Stimulation of chlorophyll synthesis by benzyladenine and potassium in excised and intact cucumber cotyledons

Both benzyladenine (BA) and potassium (K) stimulated chlorophyll synthesis in cucumber ( Cucumus sativus L. cv. National Pickling) cotyledons. However, differences existed between the effects of BA and K. Stimulation of chlorophyll synthesis by BA (1 mg l⁻¹, 4.4 μ M ) was observed in excised cotyledons after 4 and 8 h of illumination but not after 24 h, whereas the stimulation caused by K (40 m M ) continued. In contrast to BA, K was unable to eliminate the lag phase of chlorophyll production, and it also required light for its stimulation of cotyledon expansion. Both BA and K were required to maximize cotyledon expansion and chlorophyll production. In intact plants, K was not limiting for chlorophyll synthesis since foliar or soil pretreatments with K did not markedly stimulate greening. Foliar pretreatment with BA stimulated chlorophyll levels in intact plants, whereas soil pretreatment with BA inhibited chlorophyll production, probably because BA was not readily transported from the roots to the shoot and created a "sink" effect. Inhibitor studies showed that stimulation by K of greening did not depend on RNA or chloroplastic protein synthesis to the extent that has been reported for BA. Thus it appears that BA and K stimulate chlorophyll synthesis via different mechanisms, although both cytokinins and K are essential for maximum rates of greening.     

Impaired chlorophyll formation in etiolated cucumber cotyledons following prolonged dark incubation after red light pretreatment

Red light (R) pretreatment of etiolated cucumber seedlings ( Cucumis sativus L. var. Elem) followed by prolonged dark incubation prior to white light (WL) exposure, had an adverse effect on the greening of the cotyledons. The effect was photoreversible by far-red (FR) light. Cotyledons which were dark incubated for 24 h following the R pulse greened more rapidly when exposed to WL than did the controls, while total chlorophyll (Chl) accumulation after 24 h in the light was about the same in both. However, after 48 h post-R dark incubation greening of the treated cotyledons was delayed, and their amount of Chl which accumulated after 24 h WL was about one half of that in non-treated seedlings. As the length of the post-R dark incubation period was extended Chl production became slower, so that after 96 h post-R dark incubation the Chl level in the treated cotyledons after 24 h WL was approximately 20% of the controls. No significant differences in amounts of protochlorophyll could be detected between seedlings preilluminated with R or R followed by FR. Seedlings 4-, 5- and 6-days-old at the time of R treatment showed similar degrees of impaired Chl synthesis following prolonged post-R dark incubation.     

A two-fold action of benzyladenine on chlorophyll formation in etiolated cucumber cotyledons

Treatment of 3-day-old excised etiolated cotyledons of cucumber ( Cucumis sativus L. cv. Aonagajibai) with benzyladenine (BA) in the dark stimulates chlorophyll (Chl) formation during the lag phase (designated as 'lag elimination') and accelerates the steady-state rate of Chl formation under subsequent continuous illumination with white light. The separation of this two-fold effect is possible using two different methods of BA treatment in darkness: a brief BA treatment followed by various periods of water treatment in darkness, or various periods of continuous dark BA treatment. In either treatment, BA rapidly eliminates the lag phase (the fast-appearing effect) and after a longer time period accelerates the steady-state rate (the late-appearing effect). With a brief BA treatment, both effects decay rapidly. In contrast, with continuous BA treatment, none of the effects decay after reaching their maxima, particularly in cotyledons excised 2 days after sowing and aged for a long period before the onset of BA treatment. These facts indicate that BA acts as a trigger in stimulating Chl formation. The relationship between the actions of BA and light is discussed.     

Stimulation of cytokinins and chlorophyll synthesis in cucumber cotyledons by triadimefon

Triadimefon [1-(4-chlorophenoxy)-3,3-dimethyl-1-(1,2,4-triazol-1-yl)-2-butanone] changes the morphology and partitioning of dry matter in cucumber ( Cucumis sativus L. cv. National Pickling) seedlings. The dry weights, potassium and cytokinin levels in the cotyledons and roots of the treated seedlings were higher, whereas the hypocotyl weights were lower than the controls. When etiolated intact seedlings or cotyledons excised from triadimefon-pretreated dark-grown seedlings were exposed to light, chlorophyll synthesis in the pretreated cotyledons was stimulated. Triadimefon does not have cytokinin-like activity in the cucumber cotyledon greening bioassay, but appears to induce the plants to produce more cytokinims, probably by stimulating root growth. Hence it is proposed that the stimulation of chlorophyll production by triadimefon in cucumber cotyledons is mediated by maintaining high levels of potassium and cytokinins in the cotyledons.     

