Entrainment of Lemna CO(2) Output Through Phytochrome

The entrainability of Lemna perpusilla CO₂ output by periodic 15 minute red (R) and far red (F) illuminations was tested in low nitrate medium. R every 8 hour, symbolized R/R/R, gives a flat output (no entrainment) as does F/F/F. However, R/—/— (R every 24 hour) entrains rapidly, and F/—/— does so as well, in a similar manner. The effects of R/R/— and F/F/— also resemble each other closely. Entrainment by R/F/F or R/R/F is rapid and indifferent to order of presentation, e.g., R/F/F and F/R/F lead to the same steady state. Typical phytochrome reversals occur, e.g., R,F/F/F holds output flat, while F,R/F/F entrains in the manner of R/F/F. Blue (B) light acts like R in schedules such as B/F/F but like F in schedules such as B/R/R. In all schedules studied, the zeitgeber (primary synchronizer) appears to be the sharpest transition from a low to a high level of far red-absorbing phytochrome that occurs with a 24-hr periodicity. Thus in entrainment, and by inference in photoperiodic timing, the level of far red-absorbing phytochrome at any time may be less significant than the succession of levels of which it is a part, a conclusion that implies the existence of a “scanning” mechanism that compares levels of far red-absorbing phytochrome at various times of day.     

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; )     

Nitrate and the Course of Lemna perpusilla Carbon Dioxide Output under Daily Photoperiodic Cycles

The carbon dioxide output of Lemna perpusilla 6746 on modified Hutner's media under light (dark) cycles of 8 (16) hours is entrained in either of two forms depending on the level of nitrate. With nitrate low or absent, the peak occurs shortly after the start of each dark period, and the minimum, shortly after the start of each light period. With high (about 10 mm) nitrate, an additional or sole major peak occurs about 17 hours after the start of each light period; the minimum does not shift. This generalization probably also holds for cycles at least from 3 (21) to 18 (6). Apparent slow or unstable entrainment in some earlier data was undoubtedly a result of the progressive lowering of nitrate in the medium and, thus, of the nitrate peak. Future work under stable conditions, with or without the nitrate peak, should make possible the more accurate testing of models of entrainment and hypotheses concerning photoperiodic timing in this and related systems.     

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; )     

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; )     

Sulfur-containing Compounds in Lemna perpusilla 6746 Grown at a Range of Sulfate Concentrations

Lemna perpusilla 6746, grown photoautotrophically at a series of sulfate concentrations ranging from 0.32 to 1,000 μm, was labeled to radioisotopic equilibrium with ³⁵SO₄²⁻. Sulfur-containing compounds were isolated and purified from the colonies. Radioactivity in each compound was a measure of the amount of that compound present in the tissue. The following compounds were identified and quantitated: inorganic sulfate, glutathione, homocyst(e)ine, cyst(e)ine, methionine, S-methylmethionine sulfonium, S-adenosylmethionine, S-adenosylhomocysteine, cystathionine, chloroformsoluble (presumed to be sulfolipid), protein cyst(e)ine, and protein methionine. γ-Glutamylcyst(e)ine, erythro- and threo-thiothreonine, and S-methylcysteine were not detected. No volatile ³⁵S compounds were formed during plant growth at 1,000 μm sulfate, nor were significant amounts of ³⁵S compounds excreted into the medium.     

Lack of flowering responses to DGMU in a mutant of Lemna perpusilla 6746

DCMU, in a sucrose supplemented medium, promoted short and longday flowering and inhibited long day frond production of wildtype Lemna perpusilla 6746, but not of mutant strain 1073. Resultssuggest a defect in the mutant that mimics DCMU poisoning. ¹ This work was supported by National Science Foundation GrantGB-12955. (Received December 11, 1972; )     

Influence of Short Term Inhibitor Treatment on the Flowering of Lemna perpusilla 6746

Short term inhibitor treatment can be used to examine the processes that occur during an inductive dark period in the short day plant Lemna perpusilla Torr., strain 6746. Several inhibitors of protein biosynthesis are most effective in reducing per cent flowering when treatment occurs over the 2-hour intervals beginning at the 12th hour or the 14th hour of a 8 (16) photoperiodic cycle. The antimetabolite, 5-fluorouracil, is most effective when treatment occurs early in the dark period. Evidence is cited suggesting that distilled water incubation inhibits flowering by interfering with protein biosynthesis.     

Influence of Temperature on the Flowering of Lemna perpusilla 6746 Grown under Skeleton Photoperiods

The flowering of Lemna perpusilla Torr. strain 6746 grown under 24-hour skeleton photoperiods consisting of 13- and 10.5-hour dark periods separated by 0.25-hr light pulses is strongly dependent on temperature. When plants are cultured in 50-ml Erlenmeyer flasks containing 20 ml of half-strength Hutner's medium supplemented with 1% (w/v) sucrose maximum, per cent, flowering occurs at 23 C. At temperatures above and below 23 C a marked decline in per cent flowering is seen.     

