Effects of Thidiazuron on Cytokinin Autonomy and the Metabolism of N-(Delta-Isopentenyl)[8-C]Adenosine in Callus Tissues of Phaseolus lunatus L

The effects of a highly cytokinin-active urea derivative, N-phenyl-N′-1,2,3-thiadiazol-5-ylurea (Thidiazuron), and zeatin on cytokinin-autonomous growth and the metabolism of N⁶-(Δ²-isopentenyl)[8-¹⁴C]adenosine ([¹⁴C]i⁶ Ado) were examined in callus tissues of two Phaseolus lunatus genotypes, cv Jackson Wonder and P.I. 260415. Tissues of cv Jackson Wonder maintained on any concentration of Thidiazuron became cytokinin autonomous, whereas only tissues exposed to suboptimal concentrations of zeatin displayed cytokinin-autonomous growth. Tissues of P.I. 260415 remained cytokinin dependent under all these conditions. The metabolism of [¹⁴C]i⁶ Ado was similar for the two genotypes, but differed with the medium used. [¹⁴C]i⁶ Ado was rapidly converted to N⁶-(Δ²-isopentenyl)[8-¹⁴C]adenosine 5′-P ([¹⁴C]i⁶ AMP) by tissues grown on zeatin-containing medium, whereas only traces of the nucleotide were formed in tissues grown on medium with Thidiazuron. Incubation with [¹⁴C] i⁶ AMP of tissues grown in the presence of Thidiazuron resulted in rapid conversion to [¹⁴C]i⁶ Ado, while [¹⁴C]i⁶ AMP persisted in tissues maintained on zeatin. Thus, Thidiazuron appears to stimulate enzyme activity converting the ribonucleotide to ribonucleoside. Although the cytokininactive phenylureas and adenine derivatives differ in their effects on cytokinin autonomy as well as nucleotide formation, the two types of effects do not seem to be related.     

Hormonal control of 5-bromodeoxyuridine (BUdR) tolerance in crown-gall tumors and habituated tissues

We have found that the unorganized tobacco crown-gall tumor, isolated in our laboratory, and Braun's teratomatic tumor both exhibit the capacity to grow in the presence of high toxic concentrations of BUdR (up to 10^-3 mol·l^-1). Double cytokinin-auxin habituated tissues also exhibit a constitutive BUdR-tolerance. In cytokinin-habituated tissues the BUdR-tolerance seems to depend on the degree of cytokinin autonomy. The presence of exogenous cytokinin significantly increases BUdR-tolerance, and the presence of BUdR suppresses the inhibitory effect of exogenous cytokinin upon habituated tissues. The results clearly show that the disposition of a cell for transient BUdR tolerance requires at least active expression of genes for cytokinin synthesis and that the tolerance becomes permanent when the auxin system is turned on. We conclude that BUdR-tolerance is connected with the establishment of a certain hormonal regulator pattern, depending on the state of cellular differentiation.     

Kinetics of Determination in the Differentiation of Isolated Mesophyll Cells of Zinnia elegans to Tracheary Elements

Mechanically isolated mesophyll cells of Zinnia elegans L. cv Envy differentiate to tracheary elements when cultured in inductive medium containing 0.5 micromolar α-naphthaleneacetic acid and 0.5 micromolar benzyladenine. The cells do not differentiate when cultured in medium in which the concentration of auxin and/or cytokinin has been reduced to 0.005 micromolar. Cells require an initial 24-hour exposure to inductive cytokinin and 56-hour exposure to inductive auxin for differentiation at 72 hours of culture. Freshly isolated Zinnia cells can be maintained in medium having low concentrations of both auxin and cytokinin for only 1 day without significant loss of potential to differentiate upon transfer to inductive medium. Initial culture for up to 2 days in medium having high auxin and low cytokinin, or low auxin and high cytokinin, allows full differentiation on the third day after transfer to inductive medium and potentiates the early differentiation of some cells.     

