Evidence against involvement of circadian floral rhythm in the critical daylength measurement in Lemna gibba G3

Using the min-LD method, light requirements of the L1- and L2-phasesof L. gibba G3 were found to be satisfied by only 5 min illuminationgiven respectively from CT 0:00 to 0:05 and from CT 11:55 to12:00. This rigorous time sense was displayed without any alterationeven in the presence of iron reagents, e.g., 10^–5 M o-phenanthroline,10^–5M,'-dipyridyl and 10–6 M kinetin, which completely eliminatedcircadian rhythmicity in reproductive (flower production) aswell as vegetative (frond production) response to a light pulsescanning a continuous dark period. Circadian rhythms of metabolicactivities, e.g., active K⁺ ion uptake and respiratory CO₂ output,were not changed at all by the iron reagents. These and relevantresults suggested that in this long-day duckweed, the circadianoscillator, probably located in the meristem and sensitive toiron deficiency, only modulates the frond and flower productionin the meristem and is not related to the critical daylengthmeasurement. (Received December 18, 1978; )     

Gibberellin-EDDHA interaction in flowering and gibbosity of Lemna gibba G3

The effect of gibberellic acid (GA₃), in the presence of EDDHA,on the flowering and gibbosity of Lemna gibba G3 was studied.At 10 ppm and at higher concentrations of GA₃ the EDDHA-effect,i.e. profuse flowering and conspicuously gibbous fronds, wascompletely nullified. (Received July 15, 1974; )     

Spectral dependences of flowering in Lemna perpusilla and L. gibba

Floral induction in Lemna perpusilla and L. gibba was determinedunder continuous irradiation with monochromatic light in spectralranges from 396 to 765 nm. In the former it was induced underwavelengths from about 400 to 550 nm and longer than 700 nm,while in the latter with wavelengths near 400 nm and from about550 to 650 nm. The patterns of these spectral dependences werenearly mirror images and corresponded to the P_fr level in thephotostationary states of phytochrome. (Received December 3, 1974; )     

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; )     

Removal of the sugar inhibition of flowering in Lemna gibba G3 by catecholamines

DL-Epinephrine (10^–8–10^–7 M), DL-norepinephrine(10⁶ M) and DL-isoproterenol (10^–8–10^–6 M)alleviated floral inhibition due to 1% of sucrose, in Lemnagibba G3. The induction period extended by sucrose was curtailedby epinephrine, frond multiplication enhanced by the sugar beingleft unaltered. The pattern of action of catecholamines appearedto be very similar to that of cAMP. DL-Epinephrine, however,was ineffective in the presence of 10^–7 M DL-propranololwhich affected neither flower nor frond production by itself.Quabain and nicotinic acid also nullified the epinephrine actionon duckweed flowering. These and other relevant findings supportthe hypothesis that the cAMP-adenyl cyclase system participatesin the processes of flower induction in this long-day plant. (Received August 21, 1973; )     

Further studies on the diurnal rhythm of uridine incorporation into RNA in the long-day duckweed, Lemna gibba G3

Using the long-day duckweed Lemna gibba G3, the changes in theactivities of RNA synthesis in isolated nuclei and chloroplastsand of the reaction prerequisite for the incorporation of exogenousuridine into RNA were examined. When the duckweed was exposedto either a light-dark cycle or to continuous light, the activityof RNA synthesis in the nuclear and chloroplast fractions changeddiurnally and reached its highest levels during the night phase.The changes coincided with uridine incorporation into RNA invivo. However, the amount of radioactive uridine taken up intothe acid-soluble fraction remained unchanged during the wholeday. The proportion of radioactivity incorporated into phosphorylateduridine compounds as well as UTP+UDP to the radioactivity inthis fraction remained constant. Thus, the diurnal rhythm ofuridine incorporation into RNA was related to the diurnal rhythmof RNA synthesis in isolated nuclei and chloroplasts. The loweractivity of uridine incorporation into RNA under continuousdarkness may be determined by the activity of RNA synthesisin nuclei and chloroplasts as well as the uptake rate of uridineinto the duckweed cells, not by the activity of its phosphorylation. (Received August 30, 1977; )     

Shortening of the period of the circadian rhythm by a K+ channel blocker, tetraethylammonium, in the duckweed Lemna gibba G3

The period of the circadian rhythm of uptake of K+ by Lemna gibba strain G3 (duckweed), cultured in a flow medium, was shortened by continuous application of 0.5 mM tetraethylammonium chloride (TEA), which functions as a K+ channel blocker in both animal and plant cells. Other quaternary ammonium ions shortened the period of the rhythm in direct proportion to their ability to block K+ channels in cells of the nervous system. Ca2+ appears to be specific in its ability to antagonize this action of TEA and of its analogues.     

