Aluminium effect on nitrate assimilation in cucumber (Cucumis sativus L.) roots

In vivo effect of aluminium on nitrate uptake and reduction by cucumber seedlings was investigated. The high-performance liquid chromatography was used to analyse the rate of nitrate uptake. Low (0.5 mM) concentration of AlCl₃ in the nutrient solution stimulated nitrate uptake during the first 3 h. On the other hand, 6 h exposure of the cucumber seedlings to 1 or 5 mM of AlCl₃ resulted in inhibition of nitrate uptake and at 5 mM concentration of AlCl₃ the efflux of nitrate was observed. Furthermore, the amount of nitrate accumulated in cucumber roots after aluminium treatment was decreased. The noteworthy fact was observed, that at all concentrations of aluminium tested on increase of the nitrate reductase activity. This stimulation was concentration depended, but independent of the source of the enzyme. The activity of both the cytosolic and the plasma membrane bound nitrate reductase activity was enhanced in vivo. On the other hand, AlCl₃ applied in vitro only slighty decreased nitrate reductase activity.     

Influence of pH on Cd and Cu uptake, distribution and their effect on nitrate reductase activity in cucumber (Cucumis sativus L.) seedling roots

Influence of different pH solutions (5.0 and 7.0) on Cu²⁺ and Cd²⁺ absorption and distribution in root cells as well as effects of these metals on nitrate reductase activity (NR) in roots of cucumber seedlings were estimated. The absorption of Cu and Cd by roots measured as metal depletion in uptake solution was similar, both metal absorption was independent of the pH of solution. However, after rinsing of roots in distilled water (30 minutes), more Cu than Cd was found in protoplasts of root cells. More Cu was measured in all cell fractions when Cu was uptaken from pH 5.0 than from 7.0. The nitrate reductase activity after one hour of metal treatments was drastically decreased by Cu. The strongest reduction of enzyme activity was observed in roots treated with Cu in buffer with pH 5.0. Influence of Cd on the enzyme activity was weaker and was independent of the pH of solution. Lower concentration of Cd in solution (20 μM) increased NR activity. The data obtained prove the higher mobility of Cu than Cd into the cells of root. The mobility of Cu depends on pH of solution. Cu ions, but not Cd, influenced membrane permeability (K leakage). Cu acted more drasticly than Cd on NR activity.     

Isolation of Capsicum annuum leaf nitrate reductase and characterization of the effect of adenine nucleotides and NADH on its activity

Abstract. In the preliminary purification of Capsicum leaf nitrate reductase (EC 1.6.6.1), treatment of the crude extract on Sephadex G-25 was necessary to prevent a gelling of the extract and sedimentation of the enzyme. Its K_m values for NADH and nitrate were estimated to be 9.3 and 105mmol m⁻³ ADP and ATP gave hyperbolic competitive inhibition, with respect to NADH, while the inhibition by AMP was linear competitive. K_i values calculated were: ADP and ATP approximately lmol m⁻³ and AMP 2.3 mol m⁻³. Inhibition by ADP was not altered by reduced glutathione.
The Capsicum nitrate reduclase was very susceptible to inhibition by NADH (in the absence of nitrate) and an in vivo assay showed that the activity of the enzyme was limited by the supply of nitrate. NADH and adenine nucleotide levels measured in the Capsicum leaf were used to estimate inhibition of nitrate reductase and a prediction was made of the nitrate reductase activity at different times in the photoperiod. This was shown to follow the same trend as the measured in vivo activity of the enzyme. Changes in adenine nucleotide levels had little effect on nitrate reductase activity.     

