The hormonal control of betacyanin synthesis in Amaranthus caudatus

Gibberellic acid (GA₃) inhibits amaranthin synthesis whereas the growth retardant, phosphon D, enhances pigment levels in A. caudatus seedlings exposed to light. No effect was observed on chlorophyll and carotenoid synthesis. Radioactive tyrosine and DOPA were incorporated into amaranthin. The specific activity of amaranthin synthesised in the presence of ¹⁴C-tyrosine or ¹⁴C-DOPA in seedlings treated with GA₃ is higher than water controls. The specific activity of pigment from phosphon D treated tissue is relatively low. GA₃ treated tissue has lower active tyrosine and DOPA pools compared to phosphon treated seedlings. Tyrosine and DOPA-oxidase activity increases in GA₃ treated and H₂O control seedlings exposed to light. Kinetin stimulates the synthesis of amaranthin in dark-grown seedlings and this is not overcome by simultaneous GA₃ application. Dark-grown seedlings treated with different kinetin concentrations and incubated in ¹⁴C-tyrosine synthesise radioactive amaranthin of similar specific activity. Kinetin treatment of dark-grown seedlings brings about an increased tyrosine and DOPA-oxidase activity. The results indicate that GA₃ controls the production and/or availability of tyrosine whereas kinetin can mimic light treatment and controls the utilisation of tyrosine probably by bringing about the synthesis or activation of tyrosine and DOPA-oxidase protein.     

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.     

Qualitative and quantitative aspects of betalains biosynthesis in Amaranthus caudatus L. var. pendula seedlings

Seedlings of Amaranthus caudatus L. var. Pendula were used to study the influence of several treatment: white light, 3,4-dihydroxyphenylalanine (DOPA), kinetin, gibberellic acid (GA₃) on betalains biosynthesis. The pigments, betacyanins and betaxanthins, were separated using a Sephadex G-15 column chromatography. Qualitative as well as quantitative differences were observed according to the treatments applied.The amaranthin biosynthesis seemed to be favored in the absence of DOPA. Under the combined effect of kinetin and white light a small quantity of betanin was also synthesized. Adding exogenous DOPA led to a more diversified production which included betacyanins (amaranthin and betanin), betaxanthins (vulgaxanthin and miraxanthin), and even dopachrome. As a general rule, kinetin activated the betalains biosynthesis whereas GA₃ inhibited it. The stimulating effect of white light was always much greater than that of kinetin.Abbreviations GA₃ gibberellic acid - GA₄ gibberellin 4 - BHT 2,6-diter-butyl-4-methylphenol - DOPA 3,4-dihydroxyphenylalanine - Kinetin 6-furfurylaminopurine     

Significance of Cyclic Nucleotides in Amaranthin Synthesis by Amaranthus caudatus Seedlings

Explants of 72–76 h old Amaranthus caudatus seedlingssynthesize the betalain pigment amaranthin in response to light.Light can be replaced with a cytokinin or a cyclic nucleotidewith an N⁶-substituent. Cyclic 3'5'-AMP shows only weak activityand that only at high unphysiological concentrations. Even cyclic2'3'-AMP, which docs not act as a ‘second messenger’,induces amaranthin synthesis to a greater degree than cyclic3',5'-AMP. But N⁶-monobutyryl-cyclic 3',5'-AMP and N⁶-2'-O-dibutyryl-cyclicAMPshow high activity, higher even than kinetin at its optimumconcentration of 10^–5 M. 2'-O-Monobutyryl-cyclicAMP, onthe other hand, is considerably less active, suggesting thatN⁶-substitution of the adenine ring is responsible for the enhancedactivity. N⁶-Propionyl, butyryl and valeryladenines are allhighly active, indicating that the cyclic monophosphate moietyis unnecessary for this response. All the compounds tested,including cyclic 3',5'-AMP, show additive effects, but thereis no amplification of the response, typical of second messengeraction. Inhibition of amaranthin synthesis imposed by hadacidin, isrelieved by kinetin, DBc AMP, N⁶-monobutyryl-cAMP and N⁶-butyryladenine. Cyclic 3',5'-AMP is weakly active in this regard. Asnatural cytokinins are N⁶-substituted adenine compounds, andas only N⁶-substituted cyclic nucleotides are able to mimicthe effect of cytokinin, it is concluded that these cyclic nucleotidesfunction as cytokinin analogues and not as ‘second messengers’'. Amaranthus caudatus, amaranthin, cytokinins, cyclic nucleotides     

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.     

