Biological activity of cytokinins derived from Ortho- and Meta-Hydroxybenzyladenine

To determine the structure-activity relationships of natural aromatic cytokinins, the activity of 6-benzylaminopurine (BAP) and its hydroxylated derivatives was compared in three bioassays based on stimulation of tobacco callus growth, retention of chlorophyll in excised wheat leaves, and dark induction of betacyanin synthesis in Amaranthus cotyledons. The aromatic cytokinins 6-(2-hydroxybenzylamino)purine (ortho-topolin) and 6-(3-hydroxybenzylamino)purine (meta-topolin), their 9-ribosides and 9-glucosides, were synthesized by the condensation of 6-chloropurine and its 9-glycosides with the appropriate hydroxybenzylamine. The activity of free bases, 9-ribosides and 9-glucosides was compared with that of BAP, trans-zeatin and their 9-glycosides. Hydroxylation of the benzyl ring in the meta position increased the activity of BAP and its riboside in tobacco callus and chlorophyll retention bioassays, whereas ortho-hydroxylation decreased the activity. In contrast, in the Amaranthus bioassay meta-hydroxylation of BAP substantially decreased its activity. Ribosylation at position 9 had no significant effect on the activity of zeatin, BAP and both topolins. The activity of 9-glucosides of all cytokinins tested was near zero. The biological activity of meta-topolin and its riboside is comparable to that of the most active isoprenoid cytokinin, zeatin, in tobacco callus growth and senescence bioassays. The results establish the existence of a family of endogenous aromatic cytokinins centered around the highly active compound, meta-topolin. We also report here an improved chlorophyll retention bioassay based on incubation of 2.5 cm long detached wheat leaf segments in microtiter plate wells containing 150 µl of cytokinin solution. The consumption of cytokinin to be tested is 0.1 µmol per assay only. The amount as small as 1.5 pmol of substance can be estimated using this biotest.     

Regulators of cell division in plant tissues. XXX. Cytokinin metabolism in relation to radish cotyledon expansion and senescence

Kinetic studies of formation of glucosides of 6-benzylaminopurine (BAP) in excised radish cotyledons indicated that the 3-, 7-, and 9-glucosides (N-glucosides) were each formed directly from BAP. The 7- and 9-glucosides of BAP and the 7-glucoside of zeatin exhibited great stability in the cotyledons, but the 3-glucoside was converted to free BAP and to the 7- and 9-glucosides of BAP. When³H-labeled zeatin was supplied to developed cotyledons, at high concentrations (100 μM), 7-glucosylzeatin was the principal metabolite, but an appreciable proportion of the extracted³H was due to O-glucosylzeatin. In immature cotyledons, as used in the radish cotyledon cytokinin bioassay, this O-glucoside was shown to be converted into zeatin 7-glucoside probably via free zeatin. Metabolism of BAP and zeatin in radish cotyledons was studied in relation to cytokinin-induced cotyledon expansion. Cytokinin N-glucosides were not metabolites responsible for the observed cytokinin-induced expansion, and were not detoxification products, or deactivation products formation of which was coupled with cytokinin action. However, the free base, its riboside, and nucleotide were possible active forms of BAP associated with cotyledon expansion. The possible significance of cytokinin N-glucosides is discussed. Senescent and nonsenescent cotyledons differed in their metabolism of BAP, zeatin, and zeatin riboside. Senescence was associated principally with a reduction in ability to form 7-glucosylzeatin, enhanced metabolism to adenine derivatives, and an inability to form appreciable amounts of 3-glucosyl-BAP. A two-dimensional thin layer chromatography (TLC) system, based on adjoining layers of cellulose and silica gel, for separating zeatin metabolites is described. This does not completely separate zeatin and zeatin riboside from the corresponding dihydro-compounds. A reversed phase TLC method for achieving these separations is also reported.     

