Phytohormonal changes in greening and senescing intact cotyledons of oilseed rape and pumpkin: influence of the growth retardant BAS 111 ˙˙ W

The triazole growth retardant BAS 111‥W delayed senescence in cotyledons of pumpkin ( Cucurbita maxima L. cv. Gelbe genetzte Riesenmelone) and stimulated chlorophyll synthesis in greening cotyledons of oilseed rape ( Brassica napus L. cv. Petranova) seedlings. In both cases, changes of phytohormone-like substances in the cotyledons were analyzed on a fresh weight basis by immunoassay.
After soil treatment with increasing retardant concentrations, a close correlation was observed in senescing cotyledons of pumpkin between a reduced loss in total chlorophyll and increasing levels of dihydrozeatin riboside (DZR) and trans -zeatin riboside (ZR)-type cytokinins. In contrast, the levels of isopentenyladenosine (IPA)-type cytokinins, 3-indoleacetic acid (IAA) and gibberellin (GA) did not change significantly. The levels of abscisic acid (ABA) were slightly elevated at low retardant concentrations but dropped considerably below those of controls at higher doses. Consequently, the molar ratio of total cytokinin to ABA content changed from approximately 1:40 in controls (50% of initial chlorophyll) to 1:3 in cotyledons treated with 3 mg BAS 111‥W plant⁻¹ (85% of initial chlorophyll). These changes, together with the known reduction of ethylene production by plants treated with nitrogen-heterocyclic retardants, can explain the delayed senescence in pumpkin cotyledons. Likewise, when etiolated, BAS 111‥W-treated seedlings of oilseed rape were exposed to light, the stimulation of chlorophyll synthesis in the cotyledons was accompanied by an accumulation of DZR- and, particularly, ZR-type cytokinins and IAA. In contrast, GA and ABA contents decreased slightly. We conclude that the influence of BAS 111‥W on cytokinin levels might be involved in the stimulation of greening.     

Comparative Effects of Abscisic Acid and Methyl Jasmonate in Greening Cucumber Cotyledons and Its Application to a Bioassay for Abscisic Acid

In the cucumber cotyledon greening system, abscisic acid (ABA)is more potent inhibitor of growth and chlorophyll productionand/or destruction than methyl jasmonate (MJ). The inhibitoryeffect of ABA is apparent within 5 h of exposure to light whereasMJ is ineffective at all concentrations tested (10^–6 to10^–3 M). With longer exposure of 24 h to light and inthe presence of 40 mM KC1, the inhibition of growth and chlorophyllproduction by ABA is more pronounced whereas MJ does not inhibitgrowth and inhibits chlorophyll levels only at the higher concentrations.Both benzyladenine and KC1 stimulate chlorophyll productionand increase the fresh weights of the cucumber cotyledons andeither one of these compounds reverse the inhibitory effectsof ABA. Inhibition of chlorophyll production by ABA is valuableas a simple and rapid bioassay for abscisic acid. Under similarconditions cytokinins increase chlorophyll production and hencethe cucumber cotyledon greening system is ideal for detectingboth ABA which inhibits and cytokinins which stimulate chlorophyllproduction. (Received December 6, 1982; Accepted June 9, 1983)     

Inter-organ Control of Greening in Etiolated Cucumber Cotyledons

Inter-organ control of greening in etiolated cucumber (Cucumis sativus L. cv. Aonagajibae) cotyledons was investigated. Four- or six-day-old excised or intact etiolated cucumber cotyledons were illuminated under aerobic conditions. Excised cotyledons without hypocotyl hooks produced chlorophyll without a prolonged lag phase and the rate of chlorophyll formation was not depressed if they were illuminated immediately after excision. If the excised cotyledons were incubated in the dark before illumination, chlorophyll accumulation at the end of 6 h of continuous illumination was remarkably lowered as the dark period lengthened, especially in 6-day-old cotyledons. The rapid loss of chlorophyll-forming capacity of excised cotyledons during dark preincubation suggests a stimulatory effect of hypocotyls on the greening in cotyledons. The treatment of excised cotyledons with bleeding sap in the dark for 18 h resulted in the promotion of chlorophyll formation during subsequent continuous illumination. Partial fractionation of bleeding sap with organic solvents and paper chromatography indicates that the active substances showed the same behavior as cytokinins. These facts add weight to the hypothesis that cytokinins from roots flow into cotyledons and stimulate greening.     