Cytokinins of sycamore spring sap

Summary The cytokinins present in the spring sap of Acer pseudoplatanus L. were investigated. Ribosyl-trans-zeatin, trans-zeatin and dihydrozeatin were isolated and identified by combined gas chromatography-mass spectrometry (GC-MS). A number of other cytokinin active fractions were observed. One of these was less polar than zeatin and did not behave as any known cytokinin. Two other fractions were more polar than ribosylzeatin and were unstable. A decomposition product of one of these was identified as ribosyl-trans-zeatin by GC-MS. The possible nature of the unstable compounds is discussed. Data on the changes in cytokinin activity of the various fractions during spring 1973 are presented and discussed.Abbreviations GLC gas-liquid chromatography - GG-MS combined gas chromatography-mass spectrometry - KE kinetin equivalents - TLC thin-layer chromatography - TMS trimethylsilyl - tRNA transfer RNA - i⁶ Ade 6-(3-methylbut-2-enylamino)-purine - i⁶ Ado 6-(3-methylbut-2-enylamino)-9--D-ribofuranosyl-purine     

Relationship between hormone content and autonomy in various autonomous tobacco cells cultured in suspension

Various autonomous cultured tobacco cells including crown gallwere examined for their contents of growth regulators by meansof Avena curvature test, cell-division induction test, and tobaccopith callus test. The crown gall cells derived from cv. Hicks produced auxin andcytokinin in the high levels of 300–500 µg IAA equivalentsand 40–80 µg kinetin equivalents per kg, respectively.The major auxin was identified as indole-3-acetic acid basedon mass spectrometry and gas chromatography. These cells alsoproduced methyl indole-3-acetate as a minor component. One ofthe cytokinins was identified as ribosyl-trans-zeatin by meansof both gas chromatography-mass spectrometry and high performanceliquid chromatography. Auxin and cytokinin activities were not detected in the followingthree suspension cultured tobacco cells: cells requiring neithercytokinin nor auxin derived from the callus of N. tabacum cv.Bright Yellow and cells requiring auxin but not cytokinin derivedfrom the calluses of cv. Bright Yellow and cv. Hicks. Theirauxin and cytokinin contents per kg were less than 1 µgIAA equivalent and less than 0.1 µg kinetin equivalent,respectively. The results obtained in this study indicate that enhanced hormonalcontent is not the only reason for autonomous growth. (Received August 16, 1979; )     

Correlation between Auxin Resistance and the Lack of a Membrane-Bound Auxin Binding Protein and a Root-Specific Peroxidase in Nicotiana tabacum

The levels of a membrane-bound auxin binding protein (MABP) and a root-specific peroxidase (RSP) were studied in several tobacco (Nicotiana tabacum L.) cell lines including an auxin-resistant variant. Groups of cell lines were distinguished which behaved differentially with respect to MABP and RSP depending on the hormonal composition of the medium. In cell lines in which there existed a correlation between the presence or absence of MABP and that of RSP both phenotypes were expressed if kinetin (1-2 micromolar) was supplied. In contrast, neither MABP nor RSP could be detected under any hormonal conditions tested in the auxin-resistant variant which retains the ability to differentiate shoots but lacks the ability to differentiate roots. About an eightfold increase in the concentration of MABP and a dramatic increase in the activity of RSP occurred in a transformant by a mutant strain of Agrobacterium tumefaciens lacking an intact cytokinin gene when it was grown on medium containing 1 to 2 micromolar kinetin. A correlation between auxin resistance and the lack of MABP and RSP suggests that MABP might be involved in auxin-mediated root differentiation in tobacco.     

The effect of auxin on cytokinin levels and metabolism in transgenic tobacco tissue expressing an ipt gene

The ipt gene from the T-DNA of Agrobacterium tumefaciens was transferred to tobacco (Nicotiana tabacum L.) in order to study the control which auxin appears to exert over levels of cytokinin generated by expression of this gene. The transgenic tissues contained elevated levels of cytokinins, exhibited cytokinin and auxin autonomy and grew as shooty calli on hormone-free media. Addition of 1-naphthylacetic acid to this culture medium reduced the total level of cytokinins by 84% while 6-benzylaminopurine elevated the cytokinin level when added to media containing auxin. The cytokinins in the transgenic tissue were labelled with ³H and auxin was found to promote conversion of zeatin-type cytokinins to ³H-labelled adenine derivatives. When the very rapid metabolism of exogenous [³H]zeatin riboside was suppressed by a phenylurea derivative, a noncompetitive inhibitor of cytokinin oxidase, auxin promoted metabolism to adenine-type compounds. Since these results indicated that auxin promoted cytokinin oxidase activity in the transformed tissue, this enzyme was purified from the tobacco tissue cultures. Auxin did not increase the level of the enzyme per unit tissue protein, but did enhance the activity of the enzyme in vitro and promoted the activity of both glycosylated and non-glycosylated forms. This enhancement could contribute to the decrease in cytokinin level induced by auxin. Studies of cytokinin biosynthesis in the transgenic tissues indicated that trans-hydroxylation of isopentenyladenine-type cytokinins to yield zeatin-type cytokinins occurred principally at the nucleotide level.Abbreviations Ade adenine - Ados adenosine - BA 6-benzylaminopurine - C control - Con A concanavallin A - CP cellulose phosphate - IPT isopentenyl transferase - NAA 1-naphthylacetic acid - NP normal phase - NPPU N-(3-nitrophenyl)-N-phenylurea - RIA radioimmunoassay - RP reversed phase We wish to thank Dr. J. Zwar for supplying phenylurea derivitives.     

