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.     

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.     

Mimicry by cytokinin of phytochrome-regulated inhibition of chloroplast development in etiolated cucumber cotyledons

A study of the kinetics of chlorophyll (Chl) synthesis in cotyledons of etiolated cucumber seedlings ( Cucumis sativus L . cv. Delilah) treated with 5×10^-5 M -ben-zyladenine (BA) showed that cytokinin, like a red light pulse, could inhibit as well as promote pigment accumulation depending on the length of the dark period following induction. Spraying intact, dark-grown seedlings with BA, 24 h prior to white light exposure, eliminated the lag phase in Chl synthesis, while treatment with hormone 72 h before greening not only delayed the onset of synthesis, but it also reduced the amount of Chl accumulated after 24 h continuous white light. Impairment of Chl formation was correlated with inhibited regeneration of protochlorophyll and delayed appearance of the light harvesting Chl alb polypeptide. Application of σ-aminolevulinic acid (15 m M ) 2 h before white light exposure shortened the lag phase in Chl synthesis in control as well as in inhibited cotyledons, but the adverse effect of the red light and BA treatments on long-term Chl accumulation (24 h) was not reversed. Application of glutamate did not stimulate Chl production. Simultaneous treatment with hormone and red light 72 h before greening enhanced their separate inhibitory effects on Chl synthesis, but when given together 24 h prior to white light, their promotive effects on pigment accumulation were not additive.     

Cytokinin-induced chlorophyll formation in cucumber cotyledons

Summary Cotyledons of cucumber plants grown in the dark for 7 days were treated with various concentrations of cytokinins for 14 h and then moved into light. After 3 h the treated cotyledons had up to 450% more chlorophyll than the water controls. This suggests that cytokinins have an important role in the formation of chlorophyll. The increase in chlorophyll level was proportional to cytokinin concentration and was apparent at concentrations as low as 0.001 mg/l. Sensitivity to cytokinins depended on the age of the cotyledons and the time of exposure to light. Gibberellic acid, indoleacetic acid, adenine and sucrose did not cause a similar increase in chlorophyll levels. This effect of cytokinins on chlorophyll formation is valuable as a simple, rapid bioassay for cytokinins.This study was supported by the National Research Council of Canada.     

Effect of phytochrome activation followed by prolonged dark incubation on chloroplast development in etiolated cucumber cotyledons

The inhibitory effect of a short red light pulse followed by prolonged dark incubation on chlorophyll accumulation in etiolated cucumber cotyledons ( Cucumis sativus L. cv. Elem) was reflected in the development of the internal membrane system of the mesophyll plastids. Dark incubation for 24 h after phytochrome activation produced the characteristic accelerating effect OB chlorophyll synthesis and chloroplast development. However, longer intervening dark periods (48, 72 and 96 h) before white light exposure resulted not only in a diminished capacity to concentrate chlorophyll, but also in an impaired ability to form grana. The absence of stacking was consistent with a high chlorophyll a to chlorophyll b ratio.     

Benzyladenine-induced stimulation of 5-aminolevulinic acid accumulation under various light intensities in levulinic acid-treated cotyledons of etiolated cucumber

Benzyladenine (BA) stimulated 5-aminolevulinic acid (ALA) accumulation in the presence of levulinic acid during illumination with 43 μmol m⁻² s⁻¹ light in excised etiolated cotyledons of cucumber ( Cucumis sativus L. cv. Aonagajibai). A short dark-pretreatment (6 h) with BA eliminated the lag phase of ALA accumulation. The rate of ALA accumulation during the steady-state phase in cotyledons pretreated with BA for a long period (14 h) was considerably accelerated compared to that in cotyledons pretreated with BA for 6 h. The rate of ALA accumulation during the lag phase was saturated at a very low light fluence (<1.4 μmol m⁻² s⁻¹) in both BA-pretreated and water-control cotyledons. The steady-state rate of ALA accumulation increased with increasing light fluence up to 43 μmol m⁻² s⁻¹ (parallel to that of Chl formation) in water-control cotyledons. In contrast, in cotyledons pretreated with BA for either 6 or 14 h, the steady-state rate reached a plateau at a very low light fluence. Based on the above results together with our finding that there are two components of Chl formation (M. Dei, 1984. Physiol. Plant. 62: 521–526) possible intermediate steps of Chl biosynthesis pathway affected by BA and light intensity are discussed.     