Inhibitors of cytokinin metabolism III. The inhibition of cytokininN-glucosylation in radish cotyledons

Summary Cytokinins are deactivated in radish cotyledons by conversion to 7- and 9-glucosides. In a search for inhibitors of this metabolism, the following compounds were found to be effective: (a) 6-benzylamino-2-(2-hydroxyethylamino)-9-methylpurine; (b) 3-isobutyl-1-methylxanthine; (c) papaverine; (d) theophylline; (e) caffeine; and (f) theobromine. The order of effectiveness was: (a)>(b)=(c)>(d)=(e)=(f). While the methylxanthines (b) and (d) inhibited formation of both 7- and 9-glucosides of 6-benzylaminopurine (BAP) approximately equally, compounds (a) and (c) preferentially inhibited formation of BAP 9-glucoside. Inhibition of BAP glucoside formation by (a) at 1.3 mM elevated the level of free BAP and BAP nucleotide 23- and 94-fold, respectively. While abscisic acid (ABA) suppressed conversion of zeatin riboside to zeatin 7-glucoside in radish cotyledons, it did not inhibit conversion of BAP to glucosides. Hence, ABA probably does not inhibit the glucosylating enzymes directly but rather reduces the availability of free zeatin when zeatin riboside is supplied. Auxins and nutrient supply did not affect conversion of zeatin riboside to zeatin 7-glucoside. Relative to cotyledons developed in light, those developed in darkness had a reduced capacity to convert zeatin riboside to zeatin 7-glucoside. The results presented have identified types of chemical structures which could be developed to provide more effective inhbitors of cytokininN-glucosylation.For part II in the series Inhibitors of cytokinin metabolism see Zhang et al. (1989).     

Regulators of cell division in plant tissues. XXX. Cytokinin metabolism in relation to radish cotyledon expansion and senescence

Kinetic studies of formation of glucosides of 6-benzylaminopurine (BAP) in excised radish cotyledons indicated that the 3-, 7-, and 9-glucosides (N-glucosides) were each formed directly from BAP. The 7- and 9-glucosides of BAP and the 7-glucoside of zeatin exhibited great stability in the cotyledons, but the 3-glucoside was converted to free BAP and to the 7- and 9-glucosides of BAP. When³H-labeled zeatin was supplied to developed cotyledons, at high concentrations (100 M), 7-glucosylzeatin was the principal metabolite, but an appreciable proportion of the extracted³H was due to O-glucosylzeatin. In immature cotyledons, as used in the radish cotyledon cytokinin bioassay, this O-glucoside was shown to be converted into zeatin 7-glucoside probably via free zeatin.Metabolism of BAP and zeatin in radish cotyledons was studied in relation to cytokinin-induced cotyledon expansion. Cytokinin N-glucosides were not metabolites responsible for the observed cytokinin-induced expansion, and were not detoxification products, or deactivation products formation of which was coupled with cytokinin action. However, the free base, its riboside, and nucleotide were possible active forms of BAP associated with cotyledon expansion. The possible significance of cytokinin N-glucosides is discussed.Senescent and nonsenescent cotyledons differed in their metabolism of BAP, zeatin, and zeatin riboside. Senescence was associated principally with a reduction in ability to form 7-glucosylzeatin, enhanced metabolism to adenine derivatives, and an inability to form appreciable amounts of 3-glucosyl-BAP.A two-dimensional thin layer chromatography (TLC) system, based on adjoining layers of cellulose and silica gel, for separating zeatin metabolites is described. This does not completely separate zeatin and zeatin riboside from the corresponding dihydro-compounds. A reversed phase TLC method for achieving these separations is also reported.     

The stability and biological activity of cytokinin metabolites in soybean callus tissue