Oxygen-mediated cold-acclimation in cucumber (Cucumis sativus) seedlings

Cold acclimation of etiolated cucumber seedlings, consisting of cooling at 12°C for 48 h followed by a warming period at 25°C, led to tolerance to subsequent chilling at 2°C. Tolerance, as evidenced by freedom from chilling injury and continued growth, developed during the warming period in a time-course manner for 12 h but decreased with prolonged warming. A similar increase and subsequent decrease was also observed in the content of palmitic, linoleic and linolenic acids in total lipid fraction from cucumber hypocotyl tissue. During the warming period supra-ambient oxygen stimulated, whereas subambient oxygen inhibited, the increase in fatty acid content as well as development of chilling tolerance. A strong correlation between oxygen-mediated changes in fatty acid content and associated development of cold tolerance suggests that both these processes are interrelated. Cold acclimation, but not cold stress, led to an increase followed by a decrease in CO₂ evolution suggesting that a respiratory upsurge is yet another feature of cold acclimation in cucumbers.     

Differential chilling sensitivity in cucumber (Cucumis sativus) seedlings

Cucumber ( Cucumis sativus L. cv. Poinsett 76) seeds were chilled at 2.5°C in a study of the chilling sensitivity and recovery of radicle tissue. The effect of chilling on radicle growth and the production of carbon dioxide and ethylene was measured. Chilling sensitivity of radicles increased as they grew from 1 to 7 mm in length. The length, not the age of the radicles, determined the level of chilling sensitivity. Apical tissue was most sensitive to chilling and slowest to recover from chilling, followed by subapical and basal tissue. Our data demonstrate that the chilling sensitivity of young seedling radicles differs along their length and that the rapid chilling-induced inhibition of elongation is probably due to an inability of meristematic cells to remain viable and active when chilled.     

Relationship between potassium fertilisation and nitrate assimilation in leaves and fruits of cucumber (Cucumis sativus) plants

The effect of application of different potassium rates on some parameters of nitrate metabolism and yield in cucumber plants (Cucumis sativus) was studied. All plants were grown under controlled conditions in an experimental greenhouse. The treatments consisted of applications of K⁺ at three rates in the form of K₂SO₄ (Kl: 0.075 mg ml^?1, K2: 0.15 mg ml^?1, and K3: 0.30 mg ml^?1). The results showed a positive effect of higher K⁺ fertilisation (0.30 mg ml^?1) on uptake, translocation and reduction of NO₃^? in leaves compared with the lowest K⁺ rate. In addition, the higher K⁺ rates strengthened the translocation of organic nitrogenous compounds (amino acids) towards the fruit, thereby perhaps also enhancing the maximal commercial yield. In conclusion, for improved cucumber cultivation under greenhouse conditions, 0.15 mg ml^?1 of K⁺ gave maximal yield, while the application of 0.30 mg ml^?1 increased the metabolism and efficient utilisation of NO₃^?.     

Role of pectin from cucumber (Cucumis sativus) in modulation of protein kinase C activity and regulation of glycogen metabolism in rats

The regulatory role of protein kinase C (PKC) in glycogen metabolism in pectin fed rats was investigated. Administration of pectin (5 g/kg body wt/day) from cucumber (Cucumis sativius L.) led to inhibitory effects on PKC activity in the liver of rats. In the brain and pancreas, PKC activity was significantly higher in pectin-treated rats as compared to the control group. Level of blood glucose was significantly lowered and the level of glycogen in the liver was significantly increased in pectin-administered rats. Glycogen synthase activity was enhanced, while glycogen phosphorylase enzyme showed inhibition in pectin-treated rats. Results indicated that pectin administration might have caused an increase in the secretion of the insulin, which, in turn, had a stimulatory effect on the PKC activity in the pancreas. The decreased PKC activity in the liver and increased PKC activity in the brain and pancreas on pectin administration indicated enhanced glycogenesis and reduced glycogenolysis.     