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.     

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.     

Benzyladenine-induced stimulation of two components of chlorophyII formation in etiolated cucumber cotyledons

Excised etiolated cotyledons of cucumber ( Cucumis sativus L. cv. Aonagajibai) were continuously irradiated under various intensities of white light. The rate of chlorophyII (Chi) formation during the lag phase reaches a plateau at fluence rates above 1.4 urmol m⁻² s⁻¹. This is true in both water-control and benzyladenine (BA)-pretreated cotyledons. In cotyledons pretreated for 14 h with BA in darkness (in which case, Chl formation is stimulated by BA during both the lag and the steady-state phases), the increase in the steady-state rate of Chl formation with increasing light in tensity is stimulated compared to that of the water control over the range of fluence rates, 0. 25-43 urmol m⁻² s⁻¹. In cotyledons pretreated for 6 h with BA in darkness (only Chl formation during the lag phase is stimulated), only an increase in fluence rate from 0.25 to 1.4 umol m⁻² s⁻¹ causes a higher increase in the Chl formation in the BA-treated cotyledons than in the water control. The time course of Chl formation shows that the BA-induced late-appearing effect (stimulation of the steady-state rate) is almost absent at low intensity illumination, but the BA-induced fast-appearing effect (elimination of the lag phase) is effective at all intensities. From this evidence, the Chl-forming process apparently consists of two components, whose periods of operation or light-intensity requirements are different. BA stimulates the rates of the respective components in both the fast and the late-appearing effects.     

Effect of the hypocotyl hook on greening in etiolated cucumber cotyledons

Four-day-old etiolated cucumber cotyledons (Cucumis sativus, L.) were excised and allowed to green in white fluorescent light at 28 C. Cotyledons excised with a full hypocotyl hook exhibited a lag phase of 1 hour before entering the rapid greening phase, whereas cotyledons excised without any hypocotyl hook exhibited a lag phase of 6 hours. Cotyledons excised with varying lengths of hypocotyl hook accumulated chlorophyll roughly in proportion to the hook length. When cotyledons were excised with a full hook and were partially or totally shielded from light with aluminum foil, the samples with the hook covered accumulated more chlorophyll than the wholly exposed samples. The samples with the cotyledons covered showed no net accumulation of chlorophyll irrespective of hook's exposure to light. These data suggest the contribution of some factor or factors by the hypocotyl hook which reduce the lag phase during greening.     

Phytochrome-mediated development of glycine oxidation by mitochondria in cucumber cotyledons

The development of glycine oxidation activity in mitochondria in etiolated cucumber ( Cucumis sativus L., cv. Shinfushinari) cotyledons is regulated by phytochrome. This conclusion is based on two lines of evidence. 1. The oxidation activity was increased by continuous illumination of far-red light. 2. It was also increased by brief red light pulses, the effect of which was reversed by brief far-red light pulses. The light-induced increase in glycine oxidation and in glycine decarboxylase (EC 2.1.2.10) activity in the cotyledons was inhibited by cycloheximide, but not by chloramphenicol. While glycine oxidation activity continued to increase during light-illumination for 20 h, malate oxidation activity increased for 6 to 8 h after illumination and decreased thereafter. This transient increase in the activity of malate oxidation was also induced by red light pulses and the effect of the red light was reversed by far-red light pulses.     

外植体龄和蔗糖浓度对黄瓜子叶产生毛状根的影响

研究了外植体龄和蔗糖浓度对发根农杆菌 R160 1介导黄瓜子叶产生毛状根的影响。结果表明 :以 10 d龄子叶外植体产生毛状根的能力最强 ,外植体的毛状根诱导率为 88.89% ;2 0 d龄子叶外植体的毛状根诱导率比 10 d龄子叶外植体降低 52 .86% ;30 d龄子叶外植体感染发根农杆菌R160 1后不产生毛状根。感染发根农杆菌 R160 1的黄瓜子叶外植体在不加或加 1%蔗糖的 MS培养基上的毛状根诱导率极低 ,子叶外植体逐渐变黄 ,腐烂 ;而培养基中添加 2 % ,3%或 4 %的蔗糖可显著提高子叶外植体的毛状根诱导率。黄瓜毛状根能在无外源植物激素的 MS液体培养基中自主生长。冠瘿碱的高压纸电泳检测表明毛状根已被 Ri T- DNA转化     