Metabolism and Biosynthesis of Cytokinins in Tobacco Crown Gall Cells

The metabolism of ribosylzeatin (RZ) was studied using tobaccocrown gall cells which produce RZ as one of the major endogenouscytokinins. When [8-¹⁴C]RZ was fed to the cells, it was convertedinto its phosphate (which was rigorously determined to be the5'-monophosphate), RZ-O-glucoside, inosine (or its phosphate),adenosine and adenosine-O-glucoside. When [8-¹⁴C]N⁶-(²-isopentenyl)adenosine(i⁶Ado), a probable precursor of RZ, was fed to the cells, itwas converted into (i⁶Ado)-O-glucoside, inosine (or its phosphate),adenosine, adenosine-O-glucoside and adenosine phosphate, butno incorporation of radioactivity into RZ was observed. Thepresent study led to the following conclusions: i) i⁶Ado isnot a precursor of RZ in the cells, ii) both deaminase and cytokininoxidase are involved in the catabolism of cytokinin, and iii)the metabolism of RZ is quite different from that of i⁶Ado. (Received December 24, 1985; Accepted April 1, 1986)     

Origin of cytokinin-and auxin-autonomy and changes in specific proteins in tobacco callus tissue

On the basis of earlier data it was suggested that the induction of cytokinin autonomy might be accompanied by disorders in plastid function and a decrease in cytokinin utilization. In the work presented below the formation of chlorophyll and the isozyme patterns of nine enzymes, some of which are known to be localized in plastids, were compared in tobacco callus tissues differing in their hormonal requirements. Tissues either not requiring cytokinin or both auxin and cytokinin for their growth, contained a lower amount of chlorophyll than the cytokinin-and auxin-dependent strain. The number of isozymes of glucose-6-phosphate and NADP-malate dehydrogenase (i.e. enzymes which are known to be located in plastids) was reduced from four in the cytokinin-and auxin-dependent strain to two and one in the two cytokinin-autonomous strains, respectively. The fully habituated tissue contained an additional isozyme of NADP-malate dehydrogenase. The total number of isozymes of the remaining enzymes (NAD-malate dehydrogenase, peroxidase, esterase and a-and β-galactosidase) either was decreased or not changed in the cytokinin autonomous strains. The exception was an additional anodic peroxidase in one strain. The number of these isozymes in tissue habituated with respect to both auxin and cytokinin either remained the same or increased. Tobacco callus strains with altered requirements for growth regulators contained some new isozymes which were not present in any other strain and some isozymes present in other strains were absent. These differences are discussed in relation to the possible role of plastid function disorder associated with habituation.     

Distribution of Cytokinin-active Ribonucleosides in Wheat Germ tRNA Species

The distribution of cytokinin activity in wheat (Triticum aestivum) germ tRNA fractionated by BD-cellulose and RPC-5 chromatography has been examined. As in other organisms, the cytokinin moieties in wheat germ tRNA appear to be restricted to tRNA species that would be expected to respond to codons beginning with U. Only a few of the wheat germ tRNA species in this coding group actually contain cytokinin modifications. Cytokinin activity was associated with isoaccepting tRNA^Ser species and with a minor tRNA^Leu species from wheat germ. All other wheat germ tRNA species corresponding to codons beginning with U were devoid of cytokinin activity in the tobacco callus bioassay.     

Tiba inhibition of <Emphasis Type="Italic">in vitro</Emphasis> organogenesis in excised tobacco leaf explants

Summary Triiodobenzoic acid (TIBA), an anti-auxin, was found to inhibit both shoot and root formation in cultured excised leaf explants of tobacco (Nicotiana tabacum L.). The shoot formation (SF) medium used required only exogenous cytokinin (N⁶-benzyladenine) and the root formation (RF) medium required both auxin (indole-3-butyric acid) and cytokinin (kinetin). By transferring the explants from SF or RF media to SF or RF media with TIBA (4.0×10⁻⁵ M), respectively or vice versa, at different times in culture, it was found that TIBA inhibition was at the time of meristemoid formation and after determination of organogenesis. This indicates that TIBA interfered with endogenous auxin involvement in organized cell division.     

