Isolation and Identification of Nicotinic Acid as a Flower-Inducing Factor in Lemna

Extracts of flowering plants of the long-day plant Lemna gibbaG3 and the short-day plants Lemna paucicostata 151 and 381 weretested on L. paucicostata 151 for flower-inducing activity.Crude extracts failed to show any activity but after severalpurification steps three fractions with flower-inducing activitywere obtained. One fraction obtained from all three plants wasshown to contain nicotinic acid by mass spectroscopic and NMRspectroscopic analyses. These results raise the possibilitythat nicotinic acid may act to influence the flowering processin Lemna. (Received August 28, 1985; Accepted October 29, 1985)     

Effect of Heat-Treated Noradrenaline on Flowering in Lemna

In a previous study, heat-treated noradrenaline induced flowering of the short-day plant Lemna paucicostata Hegelmaier 151. In the present study, we found that heat-treated noradrenaline also had flower-inducing activity in short-day L. paucicostata strains 441 and 6746 and in long-day L. gibba strain G3. The flower-inducing activity in these plants was enhanced by water homogenates of eggplant (Solanum melongena L.).     

Isolation and Identification of Lutein from Lemna paucicostata 381 as an Inhibitor of Benzoic Acid-induced Flowering in Lemna paucicostata 151

Efforts were made to isolate flower-inhibitory substances from extracts of the short-day plant Lemna paucicostata 381. Lemna paucicostata 151, which was used in the bioassay, exhibits poor flowering in response to the photoperiod, but flowers profusely in response to benzoic acid. Therefore, only those substances that inhibit benzoic acid-induced flowering were studied. Several fractions obtained by silica gel column chromatography exhibited flower-inhibitory activity when tested on L. paucicostata 151. After several purification steps, one of the active principles was identified as lutein by MS, UV and NMR spectroscopic analyses. Lutein and its isomer zeaxanthin inhibited benzoic acid-induced flowering in both L. paucicostata 151 and 381.     

Die Wirkung von Lithium und ADP auf die Phytochromsteuerung der Blütenbildung

Summary Lithium seems to diminish the action of phytochrome on the flower induction: under long-day conditions 10^-3 M LiCl inhibits flower production in the long-day plant Lemna gibba Gl. However, under the same conditions flowering in the short-day plant Lemna perpusilla 6746 is stimulated by 10^-3 M LiCl.ADP seems to enhance the action of phytochrome on flower induction: under long-day conditions 10^-4 M ADP promotes the flowering in Lemna gibba G1 (Kandeler, 1969a, b). However, it inhibits flowering in Lemna perpusilla 6746.It is assumed that Li⁺ acts as antagonist to K⁺ (see Eberius). Since K⁺ and ADP are also cofactors for the phytochrome regulation of membrane potential (Tanada, 1968b), it is assumed that the regulation of membrane properties is the general physiological primary reaction of phytochrome.     

Comparison of the Ability of Salicylic Acid and Ferricyanide to Induce Flowering in the Long-day Plant, Lemna Gibba G3

Both salicylic acid and ferricyanide induce flowering in the long-day plant Lemna gibba L., strain G3 under 8- and 9-hour short days. In both cases the effect is daylength-dependent. Salicylic acid is ineffective on daylengths less than 8 hours and ferricyanide is ineffective on daylengths less than 5 hours. When both substances are given together a striking synergistic interaction is observed, and some flowering is obtained on daylengths as short as 3 hours. However, even with the optimal combinations the flower-inducing effect remains daylength-dependent.     

Salicylic acid is involved in the regulation of starvation stress-induced flowering in Lemna paucicostata

The short-day plant, Lemna paucicostata (synonym Lemna aequinoctialis), was induced to flower when cultured in tap water without any additional nutrition under non-inductive long-day conditions. Flowering occurred in all three of the tested strains, and strain 6746 was the most sensitive to the starvation stress conditions. For each strain, the stress-induced flowering response was weaker than that induced by short-day treatment, and the stress-induced flowering of strain 6746 was completely inhibited by aminooxyacetic acid and l-2-aminooxy-3-phenylpropionic acid, which are inhibitors of phenylalanine ammonia-lyase. Significantly higher amounts of endogenous salicylic acid (SA) were detected in the fronds that flowered under the poor-nutrition conditions than in the vegetative fronds cultured under nutrition conditions, and exogenously applied SA promoted the flowering response. The results indicate that endogenous SA plays a role in the regulation of stress-induced flowering.     

