Some Characteristics of Protein Kinases in Lemna paucicostata

The three protein kinases of Lemna paucicostata that are separableby DEAE-Sephacel chromatography have been designated PI, PIIand PIII [Kato et al. (1983) Plant & Cell Physiol. 24: 841].The optimum pH for the PI and PII enzymes was 7.5 and for thePHI enzyme 7.0. The activities of these enzymes were stimulatedby divalent cations, the maximum stimulation being producedby 5 nw Mg^{2 $} for PI, by 3 mM Co^{2 $} for PII and by 1 mM Mn^2$ for PIII. The cytokinins; benzyladenine, kinetin and zeatin,inhibited the activity of the PIII enzyme. The molecular weightsof the PI and PII enzymes did not change after incubation withcAMP even though their activities were regulated by this compound. (Received October 17, 1983; )     

The S-Methylmethionine Cycle in Lemna paucicostata

The metabolism of S-methylmethionine has been studied in cultures of plants of Lemna paucicostata and of cells of carrot (Daucus carota) and soybean (Glycine max). In each system, radiolabeled S-methylmethionine was rapidly formed from labeled l-methionine, consistent with the action of S-adenosyl-l-methionine:methionine S-methyltransferase, an enzyme which was demonstrated during these studies in Lemna homogenates. In Lemna plants and carrot cells radiolabel disappeared rapidly from S-methylmethionine during chase incubations in nonradioactive media. The results of pulse-chase experiments with Lemna strongly suggest that administered radiolabeled S-methylmethionine is metabolized initially to soluble methionine, then to the variety of compounds formed from soluble methionine. An enzyme catalyzing the transfer of a methyl group from S-methylmethionine to homocysteine to form methionine was demonstrated in homogenates of Lemna. The net result of these reactions, together with the hydrolysis of S-adenosylhomocysteine to homocysteine and adenosine, is to convert S-adenosylmethionine to methionine and adenosine. A physiological advantage is postulated for this sequence in that it provides the plant with a means of sustaining the pool of soluble methionine even when overshoot occurs in the conversion of soluble methionine to S-adenosylmethionine. The facts that the pool of soluble methionine is normally very small relative to the flux into S-adenosylmethionine and that the demand for the latter compound may change very markedly under different growth conditions make it plausible that such overshoot may occur unless the rate of synthesis of S-adenosylmethionine is regulated with exquisite precision. The metabolic cost of this apparent safeguard is the consumption of ATP. This S-methylmethionine cycle may well function in plants other than Lemna, but further substantiating evidence is neeeded.     

High-Pressure Extraction of Membrane-Associated Protein Kinase C from Rat Brain

Extraction of rat brain membrane-associated protein kinase C with high specific activity was obtained by applying benzyl alcohol (a membrane fluidizer), EDTA, and high hydrostatic pressures. Approximately 50% of total brain-associated activity was extracted from membranes. The pressure-extracted activity had an eightfold enrichment in the lipid/protein ratio when compared with the cytosolic fraction. This may explain the inability of exogenous diacylglycerol to stimulate endogenous phosphorylation in pressure-extracted activity. The enzyme is extracted at greater than 1,300 atm, a result indicating it most likely has a portion inserted into the hydrophobic portion of the membrane bilayer. Perturbation of the native membrane induces a change in the membrane-associated protein kinase C-lipid interaction that permits extraction under conditions used for the cytosolic species. This is the first report of conversion of the endogenous membrane species to a cytosolic one and may be important in determining the role of protein kinase C in neuronal regulation.     

Increase in the Activities of Protein Kinases under a Flower-Inducing Condition in Lemna paucicostata

The activities of protein kinases and the phosphorylation ofsubstrate proteins were assayed in Lemna paucicostata 6746 culturedunder flower-inducing and non-inducing conditions. The activitiesof two protein kinases in the soluble fraction, one cAMP-activatedand the other cytokinin-inhibited, increased drastically underthe flower-inducing condition. However, no significant differencewas observed in the activities of another protein kinase inthe soluble fraction and a microsomal protein kinase, underflower-inducing and non-inducing conditions. The in vitro phosphorylation of cellular proteins was much greaterin the soluble fraction obtained from plants grown under theflower-inducing condition. Four polypeptides of mol wt 59,000,51,000, 16,000 and 14,000 were highly phosphorylated in thesample from flower-induced plants. No difference in cAMP levelwas observed between flower-inducing and non-inducing conditions.Cyclic AMP (Received April 27, 1987; Accepted October 19, 1987)     

Effects of Cyclic AMP on the Activity of Soluble Protein Kinases in Lemna paucicostata