The relationship between red and far-red light on flowering of the long-day plant, Lemna gibba

Lemna gibba, a long-day duckweed, can be induced to flower whenthe 10 hr white photoperiod is extended with red or far-redlight. The 10 hr red photoperiod is also effective in inducingflowering when followed by a far-red extension, but a red extensionis ineffective. When 2 hr of far-red light are given immediately after the 10hr red photoperiod, the following red as well as the far-redextension can induce flowering, indicating that the 2 hr far-redlight plays an important role as a starting factor for induction.This red or far-red extension is effectively replaced by a redbreak given at a proper time in the darkness which follows the2 hr far-red light as the starting factor. The effect of thered break in not cancelled by subsequent exposure to far-red,which synergistically promotes flowering. However, a red break given immediately after a proper periodof far-red extension further promotes flowering. The phase sensitiveto the red break coincides with that sensitive to the red breakgiven in darkness. The effect of the red break is reversed bysubsequent exposure to far-red, contrary to the effect of thered break in darkness. Using these results, relation between red and far-red lighton flowering in L. gibba is discussed. (Received July 17, 1971; )     

Maintenance of high Pfr-level in the dark period in relation to flowering in Lemna gibba G3

The relative Pfr-level in a long-day duckweed, Lemna gibba G3,was estimated by the null response method. The null % R value(% R in a R/FR-mixture that provides a null flowering response.This value was assumed to indicate the endogenous Pfr-levelof the duckweed.) remained high during the initial hours ofthe 15 hr nyctoperiod then decreased rapidly, if a 12 or 33hr photoperiod preceded the nyctoperiod. The null % R valuedropped immediately after the start of the 15 hr nyctoperiodsubsequent to a 1 or 24 hr photoperiod. Thus, the duration ofthe maintenance of a high Pfr-level changed rhythmically dependingon the length of the preceding photoperiod. Nyctoperiods ofup to 9 hr following a 12 hr photoperiod hardly affected flowering,but nyctoperiods given after a 24 hr photoperiod suppressedflowering in proportion to the length of the period. The Pfr-levelin the nyctoperiod, therefore, seems to be important for flowering,and phytochrome change, as a function of the length of photoperiod,may serve as a photoperiodic timer. Although floral responseto interruption with R or FR changed with the application period,the difference in response between R-treated and FR-treatedplants was relatively constant during a 15 hr nyctoperiod combinedwith a photoperiod of any length other than 1 hr. Apparently,the floral response to the R or FR pulse was regulated by ashift in the Pfr-level caused by the light pulse. (Received April 2, 1979; )     

Diurnal rhythm of nuclear RNA polymerase I activity in a duckweed, Lemna gibba G3, under continuous light conditions

The diurnal change of nuclear RNA polymerases I and II was examinedin a longday duckweed, Lemna gibba G3, under continuous lightconditions. RNA synthesis in crude nuclei was dramatically stimulatedby addition of the exogenous RNA polymerase of Escherichia coli,but not by the addition of calf thymus DNA. Treatment of crudenuclei with the supernatant fractions after precipitation ofthe nuclei decreased the RNA synthetic activity of the nucleiirrespective of the preparation time of both fractions. RNApolymerase I activity in crude nuclei, which was determinedin the presence of -amanitin at a low concentration of KCl,exhibited a diurnal rhythm but RNA polymerase II activity, whichwas presumed to be a portion of RNA synthesis inhibited by -amanitinin the presence of a high concentration of KCl, remained constantthroughout the day. Identical results were obtained when bothenzymes were solubilized widi ammonium sulfate and chromatographedon DEAE-Sephadex column. Both activities in the supernatantfraction obtained after precipitation of the nuclei did notchange diurnally. It was concluded, therefore, that the diurnalrhythm of RNA synthetic activity in the crude nuclei is dueto the RNA polymerase I activity and not the RNA polymeraseII activity. (Received August 29, 1978; )     

