Effects of G protein and cGMP on phytochrome-mediated amaranthin synthesis in Amaranthus caudatus seedlings

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Effects of G protein and cGMP on phytochrome-mediated amaranthin synthesis in Amaranthus caudatus seedlings

The effects of G protein and cGMP on phytochrome-mediated amaranthin biosynthesis inAmaranthus caudatus seedlings were studied. It was shown that G protein agonist cholera toxin induced amarathin synthesis in darkness, whereas G protein antagonist pertussis toxin inhibited red light-induced amaranthin synthesis. Amaranthin synthesis was also induced by exogenous cGMP, while the amaranthin biosynthesis induced by cholera toxin, red light and exogenous cGMP was inhibited by genistein. L Y-83583, an inhibitor of guanylyl cyclase, inhibited the amarenthin synthesis induced both by red light and cholera toxin, while it was not able to inhibit the amaranthin synthesis induced by exogenous cGMP. These results suggest that G protein, guanylyl cyclase and cGMP were the candidates in phytochrone signal transduction chain for red light-induced amaranthin biosynthesis and the red light signal transduction chain might be as follows: red light → phytochrome → G protein → guanylyl cyclase → cGMP.     

The hormonal control of amaranthin synthesis in Amaranthus caudatus seedlings

Summary Exogenous gibberellic acid, A₃ (GA₃) inhibits phytochrome mediated betacyanin synthesis in seedlings of Amaranthus caudatus. The growth retardants, -chloroethyl-trimethylammonium chloride (CCC), 'isopropyl-4-(triethylammonium chloride)-5-methylphenyl piperidine carboxylate (AMO 1618) and tributyl-2,4,-dichlorobenzylphosphonium chloride (phosphon D) enhance pigment synthesis. Retardant stimulation of pigment synthesis is overcome by GA₃ application. Besides lowering endogenous GA levels the retardants inhibit protein synthesis by as much as 25%. Retardant inhibition of protein synthesis is not overcome by GA₃. The results suggest that amaranthin synthesis in Amaranthus caudatus can be directly controlled by endogenous GA. GA₃ has no effect on kinin induced dark pigment synthesis. Kinins, however, do not overcome GA₃ inhibition of pigment synthesis in the light.Abbreviations AMO 1618 2, 'isopropyl-4-(triethylammonium chloride)-5-methylphenyl piperidine carboxylate - CCC -chloroethyltrimethylammonium chloride - GA₃ Gibberellic acid, A3 - Phosphon D tributyl-2,4,-dichlorobenzylphosphoninm chloride     

Effect of a cytokinin antagonist on cytokinin and light-dependent amaranthin synthesis inAmaranthus Tricolor seedlings

InAmaranthus tricolor seedlings, amaranthin synthesis can be induced under the effect either of a cytokinin or of white light. The 3-methyl-7-(n-pentylamino)pyrazolo(4,3-d)pyrimidine (PAMPP), a cytokinin analog that strongly inhibits the growth of tobacco callus, antagonizes the stimulating effect of cytokinin as well as stimulation by light. In dose-response terms, the inhibitory effect of PAMPP was described as competitive with respect to N⁶-benzyladenine (b⁶Ade) or light. The inhibition by PAMPP of the b⁶Ade amaranthin test response or the inhibition by this cytokinin analog of the light amaranthin test response were both reversed by either subsequent light or b⁶Ade treatment.     

Effect of rare earth element europium on amaranthin synthesis in Amarathus caudatus seedlings

Considering the resemblances between Eu³⁺ and Ca²⁺ in their atomic radius and structures of the valence electron, the effects of Eu³⁺ on amaramthin synthesis in Amarathus caudatus seedling were studied. Eu³⁺ had both promoting and inhibiting effects on amaramthin synthesis. The optimum promoting concentration and half inhibiting concentration of Eu³⁺ to synthesis of amaranthin were 0.4 mmol/L and 2.5 mmol/L, respectively. In the dark, A₂₃₁₈₇ (ions carrier) could carry Eu³⁺ into cells through the Ca²⁺ channel. When Ca²⁺ was chelated with EGTA, the synthesis of amaranthin could be partly retrieved by Eu³⁺. Eu³⁺ treatment could also activate Ca²⁺-ATPase on plasma membrane. Moreover, the sodium dodecyl sulfate-polyacrylamide gel electrophoresis patterns of total proteins from the plants treated by Eu³⁺ and Ca²⁺ were similar but slightly different in the contents. It suggested that the effects of Eu³⁺ and Ca²⁺ on amaranthin synthesis were similar. After being treated by Eu³⁺ or Ca²⁺, the outside Ca²⁺ could enter into cells to promote synthesis of amaranthin. The results above indicated that Eu³⁺ might replace Ca²⁺ in the calcium/calmidulin-dependent phytochrome signal transduction system and play important roles in plant development by promoting calcium transportation across plasma membrane.     

