Stimulation of respiration by Pb2+ in detached leaves and mitochondria of C3 and C4 plants

The exposure of detached leaves of C₃ plants (pea, barley) and C₄ plant (maize) to 5 m M Pb (NO₃)₂ for 24 h caused a reduction of their photosynthetic activity by 40–60%, whereas the respiratory rate was stimulated by 20–50%. Mitochondria isolated from Pb²⁺-treated pea leaves oxidized substrates (glycine, succinate, malate) at higher rates than mitochondria from control leaves. The respiratory control (RCR) and the ADP/O ratio were not affected. Pb²⁺ caused an increase in ATP content and the ATP/ADP ratio in pea and maize leaves. Rapid fractionation of barley protoplasts incubated at low and high CO₂ conditions, indicated that the increased ATP/ADP ratio in Pb²⁺-treated leaves resulted mainly from the production of mitochondrial ATP. The measurements of membrane potential of mitochondria with a TPP⁺-sensitive electrode further showed that mitochondria isolated from Pb²⁺-treated leaves had at least as high membrane potential as mitochondria from control leaves. The activity of NAD-malate dehydrogenase in the protoplasts from barley leaves treated with Pb²⁺ was 3-fold higher than in protoplasts from control leaves. The activities of photorespiratory enzymes NADH-hydroxypyruvate reductase and glycolate oxidase as well as of NAD-malic enzyme were not affected. The presented data indicate that stimulation of respiration in leaves treated by lead is in a close relationship with activation of malate dehydrogenase and stimulation of the mitochondrial ATP production. Thus, respiration might fulfil a protective role during heavy metal exposure.     

Contamination of oat mesophyll protoplasts by apoplastic polyamine oxidase

Mesophyll protoplasts isolated from peeled oat ( Avena sativa L. cv Victory) leaves with 1% (w/v) Cellulysin in 20 m M KPO₄, pH 5.5 and 0.6 M sorbitol retain about 6% of the polyamine oxidase (PAO, EC 1.4.3.4) activity of the whole peeled leaf. However, more than 99% of the oat leaf PAO activity is apoplastic and can be extracted by vacuum infiltration with 200 m M NaCl and this procedure extracts no activity for the cytoplasmic marker enzyme glucose-6-phosphate dehydrogenase (G6PD, EC 1.1.1.49). By these criteria we consider PAO in oat leaves to be totally apoplastic and PAO found in the isolated protoplast to be contamination. The degree of protoplast contamination by PAO depends on the pH and ionic strength of the isolating and washing medium. It can be eliminated by washing protoplasts in 0.6 M sorbitol with 100 m M KPO₄, pH 6.5. Pellets of lysed protoplasts incubated with dialyzed apoplastic enzymes in 5 m M KPO₄, pH 5.5 adsorb about 87% of the added PAO activity but only about 25% of the added peroxidase (EC 1.11.1.7) activity. The adsorbed activity can be solubilized from the pellet by extraction with 1 M NaCl. The results demonstrate that weakly ionically bound cell wall enzymes may contaminate protoplasts isolated and purified by conventional techniques.     

Preparation of Arabidopsis mesophyll protoplasts with high rates of photosynthesis

A simple and quick method is described for rapid isolation of metabolically active mesophyll protoplasts from leaves of Arabidopsis thaliana . The optimal composition of the digestion medium, period of digestion and stability of protoplast preparation were examined. A large number of protoplasts could be prepared within an hour. The isolated protoplasts were intact, stable and metabolically very active, as indicated by their high rates of photosynthetic oxygen evolution. The important factors during the preparation of protoplasts are short time of digestion, composition of medium, use of nylon nets for filtration, centrifugation at low speed and use of pH 7.0 for storage. The highest rate of photosynthesis obtained in these experiments was 130 ± 4 μmol O₂ evolved mg⁻¹ Chl h⁻¹, at 1 m M sodium bicarbonate and at a light intensity of 600 μE m⁻² s⁻¹. The present technique of isolation can be very useful for making Arabidopsis protoplasts for studies on not only metabolic processes, such as photosynthesis, but also metabolomics, proteomics and genomics.     