Inhibition of Flower Induction by Some Inhibitors of Protease in the Short-day Plant Lemna paucicostata 6746 and the Long-day Plant Lemna gibba G3

Four inhibitors of proteases, namely, bestatin, diisopropylfluorophosphate, elastatinal and p-toluenesulfonyl-L-lysinechloromethyl ketone hydrochloride, were examined for their effectson flowering of a short-day plant Lemna paucicostata 6746 anda long-day plant Lemna gibba G3. Each of the inhibitors greatlyinhibited the flowering of Lemna paucicostata 6746 that is normallyinduced by nitrogen deficiency. Bestatin or elastatinal givenonly during the first half of the culture period inhibited theflowering more clearly than when each was given during the latterhalf, suggesting that they inhibited the inductive process(es)involved in flowering rather than development of flower buds.Bestatin or elastatinal greatly inhibited the flowering of Lemnapaucicostata 6746 induced by photoperiodic stimulus, ferricyanideand continuous far-red light. Simultaneous application of thesetwo inhibitors was more effective in the inhibition of photoperiodicallyinduced and ferricyanide-induced flowering than was each inhibitoralone. They also completely inhibited the photoperiodic floweringof Lemna gibba G3. These results suggest that the inductionor activation of some proteases, probably followed by the degradationof some protein(s), is necessary for the induction of floweringin both these plants. (Received November 21, 1989; Accepted February 19, 1990)     

Identification of the Flower-inducing Factor Isolated from Aphid Honeydew as being Salicylic Acid

Honeydew produced by the aphid Dactynotus ambrosiae when feeding on flowering or vegetative plants of the short day plant Xanthium strumarium contains an active substance capable of inducing flowering in the long day plant Lemna gibba G3. In the present study, this active material has been identified as salicylic acid through the use of gas-liquid chromatography and mass, infrared, and ultraviolet spectrometry. Authentic salicylic acid induces flowering in L. gibba G3 under strict short day conditions with an optimal response at about 5.6 μm. The possible significance of salicylic acid for the control of flowering in Xanthium or L. gibba G3 is discussed.     

Effects of some metabolic inhibitors on flowering of Lemna gibba G3, a long-day duckweed

Flowering of Lemna gibba G₃, a long-day duckweed, was inhibitedby adding CuSO₄, AgNO₃, HgCl₂, Na₂WO₄ or iodoacetamide to themedium at the concentrations inducing long-day flowering inLemna paucicostata 6746, a short-day duckweed. This suggeststhat these metabolic inhibitors affected the photoperiodic sensitivityrather than directly affecting flower initiation. Ferricyanidepromoted flowering in both of these short-day and long-day duckweeds. (Received July 7, 1977; )     

Evaluation of evidence for the presence of indole-3-acetic acid in marine algae

Summary Excretory products from aphids feeding on flowering and vegetative Xanthium plants contained a cytokinin active in the soybean-callus assay. No cytokinin activity was found in honeydew collected from aphids feeding on a chemically defined diet. Soybean-callus assays indicated that honeydew from aphids feeding on flowering plants contained more cytokinin than honeydew from vegetative plants.     

Flower-Inducing Activity of Exogenous Lysine in Lemna paucicostata 151 Cultured on Nitrogen-Rich Medium

Flower-inducing activity of lysine was examined in Lemna paucicostata151, a weakly responsive short-day plant, cultured on nitrogen-richmedium under long-day conditions (continuous light). Lemna paucicostata151 was homogenized in a solution of lysine and the homogenatewas centrifuged. The supernatant (lysine-containing extract)was added to nitrogen-rich medium after passage through a membranefilter to give various concentrations of lysine in the medium.Flowering was induced in plants grown for six days on mediumthat contained lysine at concentrations above 0.25 µM.In plants grown on medium that contained 1 µM lysine,a significant flowering response was observed on the fourthday of culture. However, the flower-inducing activity of lysinedisappeared when the lysine-containing extract was added tothe medium and the medium was then autoclaved, suggesting thatthe active principle is unstable to autoclaving. Among derivativesof lysine tested, lysine hydroxamate had the highest flower-inducingactivity and lysyl lysine had almost same activity as that oflysine. When added to the medium without homogenization withplant material, lysine and lysyl lysine had flower-inducingactivity but lysine hydroxamate did not induce flowering. (Received April 26, 1993; Accepted November 8, 1993)     