Three protein kinases which phosphorylate histone were isolatedfrom cellular extract of Lemna plants. They were separated byelution from DEAE-Sephacel column and referred to as PI, PITand PHI. The PI protein kinase activity was partially inhibitedby 10µM cyclic AMP, cyclic GMP or cyclic IMP, while thePII enzyme was activated in the presence of these cyclic nucleotides.The PIII enzyme was cAMPindependent, but slightly inhibitedby cyclic CMP and cyclic UMP. The molecular weights of thesethree protein kinases were 165,000, 85,000 and 145,000, respectively,as estimated from Sephacryl S-300 gel filtration. A single cyclicAMP-binding protein was detected in the PII enzyme fractionby using the photoaffinity cAMP-analogue, 8-N₃-cAMP. The proteinwhich specifically bound [³H]-8-N₃-cAMP had an apparent molecularweight of 48,000 as determined by SDS-polyacrylamide gel electrophoresis.The phosphorylation of cellular proteins in Lemna was examinedby SDS-polyacrylamide gel electrophoresis. Four phosphorylatedpolypeptides were detected, the phosphorylations of which werestimulated by cAMP. The molecular weights of these four polypeptideswere 59,000, 19,000, 16,000 and 14,000, respectively. (Received January 26, 1983; Accepted April 13, 1983)     

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)     

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.     

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)     

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)     

Aspartokinase of Lemna paucicostata Hegelm. 6746

A sensitive and specific method was developed for assay of aspartokinase (EC 2.7.2.4) in crude extracts of Lemna paucicostata. Lysine inhibited approximately 93%, and threonine approximately 6%; together, these amino acids inhibited 99%. Inhibition by lysine was synergistically increased by S-adenosylmethionine, which by itself had no effect on activity. Essentially complete inhibition of threonine-resistant activity was obtained with lysine, and of lysine-resistant activity with threonine. Inhibition by lysine and threonine was additive, with no indication of concerted inhibition. Aspartate concentration had no effect on the relative proportions of lysine- and threonine-sensitive activities. Aspartokinase activity was in large excess of that reported by other workers, the maximum capacity (V_max) far exceeding the in vivo requirements. Estimations of rates of aspartokinase in vivo suggest that the step catalyzed by this enzyme may not be the overall `rate-limiting' one for entry of 4-carbon units into the aspartate family of amino acids, and that feedback inhibition of this enzyme by lysine and threonine may not be a major factor in regulating flux through this step.     

Synthesis of Ethanolamine and Its Regulation in Lemna paucicostata

The metabolism of ethanolamine and its derivatives in Lemna paucicostata has been investigated, with emphasis on the path-way for synthesis of phosphoethanolamine, a precursor of phosphatidylcholine in higher plants. In experiments involving labeling of intact plants with radioactive serine, ambiguities of interpretation due to entry of radioactivity into methyl groups of methylated ethanolamine derivatives were mitigated by pregrowth of plants with methionine. Difficulties due to labeling of diacylglyceryl moieties of phospholipids were avoided by acid hydrolysis of crucial samples and determination of radioactivity in isolated serine or ethanolamine moieties. The results obtained from such experiments are most readily reconciled with the biosynthetic sequence: serine → ethanolamine → phosphoethanolamine → phosphatidylethanolamine. A possible alternative is: serine → phosphatidylserine → phosphatidylethanolamine → ethanolamine → phosphoethanolamine. Cell-free extracts of L. paucicostata were shown to produce CO₂ from the carbon originating as C-1 of serine at a rate sufficient to satisfy the demand for ethanolamine moieties. A number of experiments produced no support for a hypothetical role for phosphoserine in phosphoethanolamine formation. Uptake of exogenous ethanolamine commensurately down-regulates the synthesis of ethanolamine moieties (considered as a whole, and regardless of their state of derivatization at the time of their formation). In agreement with previous observations, uptake of exogenous choline down-regulates the methylation of phosphoethanolamine, without being accompanied by secondary accumulation of a marked excess of ethanolamine derivatives.     