Cytoplasmic free Ca2+ dynamics in single tomato (Lycopersicon esculentum) protoplasts subjected to chilling temperatures

Protoplasts were isolated from leaves of tomato seedlings ( Lycopersicon esculentum Mill., cv. Marmande) at the 2nd to 4th true leaf stage and were loaded with the calcium binding tetra[acetoxymethyl⁺] ester of the fluorescent stilbene chromophore, Fura 2. Although the loading efficiency of the dye in these protoplasts was low, many protoplasts loaded only in the cytosol were always obtained. Changes in the cytosolic calcium concentration ([Ca²⁺]_cyt) were determined in single protoplasts in a temperature-controlled perfusion chamber by use of fluorescence photometry microscopy after excitation at 340 and 380 nm. When the protoplasts were subjected to chilling temperatures (10–15°C) by a circulating solution, the [Ca²⁺]_cyt increased in 64% of the analysed protoplasts. Depending on the initial resting level of [Ca²⁺]_cyt, three main types of kinetics were obtained in these protoplasts: (1) In 21% of the protoplasts, [Ca²⁺]_cyt increased to a maximum within 10–20 s from the start of temperature decrease, followed by a fast decrease; (2) in 11% of the protoplasts, the [Ca²⁺]_cyt both increased and decreased somewhat slower; and (3) in 32% a constant increase of [Ca²⁺]_cyt was obtained 1 min after the start of temperature decrease.     

A developmental study of Glycine max cell and protoplast isolation in relation to leaf age and photosynthetic competence

Leaf mesophyll cells were isolated from developing first trifoliate leaves of Glycine max (L.) Merr cv. Fiskeby V using a mechanical isolation procedure combined with low speed centrifugation. Cell yields of 17 ± 1.7% were routinely obtained with 55–75% intactness, as assessed by staining techniques, fluorescence transients and the ability of cells to convert to protoplasts after enzyme treatment. Rates of leaf photosynthesis were maximal in 27-day-old plants [280 μmol O₂ evolved (mg chlorophyll)^-1h^-1], from which isolated cells and protoplasts gave rates of up to 140 μmol O₂ evolved (mg chlorophyll)^-1 h^-1. Results are discussed in relation to leaf development and cell status during the attainment of photosynthetic competence.     

‘石牌’广藿香叶肉原生质体的分离及纯化

以‘石牌’广藿香无菌苗叶片为材料,对原生质体分离、纯化方法以及影响因素进行了研究。结果表明:以继代培养12～22 d的无菌苗顶芽下第3对展开叶片为材料,用0.5%果胶酶、0.2%离析酶和1.5%纤维素酶作用8 h,渗透压调节剂为11%甘露醇,‘石牌’广藿香叶肉原生质体产量达1.85×107个/g fw,活力达89%;原生质体纯化以12%聚蔗糖(Ficoll)漂浮法效果最佳。     

Direct and indirect effects of Cd2+ on photosynthesis in sugar beet (Beta vulgaris)

Sugar-beet plants ( Beta vulgaris L. cv. Monohill) were cultivated for 4 weeks in a complete nutrient solution. Indirect effects of cadmium were studied by adding 5, 10 or 20 μ M CdCl₂ to the culture medium while direct effects were determined by adding 1, 5, 20, 50 or 2 000 μ M CdCl₂ to the assay media. The photosynthetic properties were characterized by measurement of CO₂ fixation in intact plants, fluorescence emission by intact leaves and isolated chloroplasts, photosystem (PS) I and PSII mediated electron transport of isolated chloroplasts, and CO₂-dependent O₂ evolution by protoplasts. When directly applied to isolated leaves, protoplasts and chloroplasts. Cd²⁺ impeded CO₂ fixation without affecting the rates of electron transport of PSI or PSII or the rate of dark respiration. When Cd²⁺ was applied through the culture medium the capacity for, and the maximal quantum yield of CO₂ assimilation by intact plants both decreased. This was associated with: (1) decreased total as well as effective chlorophyll content (PSII antennae size), (2) decreased coupling of electron transport in isolated chloroplasts, (3) perturbed carbon reduction cycle as indicated by fluorescence measurements. Also, protoplasts isolated from leaves of Cd²⁺-cultivated plants showed an increased rate of dark respiration.     