The activity, uptake and metabolism of cytokinin metabolites was determined in soybean (Glycine max (L.) Merr.) callus tissue. The following activity sequence was established: zeatin riboside (ZR)>zeatin (Z)>O-glucosides of Z, ZR and their dihydro derivatives>lupinic acid (an alanine conjugate of Z)>7- and 9-glucosides of Z which were almost inactive. The 7- and 9-glucosides and lupinic acid were taken up very slowly by the callus tissue and showed great metabolic stability, but some degradation to 7-glucosyladenine, 9-glucosyladenine and the 9-alanine conjugate of adenine occurred. Compared with its aglycone, O-glucosyl-ZR exhibited slow uptake and greatly enhanced stability but gas chromatographic-mass spectrometric analysis showed that appreciable amounts were hydrolyzed to ZR in the tissue. Both ZR and O-glucosyl-ZR were metabolised extensively, with adenine, adenosine, and adenine nucleotide(s) as the major metabolites. A diversity of minor metabolites of ZR were identified, including O-glucosides, lupinic acid and dihydrolupinic acid. The metabolism of ZR was suppressed by 3-isobutyl-1-methylxanthine. When compared with the soybean callus line normally used for cytokinin bioassays (cv. Acme, cotyledonary callus), related callus lines exhibited greatly differing growth responses to cytokinin: however, these were not reflected in marked differences in metabolism.Abbreviations GC-MS gas chromatography-mass spectrometry - HPLC high-performance liquid chromatography - LA lupinic acid - OGZR O--D-glucopyranosylzeatin riboside - TLC thin-layer chromatography - IMX 3-isobutyl-1-methylxanthine - Z zeatin - ZR zeatin riboside     

A new cytokinin from Populus x robusta

A new cytokinin was isolated from mature leaves of poplar. Its structure was determined by UV and MS and confirmed by synthesis as 6-(o-hydroxybenzylamino)-9-β-d-ribofuranosylpurine. This cytokinin has medium activity in the soybean callus test but shows high activity in the radish leaf senescence test.     

Mass spectrometric analysis of cytokinins in plant tissues : v. Identification of the cytokinin complex of datura innoxia crown gall tissue

The cytokinin complex of Datura innoxia Mill. crown gall tissue was purified by ion exchange, Sephadex LH-20 chromatography and reversed-phase high performance liquid chromatography. By gas chromatography-mass spectrometry using ²H-labeled compounds, the following cytokinins were identified in the basic fraction eluting from a cation exchange column: zeatin, zeatin riboside, dihydrozeatin, dihydrozeatin riboside, their corresponding O-glucosides, 7- and 9-glucosides of zeatin, 9-glucoside of dihydrozeatin, isopentenyladenine, and isopentenyladenosine. Zeatin riboside 5′-monophosphate was the major cytokinin nucleotide in the tissue. In addition, dihydrozeatin riboside and isopentenyladenosine were identified in the nucleotide fraction following enymic degradation.     

Physiology and biochemistry of theAmaranthus cytokinin bioassay and its applications

The influence of some substances on the amaranthin biosynthesis inAmaranthus-seedlings was investigated with regard to the accuracy and sensitivity of theAmaranthus cytokinin bioassay. 1) The herbicide glyphosate inhibited plgment formation in a concentration of 10^-4 mol 1^-1 in most cases only slightly (approximately 10–25 %). 2) Shikimic acid does not seem to be a precursor, in many experiments it was slightly inhibitory. 3) Jasmonic acid promoted slightly the plgment formation with a distinct maximum at about 5 x 10^-4 mol 1^1-. 4) The oxidation product of zeatin (with KMnO₄) is not active in theAmaranthus bioassay; only weak activity was recorded at very high concentrations. 5) Glucosides, extracted fromGinkgo biloba leaves, stimulate amaranthin synthesis, as we could conclude from applications of this bioassay to senescing, abscisingGinkgo leaves. Presented at the International Symposium “Plant Growth Regulators” held on June 18–22, 1984 at Liblice, Czechoslovakia.     

New aromatic 6-substituted 2′-deoxy-9-(β)-d-ribofuranosylpurine derivatives as potential plant growth regulators

Cytokinins are naturally occurring substances that act as plant growth regulators promoting plant growth and development, including shoot initiation and branching, and also affecting apical dominance and leaf senescence. Aromatic cytokinin 6-benzylaminopurine (BAP) has been widely used in micropropagation systems and biotechnology. However, its 9-glucoside (BAP9G) accumulates in explants, causing root inhibition and growth heterogenity. To overcome BAP disadvantages, a series of ring-substituted 2′-deoxy-9-(β)-d-ribofuranosylpurine derivatives was prepared and examined in different classical cytokinin bioassays. Amaranthus, senescence and tobacco callus bioassays were employed to provide details of cytokinin activity of 2′-deoxy-9-(β)-d-ribosides compared to their respective free bases and ribosides. The prepared derivatives were also tested for their recognition by cytokinin receptors of Arabidopsis thaliana AHK3 and CRE1/AHK4. The ability of aromatic N⁶-substituted adenine-2′-deoxy-9-(β)-d-ribosides to promote plant growth and delay senescence was increased considerably and, in contrast to BAP, no loss of cytokinin activity at higher concentrations was observed. The presence of a 2′-deoxyribosyl moiety at the N9-position led to an increase in cytokinin activities in comparison to the free bases and ribosides. The antioxidant capacity, cytotoxicity and effect on the MHV-68 gammaherpesvirus strain were also examined.     