Effects of gibberellic acid and zeatin on the growth response of cucumber cotyledons

In contrast to cytokinin, gibberellic acid has no effect on the growth of the isolated cucumber cotyledon in darkness. Like cytokinins in light, gibberellic acid causes increases in fresh weight and area of the cotyledon at concentrations from 10^–7 to 10^–3 M. Radiant energies in the blue, red, and far-red regions of the spectrum all induce the growth responses to gibberellic acid. The effect of the far red is greater than that of the red, which is greater than that of the blue. Gibberellic acid is ineffective in the promotion of chlorophyll development, whereas cytokinins are very effective. Although zeatin and gibberellic acid both cause an increase in fresh weight and area of the cotyledons in light, they appear to have entirely separate actions in the growth responses.     

Changes in endogenous levels of three cytokinins during development of excised watermelon cotyledons

We have determined by an immunological method the endogenous levels of three cytokinins: dihydrozeatin riboside (DHZR), transzeatin riboside (tZR) and isope-ntenyladenosine (IPA) in watermelon (Citrullus vulgaris Schrad., cv. Fairfax) cotyledons that were either attached to the seedling or excised from the seed after imbibition and then grown on water. Both seedlings and cotyledons were grown either for 5 days in continuous light or for 3 days in the dark and 2 days in light. Our aim was to verify whether endogenous cytokinin levels are lower in excised than in attached cotyledons as could be expected since excised cotyledons are much more sensitive to exogenous cytokinin application. The levels of the three cytokinins were very low immediately after imbibition, but gradually increased during the following days. They were higher in excised cotyledons after 5 days of culture in the dark than in cotyledons of the same age that had developed on the seedling. Dihydrozeatin riboside was by far the most abundant of the three cytokinins in cotyledons as well as in the hypocotyl and the root.
Irradiation reduced the level of DHZR, negating the concept that light promotes cotyledon development by increasing endogenous cytokinins. Transzeatin riboside when supplied exogenously, stimulated cotyledon development at a lower concentration than the other two cytokinins. Exogenous supply of ben-zyladenine (BA) induced a strong increase in endogenous tZR already after 24 h.     

Untersuchungen über rnasen in kotyledonen von nachgereiften und dormantenagrostemma githago-samen

Activities of RNasea were studied in cotyledons of dormant and afterripenedAgrostemma githago seeds. Activity of RNase increases during imbibition and germination. This increase in activity cannot be observed in variants which are not able to germinate (dormant seeds and seeds blocked by higher temperature). The development of RNase activities during germination cannot be inhibited by concentrations of cycloheximide or actinomycine D completely preventing phosphatase synthesis. These results may be indicative for the assumption that the increase of RNase during germination is caused by enzyme activation and not by enzyme synthesis. Cytokinins and a combination of cycloheximide and gibberellic acid stimulate the activity of RNase in dormant cotyledons, whereas neither cycloheximide nor gibberellic acid, applicated by themselves, show any effect. Cytokinins and gibberellic acid do not influence the activity of RNase of afterripened cotyledons, abscisic acid inhibits the increase of enzyme activity. There are characteristic changes in the pattern of RNases during germination revealed by polyacrylamide gel electrophoresis. The increase in RNase activity of dormant cotyledons caused by cytokinins is accompanied by obvious changes in the RNase pattern on polyacrylamide gel. Treating dormant cotyledons with cytokinins dormancy is partially overcome. In consequence of the application of cytokinins the differences in the electrophoretic RNase pattern between dormant and afterripened cotyledons can be nearly balanced.     

Effect of 2,4-dichlorophenoxyacetic acid on the structure and function of developing chloroplasts

Dark-grown radish seedlings (Raphanus sativus L.) were sprayed with 10^-3 mol·l^-1 2,4-dichlorophenoxyacetic acid and then were exposed to a 14:10 light: dark cycle. Cotyledon samples from these seedlings and unsprayed controls were taken for electron microscopy, chlorophyll determinations, and photosynthetic rate measurements at regular intervals for 72 h. A normal development of etioplasts to chloroplasts with formation of typical grana-fret work system was observed in the control cotyledons. The chloroplasts in the 2,4-D-treated cotyledons showed changes in the organization of the grana thylakoids; these thylakoids being more appressed to each other than in the controls. The chlorophyll content of treated plants was less than that of controls but the rate of chlorophyll biosynthesis was unaffected. The photosynthetic rate/mg chlorophyll was considerably higher for treated plants suggesting that 2,4-D treatment resulted in decreased size of the photosynthetic unit.     