CnFL,a FLORICAULA/LEAFY homolog in Chrysanthemum nankingense is dramatically upregulated in induced shoot apical meristems

A FLORICOULA/LEAFY (FLO/LFY) homolog CnFL gene was isolated from the flower bud of a short-day Chrysanthemum nankingense plant during the flowering induction period. The sequence of CnFL contained a 1236 bp open reading frame that encoded a putative protein of 412 amino acids, which shared 68.67% homology with FLO and 60.23% homology with LFY. The spatial expression patterns of CnFL were analyzed using quantitative real-time PCR in different tissues and the apical meristem during short-day flowering induction. The results indicated that CnFL was highly expressed in the flower buds while its expression was also detected in the stems, young leaves, and vegetative apical meristem. During the period of flowering induction, CnFL expression increased remarkably and reached its highest levels after 15 days of induction. The expression of CnFL in the apical shoot after short-day flowering induction indicates that CnFL regulation is controlled primarily by photoperiodicity.     

Isolation and Identification of L-Pipecolic Acid and Nicotinamide as Flower-Inducing Substances in Lemna

Flower-inducing factors in extracts of flowering Lemna gibbaG3 were investigated using Lemna paucicostata 151 as the bioassayplant. Fractions with flower-inducing activity were obtainedafter several purification steps. Two of the active substanceswere identified as L-pipecolic acid and nicotinamide by MS andNMR analyses. Both L-pipecolic acid and nicotinamide exhibited flower-inducingactivity in L. paucicostata 151 grown on one-tenth-strengthM medium containing benzyladenine, the former being ten timesas active as the latter. L-Pipecolic acid was active even at0.01 ppm (7.8 ? 10^–8 M). The effect of L-pipecolic acidon flowering strongly depended upon the presence of exogenouscytokinin. The coexistence of cytokinin seemed to be essentialfor L-pipecolic acid to exhibit flower-inducing activity. Incontrast, the effect of nicotinamide on flowering was basicallythe same as that of benzoic acid or nicotinic acid. (Received February 9, 1987; Accepted May 21, 1987)     

pH Dependence of the Copper Effect on Flowering, Growth and Chlorophyll Content in Lemna paucicostata 6746

The short-day plant Lemna paucicostata 6746 took up the sameamount of copper from the medium whether the pH of the mediumwas 4.1 or 5.1. At pH 4.1, an addition of copper to the mediumresulted in an unchanged chlorophyll content, a somewhat reducedgrowth rate and a substantial induction of long-day flowering.By contrast, at pH 5.1 the same copper concentration causeda reduction in the chlorophyll content and strong inhibitionof growth, but it did not induce any long-day flowering. (Received June 14, 1982; Accepted October 14, 1982)     

Flowering Responses of the Long-day Plant Lemna gibba G3

Lemna gibba L., strain G3, exhibits a qualitative long-day flowering response with a critical daylength on a 24-hour cycle of about 10 hours. Evidence is presented that the onset of daughter frond formation in a given frond inhibits the activity of the flowering meristem. Consequently, flower induction can only occur in fronds smaller than about 0.05 to 0.07 mm long. Although a minimum of 1 long day seems to be sufficient to induce the formation of flower primordia, at least 6 long days are required to obtain mature flowers since long days are also required for the early stages of flower development. The critical night length on 24, 48 and 72-hour cycles is respectively 14, 16, and 18 to 22 hours. The close similarity between the critical night length for the different cycle lengths is explained in terms of an inhibitory effect of darkness both on flower initiation and flower development. A 10-hour dark period is more inhibitory to flowering on a 36-hour cycle than on 24, 48, 60 or 72-hour cycles. It is suggested that darkness inhibits flowering through the formation of a light-labile flower inhibitor which acts to inhibit the functioning of the flowering stimulus.     

Effect of Low-intensity Red and Far-red Light and High-intensity White Light on the Flowering Response of the Long-day Plant Lemna gibba G3

The long-day plant Lemna gibba L., strain G3 exhibits a relatively low sensitivity to short, white-light interruptions given during the dark period of a short-day cycle. However, the plants are fairly sensitive to low-intensity red light treatments given during a 15-hour dark period on the third day of a 2LD-(9L:15D)-2LD-7SD schedule. Far-red light is almost as effective as red light, and attempts to reverse the red light response with subsequent far-red light treatments have not been successful. Blue light proved to be without effect. When plants were grown on a 48-hour cycle with 15 minutes of red light every 4 hours during the dark period, the critical daylength was reduced from about 32 hours to slightly less than 12 hours.