Glucosylation of cytokinin analogues

Glucosylation of adenine and 6-methylaminopurine was not detected in derooted 10-day-old radish seedlings. However, 4-(purin-6-ylamino)butanoic amide and 6-(3,4-dimethoxybenzylamino)purine (N⁶-substituted adenines with negligible cytokinin activity), like the highly active cytokinin 6-benzylaminopurine, were converted to 7-glucopyranosides. The N²-substituted guanine, 2-benzylaminopurin-6-one, and 6-benzylamino-2-(2-hydroxy-ethylamino)purine were also metabolized to glucosides which were probably 7-glucopyranosides. Hence glucosylation of purines is not restricted to N⁶-substituted adenines with strong cytokinin activity. Although only ca 1.6% of 6-benzylamino-9-(4-chlorobutyl)purine taken up by the derooted seedlings could be accounted for as 7- and 9-glucosides, a considerable proportion was metabolized to these glucosides in cotyledons excised from 2-day-old radish seedlings. The high cytokinin activity of this 9-substituted compound may be a consequence of cleavage of the 4-chlorobutyl groud at N-9.     

Influence of Different Cytokinins on the Transpiration and Senescence of Excised Oat Leaves

In order to investigate the possibility that cytokinins control transpiration indirectly through affecting leaf senescence, a direct comparison was made of the effect of different cytokinins on transpiration and senescence of oat leaves (Avena sativa L. cv. Forward). Senescence was assessed by measuring chlorophyll loss. The synthetic cytokinins N⁶ benzyladenine (BA) and kinetin delayed senescence and increased transpiration of oat leaves to a greater extent than did the naturally occurring compounds zeatin, N^b-Δ² isopentenyladenine (i⁶ Ade) and 6-ø-hydroxybenzyladenosine (hyd-BA riboside). During the early stages of the transpiration experiment zeatin showed similar or greater activity than BA. This period was longest when freshly excised leaves were used, was reduced when leaves were used after incubation in distilled water in the dark for 20 h and was eliminated by incubation in cytokinin solution in the dark. After this period the activity of zeatin declined relative to BA. The effect of cytokinins in increasing transpiration occurred only in the light; no effect was observed in the dark. BA showed higher activity than zeatin in senescence tests but both cytokinins were less effective as the tests progressed, this decrease in activity being more rapid when older leaves were used. The results are discussed in relation to the mechanisms by which endogenous cytokinins might control sensecence and transpiration in oat leaves and to the value of the oat leaf senscence and transpiration bioassays as tests for cytokinin activity of plant extracts.     

Cytokinin receptor antagonists derived from 6-benzylaminopurine

Recently we reported 6-(2-hydroxy-3-methylbenzylamino)purine (PI-55) as the first molecule to antagonize cytokinin activity at the receptor level. Here we report the synthesis and in vitro biological testing of eleven BAP derivatives substituted in the benzyl ring and in the C2, N7 and N9 positions of the purine moiety. The ability of the compounds to interact with Arabidopsis cytokinin receptors AHK3 and CRE1/AHK4 was tested in bacterial receptor and in live-cell binding assays, and in an Arabidopsis ARR5:GUS (Arabidopsis response regulator 5) reporter gene assay. Cytokinin activity of the compounds was determined in classical cytokinin biotests (tobacco callus, wheat leaf senescence and Amaranthus bioassays). 6-(2,5-Dihydroxybenzylamino)purine (LGR-991) was identified as a cytokinin receptor antagonist. At the molecular level LGR-991 blocks the cytokinin receptor CRE1/AHK4 with the same potency as PI-55. Moreover, LGR-991 acts as a competitive inhibitor of AHK3, and importantly shows reduced agonistic effects in comparison to PI-55 in the ARR5:GUS reporter gene assay and in cytokinin bioassays. LGR-991 causes more rapid germination of Arabidopsis seeds and increases hypocotyl length of dark-grown seedlings, which are characteristics of plants with a reduced cytokinin status. LGR-991 exhibits a structural motive that might lead to preparation of cytokinin antagonists with a broader specificity and reduced agonistic properties.     