Effects of Light Quality and Norflurazon on the Formation of Plastid Pigments in Cotyledons of Pinus sylvestris

The effects of different light qualities and a special inhibitor of carotenoid biosynthesis on formation of plastid pigments of cotyledons of Pinus sylvestris were studied. The experimental results indicate: 1. The rate of synthesis of carotenoids in far-red light is relatively higher than that of chlorophylls, on the contrary in red light the rate of chlorophyll synthesis is higher. 2. When biosynthesis of carotenoids is inhibited, in white light the rate of total chlorophyll synthesis reduced with similar proportion. Accumulation of chlorophyll, however, is relatively much more than that of carotenoids. The highest molar ratio of chlorophyll/carotenoids is approximately 10.0. This implicates that chlorophyll and carotenoid synthesis proceed with certain independence. 3. After 4h exposure of strong white light of 9 day-old pine seedlings grown with 10-5 mol 1-1 norflurazon in farred light, contents of carotenoids and total, chlorophyll of cotyledons increase. Chlorophyll a biosynthesis promoted by light is higher than photooxidation of the pigment.     

Involvement of cytokinins in the germination of chick-pea seeds

Eight cytokinins detected in germinated chick-pea (Cicer arietinum L. var. Castellana) seeds were first present in the embryonic axes but appeared in the cotyledons after 12h of germination. The cytokinins detected in the cotyledons originate in the embryonic axes, but no passage of these substances from the cotyledons to the axes was detected, except when the seeds were treated with red light.It is concluded that the role played by the embryonic axis in mobilizating the main reserves of the cotyledons is mainly effected through these cytokinins. Both natural and synthetic cytokinins exert an important regulatory role in the hydrolysis of reserve proteins and calcium could be involved as an intermediate.Abbreviations BA benzyladenine - cot. cotyledon - (diH)Z dihydrozeatin - (diH)ZR dihydrozeatin riboside - GZR glycosyl zeatin riboside - 2iP 277-1 - iPA 277-2 riboside - Kin kinetin - Z zeatin - ZG zeatin glucoside - ZR zeatin riboside     

Axial control of cotyledon expansion and chlorophyll formation in germinating lupin seeds

The embryonic axis plays a critical role in inducing expansion and chlorophyll formation in cotyledons of germinating yellow lupin seed, and cytokinins would appear to constitute an important part of the stimulus emanating from the axis. Externally applied cytokinins (6-benzylaminopurine >;>; zeatin >; dihydrozeatin) completely replaced the embryonic axis while gibberellic acid was ineffective. The two optical isomers of dihydrozeatin differed in activity, the unnatural form (R) being more active than the natural form (S). The cotyledons appeared to respond mrkedly to supplied cytokinin only after reaching a certain stage of development (3–5 days after the start of germination), reflecting development of sensitivity to cytokinin or of an ability to utilize the primary response evoked by cytokins.     

光质和除草剂norflurazon对欧洲赤松子叶质体色素形成的影响

本文研究了不同光质和类胡萝卜素专一抑制剂 norflurazon 对欧洲赤松(Pinussylvestris)子叶叶绿体色素形成的影响,所得结果如下:1.在远红光下,类胡萝卜素相对合成速率大于叶绿素的合成速率,而在红光下恰恰相反。2.在白光下,当类胡萝卜素合成受抑制时,叶绿素的合成速率也有所降低。但是叶绿素相对积累量比类胡萝卜素大得多,叶绿素与类胡萝卜素的分子比增大到10:1,说明这两种色素的合成与积累有相当大的独立性。3.把连续在远红光下类胡萝卜素合成受抑制(含量为正常幼苗的30%)的松苗,移入强白光下4小时后,其总叶绿素和类胡萝卜素都有增加,表明只要有少量类胡萝卜素存在,光对色素合成的促进仍大于光氧化破坏。     

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.     

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.     

Action of red and far red light on ribosome formation in cabbage seedlings

The action of light on ribosome formation was examined in the cabbage seedlings, a system extensively used in the studies of anthocyanin synthesis. Ribosomes were extracted 18 h after the beginning of the irradiation and separated by sucrose gradient centrifugation. In the cotyledons of dark-grown cabbage seedlings, a brief red light induces an increase both in total ribosomes and in the fraction present as polysomes; the effect of red light is reversed by far red light, indicating the involvement of phytochrome in polysome formation in cabbage seedlings. Continuous red and continuous far red light are about equally effective in bringing about an increase of total ribosomes and of the polysome fraction. Streptomycin, which inhibits chlorophyll synthesis and chloroplast development, and enhances anthocyanin synthesis in cabbage seedlings, causes a decrease of total ribosomes and of the fraction present as polysomes. In hypocotyls, the red-far red reversibility is evident only for the polysome content and streptomycin does not decrease the polysome/monosomo ratio as it does in cotyledons.     