Effects of DCMU on long-day flowering of Lemna perpusilla 6746 and photosynthetic mutant strain 1073

Long-day flowering of wild-type Lemna perpusilla (strain 6746)on ammonium-free medium with sucrose occurred in continuouslight of low intensity (25 ft-c). In higher intensities of light,frond production was increased and flowering was reduced. Thephotosynthetic inhibitor DCMU inhibited frond production andpromoted flowering in the presence or absence of exogenous sucrose.In the photosynthetic mutant strain 1073, the higher intensitiesof light inhibited frond production, but did not reduce flowering.DCMU increased mutant frond production, thus leading to increasedflowering percents. The mechanism by which DCMU affects floweringand growth appears to differ from that of other flower-promotingsupplements reported by Takimoto and Tanaka. The results suggestthat inhibition of photosynthesis enhances flowering in longdays. (Received June 25, 1977; )     

Effects of culture conditions on development in continuous light of floral buds in Lemna perpusilla 6746

Effects of temperature on the subsequent development in continuouslight of floral buds formed after a single short-day cycle inLemna perpusilla 6746, a short-day plant, were studied usingfronds selected in relation to the order of emergence. The floralbuds developed to stage 1 regardless of the temperature duringthe following CL. The rate of development, however, was slowerat lower temperature. The minimum number of days in CL neededfor the abortion of once formed floral buds increased with adecrease in temperature, accompanied by an increase in the frondplastochron. Furthermore, when the frond plastochron was alteredby manipulation of the environmental conditions, i.e., lightintensity or medium strength, the minimum number of days inCL required for the abortion of the floral buds also changed.These results suggest that the development pattern of floralbuds in this plant is highly correlated with the frond plastochron. (Received September 20, 1977; )     

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; )     

Glutamate Dehydrogenase Activity in Lemna perpusilla 6746: The Effects of Sucrose,Glucose and Fructose Addition to Growth Media

Lemna perpusilla Torr, strain 6746 clones were maintained under conditions of continuous illumination with various concentrations of sucrose, glucose or fructose added to the growth, medium. After two weeks of growth, plants were harvested and either assayed for total glutamate dehydrogenase activity or fractionated into one chloroplast-rich and one mitochondria-rich preparation and then assayed for glutamate dehydrogenase activity. In all assays for glutamate dehydrogenase it was necessary to add bovine serum albumin to the extraction medium in order to obtain sufficient enzyme activity for accurate and reproducible results. The presence of sucrose in the growth medium reduced glutamate dehydrogenase activity in all studies. When samples containing intact organelles were assayed, sucrose inhibition of activity appeared to occur primarily in the chloroplast fraction. Glucose, on the other hand, increased glutamate dehydrogenase activity in the chloroplast-rich fractions. Upon freeze-thawing differences between the various treatments were less obvious. The results from these studies indicate possible differences in sugar uptake and/or utilization in Lemna perpusilla.     

Uptake of Amino Acids and Other Organic Compounds by Lemna paucicostata Hegelm. 6746

A survey of the capacity of Lemna paucicostata to take up organic compounds such as might be present in the natural environment of this plant has identified eight discrete transport systems. Reciprocal inhibition studies defined the preferred substrates for these systems as follows: (a) neutral l-α-amino acids, (b) basic amino acids, (c) purine bases, (d) choline, (e) ethanolamine, (f) tyramine, (g) urea, and (h) aldohexoses. Each of these systems takes up its preferred substrates at high rates. At low concentrations, each Lemna frond during each minute takes up amounts which would be found in volumes ranging from 0.4 (tyramine) to 3.9 (urea) times its own volume. The two systems for amino acid transport both showed kinetics of the biphasic type, so that uptake by each can be described as the composite result of two Michaelis-Menten processes. The neutral amino acid system neither transports basic amino acids nor is inhibited by these compounds. The basic amino acid system does not transport neutral amino acids but is strongly inhibited by some, but not all, of these compounds. It is argued that the maintenance of these active, specific, and discrete systems in Lemna suggests they play important roles permitting this plant to utilize organic compounds occurring naturally in its environment.     

Physiological Function of Night Interruption in Lemna paucicostata 6746: Action of Light as a Phaser on the Photoperiodic Clock

Flowering of Lemna paucicostata 6746 under short-day conditionsis completely inhibited by daily night interruption given tothe "inhibition zone" that starts at Zeitgeber time (ZT) 14,i.e., 14 h after dawn, and ends 14 h before the next dusk [Oota(1983a) Plant & Cell Physiol. 24: 327]. With a modifiedmin-SD method, most of these night interruptions were foundto signal the false dawn (false ZT 0) after one entraining cycle.Thus, on and after day 2 the interruption was associated withthe next main photoperiod to form a noninductive skeleton photoperiod.However, a light pulse applied at the start of the inhibitionzone, caused no phase shift in the photoperiodic clock, andformed a noninductive skeleton photoperiod in association withthe preceding main photoperiod. The complete floral inhibition due to the night interruptionwas ascribed to the illumination of both the LI-phase (realor false ZT 0) and L2-phase (real or false ZT 14), or the twolight-sensitive fractions of the original or shifted criticalphotoperiod, by the thus formed skeleton photoperiod, just aswas the case for the floral inhibition by complete photoperiodslonger than the critical daylength, 14 h [Oota (1983a), Oota(1983b) Plant & Cell Physiol. 24: 1503]. (Received October 20, 1983; Accepted January 7, 1984)     

Morphogenesis of Asymmetry and Symmetry in Lemna perpusilla Torr

The determination of which of the two reproductive pockets ofLemna perpusilla will produce the first daughter frond undernon-flowering conditions, or the flower under inductive conditions,is related to asymmetric gradients within the mother frond whichmay be the result of the asymmetric position of the axillaryfrond. Treatments that encourage vigorous growth of axillaryfronds may overcome the normal situation of asymmetry and causea morphological symmetry which is qualitatively different fromthe symmetry induced by treatments (TIBA) which prevent thedevelopment of axillary fronds. The origin and maintenance ofasymmetry in Lemna are discussed. Lemna perpusilla Torr., morphogenesis, asymmetry of fronds, tri-iodobenzoic acid