Isolation and Characterization of a Cytokinin Up-Regulated Gene from Tobacco Mesophyll Protoplasts

We have isolated a cytokinin up-regulated cDNA clone, H13, froman early stage of cultured tobacco mesophyll protoplasts bya differential display method. The expression of this gene wasspecifically induced by natural and synthetic cytokinins includingN-(2-chloro-4-pyridyl)-N'-phenylurea (4PU30), a diphenylurea-typecytokinin, although the simultaneous presence of auxin was alsorequired. It seems that the preceding treatment of the tobaccomesophyll protoplasts by auxin is necessary for the gene torespond to cytokinin. The addition of a cytokinin antagonist,compound 182, which suppressed the induction of cell divisionin tobacco mesophyll protoplasts, completely abolished the expressionof this gene. Though the predicted gene product of H13 did notsuggest us any sequences of defined functions, two domains ofthe predicted sequence had significant homology to several reportedsequences in the data base. The gene product of H13 is proposedto have a role in regenerating cell wall in cultured protoplasts,since a cDNA clone E6, from cotton fiber cells, which has themost closely related structure to H13, has been isolated fromcells which showed active cellulose synthesis. This suppositionis supported by the evidence that in the absence of cytokinin,cell wall regeneration was significantly suppressed, resultingin failure of the induction of cell division. Thus, the geneproduct of H13 is supposed to have a role in regenerating cellwalls and facilitating the progression of the cell cycle, resultingin the sustained cell division of tobacco mesophyll protoplasts. ¹These authors are equally contributed to this work.     

Kinetics of N-(Delta-Isopentenyl)Adenosine Degradation in Tobacco Cells: EVIDENCE OF A REGULATORY MECHANISM UNDER THE CONTROL OF CYTOKININS

Uptake and degradation of the cytokinin, N⁶-(Δ²-isopentenyl) adenosine, were studied in tobacco cells grown as cell suspensions. Degradation occurs by cleavage of the isopentenyl chain which gives adenylic products. Rate of N⁶(Δ²-isopentenyl)[8-¹⁴C]adenosine degradation increases several-fold after a 3- to 4-hour delay when cells have been exposed to a cytokinin. Consequently, only rates of N⁶-(Δ²-isopentenyl)adenosine degradation measured during the first 3 hours of incubation with [8-¹⁴C]-N-⁶(Δ²-isopentenyl)adenosine are representative of the intrinsic in vivo cytokinin degradative activity of tobacco cells. Within these limits, it appears that cytokinin degradative activity is high in cytokinin-autonomous tobacco cells, as indicated by the half life of the supplied N⁶(Δ² isopentenyl adenosine (about 3 hours) when it is supplied at the physiological concentration of 0.2 micromolar. This cytokinin degradative activity appears to be under the control of cytokinins themselves because N⁶-(Δ²-isopentenyl)adenosine degradative activity is increased several-fold following a 3- to 4-hour delay after these cells have been exposed to a cytokinin.     

Auxin and cytokinin regulate each other's levels via a metabolic feedback loop

The hormones auxin and cytokinin are key regulators of plant growth and development. As they are active at minute concentrations and regulate dynamic processes, cell and tissue levels of the hormones are finely controlled developmentally, diurnally, and in response to environmental variables. This fine control, along with a regulation of the capacity to respond ensures that the appropriate type, duration and intensity of responses are elicited. We have recently discovered that cytokinin and auxin regulate the synthesis of each other, demonstrating a mechanism for mutual feed back and feed forward control of auxin and cytokinin levels. This regulatory loop could be important for many developmental processes in plants, i.e., in fine-tuning plant hormone levels in the developing meristems of the root and shoot apex. These findings could also give a molecular explanation for earlier observations of auxin and cytokinin effects on cell cultures,¹ where specific auxin and cytokinin ratios have been used to trigger different morphological events.Key words: auxin, cytokinin, biosynthesis, metabolism, signaling, root development, interactions     