Modulation of arginine decarboxylase activity in cucumber (Cucumis sativus) cotyledons in short-term organ culture

Among the various amines administered to excisedCucumis sativus cotyledons in short-term organ culture, agmatine (AGM) inhibited arginine decarboxylase (ADC) activity to around 50%, and putrescine was the most potent entity in this regard. Homoarginine (HARG) dramatically stimulated (3- to 4-fold) the enzyme activity. Both AGM inhibition and HARG stimulation of ADC were transient, the maximum response being elicited at 12 h of culture. Mixing experiments ruled out involvement of a macromolecular effector in the observed modulation of ADC. HARG-stimulated ADC activity was completely abolished by cycloheximide, whereas AGM-mediated inhibition was unaffected. Half-life of the enzyme did not alter on treatment with either HARG or AGM. The observed alterations in ADC activity are accompanied by change in K_m of the enzyme. HARG-stimulated ADC activity is additive to that induced by benzyladenine (BA) whereas in presence of KCl, HARG failed to enhance ADC activity, thus demonstrating the overriding influence of K⁺ on amine metabolism.     

授粉对黄瓜果实发育和品质的影响

以 津绿 3号 黄瓜为试材 ,研究了授粉对黄瓜果实发育、营养成分变化及采后果形变化的影响 .结果表明 ,授粉可减少化瓜、刺激果实发育、提高果实商品性 ,并提高产量 ,其坐瓜率、商品瓜率、单瓜重及产量分别较单性结实提高 6 3.0 %、6 8.7%、2 2 .6 %和 12 7.6 % .授粉瓜和单性结实瓜均表现为随着果实发育 ,可溶性蛋白质和维生素 C含量呈减少的趋势 ,可溶性糖含量呈逐渐增长的趋势 ,游离氨基酸含量呈波动变化 ,但授粉瓜的 4种营养成分均高于单性结实瓜 .在采后 1～ 5 d,授粉瓜头部易膨大形成大头瓜 ,而单性结实瓜果形变化不大     

Endogenous levels of polyamines in the organs of cucumber plant (Cucumis sativus) and factors affecting leaf polyamine contents

Polyamine compositions of various organs from hydroponically cultivated cucumber plants ( Cucumis sativus L. cv. Sharp-1) and factors affecting the leaf polyamine content were examined. Diamine putrescine was found most abundantly in the root, while a relatively large amount of spermine was detected in the reproductive organs such as the immature fruit and the calyx (+stamen). Spermidine was present at the highest level in rapidly growing tissues such as newly expanded leaf and fruit at an early developing stage, implying the possible involvement of spermidine in the growth and development of these young tissues. Polyamine content of cucumber leaves changed during the day. Especially, the putrescine content of upper leaves showed a striking decrease from the morning to the night. Alterations of leaf Ca or Mg content did not significantly affect leaf polyamine composition. On the other hand, abnormal cucumber leaves showed altered polyamine composition. Yellowing of the leaf intervein resulted in a striking decrease in spermidine content without a significant change in putrescine and spermine content. By contrast, the leaves infected with the phytopathogen, powdery mildew, showed decreased putrescine and increased spermine content in response to the degree of fungi infection. The possible usefulness of polyamines as a diagnostic marker of plant development and physiological disorder is discussed.     

Effects of oxidative stress on chlorophyll biosynthesis in cucumber (Cucumis sativus) cotyledons

We conducted a series of experiments to assess the effects of oxidative stress on chlorophyll biosynthesis in the vascular plant Cucumis sativus (cucumber). Specifically, cucumber cotyledons were treated with 100 μ M methyl viologen (MV) and subsequently exposed to dark (0 μE m⁻² s⁻¹), low light (40–45 μE m⁻² s⁻¹), or high light (1500–1600 μE m⁻² s⁻¹). Following treatment, extracts of these samples were subjected to high-performance liquid chromatography (HPLC) to quantitate the accumulation of chlorophyll biosynthetic pathway intermediates. The results of these analyses revealed significant accumulation of Mg-protoporphyrin IX monomethyl ester (Mg-proto IX ME) in green (14-h illuminated) as well as in etiolated cotyledons with MV treatment. These data suggest that MV-induced oxidative stress may have inhibited Mg-proto IX ME cyclase activity. Upon exposure to high light, in the presence or absence of MV, both green and etiolated cotyledons predominantly accumulated protoporphyrin IX (Proto IX). These elevated levels of Proto IX might be attributable to attenuated activity of any or all of the following enzymes: Mg-chelatase, Fe-chelatase and protoporphyrinogen IX oxidase. We also observed that MV-induced oxidative stress impacts on chlorophyll biosynthesis to a greater extent than on photosystem II. These results demonstrate that oxidative stress impedes key steps in chlorophyll biosynthesis by either directly or indirectly inhibiting the activity of these enzymes.     