Inhibition by phenolic compounds of cytokinin-stimulated betacyanin synthesis inAmaranthus caudatus

A number of phenolic compounds have been tested for ability to inhibit the cytokinin-induced synthesis of betacyanin inAmaranthus caudatus cotyledons. Under the conditions employed, the compounds responded thus: (1) no inhibition with up to 1 mg ml^-1 (quercetin 3-rhamnosylglucoside and chlorogenic acid), (2) partial or no inhibition up to 0.1 mg ml^-1 with greater inhibition at 1 mg ml^-1 (phloridzin, arbutin, caffeic acid, p-hydroxybenzoic acid and 3,4-dihydroxyphenylalanine) and (3) partial or no inhibition up to 0.1 mg ml^-1 with complete, inhibition at 1 mg ml^-1 (o-coumaric,m-coumaric,p-coumaric, protocatechuic and ferulic acids and phenylalanine). The results show that if theAmaranthus betacyanin bioassay for cytokinins is to give reliable results, then certain contaminating phenolics must be removed beforehand; some difficulties involved in this are briefly discussed.     

Inhibition by amino acids of cytokinin-stimulated betacyanin synthesis inAmaranthus caudatus

A number of amino acids have been tested for their ability to inhibit the cytokinininduced synthesis of betacyanin inAmaranthus caudatus cotyledons. Under the conditions employed there was not any serious inhibition of pigment synthesis at amino acid concentrations belowca. 20 μg ml^-1. Amino acids such as methionine, γ-aminobutyric acid and leucine did not give rise to serious inhibition belowca. 200 μg ml^-1. At amino acid concentrations ofca. 2000 μg ml^-1, inhibitions of pigment synthesis was in all instances complete.     

The effects of hormones and inhibitors on amaranthin synthesis in seedlings of Amaranthus tricolor

Summary Both gibberellic acid and abscisic acid inhibit the light induced synthesis of amaranthin in Amaranthus tricolor seedlings. The auxin, indolyl-3-acetic acid has no effect. The protein/RNA inhibitors, cycloheximide and 8-azaguanine, also reduced the levels of amaranthin produced.     

Influence of calcium and calcium and calmodulin antagonists on the cytokinin-induced amaranthin accumulation inAmaranthus tricolor

The concentration of kinetin and kinetinriboside plays an essential role in the induction of amaranthin accumulation in cotyledons ofAmaranthus tricolor during germination. The dose/effect ratio shows that kinetin induced 3- to 3.5-fold more amaranthin than kinetinriboside at the same molecular concentration. Various concentrations of exogenous Ca²⁺ did not influence the effects of kinetin on the betacyanin synthesis. However, when Ca²⁺ was applied together with kinetinriboside, the amaranthin production was stimulated. Time-course experiments show a lag phase of 16 h starting from the incubation with kinetin and a distinct increase of amaranthin thereafter. If the seedlings were treated simultaneously with kinetin and Ca²⁺, the increase of amaranthin started after 12 h. At 16 h of incubation in kinetin/Ca²⁺, the amount of amaranthin increased significantly compared to controls incubated with kinetin alone. If Ca²⁺ ions (16 h kinetin/Ca²⁺ incubation) were removed from the medium after 2 h, 4 h, and up to 14 h, the amaranthin content was enhanced compared to controls without Ca²⁺. The stimulating effect was highest in the presence of Ca²⁺ for 8 h. These data show that exogenous Ca²⁺ stimulated the amaranthin synthesis mainly during the first 12 h of incubation. The Ca²⁺ antagonists EGTA, chlorotetracycline, and CoCl₂ reduced the amaranthin content up to 80%. The calmodulin antagonists chloropromazine and trifluoperazine inhibited the betacyanin accumulation up to 97% when applied at the beginning of the incubation. Neither Co²⁺ nor trifluoperazine after 12 h of preincubation in kinetin had inhibiting effects on the amaranthin production. Therefore, we presume that a specific period of competence is required for calmodulin-mediated Ca²⁺ effects on the accumulation of amaranthin induced by cytokinins in the seedlings ofAmaranthus tricolor.     

Effects of light and kinetin on amaranthin synthesis induced by cAMP

The effects of cyclic 3′,5′-adenosine monophosphate (cAMP) on amaranthin synthesis in the dark, or in the presence of kinetin or light were investigated in isolated cotyledons of Amaranthus tricolor and A. caudatus. The results suggest that sites or modes of action of cAMP and kinetin are not separated and differ from those of light and that the nucleotide cannot be considered a messenger involved in amaranthin formation stimulated by kinetin or by light.     