Cytokinin biochemistry in relation to leaf senescence. VII. Endogenous cytokinin levels and exogenous applications of cytokinins in relation to sequential leaf senescence of tobacco

The cytokinin complex in tobacco leaves of various maturities was characterized by radioimmunoassay and mass spectrometry. Zeatin was the major base, whereas zeatin riboside was identified as the main riboside. in leaves of all maturities studied. Relative to upper younger leaves, the basal yellow leaves had reduced levels of both cytokinin bases and ribosides. Exogenous applications of dihydrozeatin and zeatin to detached tobacco leaves in amounts sufficient to delay senescence, elevated cytokinin base and riboside levels 2–5 fold. Presenescent and senescent leaves of intact plants showed quantitatively similar changes in cytokinin content. which therefore appear to be of significance in control of senescence. When supplied exogenously, the principal cytokinin bases found to occur in tobacco leaves (zeatin and dihydrozeatin) were markedly more effective than auxins and gibberellic acid in retarding senescence. Localised application of cytokinins to leaf blades of detopped plants was much less effective than application to intact plants. The cytokinin induced senescence retardation in tobacco leaves was independent of effects on directed metabolite transport. Evidence that endogenous levels of active cytokinins in intact tobacco leaves are involved in control of sequential leaf senescence is discussed.     

Comparison of cytokinin activities of 9-substituted N6-benzyladenines in the Cucumis and Amaranthus bioassays

9-Substituted N⁶-benzyladenines were tested for their ability to eliminate the lag phase in and promote chlorophyll synthesis in Cucumis sativus cotyledons and for their effectiveness in eliciting the dark biosynthesis of betacyanin in Amaranthus tricolor cotyledon-hypocotyl explants. The following general relationships were established for dose-responses: (a) 9-ribosidation brought about little (in Amaranthus) or no (in Cucumis) decrease in activity relative to the free base, (b) the presence of a 9-ribose 5′-phosphate group moderately depressed activity in Amaranthus but slightly enhanced activity in Cucumis, (c) the presence of a 9-ribose 3′,5′- cyclic phosphate group depressed activity substantially in both systems, more so in Amaranthus, (d) 9-glucosylation greatly decreased activity, as did 7-glucosylation, while 3-glucosylation depressed activity to a much lesser extent, in both systems, (e) 9-substitution with cyclopentyl, methyl, methoxymethyl, and tetrahydropyranyl groups reduced activity, the first two substituents more so than the last two, and (f) alteration of the 9-riboside group to a 9-[2-O-β-hydroxyethylglycerol] moiety by oxidation- reduction led to complete (in Amaranthus) or nearly complete (in Cucumis) inactivation. Responses to hormone treatment were detectable after dark incubation times as short as 4 hr (in Cucumis) or 8 hr (in Amaranthus).     

Cytokinin activities ofN 6-benzyladenosine derivatives hydroxylated on the side-chain phenyl ring

