Sugar uptake by the dermal transfer cells of developing cotyledons of Vicia faba L.

Two experimental systems were developed to study the uptake of sucrose by the dermal transfer cells of developing cotyledons of Vicia faba L. First, the in-vivo state was approximated by short-term (10 min) incubation of whole cotyledons in [¹⁴C]sucrose solutions. Under these conditions, a minimum of 67% of the ¹⁴C label entered the dermal transfer cell complex. Of this, at least 40% crossed the plasma membranes of the epidermal transfer cells. Second, a protocol was developed to enzymatically isolate and purify dermal transfer cell protoplasts. The yields of the transfer cell protoplasts were relatively low and their preparation incurred a significant loss of plasma membrane. However, the protoplasts remained viable up to 24 h following purification and proved to be a suitable system to verify transport properties observed with whole cotyledons. Using these two experimental systems, it was established that [¹⁴C]sucrose uptake by the dermal transfer cells exhibited features consistent with mediated energy-dependent transport. This included saturation kinetics, competition for uptake between structurally similar molecules, and inhibition of uptake by p-chloromercuribenzenesulfonic acid and several other metabolic inhibitors. For comparative purposes, sugar uptake by the storage parenchyma of the Vicia cotyledons was also examined. In contrast to the dermal transfer cell complex, sucrose uptake by the storage parenchyma displayed characteristics consistent with simple diffusion.Abbreviations CCCP carbonylcyanide m-chlorophenylhydrazone - DNP 2,4-dinitrophenol - NEM N-ethylmaleimide - PCMBS p-chloromercuribenzenesulfonic acid The investigation was supported by funds from the Research Management Committee, the University of Newcastle and the Australian Research Council. One of us, R. McDonald, gratefully acknowledges the support of an Australian Postgraduate Research Award. We are indebted to Stella Savory for preparing the ultrathin sections for electron microscopy.     

The cellular pathway of sucrose transport in developing cotyledons ofVicia faba L. andPhaseolus vulgaris L.: a physiological assessment

The cellular pathway of sugar uptake in developing cotyledons of Vicia faba L. and Phaseolus vulgaris L. seed was evaluated using a physiological approach. The cotyledon interface with the seed coat is characterised by a specialised dermal cell complex. In the case of Vicia faba cotyledons, the epidermal component of the dermal cell complex is composed of transfer cells. Sucrose is the major sugar presented to the outer surface of both cotyledons and it is taken up from the apoplasm unaltered. Estimated sucrose concentrations within the apparent free space of Vicia and Phaseolus cotyledons were 105 and 113 mM respectively. Rates of in-vitro uptake of [¹⁴C]sucrose by cotyledon segments or by whole cotyledons following physical removal or porter inactivation of the outer cells demonstrated that, for both Vicia and Phaseolus cotyledons, the dermal cell complexes are the most intense sites of sucrose uptake. Accumulation of [¹⁴C]sucrose in the storage parenchyma of whole cotyledons was directly affected by experimental manipulation of uptake by the outer cell layers and plasmolytic disruption of the interconnecting plasmodesmata. These findings indicated that sucrose accumulated by the dermal cell complexes is transported symplasmically to the storage parenchyma. Overall, it is concluded that the dermal cell complexes of the developing legume embryo, irrespective of the presence or absence of wall ingrowths, are the major sites for the uptake of sucrose released from the maternal tissues to the seed apoplasm. Thereafter, the accumulated sucrose is transported radially inward through the symplast to the storage parenchyma.Abbreviations AFS apparent free space - CF 5-(6)-carboxyfluorescein - CFDA 5-(6)-carboxyfluorescein diacetate - Mes 2-(N-morpholino)ethanesulfonic acid - PCMBS p-chloromercuribenzenesulfonic acid - SRG sulphorhodamine G The investigation was supported by funds from the Research Management Committee, The University of Newcastle and the Australian Research Council. One of us, R. McDonald, gratefully acknowledges the support of an Australian Postgraduate Research Award. We are grateful to Stella Savoury for preparing the photomicrographs.     