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.     

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.     

The Effect of Phytohormones on Chlorophyll(ide), Protochlorophyll(ide) and Carotenoid Formation in Greening Dark Grown Wheat Leaves

The influence of phytohormones on chlorophyll and carotenoid formation during the greening of irradiated dark grown wheat leaves (Triticum aestivum L. cv. Starke II Weibull) was studied. Leaves were floated on solutions of abscisic acid, gibberellic acid and kinetin for 24 h. The chlorophyll and carotenoid contents were determined during a subsequent period of 48 h of continuous irradiation. Leaves treated with abscisic acid showed a longer lag phase and a lower rate of accumulation of chlorophyll as compared to the control than did leaves treated with gibberellic acid and kinetin. The carotenoid content was low both in leaves treated with abscisic acid and in those treated with gibberellic acid. Treatment with abscisic acid lowered the protochlorophyllide regeneration after a saturating light flash while gibberellic acid as well as kinetin had no effect. The influence of ABA was partly dependent on an increase of the wounded part of the cut leaf segments. The accumulation of protochlorophyllide in leaves treated with δ-aminolevulinic acid was not affected by the different hormonal treatments. These results suggest that the main effect of abscisic acid is probably outside the chloroplast, i.e. on the formation or transport of δ-aminolevulinic acid.     

Transgenic periwinkle tissues overproducing cytokinins do not accumulate enhanced levels of indole alkaloids

Cytokinins play a critical role in several aspects of plant growth, metabolism and development. We previously reported that adding cytokinins to the culture medium of a suspension-cultured cell line of periwinkle increased the accumulation of indole alkaloids, and our aim was to compare the effect of exogenously-applied cytokinins with that of elevated levels of endogenous cytokinins on indole alkaloid production. We used an Agrobacterium tumefaciens strain yielding a plasmid with the isopentenyl transferase gene under control of its own promoter. Co-culture of suspension cells with the bacteria caused a severe stress response leading to cell necrosis. Therefore, we failed to transform this material but we succeeded in transforming periwinkle cotyledons. We verified that callus cultures generated from the isopentenyl transferase-transgenic cotyledons accumulated high cytokinin concentrations. Treating normal callus cultures (generated from untransformed cotyledons) with cytokinins enhanced their alkaloid production. By contrast, the enhanced concentration of endogenous cytokinins in transgenic calli did not increase indole alkaloid production, and thus did not mimic the effect of exogenously-applied cytokinins. Hypothesis to explain this discrepancy are discussed.Abbreviations 2,4-d 2,4-dichlorophenoxyacetic acid - DW dry cell mass - ipt isopentenyl transferase gene     

Effects of wounding on cytokinin activity in cucumber cotyledons

Three known physiological responses to exogenous cytokinins were measured in wounded and nonwounded cotyledons from cucumber (Cucumis sativus L. cv Marketer) seedlings grown in darkness. Enhanced cell division, chlorophyll formation, and cotyledon expansion were detected in wounded cotyledons. The data suggest that wounding enhances endogenous cytokinin activity.     

Cadmium-induced changes in the composition and structure of the light-harvesting chlorophyll a/b protein complex II in radish cotyledons

Five-day-old etiolated radish ( Raphanux salivux L. cv. Saxa) seedlings exposed to white continuous light in the presence of Cd²⁺ (0.2 mM) showed characteristic changes in their light-harvesting chlorophyll a/b protein complex II after 48 h of greening. The content of its oligomeric supramolecular form was greatly diminished with a concomitant increase in the level of the monomer. The isolation of highly purified light-harvesting chlorophyll a/b protein complex II from control and Cd²⁺ treated radish cotyledons and a detailed analysis of its structure and composition revealed that first of all, Cd²⁺ altered the content of the specific phosphatidylglycerol fatty acid - trans -Δ³-hexadecenoic acid, widely accepted as a component responsible for the oligomerization of this chlorophyll-protein complex. This fatty acid in the thylakoid membrane phosphatidylglycerol pool seems to be very sensitive to different environmental stresses lowering its content, which indicates the vital significance of this component for the supramolecular organization and proper functioning of the light-harvesting chlorophyll a/b protein complex II.