Effects of turgor potential on 1-aminocyclopropane-1-carboxylic acid uptake into the vacuolar compartment and ethylene production in tomato pericarp slices

While solute transport and ethylene production by plant tissue are sensitive to the osmotic concentration of the solution bathing the tissue, the influence of tissue water relations and specifically tissue turgor potential on the kinetics of 1-aminocyclopropane-1-carboxylic acid (ACC) uptake into the vacuolar compartment and ethylene production have not been examined. 1-Aminocyclopropane-1-carboxylic acid transport and ethylene production were examined in tomato (Lycopersicon esculentum Mill. cv. Liberty) pericarp slices incubated in solutions having a range of mannitol, polyethylene glycol 3350 and ethylene glycol concentrations known to affect tissue water relations. Tissue osmotic and turgor potentials were derived from osmolality measurements of cell saps recovered by freeze-thawing and corrected for the contribution of the free-space solution. When relatively nonpermeable (mannitol or polyethylene glycol 3350) osmotica were used, both ACC uptake and ethylene production were greatest at a solution osmolality of 230 milliosmolal where tissue turgor potential ranged between 120 and 140 kPa. At higher and lower turgor potentials, the high-affinity saturating component of ACC uptake and ethylene production were inhibited, and ACC efflux from the vacuolar compartment was increased. The inhibition of ACC uptake was evident as a decrease in V_max with no effect on K_m. Turgor potential changes caused by adjusting solution osmolality with mannitol or polyethylene glycol 3350 were accompanied by changes in the osmotic potential and water potential of the tissue. The effects of turgor potential vs the osmotic and water potentials of tomato pericarp slices were differentiated by comparing responses to nonpermeable osmotica and mixtures of nonpermeable and permeable osmotica. Ethylene glycol-mannitol mixtures had effects on the osmotic potential and water potential of the tissue similar to those of nonpermeable osmotica but had less effect on tissue turgor, ACC transport and ethylene production. Incubating tissue in solutions without nonpermeable osmotica osmotically shocked the tissue. Increasing solution osmolality with ethylene glycol in the absence of nonpermeable osmotica increased tissue turgor and ethylene production. The present study indicates that tissue turgor is an important factor affecting the kinetics of ACC uptake into the vacuolar compartment and ethylene production in tomato pericarp slices.     

Effect of “osmotic stress” on protein and nucleic acid synthesis in isolated tobacco protoplasts

The incorporation of labeled precursors into RNAs and proteins of isolated tobacco (Nicotiana tabacum L.) leaf protoplasts decreases with increasing osmotic pressure in the incubation medium. The incorporation of precursors into RNA and proteins is linear for 15–18 h after the isolation of the protoplasts, irrespective of the osmolarity of the culture media. The uptake of precursors is also affected by the osmolarity of the medium. However, the osmotic stress-induced inhibition of incorporation of precursors into RNA and proteins is also apparent if the differences in uptake are taken into consideration in the calculation. Incorporation of ³²P into TMV-RNA is also inhibited by osmotic stress. As assayed by the double labeling ratio technique, osmotic stress has less unequivocal effect on TMV protein synthesis.Abbreviations PP protoplast - RNase ribonuclease - rRNA ribosomal ribonucleic acid - SDS sodium dodecyl sulfate - SSC 0.1 M Na-acetate in 0.15 M NaCl - TCA trichloroacetic acid - TMV tobacco mosaic virus     

Osmotic stress inhibits thymidine incorporation into soybean protoplast DNA

DNA synthesis in protoplasts isolated from soybean cell suspension cultures has been investigated by [³H] thymidine uptake and incorporation kinetics. Initial rates of incorporation in exponential and 5-fluorodeoxyuridine synchronized protoplasts are inhibited by increased osmolarities of the medium. The inhibition was not readily reversible during 3 h culture in low osmotic medium. Velocity sedimentation analyses of replicating DNA from such protoplasts shows a complex pattern of inhibition. The inhibition probably effects replicon initiation as well as strand elongation and ligation of replication intermediates.     