Energetics of threonine uptake by pod wall tissues of Vicia faba L.

Kjeldahl assays showed that the pod wall of Vicia faba fruits behaves as a transitory reservoir of nitrogen. We have studied the properties and energetics of amino-acid uptake during the accumulating stage of pod wall development. A comparative analysis using various inhibitors or activators of the proton pump has been carried out i) on threonine uptake, ii) on the acidifying activity of the tissues, and iii) on the transmembrane potential difference of mesocarp cells. Except for the effect of dicyclohexylcarbodiimide which could not be satisfactorily explained, all other results obtained with ATPase inhibitors, uncouplers and fusicoccin were consistent with the view of a transport energized by the proton-motive force. Adding threonine to a medium containing fragments of pericarp or of endocarp induced a pH change (to-wards more alkaline values) of the medium and a membrane depolarization of the storage cells which depended on the amino-acid concentration added. These data indicate H⁺-threonine cotransport in the pod wall of broad bean. Moreover, because p-chloromercuribenzenesulphonic acid inhibits threonine uptake without affecting the transmembrane potential difference, it is concluded that the threonine carrier possesses a functional SH-group located at the external side of the plasmalemma.Abbreviations CCCP carbonylcyanide- m-chlorophenylhydrazone - DCCD N,N-dicyclohexylcarbodiimide - DES diethylstilbestrol - DNP 2,4-dinitrophenol - FC fusicoccin - PCMBS p-chloromercuribenzenesulphonic acid - PD potential difference     

Asymmetric distribution of the plasma-membrane H+-ATPase in embryos of Vicia faba L. with special reference to transfer cells

The ultrastructural localization of the plasma-membrane H⁺ -ATPase by immunocytochemistry was studied in Vicia faba embryos which absorb nutrients from the maternal organism through the transfer cells of their external epidermis. The samples were embedded in LR White resin and the specificity of immunolabelling was checked by inhibition in the presence of purified H⁺-ATPase. The following results were obtained: (i) The H⁺-ATPase density varied according to the cell type, being higher in transfer cells than in other cell types, especially the non-modified cells of the internal epidermis. (ii) There was a marked polarity in transfer cells as proton pumps were more numerous in the area of plasmalemma infoldings where active nutrient uptake is assumed to take place, (iii) No clear immunolabelling occurred on the plasma membrane of plasmodesmata. These results demonstrate that in transfer cells the area of plasmalemma infoldings is highly specialized for active solute transport; they also support the idea of specific structural properties of the plasmalemma in plasmodesmata.This work was supported by the Centre National de la Recherche Scientifique (URA CNRS 574). We express our gratitude to Dr M.G. Palmgren (Royal Veterinary and Agricultural University, Copenhagen, Denmark) for his gift of purified H⁺-ATPase. We wish to thank J.C. Fromont for his skillful technical assistance with the immunological procedures. We are grateful to J.M. Perault and C. Besse of the Electron Microscopy Service (Service Universitaire de Microscopie Electronique Appliquée à la Biologie Poitiers, France) for their contribution to the microscopical techniques.     

Oxidation of ethylene by cotyledon extracts from Vicia faba L.

Improved rates of ethylene oxidation by cell-free preparations from cotyledons of Vicia faba L. have been obtained using cryogenic storage techniques and by developing a method for the hydrolysis of ethylene oxide. Gel permeation chromatography showed that a low-molecular-size fraction was required for activity; accordingly, the kinetics of ethylene oxidation in the presence of this fraction were studied. Reduced pyridine nucleotides could substitute for the low-molecular-size fraction. Activity under a nitrogen atmosphere was 60% lower than in air. The need for reduced nicotinamide adenine dinucleotide phosphate (NADPH) and oxygen indicated that the enzyme might be a mixed-function oxidase. Using sufficient NADPH to approach saturation, the apparent Michaelis constant (K _m) for ethylene was 1.94±0.38 · 10^-8 M (aqueous phase), and when ethylene was saturating, the K _m for NADPH was 3.7 · 10^-5 M. Carbon monoxide was found to inhibit by competing with ethylene, and the inhibitor constant was 5.97 · 10^-7 M in solution. In the presence of excess ethylene and NADPH, activity was highest in phosphate-buffered medium pH 7.9. The bulk of the activity was found in a microsomal fraction.Abbreviations Epps N-2-hydroxyethylpiperazine-N-3-propane sulphinic acid - Tris 2-amino-2-(hydroxymethyl)-1,3-porpanediol     