Diurnal rhythm of uridine incorporation into RNA regulated by two light-perceiving systems in a long-day duckweed, Lemna gibba G3

A long-day duckweed, Lemna gibba G3, was found to be controlledby two lightperceiving systems; a system perceiving a prolonged,high-intensity white light and the phytochrome system, withrespect to the incorporation of radioactive uridine into RNA.When the duckweed was exposed to short or long days, the uridineincorporating activity into RNA changed diurnally reaching itshighest level at 18 hr and its lowest one at 6 hr after thebeginning of a light period. The level of maximum activity rosein proportion to an increase in the length of the light periodup to 12 hr or in light intensity up to 3000 ergs/cm²sec. Thefar-red light termination of the light period resulted in adecrease in uridine incorporation, the extent of which was constantirrespective of the length of the light period. The uridine incorporating activity changed diurnally when theduckweed was exposed to continuous light. The period lengthof the rhythm was circadian and was constant over a temperaturerange of 16° to 30°C. (Received September 1, 1975; )     

Interaction of naphthol with EDDHA/salicylic acid in flowering and gibbosity of Lemna gibba G3

Flowering and gibbosity in Lemna gibba G3, as enhanced or inducedby optimal concentrations of salicylic acid or EDDHA, was specificallyinhibited by 10 µg/ml and higher concentrations of ß-naphthol.These effects of ß-naphthol are similar to those ofbreakdown products of GA_s. (Received March 20, 1978; )     

Photoinhibition of photosynthesis: effect of O2 and selective excitation of the photosystems in intact Lemna gibba plants

Intact Lemna gibba plants were photoinhibited under anaerobic conditions on illumination with monochromatic light which selectively excited the photosystems. Photoinhibition was less when PS 1 was excited and greatest when mainly PS 2 was excited, which suggests that PS 2 was most damaged by photoinhibition induced in complete absence of O₂ and CO₂.The illumination of plants with monochromatic light exciting PS 1, at different O₂ concentrations (in CO₂ deficient conditions), showed that PS 1 photoinhibition was increased at the low O₂ concentrations. The damage to PS 1 was more evident at 2% O₂ than at the higher O₂ concentrations.CO₂ as well as O₂ at atmospheric concentration, (air), was necessary for complete protection of the plant from photoinhibition when both photosystems were excited either separately or together.Abbreviations I irradiance, photon fluence rate - PCO photosynthetic carbon oxidation cycle - PCR photosynthetic carbon reduction cycle - PS 1 photosystem 1 - PS 2 photosystem 2     

Investigations on the effects of metal ions and chelating agents on growth and flowering of Lemna gibba G 3

The effect of different chelating agents on growth and floweringof Lemna gibba G 3 was studied in M and HUTNER'S media. Theincorporation of EDDHA and Fe-EDDHA in the media resulted inprofuse flowering and gibbous character of the fronds. However,EDTA was relatively less effective. It was demonstrated thatthe metal which influenced flowering in L. gibba G 3 was mostlikely copper. (Received August 19, 1970; )     

On the rhythm of sensitivity to light interruption in a long-day duckweed, Lemna gibba G 3

1. The rhythm of sensitivity to light interruption in a long-dayduckweed, Lemna gibba G 3, was examined. The rhythm was circadianand was suggested to be under the control of a physiologicalclock. Light given in the trough between the first and secondpeaks reset the rhythm. Five to 7 cycles of non-circadian photoperiodicregimes given entrained the rhythm to external periodicity,and this entrained rhythm persisted even after the plants weretransferred to continuous darkness. 2. It was suggested that the induction period is not determinedby the physiological clock disclosed here, but by a periodicalternation of dark-sensitivity, or by a periodic change inactivity of SS (system sensitive to IPEF, induction period extendingfactor,) as postulated previously. (Received November 28, 1967; )     

Inhibition of flowering in the long-day plant Lemna gibba G3 by Hutner's medium and its reversal by salicylic acid