Ribosylzeatin and zeatin in tobacco crown gall tissue

Cytokinins were extracted from two cultures of tobacco crown gall tumor tissue: an unorganized tissue and a teratoma which produced leafy shoots. On Sephadex LH-20 column chromatography, extracts of both types of tissue yielded two peaks of cytokinin activity with elution volumes similar to ribosylzeatin and zeatin. Ribosylzeatin and zeatin were detected and quantified by coupled gas chromatography — mass spectrometry selected ion monitoring (GC/MS SIM), comparable quantities being found in the two extracts. Full mass spectral evidence for the presence of ribosylzeatin in both tissues was obtained. No evidence was found for the presence of N⁶-(²-isopentenyl)adenosine (i⁶Ade) or N⁶-(²-isopentenyl)adenine (i⁶Ade) although these compounds have been reported to occur in cytokinin-habituated tobacco callus tissues.Abbreviations BAP 6-benzylaminopurine - GC gas chromatography - GC/MS coupled gas chromatography-mass spectrometry - i⁶ Ade N⁶-(²-isopentenyl)adenine - i⁶ Ado N⁶-(²-isopentenyl)adenosine - RFE rotary film evaporation - SIM selected ion monitoring - TLC thin-layer chromatography - TMS trimethylsilyl     

DAR2 acts as an important node connecting cytokinin,auxin, SHY2 and PLT1/2 in root meristem size control

Cytokinin and auxin antagonistically affect cell proliferation and differentiation and thus regulate root meristem size by influencing the abundance of SHORT HYPOCOTYL2 (SHY2/IAA3). SHY2 affects auxin distribution in the root meristem by repressing the auxin-inducible expression of PIN-FORMED (PIN) auxin transport genes. The PLETHORA (PLT1/2) genes influence root meristem growth by promoting stem cells and transit-amplifying cells. However, the factors connecting cytokinin, auxin, SHY2 and PLT1/2 are largely unknown. In a recent study, we have shown that the DA1-related protein 2 (DAR2) acts downstream of cytokinin and SHY2 but upstream of PLT1/2 to affect root meristem size. Here, we discuss the possible molecular mechanisms by which Arabidopsis DAR2 controls root meristem size.     

The influence of cytokinin-auxin cross-regulation on cell-fate determination in Arabidopsis thaliana root development

Root growth and development in Arabidopsis thaliana are sustained by a specialised zone termed the meristem, which contains a population of dividing and differentiating cells that are functionally analogous to a stem cell niche in animals. The hormones auxin and cytokinin control meristem size antagonistically. Local accumulation of auxin promotes cell division and the initiation of a lateral root primordium. By contrast, high cytokinin concentrations disrupt the regular pattern of divisions that characterises lateral root development, and promote differentiation. The way in which the hormones interact is controlled by a genetic regulatory network. In this paper, we propose a deterministic mathematical model to describe this network and present model simulations that reproduce the experimentally observed effects of cytokinin on the expression of auxin regulated genes. We show how auxin response genes and auxin efflux transporters may be affected by the presence of cytokinin. We also analyse and compare the responses of the hormones auxin and cytokinin to changes in their supply with the responses obtained by genetic mutations of SHY2, which encodes a protein that plays a key role in balancing cytokinin and auxin regulation of meristem size. We show that although shy2 mutations can qualitatively reproduce the effect of varying auxin and cytokinin supply on their response genes, some elements of the network respond differently to changes in hormonal supply and to genetic mutations, implying a different, general response of the network. We conclude that an analysis based on the ratio between these two hormones may be misleading and that a mathematical model can serve as a useful tool for stimulate further experimental work by predicting the response of the network to changes in hormone levels and to other genetic mutations.     

Cytokinin-Active Ribonucleosides in Phaseolus RNA: II. DISTRIBUTION IN tRNA SPECIES FROM ETIOLATED P. VULGARIS L. SEEDLINGS

The distribution of cytokinin-active ribonucleosides in tRNA species from etiolated Phaseolus vulgaris L. seedlings has been examined. Phaseolus tRNA was fractionated by benzoylated diethylaminoethyl-cellulose and RPC-5 chromatography, and the distribution of cytokinin activity was compared with the distribution of tRNA species expected to correspond to codons beginning with U. Phaseolus tRNA^Cys, tRNA^Trp, tRNA^Tyr, a major peak of tRNA^Phe, and a large fraction of tRNA^Leu were devoid of cytokinin activity in the tobacco bioassay. Cytokinin activity was associated with all fractions containing tRNA^Ser species and with minor tRNA^Leu species. In addition, several anomalous peaks of cytokinin activity that could not be directly attributed to U group tRNA species were detected.