High yield isolation of mesophyll protoplasts from wheat, barley and rye

Efficient procedures are described for high-yield isolation of mesophyll protoplasts from spring wheat ( Triticum aestivum L. cv. Glenlea), winter wheat ( Triticum aestivum L. cv. Frederick), barley ( Hordeum vulgare L. cv. Bruce) and rye ( Secale cereale L. cv. Puma). Factors such as plant age, composition of the incubation medium during isolation, purification procedures and culture medium affect protoplast yield, viability and metabolic competence, as measured by light-dependent CO₂ fixation. Optimal osmolarity of the isolation medium was equivalent to 1.8 times that measured in the leaves of all plant material used. The presence of 2 m M ascorbic acid in the preincubation and isolation medium increased the yield by 50% and conserved viability and metabolic competence. The protoplasts were stable for up to 48 h without loss of either viability or of original activity of CO₂ fixation, which was in the order of 100 μmol CO₂ (mg chl)⁻¹h⁻¹.
In our MC-56 liquid medium these protoplasts regenerated cell walls within 72 h and a few divided.     

Development and evaluation of a new growth medium for Helicobacter pylori

The present study was aimed at modifying the original formulation of Commercial Eugon agar (CEA) to develop a new H. pylori growth medium. Initial studies were carried out to determine the number of H. pylori colonies recovered on in-house H. pylori agar (IHPA), IHPA without l -cysteine and sodium sulfite (IHPA-NC), IHPA without l -cysteine (IHPA-C), IHPA without sodium sulfite (IHPA-N) and CEA as the control. Significant differences ( P <0.001) in the number of colonies recovered were observed between IHPA-N, IHPA-NC and IHPA-C. Incorporation of sodium sulfite decreased the number of colonies recovered, indicating that sodium sulfite was inhibitory to H. pylori growth. Removal of l -cysteine reduced the number of colonies recovered, suggesting that l -cysteine is necessary for the growth of H. pylori . In the subsequent study, incorporation of K₂HPO₄ further increased the number of colonies recovered compared with IHPA-N ( P <0.001), and 0.25% (w/v) of K₂HPO₄ yielded the highest numbers of colonies ( P ≤0.04). Finally, thirty other H. pylori clinical isolates were evaluated for their growth in the IHPAP-N, a new medium consisting of 1.5% (w/v) pepticase, 0.5% (w/v) peptone, 0.4% (w/v) sodium chloride, 0.03% (w/v) l -cysteine, 0.55% (w/v) dextrose, 0.25% (w/v) K₂HPO₄ and 1.5% (w/v) agar. The number of colonies recovered in IHPAP-N was significantly ( P <0.005) higher than that of CEA. IHPAP-N with 0.25% K₂HPO₄ and without sodium sulfite were adequate solid media for the growth of H. pylori .     

Division of guard cell protoplasts of Nicotiana glauca (Graham) in liquid cultures

Abstract. Guard cells are uniquely differentiated to transduce signals into the metabolic and ion transport processes that result in turgor-driven stomatal movements. We tested the hypothesis that these highly specialized cells are terminally differentiated. Guard cell protoplasts were isolated from abaxial epidermal tissue of leaves of Nicotiana glauca (Graham) and cultured in a medium designed for culturing mesophyll protoplasts of Nicotiana tabacum. Protoplasts were incubated at densities of 2–5 × 10¹¹ cells m⁻³ in eight-well microchamber slides under 50μmol m⁻² s⁻¹ of photons of continuous fluorescent light at 25°C. When the medium was modified by the addition of 100mol m⁻³ of sucrose and by buffering with 10mol m⁻³ of MES buffer at pH 6.1, cell division began within 96h of the time the culture was initiated. After 9d of culture, 80% of surviving cells had synthesized new cell walls, had dedifferentiated, and were dividing to form small colonies. Callus tissue was visible after 4–5 weeks. We conclude that guard cells of Nicotiana glauca are not terminally differentiated, and that guard cell protoplasts of this species have the capacity to grow, synthesize cell walls and divide.     