Synthesis of DNA in excised watermelon cotyledons grown in water and benzyladenine

Excised watermelon cotyledons were grown in water and benzyladenine, which greatly promotes growth, breakdown of reserves and development of organelles. In order to investigate the involvement of DNA synthesis in these benzyladenine-induced effects, [³H]thymidine was applied continuously (for 3 d) or administered briefly (5 h) to excised cotyledons at various stages of development. Autoradiographic analysis of squashed and sectioned cotyledons showed that both the cytoplasm (mainly in the region of the plastids) and most of the nuclei were labelled. Both types of labelling were promoted by benzyladenine treatment. The highest percentage of labelled nuclei was found in the early stages of growth (first day after excision of cotyledons), long before the burst of enzymatic activities involved in the germination processes. The possible meaning of the increase of nuclear DNA, apart from the normal replicative synthesis preceding cell division, is discussed.Abbreviations BA N⁶-benzyladenine - DNase deoxyribonuclease - EtBr ethidium bromide - FUdR fluorodeoxyuridine - [³H]T [methyl-³H]thymidine     

Calcium-induced formation of chlorophyll b and light-harvesting chlorophyll complex in cucumber cotyledons in the dark

Dark-grown cucumber seedlings were exposed to intermittent light (2 min light and 98 min dark) and then cotyledons were incubated with 50 mM CaCl₂ in the dark. Chlorophyll (Chl) a was selectively accumulated under intermittent light and Chl b was accumulated during the subsequent dark incubation with CaCl₂. The change in chlorophyll-protein complexes during Chl b accumulation induced by CaCl₂ in the dark was investigated by SDS-polyacrylamide gel electrophoresis. Chlorophyll-protein complex I and free chlorophyll were major chlorophyll-containing bands of the cotyledons intermittently illuminated 10 times. When these cotyledons were incubated with CaCl₂ in the dark, the light-harvesting Chl complex was formed. When the number of intermittent illumination periods was extended to 55, small amounts of Chl b and light-harvesting Chl complex were recognized at the end of intermittent light treatment, and these two pigments were further increased during the subsequent incubation of the cotyledons with CaCl₂ in the dark compared to water controls.     

External calcium requirements for light induction of chlorophyll accumulation and its enhancement by red light and cytokinin pretreatments in excised etiolated cucumber cotyledons

Excised etiolated cucumber (Cucumis sativus L.) cotyledons that were depleted of external Ca²⁺ by equilibration with a Ca²⁺ buffer, which maintained the free Ca²⁺ concentration at 10^–8 M, failed to accumulate chlorophyll upon a 2-h exposure to white light. Increasing amounts of chlorophyll accumulation occurred at increasing external Ca²⁺ concentrations within the range of 10^–7-10^–3 M. Preillumination with red light or pretreatment with benzyladenine, which enhanced the rate of light-induced chlorophyll accumulation in control cotyledons, did not overcome the block to light-induced chlorophyll accumulation caused by the depletion of external Ca²⁺. Etiolated cotyledons that were treated with the Ca²⁺ ionophore, A23187, and then equilibrated with 10^–5 M Ca²⁺, accumulated significantly more chlorophyll during exposure to light than did untreated cotyledons. The enhancing effect of A23187 was approximately equal to that caused by red-light pretreatment. Etiolated cotyledons that were exposed to the Ca²⁺ channel-blocking agent, Nd³⁺ (neodymium), in the presence of 10^–5 M Ca²⁺, did not exhibit an enhancement of chlorophyll accumulation by red-light pretreatment, although they accumulated control levels of chlorophyll upon exposure to light and showed control levels of enhancement of chlorophyll accumulation by cytokinin pretreatment. Conversely, etiolated cotyledons that were equilibrated with 10^–5 M Ca²⁺ in the presence of nifedipine, a blocker of some Ca²⁺ channels, did not exhibit an enhancement of chlorophyll accumulation by cytokinin pretreatment, although they accumulated control levels of chlorophyll upon exposure to light and showed control levels of enhancement of chlorophyll accumulation by red-light pretreatment. These results indicate that external Ca²⁺ is required for chlorophyll accumulation by excised etiolated cucumber cotyledons during the first 2 h of light exposure, and that an influx of external Ca²⁺ is required for the enhancing effect of redlight and cytokinin. The differential abilities of Nd³⁺ and nifedipine to block the effects of red-light and cytokinin pretreatments suggests that enhancement of chlorophyll accumulation by red-light and cytokinin may involve different classes of Ca²⁺ channels.Abbreviations A23187 antibiotic 23187 calcium ionophore - Chl chlorophyll - nifedipine 1,4-dihydro-2,6-dimethyl-4-(2-nitrophenyl)-3,5-pyridinedicarboxylic acid dimethyl ester We thank Randy Wayne for advice and encouragement.     