Effects of metal elements on acid phosphatase activity in cucumber (Cucumis sativus L.) seedlings

Acid phosphatases (E.C.3.1.3.2) are a group of enzymes widely distributed in nature, which nonspecifically catalyze the hydrolysis of a variety of phosphate esters in pH ranges from 4 to 6 and play a major role in the supply and metabolism of phosphate in plants. The objective of the present study was to investigate the in vitro effects of some metals on the activity of acid phosphatase in cucumber seedlings (Cucumis sativus L.) and to determine their kinetic parameters. The enzyme was assayed with Hg, Cd, Mn, Pb, Zn, K and Na at the 0.001–1 mM range using ATP, PPi and β-glycerol phosphate as substrates. Mn, Na and Cd did not significantly alter the enzyme activity. K caused a broad activation at low concentrations and an inhibition at high concentrations (10 mM) and lead caused no inhibition. Acid phosphatase was inhibited by Hg and Zn and the inhibition type and IC₅₀ values were determined for these metals. Hg presented a mixed inhibition type with PPi and ATP as substrates and uncompetitive inhibition with β-glycerol phosphate as substrate. Zn presented competitive inhibition for ATP as substrate, and a mixed inhibition type with PPi and β-glycerol phosphate as substrate. IC₅₀ values were 0.02, 0.3 and 0.15 mM for Hg, and 0.056, 0.035 and 0.24 mM for Zn with ATP, PPi and β-glycerol phosphate as substrates, respectively. Analysis of these results indicates that Zn is a more potent inhibitor of acid phosphatase from cucumbers than Hg.     

Purification and characterization of arginine decarboxylase from cucumber (Cucumis sativus) seedlings

A simple, reproducible and rapid protocol for the purification of arginine decarboxylase fromCucumis sativus seedlings has been standardised. The purification steps involved ion-exchange chromatography on diethylaminoethyl-cellulose followed by gel filtration on Sephadex G-l 50. The purified enzyme preparation migrated as a single stainable band on Polyacrylamide gels at both basic and acidic pH, but under denaturing and reducing conditions on sodium dodecyl sulphate-polyacrylamide gels resolved into polypeptides of molecular weight 48,000,44,000 and 15,000. However, in the absence of 2-mercaptoethanol on electrophoresis on sodium dodecyl sulphate-polyacrylamide gels, the enzyme moved as single band with a molecular weight of 150,000. Evidence was obtained to indicate that these three polypeptides were probably derived from a single larger molecular weight enzyme. On storage of the purified protein, the 48,000 species was preferentially degraded to smaller polypeptides. The preliminary data suggested that the 48,000 and 44,000 species shared many common tryptic peptides as revealed by finger printing of the [¹²⁵I ]-labelled protein. The purified enzyme was a glycoprotein and had aK _m of 0.5 mM for arginine. Its activity was stimulated by dithiothrietol and pyridoxal phosphate. EDTA did not inhibit the enzyme activity. Mn²⁺ at 1 mM stimulated arginine decarboxylase activity but was inhibitory at higher concentration     

Aspartyl proteinase from cucumber (Cucumis sativus) seeds. Preparation and characteristics

Aspartyl proteinase (EC 3.4.23) from cucumber seeds was purified by ammonium sulphate fractionation, chromatography on immobilized pepstatin and gel filtration on Sephacryl S-200. The preparation obtained, homogeneous on polyacrylamide-gel electrophoresis in acidic and alkaline media, has a molecular mass of 42,000, pI of 5.2, and shows the highest activity with denatured haemoglobin at pH 3.2. The proteinase is stable in slightly alkaline medium, whereas it is inactivated in acidic medium, especially in the presence of NaCl. The enzyme activity is affected neither by the inhibitors of serine proteinases, sulfhydryl-proteinases and metalloproteinases, nor by divalent metal ions, whereas the enzyme is inactivated by the inhibitors of aspartyl proteinases: 1,2,3-epoxy(p-nitrophenoxy)propane, diazoacetyl-DL-norleucine and pepstatin.     