非洲菊原生质体制备及瞬时转化系统的建立

非洲菊(Gerbera hybrida)已成为研究复杂花序进化与发育的模式植物。以非洲菊无菌组培苗叶片为材料,分析不同浓度纤维素酶及离析酶配比对非洲菊原生质体提取效率的影响,建立了稳定、高效的非洲菊原生质体提取与瞬时转化体系。结果表明,以2.0%纤维素酶+0.3%离析酶组合,在0.4 mol·L~(–1)甘露醇溶液中,酶解4小时,酶解温度为25°C,得到产量高达2.2×10~7个·g~(–1) FW及活力较高的原生质体,可直接用于植物蛋白亚细胞定位和蛋白间相互作用实验,转化效率达80%。该研究建立了非洲菊原生质体制备和瞬时转化体系,为非洲菊基因功能研究奠定重要的技术基础。     

Identification and Phytotoxicity of 3-methylthiopropanoic and Trans-3-methylthiopropenoic Acids Produced in Culture by Xanthomonas campestris pv. vitians

Two phytotoxic metabolites were isolated from culture filtrates of Xanthomonas campestris pv, vitians , the causal agent of lettuce leaf spots and headrot. The two compounds were identified as 3-methylthiopropanoic (1) and trans-3-methylthiopropenoic (2) acids by chemical and spectroscopic methods. Toxic effects of the two compounds on leaf tissues and protoplasts of lettuce and cabbage were investigated. Solutions of 1 and 2 induced chlorosis and necrosis on lettuce leaves at minimum concentrations of 300 and 50 μg/ml, respectively. Infiltration in cabbage leaves did not produce any symptoms. The LD₅₀ values for 1 and 2 against lettuce protoplasts were 15 and 16 μg/ml, respectively. Activity of the two metabolites against cabbage protoplasts was very low (LD₅₀ > 500 μg/ml).     

Characterisation of Simple In Vitro Cultures of Striga hermonthica Suitable for Metabolic Studies

Abstract: The aim of this study is to develop simplified models for standardised screenings of xenobiotics, especially targeted against mannitol production, to control the harmful parasite, S. hermonthica. Chlorophyllous protoplasts and calli were produced from the young leaves of the parasite. Best yield from protoplast isolation was obtained when leaf segments were incubated at 30 °C, in the light, under shaking in an enzyme cocktail containing 2 % cellulase Onozuka R10, 0.1 % Pectolyase and sorbitol 1 M as the osmoticum. Oxygen exchange measurements, as well as labelling experiments with ¹⁴C-bicarbonate, emphasised a significant decrease in photosynthetic capacity of protoplasts, mannitol remaining, however, a major primary product of photosynthesis. Initiation of cell cultures was unsuccessful and instability of protoplasts prevents their standardised utilisation for herbicide screening. In contrast, globular calli produced first on MS medium containing 0.5 mg L^-1 NAA, 2.5 mg L^-1 BAP and 2 % sucrose were stable for two years, after monthly subculturing on fresh medium. Sucrose substitution by mannose in the medium did not change kinetic growth and stability. Potential autotrophy was lost for calli by increasing exogenous sugar level. Biochemical analyses and labelling experiments with ¹⁴C-bicarbonate or ¹⁴C-sucrose or -mannose showed that carbon partitioning is modified in calli, in comparison with young leaves or protoplasts, sucrose or mannose accumulation being favoured in sucrose- or mannose-fed calli, respectively. However, carbon flow towards mannitol was more marked in calli growing on high mannose medium. Stability and preservation of an active mannitol biosynthetic pathway allows planning of xenobiotic assays with calli as a simplified model for Striga hermonthica.     

Isolation of photorespiratory mutants from Lotus japonicus deficient in glutamine synthetase

A mutagenesis programme using ethyl methanesulphonate (EMS) was carried out on Lotus japonicus (Regel) Larsen cv. Gifu in order to isolate photorespiratory mutants in this model legume. These mutants were able to grow in a CO₂-enriched atmosphere [0.7% (v/v) CO₂] but showed stress symptoms when transferred to air. Among them, three mutants displayed low levels of glutamine synthetase (GS; EC 6.3.1.2) activity in leaves. The mutants accumulated ammonium in leaves upon transfer from 0.7% (v/v) CO₂ to air. F₁ plants of back crosses to wild type were viable in air and F₂ populations segregated 3 : 1 (viable in air : air-sensitive) indicative of a single Mendelian recessive trait. Complementation tests showed that the three mutants obtained were allelic. Chromatography on DEAE-Sephacel used to separate the cytosolic and plastidic GS isoenzymes together with immunological data showed that: (1) mutants were specifically affected in the plastidic GS isoform, and (2) in L. japonicus the plastidic GS isoform eluted at lower ionic strength than the cytosolic isoform, contrary to what happens in most plants. The plastidic GS isoform present in roots of wild type L. japonicus was also absent in roots of the mutants, indicating that this plastidic isoform from roots was encoded by the same gene than the GS isoform expressed in leaf tissue. Viability of mutant plants in high-CO₂ conditions indicates that plastidic GS is not essentially required for primary ammonium assimilation. Nevertheless, mutant plants did not grow as well as wild type plants in high-CO₂ conditions.     