Characterization of the plasma-membrane H+-ATPase from Vicia faba guard cells

Stomatal movement is controlled by external and internal signals such as light, phytohormones or cytoplasmic Ca²⁺. Using Vicia faba L., we have studied the dose-dependent effect of auxins on the modulation of stomatal opening, mediated through the activity of the plasma-membrane H⁺-ATPase. The patch-clamp technique was used to elucidate the electrical properties of the H⁺-ATPase as effected by growth regulators and seasonal changes. The solute composition of cytoplasmic and extracellular media was selected to record pump currents directly with high resolution. Proton currents through the ATPase were characterized by a voltage-dependent increase in amplitude, positive to the resting potential, reaching a plateau at more depolarized values. Upon changes in extracellular pH, the resting potential of the cell shifted with a non-Nernst potential response (±21 mV), indicating the contribution of a depolarizing ionic conductance other than protons to the permeability of the plasma membrane. The use of selective inhibitors enabled us to identify the currents superimposing the H⁺-pump as carried by Ca²⁺. Auxinstimulation of this electroenzyme resulted in a rise in the outwardly directed H⁺ current and membrane hyperpolarization, indicating that modulation of the ATPase by the hormone may precede salt accumulation as well as volume and turgor increase. Annual cycles in pump activity (1.5–3.8 μA · cm^-2) were expressed by a minimum in pump current during January and February. Resting potentials of up to -260 mV and plasmamembrane surface area, on the other hand, did not exhibit seasonal changes. The pump activity per unit surface area was approximately 2- to 3-fold higher in guard cells than in mesophyll cells and thus correlates with their physiological demands.     

Monoclonal antibodies identify common and differentiation-specific antigens on the plasma membrane of guard cells of Vicia faba L.

Monoclonal antibodies were raised against the plasma membrane of Vicia faba L. guard cells by immunizing either with total membranes from purified guard-cell protoplasts or with sealed, predominantly right-side-out plasma-membrane vesicles prepared from abaxial epidermes of V. faba by aqueous two-phase partitioning. Hybridoma screening was performed by enzyme-linked immunosorbent assay using polystyrene-adsorbed plasma-membrane vesicles as solid phase and by indirect immunofluorescence analysis using unfixed, immobilized protoplasts in a microvolume Terasaki assay. A range of monoclonal antibodies was characterized and is reported here. One monoclonal antibody, G26-6-B2, is guard-cell-specific and does not react with mesophyll-cell protoplasts of the same species. It binds to a periodate-resistant but trypsin-labile epitope, probably a differentiation-specific plasma-membrane protein.Abbreviations ELISA enzyme-linked immunosorbent assay - FITC fluorescein isothiocyanate - GCP guard cell protoplast(s) - Ig immunoglobulin - MAB monoclonal antibody - MCP mesophyll-cell protoplast(s) - SDS-PAGE sodium dodecyl sulfate-polyacrylamide gel electrophoresis     

Regulation of blue-light-induced proton pumping by Vicia faba L. guard-cell protoplasts: Energetic contributions by chloroplastic and mitochondrial activities