Effects of G protein and cGMP on phytochrome-mediated amaranthin synthesis inAmaranthus 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.     

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.     

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.     

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.     

Amaranthin accumulation in continuous red and blue light by seedlings ofAmaranthus caudatus L.

Four days oldAmaranthus seedlings responded to light treatment with an increase of amaranthin accumulation. With increasing irradiation time, red light caused a saturation effect. Blue light induced a high irradiation response. The blue light effect was reversible to a certain extent by far-red irradiation given at the end of the treatment with blue light. Intermittent red light (3 h red light, 3 h dark, …) caused a higher amaranthin accumulation than 24 h continuous red light. Results obtained with red and blue light are discussed on the basis of the phytochrome system.     

Ligand Specificity of a High Affinity Cytokinin-binding Protein

A soluble cytokinin-binding protein from wheat germ that has a high affinity for a range of purine cytokinins also interacts with a variety of nonpurine compounds that can affect cytokinin-modified processes in animal or plant cells or which bind to proteins known to interact with certain cytokinins. A variety of structurally disparate compounds which inhibit chloroplast photosystem II activity (including phenylurea, carbanilate, and alkylamino-2-chloro-sym-triazine compounds) displace kinetin from the protein in an apparently competitive fashion. However, various energy transfer inhibitors (including organotin compounds and N,N′-dicy-clohexylcarbodiimide) also inhibit kinetin binding to the protein. N⁶,2-0′-Dibutyryl-3′,5′-cyclic AMP and 1-methyl-3-isobutylxanthine (the effects of which on fibroblast morphology and motility can be mimicked by cytokinins) are inhibitors of kinetin binding to the protein. A variety of compounds that can have antimitotic effects (including 1-methyl-3-isobutylxanthine and certain alkylated cyclic nucleotide, carbanilate, and tryptamine compounds) displace kinetin from the protein. However, a variety of indole derivatives also displace kinetin from the cytokinin-binding protein, which in a qualitative sense has a broad ligand specificity.     

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 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.     

Biosynthesis of amaranthin in Celosia plumosa

Seedlings of a yellow betaxanthin-producing variety of Celosia plumosa when fed with appropriate precursors are capable of synthesizing the red-violet pigment normally present in red varieties of the same species, namely amaranthin. Synthesis of amaranthin occurs in seedlings following administration of betanidin and betanin but much greater accumulation was observed after feeding cycloDOPA and its 5-O-β-d-glucoside. Possible pathways in the biosynthesis of amaranthin are discussed.     

Correlative Studies on Plant Growth and Metabolism. III. Metabolic Changes Accompanying Inhibition of the Longitudinal Growth of Stem and Root by Kinetin

Kinetin-induced expansion of lettuce (Lactuca sativa) cotyledons and inhibition of root are accompanied by parallel changes in protein nitrogen. However, during its inhibition of the longitudinal growth and water uptake of hypocotyl and pea (Pisum sativum) epicotyl sections kinetin markedly stimulates protein synthesis. Kinetin seems to separate auxin induced effects on protein synthesis and water uptake and indicates that water uptake and protein synthesis may not necessarily be correlated.

In contrast to gibberellic acid, kinetin restricts in lettuce seedlings, the mobilization of nitrogen reserves from the cotyledons, and kinetin induced growth is accompanied by a high protein nitrogen/soluble-nitrogen ratio which is characteristic of growth in light. Growth in light may be under the dominant control of kinins.