Cultural conditions for production of glucoamylase from Lactobacillus amylovorus ATCC 33621

Lactobacillus amylovorus ATCC 33621 is an actively amylolytic bacterial strain which produces a cell-bound glucoamylase (EC 3.2.1.3). Conditions of growth and glucoamylase production were investigated using dextrose-free de Man-Rogosa-Sharpe (MRS) medium in a 1.5 I fermenter, with varying dextrin concentration (0.1–1.5% (w/v)), pH (4.5–6.5) and temperature (25–55°C). Cell extracts were prepared by subjecting cells to treatment with a French Pressure cell in order to release intracellular proteins. Glucoamylase activity was then assayed. The effects of pH (4.0–9.0), temperature (15–85°C) and substrate (dextrin and starch, 0–2% w/v) concentration on crude enzyme activity were investigated. Optimal growth was obtained in MRS medium containing 1% (w/v) dextrin, at pH 5.5 and 37°C. Glucoamylase production was maximal at the late logarithmic phase of growth, during 16–18 h. Crude enzyme had a pH optimum of 6.0 and temperature optimum of 60°C. With starch as the substrate, maximal activity was obtained at a concentration of 1.5% (w/v). The effects of ions and inhibitors on glucoamylase activity were also investigated. Enzyme activity was not significantly influenced by Ca²⁺ and EDTA at 1 mmol 1⁻¹ concentration; however Pb²⁺ and Co²⁺ were found to inhibit the activity at concentrations of 1 mmol 1⁻¹. The crude enzyme was found to be thermolabile when glucoamylase activity decreased after about 10 min exposure at 60°C. This property can be exploited in the brewing of low calorie beers where only mild pasteurization treatments are used to inactivate enzymes. The elimination of residual enzyme effect would prevent further maltodextrin degradation and sweetening during long-term storage, thus helping to stabilize the flavour of beer.     

Influence of phytohormones and other effectors on proton extrusion by isolated protoplasts from rape leaves

The roles of phytohormones and fusicoccin in H⁺ extrusion by isolated protoplasts from rape leaves ( Brassica napus L. cv. Belinda) were investigated and compared to results obtained with leaf segments of the same plants. Net H⁺ release by protoplasts, which was at least partly due to ATPase activity, was enhanced by 10 μ M indole-3-acetic acid and reduced by 20 μ M abscisic acid, whereas fusicoccin (10 μ M ), brassinosteroid (3 μ M ), kinetin (20 μ M ) and gibberellic acid (10 μ M ) had no effect. Hormone effects and H⁺ release were not detectable with leaf segments from the same plants. However, using field-grown plants, indole-3-acetic acid and especially fusicoccin stimulated the acidification of the external medium by leaf segments. Hormonecontrolled H⁺ release by leaf cells is interpreted as the first step in acid-triggered and turgor-regulated cell growth.     

Potential of Bacillus sp. to produce polyhydroxybutyrate from biowaste

Aim:  To test the Bacillus strains for their abilities to produce polyhydroxybutyrate (PHB) from different sugars and biowaste (Pea-shells).
Methods and Results:  Six Bacillus strains were checked for their ability to produce PHB from GM2 medium supplemented with different sugars at the rate of 1% (w/v) and from biowaste and GM2 (BW : M) combinations (3 : 7, 1 : 1, 7 : 3). Glucose supplemented GM2 medium resulted in maximum PHB production of 435 mg l⁻¹ constituting 31–62% w/w of the total cell dry mass. Substituting GM2 medium to the extent of 50% with biowaste (pea-shell slurry) resulted in 945–1205 mg l⁻¹ PHB (55–65% w/w). Optimization for additional nitrogen supplementation, inoculum size resulted in a final PHB production of 3010–3370 mg l⁻¹ equivalent to 300 g kg⁻¹ biowaste (dry wt).
Conclusion:  The Bacillus strains were able to produce PHB from biowaste (Pea-shells) as cheap source of substrate.
Significance and Impact of the Study:  This is the first report on usage of pea-shells as feed for PHB production, opening new possibilities for its use for production of PHB and Bacillus as potential candidate for the purpose.     

