increase was transient but for hypoxia the increase was prolonged as long as hypoxic conditions were maintained. Gibberellin-induced changes in cytosolic Ca²⁺ were not induced by the inactive GA, GA₈, nor did the GA-insensitive wheat mutant, D6899, respond to active GA₃ with altered cytosolic Ca²⁺. It is concluded that changes in cytosolic Ca²⁺ are an early and integral part of the GA response in aleurone cells. The data also indicate, however, that changes in Ca²⁺ are not sufficient, by themselves, to induce the GA response of aleurone cells.Abbreviations AM acetoxymethyl ester - GA gibberellin - GA₃ gibberellic acid - Mes 2-[N-morpholino]ethanesulfonic acid - PM plasma membrane The author is very grateful to Dr. T-h. D. Ho for his gift of D6899 grain and to Dr. R. Hooley for supplying the inactive GA₈. This work was supported by National Science Foundation Grant DCB-9206692.