An initial response during signal transduction in guard cells, following absorption of blue light, is the extrusion of protons. Translocation of protons across the guard-cell plasmalemma is an energy-requiring activity. The present study has investigated the energetic contribution from guard-cell chloroplasts and mitochondria to blue-light-induced proton pumping by Vicia faba guard-cell protoplasts. The addition of 3(3,4-dichlorophenyl)-1,1-dimethylurea to the protoplast suspension had a minimal effect on rates of acidification when oxygen concentrations of the medium were maintained close to near-saturating levels. Under the same conditions, oligomycin reduced both the rates of blue-light-induced acidification and total proton efflux. Lowering the oxygen concentration of the suspending medium to approximately 20 M resulted in complete inhibition of blue-light-induced acidification activity. Swelling of protoplasts induced by blue light was also inhibited by low oxygen levels. Levels of ATP from whole-protoplast extracts were reduced by about 64% when exposed to low levels of oxygen. Increasing oxygen levels to near-saturating levels restored both blue-light-induced acidification rates and swelling of the protoplasts within a 60-min recovery period. Levels of ATP also increased during the recovery period. Addition of 3(3,4-dichlorophenyl)-1,1-dimethylurea or oligomycin to the suspending medium prior to increasing the oxygen concentration caused a reduction in acidification rates after the recovery period by 40 and 80%, respectively. Levels of ATP in guard-cell protoplasts were also reduced by both inhibitors after a 60-min recovery period. The results demonstrate that both guard-cell chloroplasts and mitochondria contribute energetically to blue-light-induced proton pumping by guard-cell protoplasts. Furthermore, both energy sources are inhibited by low oxygen concentrations, suggesting coordinated metabolic regulation between photo- and oxidative phosphorylation in guard cells.Abbreviations BL blue light - Chl chlorophyll - DCMU 3(3,4-dichlorophenyl)-1,1-dimethylurea - GCPs guard-cell protoplasts This research was supported by an operating grant from the Natural Sciences and Engineering Research Council of Canada and a University Research Grant from The University of Calgary. Dr. L. Gedamu (University of Calgary) is thanked for providing access to the bioluminometer. Technical assistance by C. Chmielewski, C. Turnnir, S. Ham and K. Meyer is gratefully acknowledged.     

Identification and biochemical characterization of the plasma-membrane H+-ATPase in guard cells of Vicia faba L.

The plasma-membrane H⁺-pump in guard cells generates the driving force for the rapid ion fluxes required for stomatal opening. Since our electrophysio-logical studies revealed a two fold higher pump-current density in guard cells than in mesophyll cells of Vicia faba L. we elucidated the biochemical properties of this proton-translocating ATPase in plasma-membrane vesicles isolated from both cell types. The capability of the H⁺ —ATPase to create an H⁺ gradient is maintained in plasma-membrane vesicles derived from purified guard cells via blender maceration, high-pressure homogenization and polymer separation. The H⁺-pumping activity of these vesicles coincides with the presence of two polypeptides of approx. 100 and 92 kDa which are recognized by a monoclonal antibody raised against the plasma-membrane H⁺-ATPase from Zea mays L. coleoptiles. Comparison of H⁺-pumping activities of isolated membranes revealed an approximately two fold higher activity in guard cells than in mesophyll cells with respect to the total membrane protein content. Furthermore, we demonstrated by western blotting that the difference in pump activities resulted from a higher abundance of the electroenzyme per unit membrane protein in guard-cell plasma membranes. We suggest that the high H⁺-pump capacity is necessary to enable guard cells to respond to sudden changes in the environment by a change in stomatal aperture.     

Phloem loading in Vicia faba leaves: Effect of N-ethylmaleimide and parachloromercuribenzenesulfonic acid on H+ extrusion,K+ and sucrose uptake

The effects of a penetrating (NEM) and a non-penetrating (PCMBS) sulfhydryl-specific reagent on proton extrusion, ⁸⁶Rb and [U-¹⁴C]sucrose uptake by Vicia faba leaves have been studied. Proton extrusion was strongly or completely inhibited by 0.1 mM NEM. ⁸⁶Rb and [U-¹⁴C]sucrose uptake were markedly reduced by NEM concentrations equal to or higher than 0.5 mM. Under our experimental conditions, PCMBS (1 mM) exerted a strong inhibition on [¹⁴C]sucrose uptake but did not inhibit proton extrusion and ⁸⁶Rb uptake. The sensitivity of phloem loading to PCMBS is thought to be a consequence of sugar-carrier blockage and not of inhibition of the proton pump.Abbreviations CCCP carbonylcyanide-m-chlorophenylhydrazone - DES diethylstilbestrol - DCCD dicyclohexylcarbodiimide - FC Fusicoccin - NEM N-ethylmaleimide - PCMBS p-chloromercuribenzenesulfonic acid     

Pathways of starch and sucrose biosynthesis in developing tubers of potato (Solanum tuberosum L.) and seeds of faba bean (Vicia faba L.)