Optimization of protoplast formation,regeneration, and viability in Microsporum gypseum

Factors affecting high yields, regeneration frequencies, and viability of protoplasts from clonal cultures of Microsporum gypseum were investigated. Maximum yields of protoplasts were obtained after 6 hrs digestion of 2–4 days old mycelium with Novozyme 234 using CaCl₂ (0.4 M) as an osmotic stabilizer and glycine + HCl (pH 4.5) as the buffer system. Mercaptoethanol + dithiothreitol (0.01 M) proved to be the best pretreatment of mycelium prior to digestion with enzyme. A regeneration frequency of 94.4% was obtained using the top agar method with complete medium (pH 6.5) containing 0.5% agar and 0.4 M CaCl₂ as an osmoticum. Colonies from regenerated protoplasts on medium containing CaCl₂ were pigmented and completely powdery with high sporulation. Protoplast viability was studied in osmotic stabilizer supplemented with glucose or glutamine. After 24 hrs, glucose (2%) and glutamine (2%) enhanced protoplast viability by 22% and 23%, respectively. Protein synthesis, as measured by ³H-lysine uptake, matched the viability profile determined by fluorescence microscopy.     

Thyroid hormone inhibition of synaptosome amino acid uptake and protein synthesis.

Abstract— 3,3′,5-Triiodothyronine (T₃) inhibited L-[¹⁴C]leucine uptake into synaptosomes. Inhibition was competitive with a K_i of 3.1 × 10^?5m . Hofstee plot revealed an inverted hyperbolic curve suggestive of a two carrier or carrier plus diffusion mediated system for amino acid uptake. Both the carrier mediated and diffusional components were inhibited by thyroid analogues. l -Thyroxine and analogues inhibited the incorporation of l -[¹⁴C] leucine into cerebral synaptosome protein. At 50 μm , the triiodo-compounds were more inhibitory than tetraiodo->3,5-triiodo-l -thyronine >3,3′,5-triiodothyropro-pionic> l -thyroxine >3,5-diiodo-l -tyrosine. Thyroid analogue inhibition was not seen in liver or brain mitochondrial protein synthesis. 3,3′,5-Triiodothyronine had no effect on respiratory control or 2,4-DNP stimulated synaptosome respiration supported by malate plus pyruvate. Ouabain did not inhibit [¹⁴C]leucine uptake into adult synaptosomes. There was synergistic inhibition of synaptosome protein synthesis by thyroid analogues in the presence of 0.2 mm -ouabain. 3,3′,5-Triiodothyronine had no effect on synaptosome fraction ATPase or Na-K ATPase. Addition of T₃ induced further inhibition of synaptosome protein synthesis in the presence of either chloramphenicol (100μm ) or cycloheximide (50μg/ml). [¹⁴C]Glycine uptake and incorporation into synaptosome protein was inhibited by 3,3′,5-triiodothyronine. There was no inhibition of [¹⁴C]proline uptake or incorporation. The above evidence and kinetic data strongly favor a selective competitive block in amino acid transport at the synaptosome membrane leading to a decreased rate of protein synthesis.     

Vacuolated plant cells as ideal osmometer: reversibility and limits of plasmolysis, and estimation of protoplasm volume in control and water-stress-tolerant cells

Abstract. The osmotic behaviour of vacuolated plant cells (adaxial epidermal cells of Allium cepa bulb scales, and epidermal as well as chloroplast containing subepidermal stem base cells of Pisum sativum) was studied over a wide range of CaCl₂ concentrations. The following results were obtained.

• a. Allium cepa and Pisum sativum plant cells behave as an ideal osmometer as far as plasmolytic contraction of the protoplast is concerned.
• b. The protoplasts of these cells could be plasmolysed to 15–45% of their original volume without the loss of membrane semi-permeability.
• c. Cells plasmolysed in 1.0 kmol m^?3 CaCl₂ could be completely deplasmolysed and upon deplasmolysis the cells resumed protoplasmic streaming.
• d. The above findings (a-c) indicate that during gradual plasmolysis and deplasmolysis membrane semi-permeability is maintained.
• e. At very high plasmolysing concentrations vacuoles covered with the tonoplast separated from the rest of the protoplasm in some cells whereas others showed systrophy. Extruded vacuoles were able to respond to osmotic shrinkage.
• f. The non-solvent space in Allium cells of about 3% also corresponded to the protoplasm volume calculated from the protoplast geometry (mean from results of direct measurement method and subtraction method).
• g. Subepidermal stem base cells of water-stress-tolerant Pisum plants had a 75% greater non-solvent space than the control cells indicating that a water-stress-tolerant cell may contain a larger amount of protoplasm and/or a vacuole with a higher content of colloidal material in the vacuole.
• h. Water-stress-tolerant cells showed greater tolerance to osmotic dehydration (volume reduction) than control cells.