Auxin,biosynthesis of ethylene and sex expression in cucumber (Cucumis sativus)

Ethylene production, level of 1-aminocyclopropane-1-carboxylic acid (ACC) and activity of the ethylene forming enzyme (EFE) were higher in apices of gynoecious cucumber (Cucumis sativus cv. Alma) as compared to monoecious cucumber (C. sativus cv. Elem). Application of indole-3-acetic acid (IAA) enhanced ethylene and ACC production in both cultivars. The stimulatory effect of IAA was more pronounced in gynoecious apices. Induction of ethylene production and accumulation of ACC resulting from treatment with IAA were effectively blocked by aminoethoxyvinylglycine (AVG). Content of endogenous IAA, measured by an enzyme immunoassay, was lower in gynoecious cucumber as compared to monoecious one. Treatment of gynoecious plants with the antiauxins -(p-chlorophenoxy)isobutyric acid (PCIB) and -naphthaleneacetic acid (-NAA) did not inhibit female sex expression.It appears that although exogenous IAA enhances ACC and ethylene production, endogenous IAA might not have a major role in the control of sex expression in cucumber of the Beit-Alfa type.Prof. Rudich passed away in May 1986.     

Oxidative stress in cucumber (Cucumis sativus L) seedlings treated with acifluorfen

Treatment of diphenyl ether herbicide acifluorfen-Na (AF-Na) to intact cucumber (Cucumis sativus L cv Poinsette) seedlings induced overaccumulation of protoporphyrin IX in light (75 mumole m-2 s-1). The extra-plastidic protoporphyrin IX accumulated during the light exposure disappeared within two hours of transfer of acifluorofen-treated seedlings to darkness. The dark disappearance was due to re-entry of migrated protoporphyrin IX into the plastid and its subsequent conversion to protochlorophyllide. In light, protoporphyrin IX acted as a photosensitizer and caused generation of active oxygen species. The latter caused damage to the cellular membranes by peroxidation of membrane lipids that resulted in production of malondialdehyde. Damage to the plastidic membranes resulted in damage to photosystem I and photosystem II reactions. Dark-incubation of herbicide-sprayed plants before their exposure to light enhanced photodynamic damage due to diffusion of the herbicide to the site of action. Compared to control, in treated samples the cation-induced increases in variable fluorescence/maximum fluorescence ratio and increase in photosystem II activity was lower due to reduced grana stacking in herbicide-treated and light-exposed plants.     

Complex structure of the ribosomal DNA spacer of Cucumis sativus (cucumber)

Summary The nuclear 18 S, 5.8 S and 25 S ribosomal RNA genes (rDNA) of Cucumis sativus (cucumber) occur in at least four different repeat types of 10.2, 10.5, 11.5, and 12.5 kb in length. The intergenic spacer of these repeats has been cloned and characterized with respect to sequence organization. The spacer structure is very unusual compared to those of other eukaryotes. Duplicated regions of 197 bp and 311 bp containing part of the 3 end of the 25 S rRNA coding region and approximately 470 bp of 25 S rRNA flanking sequences occur in the intergenic spacer. The data from sequence analysis suggest that these duplications originate from recombination events in which DNA sequences of the original rDNA spacer were paired with sequences of the 25 S rRNA coding region. The duplicated 3ends of the 25 S rRNA are separated from each other mostly by a tandemly repeated 30 bp element showing a high GC-content of 87.5%. In addition, another tandemly repeated sequence of 90 bp was found downstream of the 3flanking sequences of the 25 S rRNA coding region. These results suggest that rRNA coding sequences can be involved in the generation of rDNA spacer sequences by unequal crossing over.