Threonine Synthase of Lemna paucicostata Hegelm. 6746

Threonine synthase (TS) was purified approximately 40-fold from Lemna paucicostata, and some of its properties determined by use of a sensitive and specific assay. During the course of its purification, TS was separated from cystathionine γ-synthase, establishing the separate identity of these enzymes. Compared to cystathionine γ-synthase, TS is relatively insensitive to irreversible inhibition by propargylglycine (both in vitro and in vivo) and to gabaculine, vinylglycine, or cysteine in vitro. TS is highly specific for O-phospho-l-homoserine (OPH) and water (hydroxyl ion). Nucleophilic attack by hydroxyl ion is restricted to carbon-3 of OPH and proceeds sterospecifically to form threonine rather than allo-threonine. The K_m for OPH, determined at saturating S-adenosylmethionine (AdoMet), is 2.2 to 6.9 micromolar, two orders of magnitude less than values reported for TS from other plant tissues. AdoMet markedly stimulates the enzyme in a reversible and cooperative manner, consistent with its proposed role in regulation of methionine biosynthesis. Cysteine (1 millimolar) caused a slight (26%) reversible inhibition of the enzyme. Activities of TS isolated from Lemna were inversely related to the methionine nutrition of the plants. Down-regulation of TS by methionine may help to limit the overproduction of threonine that could result from allosteric stimulation of the enzyme by AdoMet.     

Biosynthesis and Metabolism of NAD in Lemna paucicostata 151

We have already reported that NiA and related compounds had plant-growth-promoting and flower-inducing activities in duckweed, Lemna paucicostata 151. These effects may be concerned with the biosynthesis and metabolism of NAD. So, for the first step, the various enzyme activities related to them were investigated in this study to obtain some fundamental information on the action mechanism of these compounds and metabolites. Extremely high enzyme activity of nicotinamidase and very high enzyme activity of N AD glycohydrolase were found. The enzyme activities of nicotinate phosphoribo- syltransferase, quinolinate phosphoribosyltransferase, and nicotinate methyltransferase were easily detected. In contrast, nicotinamide phosphoribosyltransferase and ADP-ribosyltransferase activities were very low and nicotinamide methyltransferase activity was not detectable. NiA and NAm administered to the plant were rapidly incorporated into N AD and metabolized to several compounds. Postulation of the action mechanism is discussed.     

Adaptation of Lemna paucicostata to Sublethal Methionine Deprivation

During initial exposure to 40 nanomolar propargylglycine (PAG), Lemna paucicostata colonies undergo abnormal fragmentation and a lag in frond emergence, most severe at 24 to 48 hours. Thereafter, frond emergence resumes and the frond/colony ratio rises. Such `adapted' plants withstand subculture into the same concentration of PAG without fragmentation or decreases in frond emergence, and display enhanced tolerance to higher concentrations. Adaptation is not dependent upon outgrowth of a few preexisting especially tolerant plants. Exogenous methionine prevents these events and overcomes the PAG-induced lag in frond emergence even after it is underway. These changes in frond emergence are not reflected in the rates of protein and wet weight accumulation which decrease by about 25% during the first 24 hours and continue unchanged thereafter. Cystathionine γ-synthase activity rapidly decreases to 9% of control during the first 12 hours of exposure to 40 nanomolar PAG but thereafter climbs to 12% of control. Studies of the uptake and internal concentration of PAG during these events are reported.

Exposure to a combination of 36 micromolar lysine plus 3 micromolar threonine is an alternative means to bring about sublethal methionine deprivation. Thus exposed, Lemna undergoes an analogous sequence of effects on morphology and growth which are preventable by exogenous methionine and which lead to an adapted state. Cystathionine γ-synthase specific activity in plants adapted to 36 micromolar lysine plus 3 micromolar threonine is 1.8 times control. However, addition of PAG showed that under these conditions enzyme activity can be decreased to as little as 54% of control without affecting the growth rate. Together these results suggest that adaptation is related to methionine limitation and that the plants adjust, in part, by increasing the steady-state concentrations of cystathionine γ-synthase and other enzymes in the methionine pathway.

     

Flowering Induced by Nitrogen Deficiency in Lemna paucicostata 151

Lemna paucicostata 151 is a weakly responsive short-day plantwhen grown in non-aseptic ten-fold diluted E medium supplementedwith 1 µM 6-benzyladenine, but it flowered even underlong-day conditions (continuous light) when grown in this mediumfor more than 14 days. On the 14th day of culture, the levelof endogenous nitrogen in the plants decreased to about 60%of that in the plants inoculated at the start of the culture.The flowering obtained under long-day conditions was suppressedby raising the concentration of nitrogen in the medium, whileit was induced more rapidly by lowering the concentration ofnitrogen in the medium. Benzyladenine did not cause floweringby itself, but it was required for the flowering that was inducedby a reduction in the level of nitrogen in the medium. Thus,the flowering observed under long-day conditions is due to nitrogendeficiency in the plants. Two inhibitors of proteases, bestatin and elastatinal, clearlyinhibited the flowering induced by nitrogen deficiency. It appears,therefore, that the induction or activation of some protease(s)is involved in the flowering that is induced by nitrogen deficiency. (Received March 19, 1991; Accepted August 16, 1991)     