Down-regulation of phytochrome mRNA abundance by red light and benzyladenine in etiolated cucumber cotyledons

Northern blot analysis revealed that a single 4.2 kb phytochrome mRNA species was detectable in cotyledons excised from five-day-old etiolated cucumber seedlings. Intact etiolated five-day-old cucumber seedlings were given a red light or benzyladenine treatment, and cotyledons were harvested at various times following treatment. The abundance of phytochrome mRNA in the cotyledons was quantitated using ³²P-labeled RNA probes and slot blot analysis. By 2 h after irradiation the phytochrome mRNA level was reduced to 40% of the initial abundance and reaccumulation began by 3 h after irradiation. Reaccumulation of phytochrome mRNA to the time-zero dark control level was achieved by 10 h after treatment. A decrease in phytochrome mRNA abundance was evident by 2 h after benzyladenine treatment, and a maximal reduction to 45% of the time-zero dark control was attained by 4 h after treatment. No recovery of the phytochrome mRNA level was evident by 8 h after benzyladenine treatment. The abundance of actin mRNA was unaffected by benzyladenine treatment.     

Effect of benzyladenine on the development of plastids and microbodies in excised watermelon cotyledons

Excised watermelon (Citrullus vulgaris Schrad.) cotyledons were grown in the dark in the presence of 0.1 mM benzyladenine (BA). Under these conditions reserve breakdown and organelle differentiation progress very slowly. Treatment with BA accelerates, breakdown of reserves and stimulates development of organelles. Electron micrographs of cells from treated cotyledons show a larger number of plastids with a more developed inner membrane system. The levels of plastid pigments and enzymes are increased while starch content is reduced. Glyoxysomal enzyme levels are increased by BA during the first three days of development and their decline is accelerated thereafter. Also the activity of hydroxypyruvate reductase (EC 1.1.1.81.), a peroxisomal enzyme, is increased, but this increase is not followed by a decay phase. In water controls, hydroxypyruvate reductase bands together with glyoxysomal enzymes after equilibrium centrifugation in a sucrose gradient. In treated cotyledons the equilibrium position of glyoxysomal enzymes is uchanged while that of hydroxypyruvate reductase is shifted to a lower density.Abbreviations BA benzyladenine - RuDP ribulose-1,5-diphosphate - HPR hydroxypyruvate reductase     

三唑酮对离体黄瓜子叶膜系统的影响

研究了三唑酮处理后离体黄瓜子叶衰老过程中活性氧的产生及膜系统有变化。结果表明：20mg/L三唑酮能有效抑制O^-2.、H2O3的累积,减轻质膜相对透性和膜脂过氧化程度及组织自动氧化速率。这表明三唑酮减轻了活性氧在植物体内的累积,可以作为一种活性氧的直接或间接清除剂。     

Effect of light on nucleotide modifications in the transfer RNA of cucumber cotyledons

The effect of light on nucleotide modifications in the tRNA of cucumber (Cucumis sativus L. var. Guntur) cotyledons was studied by chromatographic, electrophoretic and immunological methods. The tRNA from light-grown tissue showed the absence of 2-methylguanosine and a decrease in the relative proportions of ribothymidine and cytokinin-active ribonucleosides when compared to those produced from dark-grown tissue. On the other hand, a significant amount of one species of 2′-O-methyldinucleotide was observed in the tRNA of light-grown tissue which was not detected in the dark-grown tissue. Also, tRNA from light-grown tissue had higher levels of another species of 2′-O-methyldinucleotide. The results showed no difference in the amounts of other modified nucleosides in tRNA between tissues grown under the two conditions. 2′-O-Methyl-l-methyladenosine, a nucleotide modified both in the base and the ribose, apparently specific to plant tRNAs, has been found to be present in the RNA of both light- and dark-grown tissues. These results on the variation in modified nucleotides suggest that light has some role in nucleotide modification and, consequently, in cellular functions.     

