Effects of some SH-inhibitors and EDTA on flowering in Lemna perpusilla 6746

Lemna perpusilla 6746, a short-day duckweed, flowered undercontinuous illumination on M-sucrose medium containing CuSO₄,AgNO₃ and HgCl₂, which are SH-inhibitors. The optimum concentrationsof CuSO₄, AgNO₃ and HgCl₂ were 5, 1 and 20 µM, respectively.Other metal ions tested were ineffective, but at least two otherSHinhibitors, potassium ferricyanide and iodoacetamide, alsoinduced long-day flowering at the concentrations of 0.1-1 µM. Adding 50 µM EDTA to the medium prevented the effect ofcupric ion, but not that of other SH-inhibitors. EDTA at 200µM induced some long-day flowering when added to a mediumwith no SH-inhibitors. It also permitted some flowering whenadded together with cupric ion, and accelerated flowering inthe presence of the other SHinhibitors listed above. EDTA andSH-inhibitor effects appeared to be additive. (Received May 25, 1973; )     

Long-day flowering of Lemna perpusilla 6746 in Mo-deficient medium

Lemna perpusilla 6746, a short-day duckweed, flowered undercontinuous illumination if some of the SH inhibitors, such ascyanide or tungstate were added to the M-sucrose medium. Theeffect of tungstate was not overcome by simultaneous applicationof molybdate, but deletion of the Mo from the medium was enoughto induce the long-day flowering. In vivo assay of nitrate reductaseactivity suggested that nitrate reduction was not inhibitedby tungstate, CuSO₄ or AgNO₃ which induced longday flowering.The possibility was suggested that suppression of some Mo-requiringprocess other than nitrate reduction brings about the long-dayflowering in this plant. (Received November 12, 1975; )     

Flowering of the long-day plant, Lemna gibba, under short-day schedules composed of red and far-red light

Flowering in Lemna gibba, a long-day duckweed, can be inducedunder a short-day condition when the photoperiodic regimes areR₇FR₃ (7 hr red followed by 3 hr far-red), R₅FR₅ and R₃FR₇.This indicates the necessity of a proper balance between redand far-red effects for flowering. The flowering induced bythese regimes is inhibited by a brief exposure to red givenat the start of darkness and this inhibition is reversed bysubsequent exposure to far-red. Thus, the red/far-red reversibleeffect is found only at the beginning of darkness for floweringof L. gibba. However, flowering of L. gibba is promoted by a red light breakgiven near the middle of a 14 hr dark period. The promotiveeffect is not reversed by subsequent exposure to far-red, i.e.,the effect of the red break converts from inhibition to promotionas when given later in the dark period, which suggests the involvementof a timing mechanism. (Received July 21, 1973; )     

Rhythm in potassium uptake by a duckweed, Lemna gibba G3

The potassium uptake activity of the "flow-medium culture" ofa long-day duckweed, Lemna gibba G3, followed a circadian rhythmwhich persisted for more than 5 days under continuous light.The period of the rhythm was about 25 hr under 3000 lux at 26?Cand was slightly over-compensated against temperature, Q₁₀ beinga little less than 1.0. The amplitude of the rhythm was dependenton light intensity, and there was no potassium uptake in thedark. Magnesium uptake was affected by the potassium movementand showed circadian rhythmicity with a small amplitude underconditions where the potassium uptake was already saturated.Calcium uptake did not show any obvious rhythm. In Contrastto L. gibba, a short-day duckweed L. perpusilla 6746 displayedcircadian rhythm of potassium uptake only in the dark and notin the light. This rhythm did not persist beyond the secondcycle. (Received June 13, 1978; )     

Flowering and Endogenous Levels of Plant Hormones in Lemna Species

The occurrence and endogenous level of various plant hormoneswere measured for the short-day plants Lemna paucicostata 151and 381 and the long-day plant Lemna gibba G3 to determine whetherany of them are involved in the photoperiodic control of flowering.ABA, IAA, GA₁, GA₂₉, GA₃₄, GA₅₃, trans- and cis-zeatin, trans-and cis-ribosyl zeatin, N⁶-(²-isopentenyl) adenine and N⁶-(²-isopentenyl)adenosine were definitely detected in each species, while GA₄was only detected in L. gibba G3 and GA₂₀ was only detectedin L. paucicostata 151. The endogenous levels of ABA and IAAwere in the range of 1–7 ng/g fr wt and were not significantlydifferent in vegetative and flowering plants. The endogenousgibberellin levels were generally higher in Lemna grown underlong-day rather than short-day conditions. The endogenous cytokininlevels were almost the same in both flowering and vegetativeplants of L. paucicostata 151 and 381. In L. gibba G3, however,the level of cis-ribosyl zeatin, N⁶-(²-isopentenyl) adenineand N⁶-(²-sopentenyl) adenosine were higher in vegetative thanin flowering plants. These results indicate that there is not necessarily a directrelation between endogenous plant hormone levels and flowering,and that the chemical basis for the photoperiodic control offlowering cannot be explained solely by changes in hormone levels.The possibility remains, however, that one or more of the planthormones has some influence of secondary importance on the floweringprocess in Lemna. (Received January 29, 1986; Accepted July 12, 1986)     

