Effect of L-Pipecolic Acid on Flowering in Lemna paucicostata and Lemna gibba

L-Pipecolic acid was found to be effective in inducing floweringof Lemna paucicostata 151, 381, 441 and 6746, and of Lemna gibbaG3. When the plants were grown on half-strength Hutner's medium,L-pipecolic acid caused profuse flowering of L. paucicostata151 maintained under 9 and 10 h of light daily. In L. paucicostata441 and 6746, L-pipecolic acid had a strong flower-promotingeffect under a near critical photoperiod. In L. paucicostata381, by contrast, L-pipecolic acid had only a very small effecton flowering. In L. gibba G3 substantial promotion of floweringwas observed under continuous light. When one-twentieth-strengthHutner's medium was used as the basic medium, L-pipecolic acidstimulated flowering in all strains of Lemna examined, evenunder continuous light. When L. paucicostata 151 was grown on one-tenth-strength M mediumor one-twentieth-strength Hutner's medium, the flower-inducingactivity of L-pipecolic acid was greatly enhanced by cytokininunder continuous light. However, when this strain was grownwith 9 h of illumination daily, this synergistic effect of cytokininwas only slight. A short-term (even 1-h) treatment with L-pipecolicacid resulted in flowering, suggesting that L-pipecolic acidis involved in the induction of flowering, rather than its evocation.D-Pipecolic acid also had flower-inducing activity, but itsactivity was 50 times lower than that of the L-isomer. (Received January 23, 1992; Accepted March 9, 1992)     

Flower-inducing Effect of Benzoic and Salicylic Acids in Various Strains of Lemna paucicostata and L. minor

The flower-inducing activities of benzoic and salicylic acidsadded to the medium differ with the species (Lemna paucicostataand L. minor), and even with the strains used. The type andpH of the medium used, full or 1/10 strength M medium at pH3.8, 4.4 or 5.1, or 1/2 or 1/20 strength NH₄⁺-free Hutner'smedium at pH 5.0, 6.0 or 7.0, also modify their activity. L.paucicostata, strain 151 is the most sensitive of the strainsused to both benzoic and salicylic acids followed by strain381. Such dramatic flowering responses were not obtained withthe other strains, but even strain 321, reportedly insensitiveto benzoic acid, could be induced to flower by adding benzoicacid to a modification of the medium. Benzoic acid is more effectivethan salicylic acid for all strains of L. paucicostata, butthe contrary is true for two L. minor strains tested. A higherpercentage of flowering is obtained in L. paucicostata in 1/2strength NH₄⁺-free Huter'sn medium than in M medium, exceptfor strain 151. When diluted, both media enhance flowering inall L. paucicostata strains. Generally, a lower concentrationof benzoic acid or salicylic acid is enough to induce floweringwhen the pH of the medium is lower. (Received March 30, 1981; Accepted May 16, 1981)     

The Role of Plant Hormones and Benzoic Acid in Flowering of Lemna paucicostata 151 and 381

The effects of plant hormones on flowering of Lemna paucicostata151 and 381 were investigated when exogenously applied in combinationwith benzoic acid. These strains are very sensitive to benzoicacid and flower readily on application of benzoic acid. Theflower-inducing effect of benzoic acid was strongly modifiedby plant hormones: gibberellins, indole-3-acetic acid and abscisicacid were inhibitory, while cytokinins were promotive (synergistic),suggesting that the balance between endogenous levels of benzoicacid and plant hormones contributes to the regulation of floweringin Lemna. (Received October 6, 1982; Accepted December 23, 1982)     

Flower-inducing Activity of Vitamin K in Lemna paucicostata

Vitamins K₁ K₃ and K₅ induced flowering in Lemna paucicostata151, a short-day plant, cultured in 1/10 strength M medium (1/10M medium) under continuous light, and their activity was greatlyintensified by simultaneous application of benzyladenine. Themost active of these was vitamin K₅ L. paucicostata 6746 ismore sensitive to vitamin K₅ than strain 151, but the effectof vitamin K₅ on strain 6746 was not intensified by benzyladenine.The flower-inducing activity of vitamin K₅ was intensified bythe addition of benzoic acid in both strains and by the additionof copper or ferricyanide in Strain 6746, when these chemicalswere added at such low concentrations that they would scarcelyinduce flowering. In strain 6746, vitamin K₅ added to 1/10 M had little effecton flowering under a subcritical photoperiod, while it clearlyinduced flowering under continuous light. In this strain, vitaminK₅ added to full strength M medium, in which this plant wasmore sensitive to short photoperiods than in 1/10 M medium,did not induce flowering even under continuous light, and wasrather inhibitory under short photoperiods. (Received August 14, 1984; Accepted October 16, 1984)     