Sterols and sterylglycosides of oats (Avena sativa). Distribution in the leaf tissue and medium-induced glycosylation of sterols during protoplast isolation

Sterols, sterylglycosides (SG), acylated sterylglycosides (ASG) and steroidal saponins of primary leaves of oat ( Avena sativa L. cv. Flämingskrone) were analyzed by thin-layer chromatography, gas-liquid chromatography and high-performance liquid chromatography. Intact leaves, epidermis preparations, epidermis-stripped leaves, isolated protoplasts and chloroplasts were compared. The mesophyll contained 79% of the total leaf sterols, 80% of the SG and 78% of the ASG, but only 33–67% of the saponins. Free sterols, SG and ASG were mainly localized within the mesophyll, whereas steroidal saponins were localized in the epidermis to a significantly higher extent. The sterol parts consisted mainly of sitosterol, stigmasterol. cholesterol. Δ⁵-avenasterol, Δ⁷-avenasterol, campesterol and Δ⁷-cholestenol, and were quantitatively different in different sterol groups. A higher percentage of sitosterol at the expense of stigmasterol was typical for SG and ASG as compared to free sterols. Only minor differences in the sterol composition were found in a given sterol group when isolated from different tissues. Isolated protoplasts contained only 5–9% of the sterols present in mesophyll cells, indicating that the major part of the free sterols was lost during isolation. Exposure of radioactively labelled leaf segments to either buffer or digestion medium induced rapid transformation of sterols to SG and ASG as shown by the shift of radioactivity from free sterols to the glyeosides. This suggests that two sterol pools exist in the cell: one in the plasmalemma, which is accessible to medium-induced transformation, and a second non-accessible pool in the interior membranes (e.g. chloroplasts) of the cell.     

Effects of hypochlorite disinfection on the response of barley aleurone layers to gibberellic acid

Although the use of hypochlorite to disinfect seeds is widespread, the effects on tissues isolated from them have been largely ignored. Disinfection of barley ( Hordeum vulgare L. cv. Himalaya) half-seeds with hypochlorite solutions of ≥1.0% (w/v) available chlorine caused the pericarp to separate from the underlying tissues. Aleurone layers isolated from these grains had lower rates of oxygen consumption and released significantly less protein, PO₄³⁻ Mg²⁺, K⁺ and amylase (EC 3.2.1.1) into the medium in response to gibberellic acid (GA₃) than layers isolated from grains disinfected with a 0.1% hypochlorite solution. Disinfection with 1.0% hypochlorite also quantitatively altered the spectrum of proteins released into the incubation medium by the layers in response to GA₃.     

Intact mesophyll protoplasts from Zea mays as a source of phosphoenolpyruvate carboxylase unaffected by extraction: Advantages and limitations

Isolated intact mesophyll protoplasts from Zea mays L. were used as an enzyme source for studying properties of phosphoenolpyruvate (PEP) carboxylase (EC 4.1 1 31) just after release from cells into the reaction medium. After the injection of protoplasts into the assay mixture, an initial lag of activity was observed, mainly due to the time necessary for complete disruption of protoplasts by the osmotic shock. The final specific activity obtained was ca 18 μmol mg^-1 of liberated protein min^-1, a value comparable to that usually achieved after arduous purification. Under the assay conditions employed, the chloroplasts were not disrupted and the retention of their proteins, together with the use of purified mesophyll protoplasts, were obviously the reasons for the high specific activity obtained. The activity and properties of phosphoenolpyruvate carboxylase stored in isolated protoplasts were stable for at least 24 h at 5°C. The main difference between the protoplast-derived and the routinely extracted enzyme was the sensitivity to malate inhibition, which was partially lost in the extracted phosphoenolpyruvate carboxylase; no difference was found in the K_m(PEP). The stress imposed by the protoplast isolation procedure diminished the sensitivity of the enzyme to malate inhibition, so that it can be inferred that the real malate sensitivity of pbosphocnolpyruvale carboxylase is even greater and that it is grossly underestimated with routinely extracted enzyme.