Significance of timing and number of short-day cycles for initiation and subsequent development of floral buds in Lemna perpusilla 6746

Time courses of the flowering process in Lemna perpusilla 6746,a short-day plant, were studied using selected fronds in relationto the order of emergence. Various numbers of short-day cycleswere interposed during continuous light. The floral buds evokedby short-day cycles developed to a floral stage determined bythe number of short-day cycles 3 days after the transfer toconsecutive long-day cycles, but aborted on the next day, regardlessof the floral stages. At least 2 long-day cycles were requiredfor the abortion of the floral buds at any stage of development.These results suggest the importance of the number of short-daycycles not only for initiation but also for development of floralbuds. (Received February 4, 1977; )     

Suppression of long-day flowering by nitrogenous compounds in Lemna perpusilla 6746

The long-day flowering of Lemna perpusilla 6746 on an SH inhibitor-containingmedium was inhibited by the application of ammonium ion to themedium. Ammonium ion not only suppressed long-day flowering,but relieved the inhibition of vegetative growth caused by theinhibitors. Nitrite, casamino acids, glutamine and asparaginehad a similar effect, suggesting that the inhibition of long-dayflowering by ammonium ion is not a direct effect of the ion.Most amino acids, with the exception of glutamate and aspartate,also prevented long-day flowering, but their effects on vegetativegrowth varied. No qualitative differences in amino acid compositionwere observed among plants cultured on media containing nitrate,nitrite or NH4₄NO₃as the sole nitrogen source. However, theamounts of free and total amino acids werehigher in plants fedwith nitrite or NH₄NO₃ than in those fed with nitrate. Thissuggests that the inhibition of long-day flowering by ammoniumand nitrite can be ascribed to increased nitrogen metabolism. Though decreased activity by SH inhibitors of nitrate reductase(SH enzyme) is assumed to result in long-day flowering by loweringthe nitrogen metabolism, lowering the nitrogen level in M mediumdid not bring about floral initiation in the absence of SH inhibitors. (Received January 7, 1975; )     

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)     

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)     

Induction of flowering in Lemna gibba G3 under short-day conditions

In the presence of the chelating agent EDDHA, long-day duckweedLemna gibba G3 was induced to flower under a short-day scheduleof 9 hr of light and 15 hr of darkness in a 24-hr cycle. Weconcluded that EDDHA creates effects very similar to those ofsalicylic acid. When EDDHA or salicylic acid was added to thenutrient medium in combination with BA, flowering was inducedeven under conditions of 8 hr of light and 16 hr of darkness.Under a photoperiod of 9 hr, BA markedly enhanced the effectof EDDHA as well as salicylic acid. On the other hand, BA alonewas ineffective as far as flowering was concerned. By quantitativeinteractions, BA seems to complement the modifying effect ofEDDHA or salicylic acid on flowering in this duckweed strain. (Received June 25, 1976; )     

Physiological Structure of the Critical Photoperiod of Lemna paucicostata 6746

The critical day length or the length of the critical photoperiodfor the short-day duckweed, Lemna paucicostata 6746 is about14 h (Oota 1983). With the min-SD method, I found that not thewhole critical photoperiod but only its initial and terminalbrief fractions, called respectively the LI- and L2-phases,need be illuminated for a given day to be a noninductive day.Inversely, the darkened LI- and/or L2-phase makes the day inductive.The rest of the day can be either darkened or illuminated withoutmodifying the inductive or noninductive property of the day. Thus, the physiological structure of the critical photoperiodfor L. paucicostata 6746 closely resembles that of the criticalphotoperiod for the long-day duckweed, L. gibba G3 (Oota 1981). (Received May 24, 1983; Accepted September 21, 1983)     

EFFECTS OF GROWTH SUBSTANCES ON FROND AND FLOWER PRODUCTION IN LEMNA GIBBA G3

Frond and flower production in a long-day duckweed, Lemna gibbaG3, growing under different photoperiodic conditions in presenceand absence of varied concentrations of applied IAA, KIN andGA was investigated. The predominant actions of IAA, KIN and GA were revealed tobe respectively the depression of flowering, the promotion offrond multiplication and the enhancement of flowering. The rateof increase in FL % as an index of the concentration of floralstimulus in the tissues was curtailed greatly by IAA, to a lesserextent by KIN and little by GA. GA at 10^–5 M apparentlyreduced the critical day length (12 hr) and the induction period(48 hr) by 2 and 4 hr, respectively. No vegetative growth waspromoted by KIN in the light. On the basis of these and relevant findings the sites of actionof the growth substances examined in the flowering process ofthe duckweed were suggested. (Received May 30, 1965; )     

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; )     