     

Osmotic regulation of starch synthesis in potato tubers?

Using potato (Solanum tuberosum L.) tuber discs incubated in a range of mannitol concentrations it has been demonstrated that both sucrose uptake and the conversion of sucrose to starch are sensitive to the osmotic environment of the storage cells. Starch synthesis was optimised at 300 mM but declined sharply at both lower and higher osmotic concentrations. The decline in starch synthesis on either side of optimum was not proportional to the change in mannitol concentration, indicating different inhibitory mechanisms under low and high osmotica. The fraction of the total sucrose converted to starch i.e. the partitioning between sucrose and starch, was also influenced by osmotic environment. The amount of soluble material taken up by the storage cells, but not converted to starch, was maintained under mannitol concentrations (300–400 mM) which inhibited starch synthesis, indicating that sucrose uptake continued during declining starch synthesis. At mannitol concentrations above 400 mM, sucrose uptake was greatly enhanced but no significant change in starch synthesis occurred.     

The Uptake of Cytokinins by Protoplasts and Root Sections of Brassica campestris

The effect of cytokinins was studied on the incorporation of ¹⁴C-labelled precursors into the nucleic acid fraction of protoplasts isolated from callus or roots of Brassica campestris. Protoplasts from callus and roots took up ¹⁴C-uridine from the incubation medium and incorporated this precursor into the ribonucleic acid fraction during the experimental period of 16 h. Low concentrations of kinetin (10^?8-5 × 10^?6M) did not stimulate the incorporation, and kinetin inhibited this process at higher concentrations (5 × 10^?5M). This result led to an investigation on the uptake of cytokinins by protoplasts of roots. In contrast to a rapid uptake of radio-actively labelled adenine and uridine. protoplasts from roots took up only small amounts of labelled kinetin. zeatin, zeatin riboside and zeatin nucleotides from the incubation medium. Root sections took up far more adenine and kinetin than protoplasts from roots. The ratio between the amount of kinetin taken up and applied was much higher for the sections than for protoplasts, indicating that intact root cells took up kinetin far more rapidly than protoplasts. It is suggested that the plasmalemma and cell wall play an essential role in the uptake of cytokinins or that the differences in the uptake rates are related to differences between the rates of metabolism of cytokinins in root sections and in protoplasts.     

Phosphate uptake in the yeast Candida tropicalis: purification of phosphate-binding protein and investigations about its role in phosphate uptake

The purification of a phosphate-binding protein (P_iBP₂) by immunoadsorption is described. The entire anti phosphate-binding protein 2 antibodies as well as the Fab fragments obtained from these antibodies inhibit P_i uptake by whole cells. The inhibition is a mixed type of inhibition (V _m and K _m are affected). These results should be regarded as a possible involvement of phosphate-binding protein 2 in P_i uptake. The binding of ¹²⁵I-labelled fragments prepared from anti phosphate-binding protein 2 antibodies to whole cells, to shocked cells and to protoplasts has been investigated. The results confirm the release of phosphate-binding protein by osmotic shock and during protoplast formation. From these findings, a cell-wall localisation, near the cell surface of the phosphate-binding protein should be proposed.Abbreviations P_i inorganic phosphate - P_iBP phosphate-binding protein - Tris Tris (hydroxymethyl)-aminoethane - MES (2(N-Morpholino) ethanesulfonic acid - BSA bovine serum albumin - EDTA ethylene diamine tetraacetic acid, disodium salt - PMSF phenylmethyl sulfonyl fluoride - SDS sodium dodecyl sulfate - Fab fragments, fragment antigen binding     

Stimulation of extracellular polysaccharide synthesis in oat protoplasts by the host-specific phytotoxin victorin