Effect of manganese ions on benzyladenine-induced growth and chlorophyll synthesis in excised cucumber cotyledons

The behaviour of endogenous Mn²⁺ was studied by electron spin resonance spectro-scopy during benzyladenine-induced growth of excised cucumber ( Cucumis sativis L. cv. Long green) cotyledons. The level of endogenous Mn²⁺ was decreased by ben-zyladenine treatment, most pronounced after 96 h. MnCl₂ applied alone promoted chlorophyll synthesis at relatively low concentrations but in the presence of ben-zyladenine higher concentrations of MnCl₂ were required for stimulation of chlorophyll synthesis. A pronounced increase in growth was observed when Mn²⁺ was applied with benzyladenine at 96 h, when the decline in the endogenous level of paramagnetic Mn²⁺ was maximal.     

Metabolic regulation of glyoxylate-cycle enzyme synthesis in detached cucumber cotyledons and protoplasts

Cucumber (Cucumis sativus L.) cotyledons, a plant model system for studying changes in metabolic compartmentation, contain at least six forms of lipoxygenase. The intracellular location and organellar topology of lipoxygenase forms in lipid bodies, microsomes, and cytosol were investigated. A protocol was worked out to solubilize and prepare lipid-body lipoxygenase in an enzymatically active form. The methodology required for the solubilization of the lipid-body form differed from the procedure applicable for solubilization of two lipoxygenase forms from the microsomal membranes. Three cytosolic lipoxygenases were purified and found to be distinguishable from each other in size and charge. Further characterization and differentiation of all cellular lipoxygenase isoforms was achieved by comparison of the enzymatic properties. Marked differences in pH optima of the particle-bound lipoxygenases were found: optimal pH of 8.5 for lipid-body lipoxygenase and pH 5.5 for the microsomal lipoxygenases. In addition, analysis of the products formed showed that the catalytic properties of lipidbody lipoxygenase and microsomal lipoxygenase are clearly distinguishable from each other and from the soluble forms.Abbreviations Brij-99 eikosaethyleneglycol monooleyl ether - LOX lipoxygenase The investigations were supported by the Deutsche Forschungsgemeinschaft. I.F. was supported by a stipend from the Friedrich-Ebert-Stiftung.     

Differential effects of the embryonic axis on chlorophyll production and photosynthesis of mustard cotyledons

Summary Mustard cotyledons detached from the dry seed or at intervals during five days dark germination produced consistently more chlorophyll but a lower photosynthetic rate when maintained in the dark on moist filter paper for 24 hr before exposure to light than cotyledons which were attached to the seedling axis during this time.The results suggest that the embryonic axis exerts a differential effect on the developing photosynthetic system, competing for material involved in chlorophyll formation and at the same time stimulating the development of other photosynthetic components.     

Calcium-induced formation of chlorophyll b and light-harvesting chlorophyll a/b-protein complex in cucumber cotyledons in the dark

Dark-grown cucumber seedlings were exposed to intermittent light (2 min light and 98 min dark) and then cotyledons were incubated with 50 mM CaCl₂ in the dark. Chlorophyll (Chl) a was selectively accumulated under intermittent light and Chl b was accumulated during the subsequent dark incubation with CaCl₂. The change in chlorophyll-protein complexes during Chl b accumulation induced by CaCl₂ in the dark was investigated by SDS-polyacrylamide gel electrophoresis. Chlorophyll-protein complex I and free chlorophyll were major chlorophyll-containing bands of the cotyledons intermittently illuminated 10 times. When these cotyledons were incubated with CaCl₂ in the dark, the light-harvesting Chl a/b-protein complex was formed. When the number of intermittent illumination periods was extended to 55, small amounts of Chl b and light-harvesting Chl a/b-protein complex were recognized at the end of intermittent light treatment, and these two pigments were further increased during the subsequent incubation of the cotyledons with CaCl₂ in the dark compared to water controls.     