Flower Induction by Nitrogen Deficiency in Lemna paucicostata 6746

Lemna paucicostata 6746, a short-day plant, produced flowerbuds even under continuous light when cultured in nitrogen-deficientmodified Hoagland medium with 1% sucrose for 3 days or morefollowed by culture on nitrogen-rich medium (either nitrateor ammonium). Flowering was also induced by culture on mediumcontaining 20–100 µM nitrate as the sole nitrogensource for 10 days or more, but not on medium with a low ammoniumconcentration. However, if plants cultured on medium containing5–20 µM ammonium as the sole nitrogen source for10 days were grown in a nitrogen-rich medium for a further 4days, they produced flower buds. Thus, nitrogen deficiency caninduce day length-independent flowering in Lemna paucicoslata6746, but nitrogen is required for the manifestation of flowering. (Received January 31, 1986; Accepted April 24, 1986)     

The Mode of Action of Benzoic Acid and Some Related Compounds on Flowering in Lemna paucicostata

Benzoic acid (BA) (10 µM) added to the medium during onlythe first 24 h of culture induced flowering in Lemna paucicostata151 even under continuous light at 24.5?C when 1/10 M medium(pH 4.0) containing 1 µM benzyladenine (BAd) was usedas the basic medium. Flower buds were produced on the 4th–5thday and almost all the fronds that developed during the subsequent3–4 days had flower buds. Even a 4-h treatment with BA(50 µM) followed by culture in the basic medium inducedflowering. This suggests that the effect of BA is inductive.A similar effect of BA was observed in strain 381, a sensitiveshort-day plant, but not in strain 441 or 6746. Even in the absence of BAd in the medium, a 24-h treatment withBA induced flowering, but the induced state disappeared rapidlyafter the 5th-6th day. BAd was effective when given after theBA treatment and had no significant effect when added duringthe BA treatment. BA given after a single inductive dark periodalso promoted flowering in strains 441 and 381. BAd seems towork to sustain the induced state or to promote the developmentof flower buds rather than inducing flowering. A short-term treatment with nicotinic acid (NA) at 200–500µM was as effective as 10µM BA, but that with salicylicacid (SA) was ineffective at all concentrations tested. 5-C1-SAand EDDHA were also effective, although not as effective asBA. (Received April 10, 1986; Accepted July 12, 1986)     

Flower-Promoting Effects of Iron and EDDHA in Lemna paucicostata 151

Lemna paucicostata 151 cultured in 1/10 strength M medium containing50 µM FeCl₃ easily flowered in response to short days,although it scarcely flowered under any photoperiod when themedium contained the standard amount of iron (2 µM FeCl₃).The flowering response was accomparied by an increase in theiron content of the plants, which was maximal at pH 5.0. Instandard M medium containing 50 µM FeCl³, this plant didnot flower even though it had a high iron content. Ethylenediamine-di (o-hydroxyphenylacetic acid) (EDDHA) inducedflowering of this strain under continuous light even in theabsence of iron and copper, and its effect was slightly loweredby the presence of iron in the medium. Thus the flower-inducingactivity of EDDHA could not be attributed to the action of ironor copper. EDTA inhibited both the iron uptake and floweringin Fe-rich medium under short-day conditions. (Received May 16, 1986; Accepted July 25, 1986)     

Induction of flowering by nitrogen deficiency in Lemna paucicostata 441

Lemna paucicostata 441, a short-day plant, flowered even undercontinuous light in nitrogen-deficient, half-strength Hutner’smedium, when the endogenous level of nitrogen was decreasedto 1.4µg/mg fr wt or lower, but no flowering occurredin nitrogen-deficient, modified Hoagland medium when the endogenouslevel of nitrogen was similarly reduced. The failure to flowerin this medium can be ascribed to the presence of high concentrationsof calcium, the absence of EDTA, and low pH. Daylength-independent flowering induced by nitrogen deficiencywas greatly enhanced by the addition to the growth medium ofmicronutrients and EDTA at high concentrations. Among the micronutrients,zinc seemed to be the most important. (Received May 30, 1988; Accepted September 22, 1988)     

Old-Culture Flowering of Lemna paucicostata 6746 in Aged Hutner's Medium

Lemna paucicostata 6746, a short-day plant, flowers in agedHutner's medium even under continuous light, when the endogenousnitrogen level decreases to below 1.6 µmg fr wt. At thesenitrogen levels, daylength-independent flowering of the plantcan be induced even in fresh Hutner's medium. Thus, old-cultureflowering in Hutner's medium is due to nitrogen deficiency inthe plants. ¹Present address: Biological Institute, Faculty of Science,Shizuoka University, Shizuoka 422, Japan. (Received February 12, 1987; Accepted August 28, 1987)