The host-specific phytotoxin victorin (HV-toxin) stimulates mesophyll protoplasts of susceptible but not of resistant oat (Avena sativa L.) to produce an amorphous, ethanol-insoluble extracellular material which stains with Calcofluor white and aniline blue. Over a 24-h period incorporation of [¹⁴C]glucose into ethanol-insoluble products is maximally stimulated by 60 pg victorin/ml, whereas at 6 ng/ml initial rates of incorporation are higher but the protoplasts collapse. The extracellular material produced in response to victorin is solubilized by cold 4.4 N NaOH and by commercial laminarinase and pectinase. Incorporation of [¹⁴C]glucose into cellulose (material resistant to Updegraff's acetic-nitric acid reagent) is stimulated as much as incorporation into other wall polysaccharides, but cellulose constitutes less than 15% of the total victorin-stimulated incorporation. Synthesis of ethanol-insoluble material that can be digested by pronase, i.e. protein, is inhibited by victorin above 60 pg victorin/ml. Formation of extracellular polysaccharide is stimulated at concentrations of victorin which cause almost complete inhibition of protein synthesis, indicating that de-novo protein synthesis is not involved. Preincubation of protoplasts with inhibitors of RNA or protein synthesis prevents both extracellular polysaccharide synthesis and cell death in response to victorin. Although previous studies have indicated a link between calcium and the action of victorin, several compounds which interact with calcium do not influence this response to victorin.Abbreviations EPS extracellular polysaccharide - SCM 0.5 M sorbitol +10 mM CaCl₂+5 mM 2-(N-morpholino)-ethanesulfonic acid (Mes), pH 5.8 This paper is dedicated to the memory of our teacher and colleague, Martin H. Zimmermann (1926–1984)     

Uptake of leucine by a marine Gram-negative heterotrophic bacterium during exposure to starvation conditions

The uptake of leucine by S14, an unidentified marine Gram-negative bacterium, was studied during a starvation period of 96 h. The S14 cells displayed two separate uptake systems with different affinities for leucine. The K_m values of these systems were 0.76 μM and 20 μM, respectively. The time of exposure to starvation had a marked effect on both uptake systems, not by changing the affinity for leucine, but rather by altering the velocity of uptake (V_max). A marked increase in the uptake capacity was noted for the high-affinity system, whereas the uptake velocity decreased for the low-affinity system. An osmotic shock treatment resulted in an almost complete loss of substrate binding activity. A gradual recovery of the leucine uptake subsequent to the osmotic shock was observed during a 72-h period of starvation. Separation of the osmotic shock supernatant by gel filtration revealed two proteins, 37 and 44 kDa in size, with leucine binding activity.     

渗透胁迫和离子毒害对转Bt基因棉幼苗生长及离子分布的影响

研究了渗透和盐胁迫处理对转Bt基因抗虫棉(Gossypium hirsutum) 99B种子的萌发和幼苗生长的影响,以及幼苗不同器官离子吸收和分配的差异。结果表明:渗透和盐胁迫均对转Bt基因抗虫棉幼苗的生长有抑制作用,其中PEG的抑制作用最强,而3种盐的抑制程度以CaCl₂>NaCl>Na₂SO₄,且在Na⁺含量相同时,Cl^-的毒害大于SO₄^2-。渗透胁迫下使根、茎和叶中的Na⁺和Cl^-含量提高,K⁺、Ca²⁺、SO₄^2-含量和K⁺/Na⁺、Ca²⁺/Na⁺和SO₄^2-/Cl^-比值降低,且地上部的变化幅度大于地下部的,其中以PEG的影响最为显著,其次是CaCl₂,Na₂SO₄处理最弱。这些说明,转Bt基因抗虫棉99B的耐盐性较弱。     