Patterns of chlorophyll fluorescence kinetics in relation to growth and expansion in cucumber leaves

Photochemical development was studied in developing cucumber (Cucumis sativus L. cv Hokushin) leaves to determine if the spatial pattern coincided with relative growth rates of expanding leaves, intercalary cell division, or position relative to the vascular tissue. Both leaf surfaces undergo a series of similar changes in chlorophyll a fluorescence kinetics, but the upper surface more quickly achieved the characteristic response. Imaging of fluorescence showed an individual developing leaf has four regions differing in kinetics, but these regions do not coincide with areas of increasing relative growth rate. Two of these regions lie at the leaf edge and their divergent kinetics may be related to structural and physiological features present at this position. A third area with different kinetics, in the basal region of the leaf, is spatially consistent with primordial regions that are clonal during development. The correspondence between areas of clonal growth and specific fluorescence kinetics indicates that cells of common ancestry show functional uniformity. No evidence was found that the proximity of the vascular tissue influenced development of photochemical function.     

Changes in RNA,DNA, protein contents and growth of turbot Scophthalmus maximus larvae and juveniles

The growth potential of turbot Scophthalmus maximus larvae and juveniles was studied using nucleic acid‐based indices and protein variables. The experiment was carried out from 4 to 60 days post hatching (dph). A significant increase in instantaneous growth rate during metamorphosis and retarded growth rate during post‐metamorphic phase were observed. Ontogenetic patterns of DNA, RNA and protein all showed developmental stage‐specific traits. The RNA:DNA ratio decreased up to 12 dph, then increased rapidly till 19 dph and fluctuated until 35 dph followed by a decline to the end. The RNA:DNA ratio was positively correlated with growth rate of juveniles during the post‐metamorphic phase, whereas this ratio was not a sensitive indicator of growth during the pre‐metamorphic phase and metamorphosis. The protein:DNA ratio showed a similar tendency to the RNA:DNA ratio. Changes of DNA content and protein:DNA ratio revealed that growth of S. maximus performed mainly by hyperplasia from 4 to 12 dph and hypertrophy until 21 dph during the pre‐metamorphic larval phase. Growth was dominantly hypertrophical from the early‐ to mid‐metamorphosing phase and hyperplastic thereafter. The results show that the DNA content and protein:DNA ratio can evaluate growth rates of larval and juvenile S. maximus on a cellular level.     

The role of potassium phosphite in chlorophyll fluorescence and photosynthetic parameters of downy mildew-challenged cucumber Cucumis sativus plants

The effect of potassium phosphite (KPhi) on the photosynthetic parameters of cucumber plants inoculated with Pseudoperonospora cubensis was investigated in the present study. Cucumber plants were treated with KPhi before or after inoculation with P. cubensis and leaf samples were collected at different time courses for assessments. Results showed that in pathogen-inoculated plants Fv/Fm was decreased up to 3%. The rate of quantum photosynthetic was also decreased significantly in inoculated plants. Downy mildew led to a decrease in chlorophyll amount which in turn reduced the efficiency of photosystem II. In the KPhi-treated leaves, chlorophyll a and b decreased by 72% and 68%, respectively. Remarkable reduction in the efficiency of photosystem II as well as increased lipid membrane disruption, led to increased lipid peroxidation rate of the membranes up to 52%. The results of this study indicate the mitigating role of potassium phosphite in reducing the adverse effects of pathogen and maintaining the photosynthetic apparatus efficiency in cucumber plants.     

Effects of calcium on chlorophyll synthesis and stability in the early phase of greening in cucumber cotyledons

The effects of calcium on chlorophyll accumulation and its stability in the early phase of greening in cucumber cotyledons were investigated. Chlorophyll accumulation was hardly affected by dark preincubation of cotyledons with 10 millimolar calcium solution, but was inhibited almost completely when 50 or 100 millimolar solution was used. On the other hand, 50 millimolar calcium inhibited δ-aminolevulinic acid formation in the light by only 75%. Calcium had little effect on the lag for initiation of protochlorophyllide₆₅₀ regeneration, but slowed down the rate of accumulation of protochlorophyllide₆₅₀. In calcium-treated cotyledons, the chlorophyll formed by primary photoconversion was quickly decomposed in the dark. The present results show that calcium inhibited chlorophyll accumulation by inhibiting δ-aminolevulinic acid formation in the light and by stimulating the decomposition of newly formed chlorophyll, both effects being completely prevented by potassium.