Casein kinase activity in etiolated Cucumis sativus cotyledons

Two calcium- and light-dependent protein kinases have been reported in etiolated Cucumis sativus cotyledons (Vidal et al. 2007). In the present work, we studied casein kinase (CK) activity in etiolated cucumber cotyledons of in-gel and in vitro kinase assays, using specific CK inhibitors, and ATP and GTP as phosphate donors. Two proteins with CK activity were detected in both casein gels and autophosphorylation assays. One of them, with a molecular mass of approximately 36 kDa, showed biochemical CK1 characteristics: it was inhibited by specific CK1 inhibitors and only used ATP as phosphate donor. The second, with a molecular mass of approximately 38 kDa, had CK2 characteristics; it used both ATP and GTP as phosphate donors, was inhibited by all specific CK2 inhibitors, and was recognized by a polyclonal antibody directed against the α catalytic subunit of a CK2 from tobacco. The kinase activity of the CK2 detected in etiolated cucumber cotyledons showed circadian rhythmicity in both in vitro and in-gel casein phosphorylation and in autophosphorylation assays. Thus, our results suggest that the CK2 of approximately 38 kDa could be related to the circadian oscillator of C. sativus cotyledons.     

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.     

A double enhancement of greening in the cotyledons of cucumber seedlings by excision and red light

Cotyledons excised without the hypocotyl hook from 6-day-old etiolated cucumber ( Cucumis sativus L. var. Elem) seedlings accumulated a significantly higher amount of chlorophyll than cotyledons excised with hooks or intact cotyledons. It was found that maximum ehancement of greening was achieved after 2 h of dark incubation following excision. Pretreatments with red light effected an additive rise in chlorophyll level in subsequent white light after a dark incubation, suggesting that the effects of excision and phytochrome on greening act independently. Etiolated seedlings were variously dissected before greening and it was found that enhancement occurred only when cotyledons were excised at the level of the hypocotyl hook or above it. Similar results were obtained when the dissected plants were pre-treated with red light.     

Effect of cinnamate on nitrate reductase activity in isolated cucumber cotyledons

The effect of cinnamic acid on in vivo nitrate reductase activity and protein content in cucumber cotyledons was studied. Cinnamate increased in vivo nitrate reductase activity and also the total protein content at lower concentrations (0.01–0.1 mM). Higher concentration, however, proved inhibitory. The effect of cinnamate on nitrate reductase activity has been discussed.     

Evaluating UV-B effects and EDU protection in cucumber leaves using fluorescence images and fluorescence emission spectra

A newly developed laboratory fluorescence imaging system was used to obtain fluorescence images (FImage) of freshly excised cucumber (Cucumis sativus L.) leaves in spectral bands centered in the blue (F450), green (F550), red (F680), and far-red (F730) spectral regions that resulted from a broad-band (300-400 nm) excitation source centered at 360 nm. Means of relative fluorescence intensities (RFI) from these spectral fluorescence images were compared with spectral fluorescence emission data obtained from excitation wavelengths at 280 nm (280EX, 300-550 nm) and 380 nm (380EX, 400-800 nm) of dimethyl sulfoxide (DMSO) extracts from these leaves. All three fluorescence data types (FImage, 280EX, 380EX) were used to assess ultraviolet-B (UV-B, 280-320 nm) induced physiological changes and the possible use of N-[2-(2-oxo-1-imidazolidinyl) ethyl]-N′-phenylurea (EDU or ethylenediurea) as a chemical protectant against UV-B damage. Plants exhibited well known foliar growth and pigment responses to UV-B exposure (e.g., increased UV-B absorbing compounds and decreased leaf area, chlorophyll a content; and and lower chlorophyll a/b and chlorophyll/carotenoid pigment ratios). Since EDU alone had no effect on foliar variables, there was no evidence that EDU afforded protection against UV-B. Instead, EDU augmented some UV-B effects when provided in conjunction with UV-B irradiation (e.g., reductions in the chlorophyll/carotenoid ratio, total photosynthetic pigments, and chlorophyll b content).Relative fluorescence intensities (RFI) in the longer visible wavelengths (green, red, and far-red) were uncorrelated for comparisons between the FImage and 380EX data sets. However, blue and green RFI were significantly correlated (0.8r0.6; P ≤0.002) for comparisons between FImage and 280EX data sets. UV-B treatment caused an increase in blue RFI (e.g., F450) in both images and 280EX measurements. One explanation is that the UV-B excitation of both 280EX and FImage stimulates processes that produce excess blue fluorescence. The molecules that produce the excess blue fluorescence in both the 280EX and the Fimage data are different electron transfer agents that operate in parallel. For FImage, the UV excitation penetrates leaf surface layers to stimulate fluorescence from compounds in mesophyll and epidermal tissues (as occurs for the extracts of leaf discs), whereas emissions captured at longer, less energetic wavelengths, were primarily from the epidermal layer. UV-B irradiated leaves showed much greater heteorgeneity of RFI in both the green (F550_FImag) and the red (F680_FImag) bands than unirradiated leaves; this was true irrespective of EDU treatment.Although qualitative responses in individual bands differed between FImage and 380EX data, similar results were obtained in the detection of UV-B induced effects when the red/green and blue/far-red fluorescence ratios of these data were compared. The red/green ratio (either F680/F550_FImage or F675/F525_380EX) was lower for UV-B exposed plants in both images and 380EX data. UV-B exposure also significantly enhanced the blue/far-red ratio of images (F450/F740_FImage) and the comparable 380EX ratio (F450/F730_380EX) for the combined UV-B/EDU group. The far-red/red ratios were not useful in separating treatment effects in images or 380EX. Although comparable ratios were not available in 280EX data, the UV/blue ratio (F315/F420_280EX) was substantially reduced by UV-B exposure and was inversely related to total photosynthetic pigment content. These findings suggest that the red/green ratio (FImage, 380EX) and the UV/blue ratio (280EX) may be as useful as the blue/far-red ratio (380EX) reported previously in detection of UV-B stress. Furthermore, the results support the validity of the imaging technique as a non-destructive diagnostic tool for assessing UV-B stress damage in plants.     