Analysis of amino acids in individual wheat embryonic protoplast

Summary. Amino acids analysis in single wheat embryonic protoplast was performed using capillary electrophoresis equipped with laser-induced fluorescence (CE-LIF), combination with tissue culture technique. Reagent fluorescein isothiocyanate (FITC) was introduced into living protoplasts by electroporation for intracellular derivatization. A special osmotic buffer (0.6 mol/L mannitol, 5 mmol/L CaCl₂) was used to keep the osmotic balance of embryonic protoplasts during the protoplasts derivatization. After completion of the derivatization reaction in the protoplasts, a single protoplast was drawn into the capillary tip by electroosmotic flow. Then a 0.1 M NaOH lysing solution was injected by diffusion. The derivatized amino acids were separated by capillary electrophoresis and detected by laser-induced fluorescence detection after the protoplast was lysed Nine amino acids were quantitatively and qualitatively determined and compared in lysate and single protoplast of wheat embryonic cells respectively, with mean concentrations of amino acids ranging from 2.68×10⁻⁵ mol/L to 18.18×10⁻⁵ mol/L in single protoplast.     

PHOTOSYNTHESIS IN PROTOPLASTS OF MACROCYSTIS PYRIFERA (PHAEOPHYTA)1

Photosynthetic rates measured in protoplasts isolated from the broivn alga Macrocystis pyrifera (L.) Ag. were compared to those for intact tissue. Both ¹⁴C incorporation and O₂ evolution gave similar rates of light-saturated protoplast photosynthesis (approximately 0.4 mmol-g chl a^?1· min^?1). Light saturated photosynthetic rates (P_max) and light harvesting efficiencies (α) of protoplasts were approximately 40% those of intact tissue. In contrast, protoplasts had a greater substrate affinity for photosynthetic HCO₃ uptake (lower K_0.5) than intact tissue (0.87 and 4.1 mMolar, respectively), presumably because of a reduction in the thickness of the unstirred boundary layer in the absence of the cell wall. Overall, the data suggest that protoplasts isolated from Macrocystis pyrifera are of valur in the study of photosynthesis. However, experiments with intact tissue are necessary as controls to aid interpretation of protoplast data.     

A new method to detect cadmium uptake in protoplasts

The mechanism for cadmium (Cd²⁺) uptake into the cytosol of protoplasts from 5- to 7-day-old wheat seedlings (Triticum aestivum L. cv. Kadett) was investigated by a new method, using fluorescence microscopy and the heavy metal-specific fluorescent dye, 5-nitrobenzothiazole coumarin, BTC-5N. Cadmium fluorescence gradually increased in the cytosol of shoot and root protoplasts upon repeated additions of CdCl₂ to the external medium, reflecting an uptake of Cd²⁺. The uptake was inhibited by calcium and potassium chloride, as well as by Verapamil and tetraethylammonium (TEA), inhibitors of calcium and potassium channels, respectively. Calcium competitively inhibited the cadmium uptake. The metabolic inhibitors vanadate and dinitrophenol partly inhibited the uptake, suggesting it was dependent on membrane potential. The results indicate that cadmium is taken up by channels permeable to both calcium and potassium. The total uptake of cadmium into the protoplasts was also detected by unidirectional flux analyses using ¹⁰⁹Cd²⁺, and showed approximately the same maximal concentration of Cd²⁺ as the fluorescence measurements. By combining the two methods it is possible to detect both uptake into the cytosol and into the vacuole.Abbreviations BTC-5N, AM Acetoxymethyl ester of 5-nitrobenzothiazole coumarin - DNP 2,4-Dinitrophenol - TEA Tetraethylammonium     

VITAMIN B12 AND THE MACROMOLECULAR COMPOSITION OF EUGLENA : III. Effect of Cycloheximide on the Recovery from B12-Induced Unbalanced Growth

When cycloheximide is added to (B12)-deficient cultures before or after replenishment of the cells with B₁₂, reversion of these cells is inhibited. This inhibition is not caused by interference of the inhibitor in the uptake of B₁₂ as measured by division kinetics. Cycloheximide does not inhibit the initial increase in the rate of DNA synthesis caused by B₁₂ replenishment, but within 30–45 min the rate decreases and DNA synthesis ceases. Cycloheximide added to replenished deficient cells after completion of DNA duplication inhibits cell division. The total cellular protein and RNA in replenished cells treated with cycloheximide does not change. B₁₂ added to deficient cells does not stimulate the incorporation of [¹⁴C]leucine into protein during resumption and completion of DNA duplication. However, there is a large increase in [¹⁴C]leucine incorporation into the protein of these cells soon after completion of DNA duplication and before resumption of cell division. The addition of cycloheximide to B₁₂-replenished or to nonreplenished deficient cells rapidly inhibits the incorporation. We suggest that the addition of B₁₂ accelerates the rate of DNA synthesis in the deficient cells and that possibly no new protein synthesis is required except for mitosis. However, protein synthesis is needed for continuous DNA synthesis.     