Effect of a cytokinin antagonist on cytokinin and light-dependent amaranthin synthesis inAmaranthus Tricolor seedlings

InAmaranthus tricolor seedlings, amaranthin synthesis can be induced under the effect either of a cytokinin or of white light. The 3-methyl-7-(n-pentylamino)pyrazolo(4,3-d)pyrimidine (PAMPP), a cytokinin analog that strongly inhibits the growth of tobacco callus, antagonizes the stimulating effect of cytokinin as well as stimulation by light. In dose-response terms, the inhibitory effect of PAMPP was described as competitive with respect to N⁶-benzyladenine (b⁶Ade) or light. The inhibition by PAMPP of the b⁶Ade amaranthin test response or the inhibition by this cytokinin analog of the light amaranthin test response were both reversed by either subsequent light or b⁶Ade treatment.     

Reversal of abscisic acid-inhibited betacyanin synthesis by phenolic compounds in Amaranthus caudatus seedlings

Abscisic acid inhibits light-induced betacyanin synthesis in Amaranthus caudatus seedlings. Kinetin antagonizes ABA action and restores betacyanin synthesis. Similarly, phenolic compounds also antagonize ABA action and restore the synthesis of betacyanin. When present together phenolic compounds have an additive effect with kinetin in restoring ABA-inhibited betacyanin synthesis.     

Effect of exogenous dopa and tyrosine on amaranthin synthesis and pigment type in Amaranthus

The efrects of exogenously applied DOPA (l-3,4-dihydroxy-phenylalanine) and tyrosine on amaranthin synthesis under a variety of light conditions are described. A possible explanation for the light-sensitive period in development is suggested to be limitation of substrate in the less sensitive stages of development. A yellow pigment tentatively identified as a betaxanthin becomes apparent under exogenous DOPA feeding.     

Effects of nutrients and light pretreatment on phytochrome-mediated fern-spore germination

Spores of the ferns, Dryopteris filix-mas, D. paleacea and Polystichum minutum, sown on plain agar in quartz-distilled water, required several hours of red light in order to germinate. When, however, water agar was replaced by agar made up with a mineral nutrition medium, a single pulse of red light (about 1 min) was able fully to induce germination. Under these conditions spores became light-sensitive a few minutes after sowing. Thus, zero germination in dark controls was obtained only when all light was excluded immediately after sowing or when saturating far-red was given thereafter. The effect of the mineral medium was also obtained using low ion concentrations with an osmolality of less than 100 mol l^–1. Thus, a specific ion effect appears more probable than an unspecific osmotic effect. Species differences in light sensitivity and in dark-germination levels, as reported in the literature, might partly be the consequence of different culture media and of light acting at a very early stage after sowing, which hitherto was assumed to be still insensitive to light. On water agar as well as on mineral agar, the inducing effect of a single red pulse could be increased by the appropriate pretreatment, i.e. by preirradiation with red light for several hours, followed by a saturating pulse of far-red, the latter abolishing the direct inducing effect of the red preirradiation. The nature of both the ion-phytochrome interaction and the phytochrome-phytochrome interaction has not yet been analysed.Abbreviations FR saturating far-red light - Pfr far-red absorbin form of phytochrome - R broad-band red light, acting continuously during several hours This work was performed at the Department of Plant Physiology, University of Lund, Sweden, during a sabbatical leave     

Light control of amaranthin synthesis in isolated Amaranthus cotyledons

The effect of light on the amaranthin synthesis stimulated by exogenous precursors has been studied in isolated cotyledons of Amaranthus tricolor and A. caudatus. The results indicate that light acts at the level of the formation of the dihydropyridine moiety of the pigment.     

Action of light and streptomycin on protein synthesis in cabbage seedlings

The action of light on protein synthesis was examined in the cabbage seedlings, a system extensively used in the studies of anthocyanin synthesis. Continuous red and far red light have no effect on total protein content while they cause a marked decrease in the level of free amino acids in cabbage seedlings. The rate of protein synthesis, measured as incorporation of radioaetively-labelled amino acids into proteins, is clearly stimulated by light. Phytochrome involvement in the light stimulation of the incorporation is also demonstrated by the red-far red reversibility of the response. The relative effectiveness of continuous red and far red light upon the incorporation of amino acids into proteins is affected by the nature of the system used to study the incorporation process. When excised cotyledons and short period of incorporation were used, continuous far red was more effective than red. However, when whole seedlings and long period of incorporation were used, red and far red were equally effective. Streptomycin causes a 10– 15% decrease in the rate of incorporation of amino acids into proteins of all cellular fractions, except the plastid fraction where a much higher inhibition (30%) was observed.     

Effect of light and exogenously applied precursors on amaranthin synthesis in Amaranthus caudatus

Light stimulates the synthesis of amaranthin in Amaranthus caudatus var. viridis. Evidence suggests that this stimulation is markedly dependent on seedling age. Synthesis is controlled by both a “low-energy” red/far-red reversible phytochrome system and an HER at least partially under phytochrome control. In seedlings exposed to light, synthesis is promoted by exogenously applied DOPA and tyrosine. It is suggested that at least two light-promoted reactions occur in the biosynthetic pathway; one between tyrosine and DOPA and a second between DOPA and amaranthin.