Tissue slices from developing potato tubers (Solanum tuberosum L.) and developing cotyledons of faba bean (Vicia faba L.) were incubated with specifically labelled [¹³C]glucose and [¹³C]ribose. Enriched[¹³C]glucose released from starch granules was analysed by nuclear magnetic resonance (NMR). Spectral analyses were also performed on sucrose purified by high-performance liquid chromatography. In both tissues a low degree of randomisation (< 11 % in potato and < 14% in Vicia) was observed between carbon positions 1 and 6 in glucose released from starch when material was incubated with [¹³C]glucose labelled in positions 6 and 1, respectively. Similarly, with [2-¹³C]glucose a low degree of randomisation was observed in position 5. These findings indicate that extensive transport of three-carbon compounds across the amyloplast membrane does not occur in storage organs of either species. This is in agreement with previously published data which indicates that sixcarbon compounds are transported into the plastids during active starch synthesis. When [1-¹³C]ribose was used as a substrate, ¹³C-NMR spectra of starch indicated the operation of a classical pentose-phosphate pathway. However, with [2-¹³C]glucose there was no preferential enrichment in either carbon positions 1 or 3 relative to 4 or 6 of sucrose and starch (glucose). This provides evidence that entry of glucose in this pathway may be restricted in vivo. In both faba bean and potato the distribution of isotope between glucosyl and fructosyl moieties of sucrose approximated 50%. The degree of randomisation within glucosyl and fructosyl moieties ranged between 11 and 19.5%, indicating extensive recycling of triose phosphates.Abbreviation NMR nuclear magnetic resonance We are grateful to Dr. George Ratcliffe for his critical reading of the text and Dr. Bernard Goodman for helpful suggestions on the NMR measurements. The research was funded by a European Economic Community research grant, which the authors duly acknowledge.     

Stress-related levels of abscisic acid in guard cell protoplasts of Vicia faba L.

Levels of abscisis acid (ABA) were determined in isolated guard cell (GCP) and mesophyll cell (MCP) protoplasts of Vicia faba L. in relation to water stress. Incubation of GCP and MCP in 0.4 M or 0.8 M mannitol resulted in an average increase in the level of free abscisic acid (ABA) in the cells of 34% (GCP) and 38% (MCP) within 15–60 min. It is concluded that guard cell protoplasts form ABA in response to osmotic stress.Abbreviations ABA abscisic acid - BHT butylated hydroxytoluene - GCP guard cell protoplasts - MCP mesophyll cell protoplasts - MES [2-(N-morpholino)-ethanesulfonic acid] - TLC thin layer chromatography Part 20 in the series, Use of Immunoassay in Plant Science     

Proton-stimulated opening of stomata in relation to chloride uptake by guard cells

The concentration of potassium chloride required in the incubation medium to open stomata in isolated epidermal tissues of Commelina communis L. and Vicia faba L. could be lowered from 100 mM to 10 mM if the proton concentration of the ambient solution was increased from pH 5.6 to pH 3.5. This acidification effect was formerly attributed to the destruction of epidermal and subsidiary cells resulting in a relief of back pressure upon guard cells. While guard cells remain viable at pH 3.5, as demonstrated by their susceptibility to inhibition by uptake of glucose or to uncoupling by DNP, incipient destruction of the cells surrounding them could first be observed 30 min after the onset of the incubation experiment. By this time, however, the stomata had already opened; the time course of stomatal opening at pH 3.5 did not show any lag phase corresponding to the time required for damaging epidermal cells and showed no difference to that at pH 5.6 Thus, the acid-stimulated opening of stomata appears to be a biphasic phenomenon consisting of a physiologic effect onto which the physical effect of the relief of back pressure is superimposed over longer periods of incubation. To interpret the physiologic role of an increased proton concentration in the ambient solution of isolated epidermal strips, it is suggested that guard cells take up protons and chloride ions in an electroneutral symport. While protons are extruded again to generate the negative membrane potential required for potassium influx, chloride ions are retained to maintain electroneutrality.     