The Influence of Nicotinic Acid and Plant Hormones on Flowering in Lemna

Nicotinic acid induces flowering in Lemna paucicostata 151 and381 and Lemna gibba G3 when they are grown in one tenth-strengthM medium under continuous light. For L. paucicostata 151 and381, the simultaneous addition of IAA, GA₃ or ABA to the mediumleads to an inhibition of the flower-inducing effect of nicotinicacid, while zeatin leads to a further stimulation of floweringabove that obtained by nicotinic acid alone. By contrast, inL. gibba G3 all four plant hormones inhibit the nicotinic acid-inducedstimulation of flowering. The effect of nicotinic acid on flowering in all three plantsis strongly daylength dependent when the plants are grown inhalf-strength Hutner's medium. Thus, nicotinic acid causes floweringin L. gibba G3 on continuous light but not on 9L:15D or 10L:14Dregimes. In L. paucicostata 381 nicotinic acid has a small effecton 12L:12D regime, a large effect on a 13L:11D regime and noeffect with daylengths longer than 14 hours, and in L. paucicostata151 nicotinic acid is only effective on daylengths shorter thanabout 11 hours. However, in L. paucicostata 151 and 381 treatmentwith both nicotinic acid and zeatin results in flowering undercontinuous light on half-strength Hutner's medium. Nicotinic acid is present in different Lemna but its concentrationdoes not appear to be influenced by changes in daylength. Thus,flowering clearly cannot be controlled by nicotinic acid actingalone, but the results of this study indicate that nicotinicacid could interact with other factors, possibly including oneor more of the known plant hormones, to influence the floweringprocess in Lemna. (Received August 28, 1985; Accepted October 29, 1985)     

Flower-Inducing Activity of Lysine in Lemna paucicostata 6746

Flowering of Lemna paucicostata 6746, a typical short-day plant,was induced by culture for 96 or 120 h in nitrogen-free mediumunder continuous illumination. To examine the effects of lysine,we homogenized entire plants of L. paucicostata 151 in a solutionof lysine and the supernatant obtained after centrifugationof the homogenate was added to the medium to give various concentrationsof lysine in the medium. Flowering of strain 6746 in nitrogen-freeor nitrogen-deficient culture medium was effectively promotedby the addition of a lysine-containing supernatant to the medium.The suppressive effect of elastatinal, a protease inhibitor,on the induction of flowering was almost completely reversedby the simultaneous application of a lysine-containing supernatantto the medium. During nitrogen-free culture, the level of endogenousfree lysine, expressed on the basis of the amount of total freeamino acids, increased. Lysine-containing supernatants alsoinduced flowering of plants in nitrogen-rich medium under continuousillumination. These findings suggest that endogenous lysineis involved in the induction of flowering in L. paucicostata6746 on nitrogen-free or nitrogen-deficient medium, as it isin the induction of flowering in L. paucicostata 151 (Received July 29, 1996; Accepted November 18, 1996)     

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)     

Induction and Promotion of Flowering by Heat-Treated Catecholamines in Lemna paucicostata

Alkali- and heat-treated norepinephrine, a catecholamine, induced flowering of short-day (SD) plant Lemna paucicostata 151 even under long-day (LD) conditions. Flowering induced with a lower concentration of heat-treated norepinephrine was promoted under SD conditions but inhibited by a night break. The related compounds L-dopa and dopamine also promoted flowering under SD conditions when they were heat-treated.     

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)     

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.).     

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)     

Conversion of Lysine to L-Pipecolic Acid Induces Flowering in Lemna paucicostata 151

The natural occurrence of L-pipecolic acid and conversion oflysine to L-pipecolic acid in Lemna paucicostata 151 were demonstrateddefinitively by GC-MS. The strong flower-inducing activity ofL-pipecolic acid has already been demonstrated. Thus, the presentstudy indicates that the effect of lysine on flowering is mediatedby L-pipecolic acid. (Received June 30, 1997; Accepted August 22, 1997)     

Flower-inducing effects of benzoic acid and some related compounds in Lemna paucicostata 151

Lemna paucicostata 151, collected in Bangkok, Thailand, doesnot flower under any photoperiod when cultured in M-sucrosemedium, but easily flowers when benzoic acid, salicylic acidor some other related compound is added to the medium. Benzoicacid is more effective than salicylic acid. (Received November 20, 1978; )     

Flowering and Endogenous Levels of Benzoic Acid in Lemna Species

The occurrence of benzoic acid, a flower-inducing factor inLemna species, in L. paucicostata strains 151, 381, 321 andL. gibba G3 was established by several purification steps andfinal use of gas liquid chromatography-selected ion monitoring.Quantitative analyses of benzoic acid were made in non-floweringand flowering Lemna to determine differences in levels. Theendogenous level of benzoic acid was shown to vary dependingon culture conditions, but no positive correlation could befound between the endogenous level of benzoic acid and floweringof Lemna. (Received October 6, 1982; Accepted December 23, 1982)     

Role of Salicylic Acid and Benzoic Acid in Flowering of a Photoperiod-Insensitive Strain, Lemna paucicostata LP6