Flowering in the long-day plant Lemna gibba L., strain G3 ispoor or absent in Hutner's medium even under continuous light,an effect generally ascribed to the ammonium content of themedium. However, flowering is also inhibited in ammonium-freemodifications of Hutner's medium, particularly in the presenceof sucrose, but is restored to high levels by the presence of10 µu salicylic acid. These results link two of the leastunderstood chemical effects in Lemnaceae flowering, and theyprovide a system in which large effects of salicylic acid canbe readily obtained. ²Present address: Lab. of Applied Bot., Fac. of Agric, KyotoUniv., Kyoto 606, Japan. (Received January 27, 1979; )     

Endogenous light-on rhythm in respiration of a long-day duckweed, Lemna gibba G3 II. On basic and rhythmic components of the rhythm

Effects of respiratory substrates (glucose, malate, citrateand pyruvate) and inhibitors (fluoride, iodoacetate, azide andDNP) on the O₂-uptake rhythm in a long-day duckweed,Lemna gibbaG3 in continuous light period were examined. Rates of O₂-uptake at the starting point (6 hr after the beginningof a continuous light period) and at the time of the first peakof the rhythm (18 hr after the beginning of a continuous lightperiod) were equally increased by exogenous substrates. Sensitivityof respiration to fluoride or iodoacetate was almost the sameat the 6th and 18th hr. The O₂-uptake (at the 6th, 18th, 30thand 42nd hr) was increased by DNP by the same amount. Azideat lower concentrations than 5X10^–4 M did not affect O₂-uptakeat the 6th hr, but inhibited uptake at the 18th hr. In the presenceof 5 X 10^–4 M of azide the rates of O₂-uptake at the 18th,30th or 42nd hr were down to the rate at the 6th hr, which wasinsensitive to azide. These results suggest that the O₂-uptakerhythm consists of two components, i.e. the basic respirationwhich is promoted by exogenous substrate, sensitive to DNP andinsensitive to azide; and rhythmic respiration, which is sensitiveto azide, but is not influenced by exogenous substrate and DNP. (Received February 19, 1971; )     

Phase progress under low temperature treatment of the potassium uptake rhythm in a duckweed, Lemna gibba G3

Potassium uptake rhythm in the long-day duckweed Lemna gibbaG3 grown at 26?C disappeared at temperatures below 12?C. However,when the plants were returned to 26?C, the rhythm immediatelyrestarted from circadian time 12 with its normal wave form.Temperature steps from 20 to 30?C or from 30 to 20?C did notmodify the phase of the rhythm, although a step from 15 to 30?Cor from 30 to 15?C evoked a distortion in the wave form withoutintroducing any reproducible phase shift. Various periods of 9 or 4?C given during the subjective dayphase reduced the pace of rhythm progress by 40 or 60%, whilethose given during the subjective night phase did not. Theseresults suggest that the subjective day and night phases arethe energy charge and discharge phases for the underlying oscillator,respectively. Energy fluxes for the oscillators are brieflydiscussed. ¹Present address: National Institute for Basic Biology, Okazaki444, Japan. ²Present address: Aichi Gakuin University, Chikusa, Nagoya 464,Japan. (Received August 25, 1979; )     

Functional conservation and divergence of FVE genes that control flowering time and cold response in rice and Arabidopsis

Recent molecular and genetic studies in rice, a short-day plant, have elucidated both conservation and divergence of photoperiod pathway genes and their regulators. However, the biological roles of rice genes that act within the autonomous pathway are still largely unknown. In order to better understand the function of the autonomous pathway genes in rice, we conducted molecular genetic analyses of OsFVE, a rice gene homologous to Arabidopsis FVE. OsFVE was found to be ubiquitously expressed in vegetative and reproductive organs. Overexpression of OsFVE could rescue the flowering time phenotype of the Arabidopsis fve mutants by up-regulating expression of the SUPPRESSOR OF OVEREXPRESSION OF CO1 (SOC1) and down-regulating FLOWERING LOCUS C (FLC) expression. These results suggest that there may be a conserved function between OsFVE and FVE in the control of flowering time. However, OsFVE overexpression in the fve mutants did not rescue the flowering time phenotype in in relation to the response to intermittent cold treatment.