Continuous red light induced a fairly good flowering response. However, as little as 1 hour of white light each day gave a significant improvement in the flowering response over that of the continuous red light control. White light of 600 to 700 ft-c was more effective than white light of 60 to 70 ft-c. The white light was much more effective when divided into 2 equal exposures given 8 to 12 hours apart. These results suggest an increase in light sensitivity with regard to flower induction about 8 to 10 hours after the start of the light period.

     

THE INDUCTION OF FLOWERING IN NICOTIANA. II. PHOTOPERIODIC ALTERATION OF THE CHLOROGENIC ACID CONCENTRATION

Chlorogenic acid and its 2 isomers, believed to be the 4– and 5–0-caffeoylquinic acids, have been extracted from leaves of photoperiodic species of Nicotiana, separated by column chromatography (gradient elution) and measured quantitatively during the course of photoperiodic induction. In both N. tabacum cultivar ‘Maryland Mammoth’ (a short-day plant) and N. sylveslris (a long-day plant), the change of the meristem from the vegetative to the flowering shape is preceded by a rise in the chlorogenic acid content of the leaves. During the differentiation of the flower primordia in the shoot apex, there is a drop in the concentration of the chlorogenic acid in the leaves, which is especially marked in the short-day species. The levels of the 2 isomers decrease also at that time. There is no change in the ratios of the 3 caffeoylquinic acids during photoperiodic induction. In both the long- and the short-day species, the 3-isomer (chlorogenic acid) is present at the highest concentration. In the short-day species, there is more of the 4-isomer than of the 5-isomer, whereas in the long-day species, the level of the 5-isomer equals or surpasses that of the 4–0-caffeoylquinic acid.     

Cyclic Mononucleotide-Gibberellin Interactions in the Flowering and Proliferation of the Long-Day Plant Lemna gibba G3

3′,5′-cAMP stimulates flowering of Lemna gibba G3 under inductive long-day conditions and enhances flower onset. 3′,5′-cAMP has no influence on frond production. 2′,3′-cGMP increases markedly the proliferation of fronds and inhibits flowering. The effect of 2′,3′-cGMP on frond multiplication is photoperiodically independent; under short-day conditions 2′,3′-cGMP replaces in fact the requirement for inductive long-day conditions. 2′,3′-cGMP increases the total amount of DNA per frond. This accumulation of DNA precedes by 2–3 days the 2′,3′-cGMP related increase in frond formation. The results are discussed in the light of the hypothesis that the active cyclic mononucleotides exert their effects on multiplication and flowering at the level of DNA.     

Induction of flowering by cytokinins in a short-day plant, Lemna paucicostata

Lemna paucicostata, normally a short-day plant, can be inducedto flower under long-day conditions by providing a cytokininin a medium containing a high level of ferric citrate (5 x 10^–4M).Interestingly, when a cytokinin and EDDHA are present togetherin the medium, flowering is induced even at low levels of iron(10^–5 and 5 x 10^–5M ferric citrate). However, inthe absence of a cytokinin, flowering takes place only undershort days. (Received September 30, 1968; )     

Characterization of the potato MADS-box gene STMADS16 and expression analysis in tobacco transgenic plants

A new MADS-box gene, STMADS16, has been cloned in Solanum tuberosum L. that is expressed in all vegetative tissues of the plant, mainly in the stem, but not in flower organs. STMADS16 expression is established early during vegetative development and is not regulated by light. Sequence similarity besides the spatial and temporal expression patterns allow to define a novel MADS-box subfamily comprising STMADS16 and the gene STMADS11. Expression of the STMADS16 sense cDNA under the control of the 35S cauliflower mosaic virus promoter modifies the inflorescence structure by increasing both internode length and flower proliferation of the inflorescence meristems, and confers vegetative features to the flower. Moreover, STMADS16 ectopic expression overcomes the increase in flowering time and node number produced under short-day photoperiod, while the flowering time is not affected in long-day conditions. These results are discussed in terms of a possible role for STMADS16 in promoting vegetative development.