Lemna paucicostata LP6 does not normally flower when grown on basal Bonner-Devirian medium, but substantial flowering is obtained when 10 μm salicylic acid (SA) or benzoic acid is added to the medium. Benzoic acid is somewhat more effective than SA, and the threshold level of both SA and benzoic acid required for flower initiation is reduced as the pH of the medium is lowered to 4.0. SA- or benzoic acid-induced flowering is enhanced in the simultaneous presence of 6-benzylaminopurine (BAP), although BAP per se does not influence flowering in strain LP6. Continuous presence of SA or benzoic acid in the culture medium is essential to obtain maximal flowering. A short-term treatment of the plants (for first 24 h) with 10 μm SA or benzoic acid, followed by culture in the basal medium containing 1 μm BAP can, however, stimulate profuse flowering. Benzoic acid is more effective than SA, and the effect is more pronounced at pH 4 than at 5.5. Thus, under these conditions, flowering is of an inductive nature. Experiments with [¹⁴C]SA and [¹⁴C]benzoic acid have provided evidence that at pH 4 there is relatively more uptake of benzoic acid than SA, thus leading to an increased flowering response. The data obtained from the experiments designed to study the mobility of [¹⁴C]SA and [¹⁴C]-benzoic acid from mother to daughter fronds indicate that there is virtually no mobility of SA or benzoic acid between fronds.     

A Polypeptide That Induces Flowering in Lemna paucicostata at a Very Low Concentration

A flower-inducing substance of high molecular mass, extracted from Lemna paucicostata, was purified to homogeneity. It had characteristics of a polypeptide, with an amino-terminal sequence of Leu-Val-Gly-Asn-Thr, and induced formation of flower buds of L. paucicostata 151 at a concentration of 10⁻¹⁰ molar.     

A Comparative Study on the Short-Day- and the Benzoic Acid-Induced Flowering in Lemna paucicostata

The addition of a high concentration of FeCl₃ to the medium(1/10 strength M medium) slightly inhibited the benzoic acid(BA)-induced flowering of Lemna paucicostata 151 in continuouslight, although it promoted the flowering induced by short-day(SD) conditions. SD treatment had no significant effect on BA-inducedflowering in the medium with a standard concentration of iron,in which this plant hardly responds to SD, but greatly promotedit in the medium containing iron at a high concentration, inwhich this plant clearly responds to SD. The effect of BA seemsto be independent of but additive to the photoperiodic stimulus. In photosensitive strains 6746 and 441, a low concentrationof BA slightly lengthened the critical photoperiod but had noflower-inducing effect under continuous light. Since an optimalconcentration of BA induced flowering even under continuouslight in these strains, this was considered to be due to photoperiod-independentpromotion of flowering rather than shortening of the time-measuringprocess in the photoperiodic reaction. (Received August 19, 1986; Accepted February 21, 1987)     

Growth and flowering of Lemna paucicostata I. General aspects and role of chelating agents in flowering

Lemna paucicostata HEGELM. is normally a short-day plant andflowers only in the presence of a chelating agent (EDTA or EDDHA)in the medium. The plant can be induced to flower even by asingle long night treatment; the flowering percentage, however,increases with further inductive cycles. The length of the criticaldark period depends upon the chelating agent employed in themedium. It is between 10 and 12 hr in the medium containingEDTA and about 8 hr in the EDDHA-supplemented medium. Red lightinterruption in the middle of the dark period—even fora minute—is inhibitory for flowering. Attempts to identify the metal ion(s) chelated reveal that thechelating agents affect flowering by facilitating iron uptake.This is also supported by the fact that the requirement of achelating agent for flowering can be overcome with an excessof iron in the medium. Interestingly, provision of EDDHA andexcess of ferric citrate, together, can bring about floweringeven under long days. ¹Originally HEGELMAIER (1) designated L. paucicostata as a separatespecies; however, THOMPSON (2) and DAUBS (3) have treated itsynonymous to L. perpusilla. More recently, based on physiologicaland chemotaxonomic studies, the distinctiveness of L. paucicostatafrom L. perpusilla has been favoured (4, 5). (Received September 8, 1969; )     

Induction of Flowering in Lemna paucicostata by Dicoumarol and 4-Hydroxycoumarin

Dicoumarol, an antagonist of vitamin K, not only promoted theflower-inducing activity of vitamin K₅, but also induced floweringin Lemna paucicostata when added alone to the medium. The flower-inducingactivity of dicoumarol was comparable to that of benzoic acidand could be greatly intensified by simultaneous applicationof benzyladenine as was the case with benzoic acid. Warfarin,another antagonist of vitamin K, did not induce flowering. 4-Hydroxycoumarin, a component of dicoumarol, was also active,but coumarin and 7-hydroxycoumarin were not. Dicoumarol hadonly a slight flower-inducing activity for strains 441 and 6746under continuous light, but had a strong flower-promoting effectunder a near critical photoperiod. That is, the effect of dicoumarolwas daylength-dependent. (Received April 22, 1985; Accepted August 21, 1985)     

Biological Conversion of Benzoic Acid in Lemna paucicostata 151 and its Relation to Flower Induction

Benzoic acid, known to induce flowering in Lemnaceae, was shownto be converted to four major compunds in Lemna paucicostata151. These compounds were isolated and determined to be N-benzoylaspartate, benzyl 6-O-ßdD-apiofuranosyl-ß-D-glucopyranoside,O-benzoyl isocitrate and O-benzoyl malate. (Received November 2, 1987; Accepted January 23, 1988)