     

Nonmetabolic catalysis of C-furfuryl amino purine (kinetin) on plant surfaces, glass, and porcelain ware

Kinetin-8-¹⁴C degraded rapidly upon drying on living or inert surfaces. However, when care was exercised to avoid taking solutions to dryness during fractionation of plant extracts containing ¹⁴C-kinetin and before partitioning by thin layer chromatography, little degradation occurred. A procedure for 24-hour ethyl acetate partitioning, using a continuous liquid-liquid extractor, which permits nearly complete removal of kinetin from aqueous solutions, is herein described. High natural light intensities in the greenhouse or from fluorescent/incandescent sources greatly enhanced nonmetabolic degradation of kinetin on leaf (Bougainvillea) or glass surfaces, which indicated that this may be a confounding factor in analyzing metabolism of kinetin in plant tissues. One of the degradation products is probably adenine.     

The influence of light on the cytokinin content ofAmaranthus seedlings

The influence of light, particularly blue and red light, on the cytokinin content of seedlings ofAmaranthus caudatus was studied. Cytokinin content was determined by two different bio-assays (amaranthin accumulation byAmaranthus seedlings and mtrate-reductase activity ofAgrostemma embryos). In both bio-assays similar results were obtained. Oytokinin content is increased, especially by blue light. It is suggested that especially blue light promotes amaranthin accumulation inAmaranthus seedlingsvia the increase of cytokinin content of tissues. The results support our hypothesis on cytokinin action.     

Adenine phosphoribosyltransferase in plant tissues: some effects of kinetin on enzymic activity

Adenine phosphoribosyltransferase activity was measured in extracts of soybean (Glycine max var. Acme) callus and of senescing barley leaves (Hordeum distichon c.v. Prior). The enzyme from soybean callus had Michaelis constants for adenine and 5-phosphoribosyl pyrophosphate of 1.5 and 7.5 μm respectively and was inhibited by AMP and stimulated by ATP. The presence of kinetin was found to considerably increase the activity of adenine phosphoribosyltransferase in extracts of soybean callus and senescing barley leaves.     

Cyclic Nucleotides and In Vitro Plant Cultures: I. INDUCTION OF ORGANOGENESIS IN TOBACCO (NICOTIANA TABACUM CALLUS CULTURES

Mangat, B. S. and Janjua, S. 1987. Cyclic nucleotides and invitro plant cultures. I. Induction of organogenesis in tobacco(Nicotiana tabacum) callus cultures.—J. exp. Bot. 38:2059–2067. The possibility that cyclic nucleotides have a mediatory rolesimilar to cytokinins in plant tissue cultures was examined.Calli obtained from tobacco pith tissue were incubated on growthmedia supplemented with either cyclic AMP, cyclic GMP, adenosineor guanosine, in concentrations ranging from (mg dm^–3)0 to 2·0 together with 2·0 mg dm^–3 of IAA.Results were compared with identical calli grown on media containingcomparable amounts of kinetin and IAA. Increase in callus growthwas observed on all media containing cyclic AMP, cyclic GMP,adenosine, guanosine or kinetin. Adenosine or guanosine didnot promote organogenesis. Low concentrations (0·02 and0·05 mg dm^–3) of kinetin stimulated extensive rootdevelopment. Some root formation was also elicited with higheramounts of cyclic AMP (0·1 and 0·2 mg dm^–3)or cyclic GMP (0·2 and 0·5 mg dm^–3). Bothkinetin and cyclic GMP promoted shoot differentiation. However,in contrast to kinetin, cyclic GMP induced organogenesis atlower concentrations (0·02 and 0·1 mg dm^–3).The addition of 2·0 mg dm ^–3 of cyclic AM P toIAA-free growth media elicited shoot differentiation. This wasalso the case with a similar concentration of kinetin or cyclicGMP. Results suggest cytokinin activity for the two cyclic nucleotides. Key words: Tobacco, Nicotiana tabacum, tissue culture, cyclic nucleotides, cyclic AMP, cyclic GMP organogenesis