Isolation and characterization of a cytokinin-binding protein from cucumber cotyledons

A protein which binds specifically to [³H]-zeatin has been isolated from cucumber cotyledons by chromatographic techniques. Its binding to [³H]-zeatin was inhibited remarkably by the addition of non-radioactive cytokinins and the order of inhibition was zeatin > -zeatin riboside > N⁶-(²-isopentenyl)adenine > N⁶-(²-isopentenyl)adenosine > N⁶-benzyl-adenosine > kinetin riboside. This protein behaved as a soluble protein with an apparent molecular size of 43,000 daltons on gel filtration through calibrated Sephadex G-100 column. The dissociation constant, K_d, of the protein-zeatin complex was about 4 × 10^–7 M.     

The influence of various plant hormones on the stimulatory action of red light on greening in excised etiolated cotyledons of cucumber

In etiolated cotyledons of cucumber (Cucumis sativus L. cv.Aonagajibai), preillumination with a short pulse of red lighteliminated the lag phase and stimulated Chl formation in thelinear phase during subsequent continuous illumination. Thistwofold effect was clearly distinguishable by varying the lengthsof the dark periods after preillumination. Pretreatment of excisedcotyledons with BA, GA₃ ethylene, or IAA stimulated Chl formationduring subsequent illumination. The effects of BA and GA₃ seemedindependent of both kinds of red light effects. However, ethyleneand IAA interacted with red light in increasing the rate ofChl formation during the linear phase. This may provide someclue to the red light action on Chl formation through its probablestimulation of ethylene production. (Received June 7, 1978; )     

Influence of electrolytes on growth, phototropism, nutation and surface potential in etiolated cucumber seedlings

A variety of electrolytes (10-30 mol m-3) increased the relative growth rate of etiolated cucumber (Cucumis sativus L. cv. Burpee's Pickler) hypocotyls by 20-50% relative to water-only controls. The nonelectrolyte mannitol inhibited growth by 10%. All salts tested were effective, regardless of chemical composition or valence. Measurements of cell-sap osmolality ruled out an osmotic mechanism for the growth stimulation by electrolytes. This, and the nonspecificity of the response, indicate that an electrical property of the solutions was responsible for their growth-stimulating activity. Measurements of surface electrical potential supported this reasoning. Treatment with electrolytes also enhanced nutation and altered the pattern of phototropic curvature development. A novel analytical method for quantitating these effects on growth was developed. The evidence indicates that electrolytes influence an electrophysiological parameter that is involved in the control of cell expansion and the coordination of growth underlying tropisms and nutations.