The effect of red and far-red light on proton secretion from mesophyll-cell protoplasts of Vicia faba L.

The influence of red and far-red irradiation on the transport of H⁺ and ⁸⁶Rb⁺ through the plasmalemma was studied using parenchymal protoplasts isolated from Vicia faba leaves. The results indicate that red light stimulates H⁺ secretion and the uptake of ⁸⁶Rb⁺. Moreover, it has been demonstrated that far-red irradiation acts antagonistically with respect to red light in both these processes.     

Stimulation of sugar exit from leaf tissues ofVicia faba L.

After removal of the lower epidermis, leaf discs ofVicia faba L. were loaded with either [¹⁴C]sucrose or [³H]3-O-methylglucose (3-O-MeG). The exit of preloaded sucrose was strongly stimulated when sucrose was present in the bathing medium, and the exit of 3-O-MeG was also markedly increased in the presence of 3-O-MeG. This specific stimulation exhibited single saturation dependence on the external concentration of sugar (K _m=9 mM for sucrose, 5 mM for 3-O-MeG), and was sensitive to low temperature, uncouplers and thiol reagents. Sucrose exit was never affected by 3-O-MeG in the bathing medium. Sucrose did not affect the exit of 3-O-MeG in fresh discs, but promoted this exit in discs previously aged for 12 h, indicating partial external hydrolysis of sucrose in the latter tissues. Ageing also dramatically increased the exit of 3-O-MeG induced by 3-O-MeG but had no effect on the exit of sucrose induced by sucrose. The ability of 53 compounds (pentoses, hexoses, hexose-phosphates, polyols, di- and trisaccharides, phenyl- and nitrophenyl-derivatives, sweeteners) to interact with the sucrose carrier and with the hexose carrier was tested. Sucrose, maltose, -phenylglucoside andp-nitrophenyl--glucoside interacted with the sucrose carrier.d-glucose,d-xylose,d-fucose,d-galactose,d-mannose, 3-O-MeG and 2-deoxyglucose interacted with the hexose carrier.Abbreviations CCCP carbonylcyanide-m-chlorophenylhydrazone - EGTA ethylene glycol-bis(-aminoethyl ether)-N,N,N,N-tetraacetic acid - 3-O-MeG 3-O-methylglucose - PCMBS p-chloromercuribenzenesulphonic acid     

Polarized microtubule deposition coincides with wall ingrowth formation in transfer cells ofVicia faba L. cotyledons

Summary The epidermal transfer cells in developingVicia faba L. cotyledons are highly polarized. Extensive wall ingrowths occur on their outer periclinal walls and extend part way down both anticlinal walls. This ingrowth development serves to increase the surface area of the plasma membrane and thus maximize porter-dependent uptake of sugars from the seed apoplasm. In contrast, the inner periclinal walls of these transfer cells do not form wall ingrowths. We have commenced a study of the mechanisms responsible for establishing this polarity by first analysing the microtubule (MT) cytoskeleton in developing transfer cells. Thin sections of fixed cotyledons embedded in methacrylate resin were processed for immunofluorescence microscopy using monoclonal anti--tubulin and counterstained with Calcofluor White to visualize wall ingrowths. In epidermal cells of young cotyledons where wall ingrowths were yet to develop, MT labelling was detected around all cortical regions of the cell. However, in cells where wall ingrowths were clearly established, MT labelling was detected almost exclusively in cortical regions adjacent to the wall ingrowths. Little, if any, MT labelling was detected on the anticlinal or inner periclinal walls of these cells. This distribution of MTs was most prominent in cells with well developed wall ingrowths. In these cells, a subpopulation of MTs were also detected emanating from the subcortex and extending towards the wall ingrowth region. The possible role of MT distribution in establishing transfer cell polarity and wall ingrowth formation is discussed.Abbreviations MT microtubule