Light-Enhanced Uptake of Metabolites in Mesophyll Protoplasts: Evidence for a Novel Pyruvate Transport System

3 ) and sorghum (C₄) leaves for the measurements of osmotic volume change and metabolite uptake. We first investigated whether the silicone oil layer filtering centrifugation method could be applied to the protoplasts. The density of the silicone oil was optimized (ρ =1.026) and 0.5M betaine was chosen as an osmoticum in the protoplast suspending medium. By using [¹⁴C] sorbitol and [¹⁴C] inulin as the marker of the medium carried over into the pellet, protoplast osmotic or internal volume was estimated to be 200–300 μl (mg Chl)⁻¹, with the medium space in the pellet of 8–15 μl (mg Chl)⁻¹. Lowering of the osmotic pressure of the medium induced protoplast swelling as expected. Light also induced swelling. Using this system, we could detect light-enhanced uptake of ascorbate, glutamate and pyruvate in both barley and sorghum protoplasts. Pyruvate uptake was far higher in barley than in sorghum and inhibited by various inhibitors, showed saturation kinetics and, therefore, seemed to be mediated by a translocator protein. Received 10 August 1999/ Accepted in revised form 6 December 1999     

Characterization of system L and system y+ amino acid transport activity in cultured vascular smooth muscle cells

The uptake of L-leucine and L-lysine into vascular smooth muscle cells cultured from the aortas of rats has been investigated. Both amino acids are taken up by saturable systems that are independent of the presence of a ^·Na⁺ gradient and can be stimulated in trans by neutral bulky amino acids for leucine and cationic amino acids for lysine. Leucine uptake is inhibited competitively in cis by several neutral amino acids, whereas lysine uptake is inhibited strongly by other cationic amino acids but also significantly by neutral amino acids such as leucine. The leucine inhibition is noncompetitive. Cells preloaded with leucine and lysine could also export these amino acids and the rate of efflux was stimulated by the presence of appropriate amino acids in trans. These data are all consistent with leucine being transported largely if not entirely by System L and lysine by the System y⁺ transporter. © 1993 Wiley-Liss, Inc.     

Approach to the mechanism of Zajdela's hepatoma cell growth inhibition induced by concanavalin A and phytohaemagglutinin

Cell growth of tumour ascites cell was inhibited by concanavalin A, phytohaemagglutinin and Ricinus lectin at 2–100 μg/ml. As expected, the Ricinus lectin inhibited the protein synthesis estimated by leucine incorporation and decreased thymidine incorporation, whereas concanavalin A and phytohaemagglutinin stimulate the uptake and the incorporation of both leucine and thymidine, and thus, synthesis of protein and DNA. Theses results suggest that different mechanisms are involved in the hepatoma cell growth inhibition by the lectins. This difference was not related to the kinetic characteristics of the lectin interactions with the cells whihc represent a first and necessary step. It was showed that concanavalin A and phytohaemagglutinin as well as chloroquine inhibited the ¹⁴C-labelled asialofetuin degradation. We can conclude that Ricinus lectic present a toxic effect whereas both concanavalin A and phytohaemagglutinin show an anti-protease activity.     

Some factors affecting the formation of protoplasts inAspergillus niger

The highest yield of protoplasts in the strainAspergillus niger K 10 was obtained from young, freshly harvested hyphae, grown on simple medium of sucrose-asparagine type on a rotary shaker. The residual cultivation medium has to be washed from the mycelial suspension with a solution of high osmotic pressure. Lyophilized snail digestive juice in concentration of 1 %, temperature 31° C, and incubation in Erlenmayer flasks on reciprocal shaker were optimal for the release of protoplasts. Good stabilizers of released protoplasts (in combination with CaCl₂) were for example galactose, mannitol, inositol and mixture of NaCl with glucose, sucrose or lactose.