Uptake of uridine by a long-day duckweed, Lemna gibba G3

Uptake of uridine by a long-day duckweed, Lemna gibba G₃ wasexamined. Km and Vmax for uptake were in the range of 1 to 2x10^–5 M and of 5 to 10 x10^–8 moles/g fresh weight/2hr, respectively. Uptake rate depended on temperature, and theoptimum pH was 5.0. Uridine uptake was competitively inhibitedby some compounds structurally analogous to uridine. However,the activity of uridine kinase was not affected by these compounds,except for cytidine. Uridine uptake was inhibited by metabolicinhibitors, in which uridine taken up was left unconverted toother forms, especially in the presence of DNP. These resultssuggest that uridine was taken up into the duckweed celb bya specific transport system and immediately phosphorylated byuridine kinase. Phosphorylation of uridine was not associatedwith the uridine transport reaction. (Received November 15, 1976; )     

Specific interactions in the physiology of flowering and gibbosity of Lemna gibba G3

Fronds of Lemna gibba G3 became conspicuously gibbous when ethrel,an ethylenereleasing compound, was added to the nutrient medium.Maximal gibbosity was obtained at ethrel concentrations of 1µg/ml and higher. Unlike the chelating agent, EDDHA, whichcauses profuse flowering and markedly gibbous fronds under long-dayconditions, ethrel did not affect flowering. In the presenceof an optimal concentration of EDDHA (10 µ/ml), ethreleven significantly inhibited flowering and caused developmentof excessively gibbous fronds. Autoclaved gibberellic acid specifically negated the ethreleffect as it does that of EDDHA. Three decomposition productsof GA₃, allogibberic acid, epiallogibberic acid and gibbericacid, also nullified flowering and gibbosity in the presenceof EDDHA. A fourth decomposition product of GA₃, epigibbericacid, inhibited gibbosity but hardly affected flowering. Salicylic acid was confirmed to affect flowering and gibbosityin L. gibba G3. However, contrary to an earlier report, it didnot induce flowering under short-day conditions. (Received January 10, 1976; )     

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)     

CHANGE IN SENSITIVITY TO DARK BREAK AND ITS RELATION TO FLORAL INDUCTION IN LONG-DAY DUCKWEED, LEMNA GIBBA G3

Change in dark-sensitivity of a long-day duckweed, Lemna, gibbaG3, under varied photoperiodic conditions was studied. When photoperiod shorter than 12 hr was given to phase I (thefirst half of the first cycle) or a short-day was given as thefirst cycle, the sensitive system to light .interruption appearedin phase II (the second half of the first cycle), and the inhibitionof flowering caused by darkened phase III (the first half ofthe second cycle) could be alleviated by light interruptiongiven to darkened phase III. In other words, the phase in whichthe sensitive system was most active was different from thephase in which this system actually worked. This system couldalso enhance the function of the light period given to the firsthalf of the next cycle. Probably owing to this mechanism, thelong-day plant can flower when the nyctoperiod of short-dayregime to which the plant is subjected is interrupted by light. (Received July 3, 1967; )     

DNA synthesis as related to the reappearance of "light interruption rhythm" in a long-day duckweed, Lemna gibba G3

DNA synthesis in the light perturbation period and its relationto the reappearance, due to light perturbation, of once faded-out"light interruption rhythm" in a long-day duckweed, Lemna gibbaG 3, were studied. After long continuous darkness, the duckweedincorporated ³H-thymidine into both nuclear and satellite DNA_sunder a light condition, but into satellite DNA alone undera dark condition. The number of dividing cells in frond epidermisincreased in proportion to the length of the light perturbationperiod. This increase was inhibited by 5-fluorodeoxyuridine.From these and previous results we conclude that nuclear DNAnewly synthesized in the light is intimately related with thereappearance of the rhythm. (Received June 15, 1970; )     

Floral Induction in a Photoperiodically Neutral Duckweed, Lemna paucicostata Strain LP6: Role of Chelating Agents and Iron

Lemna paucicostata, strain LP₆, does not ordinarily flower underany photoperiodic schedule, when grown in the modified Bonner-Devirianmedium supplemented with 10^–4 M EDTA and 1% sucrose (thisis a medium which is otherwise satisfactory for short day inductionof flowering of other strains of this duckweed). However, when the ferric citrate concentration in the culturemedium containing EDTA was raised 10-fold over that in the normalmedium, a low but significant flowering could be initiated inthis duckweed, irrespective of the length of the photoperiod.A similar flowering response was obtained when ferric citratewas replaced by ferrous sulphate or ferric chloride, therebyindicating that the inductive effect of higher level of ferriccitrate on flowering in strain LP₆ is due to its iron component. Some flowering in this strain could be induced even in mediumcontaining normal level of iron, provided the level of EDTA,itself, was raised to 5?10^–4 (5% flowering) or to 10^–3M (12% flowering), but replacement of EDTA by EDDHA led to trulyremarkable effects. With EDDHA, flowering could be induced at very high levels (90%)under all photoperiodic regimes tried. Floral initiation couldbe obtained even with 10^–6 M EDDHA, though the optimallevel ranged from 5?10^–6 to 10^–5 M. (Received October 4, 1985; Accepted June 26, 1986)     

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)