Cytokinin activities ofN ⁶-benzyladenosine (bzl⁶Ado) and its derivatives hydroxylated on the side chain phenyl ring inortho, meta, andpara positions were compared in four bioassays based on stimulation of growth of tobacco callus, retention of chlorophyll in excised wheat leaves, dark induction of betacyanin synthesis inAmaranthus cotyledons, and release of lateral buds of pea from apical dominance. In all these bioassays hydroxylation of the phenyl ring of bzl⁶Ado inortho andpara positions significantly decreased cytokinin activity. Compared with bzl⁶Ado, the activity was decreased about 10× in the tobacco callus bioassay and wheat leaf chlorophyll retention test, 100× in theAmaranthus betacyanin bioassay, and 20× and 200×, respectively, in the pea bud test. Hydroxylation of the phenyl ring inmeta position increased activity in the tobacco callus, and wheat leaf chlorophyll retention bioassays, 9× and 1.7×, respectively, decreased activity about 2.4× in the pea bud test and was without effect in theAmaranthus bioassay. Cytokinin activity of themeta hydroxy derivative,N ⁶-(m-hydroxybenzyl) adenosine, was as high as that oftrans-zeatin in all four bioassays. Possible regulation of biological activities of cytokinins by positionally specific hydroxylation of the side chain phenyl ring is discussed with respect to the reported occurrence of natural purinyl cytokinins with aromatic side chains.     

Zeatin-9-glucoside,a major endogenous cytokinin of Vinca rosea L. crown gall tissue

Cultured crown gall tissue of Vinca rosea L. was found to contain, in addition to the previously reported cytokinins zeatin, zeatin riboside, and the 0-glucosides of these two compounds, relatively high levels of zeatin-9-D-glucopyranoside. This is the first conclusive identification of an endogenous cytokinin 9-glucoside.Abbreviations GC gas chromatography - HPLC high-performance liquid chromatography - I.D. internal diameter - RFE rotary film evaporation - TLC thin layer chromatography - TMS trimethylsilyl - UV ultraviolet - Z zeatin - Z7G zeatin-7-glucoside - Z9G zeatin-9-glucoside - Z0G zeatin-0-glucoside - ZR zeatin riboside - ZR0G zeatin riboside-0-glucoside     

Cytokinin biochemistry in relation to leaf senescence I. The metabolism of 6-benzylaminopurine and zeatin in oat leaf segments

Journal of Plant Growth Regulation - The metabolism of zeatin and that of 6-benzylaminopurine (BAP) have been compared in oat leaf segments in relation to the markedly differing ability of these...     

Effect of cytokinins supplied via the xylem at multiples of endogenous concentrations on transpiration and senescence in derooted seedlings of oat and wheat

This study was conducted lo determine whether naturally occurring xylem cytokinins, when supplied to leaves via the xylem at approximately endogenous concentrations, increase transpiration and delay senescence in selected monocot species (oat and wheat). The concentrations of some of the major cytokinins (zeatin, dihydrozeatin, ciszeatin and their ribosides, the O-glucosides and nucleotides) were determined in the xylem exudate of oat and wheat seedlings by radioimmunoassay. Evidence is presented that the small volume of exudate (4–5 mm³) collected per plant was xylem sap in transit at the time of shoot excision. Using the data on cytokinin levels, the individual bases and ribosides (and a base/riboside mixture), at multiples of concentrations determined in xylem sap, were tested in transpiration and senescence bioassays. The individual O-glucosides (and mixtures of the O-glucosides) were similarly tested at (i) multiples of the molar concentrations of the corresponding bases and ribosides, and/or at (ii) multiples of the endogenous concentrations. Similarly, zeatin and dihydrozeatin nucleotides were tested at multiples of the molar concentration of zeatin riboside and, in some instances, at multiples of endogenous concentrations. Our results suggest that, at least in oat and possibly in wheat, zeatin-type bases, ribosides and O-glucosides supplied to the leaf in xylem sap are likely to play a role in regulating transpiration in vivo. O-glucosides in oat xylem sap may be important regulators of leaf senescence in the intact plant. The nucleotides were present in xylem sap at lower concentrations than most of the bases, ribosides and O-glucosides. The nucleotides appear likely to play a lesser role than the bases, riboside and O-glucosidcs in controlling transpiration and senescence in the intact plant.     

Cytokinins of dryZea mays seed: Quantification by radioimmunoassay and gas chromatography-mass spectrometry

The endogenous cytokinins present in dryZea mays seed were determined using both radioimmunoassay and gas chromatography—mass spectrometry. Similar values for bases and ribosides were obtained by the two methods. The cytokinins present in embryo and endosperm were estimated separately using radioimmunoassay; similar levels of cytokinins were found in these two tissues. The major cytokinins detected on a whole-seed basis were dihydrozeatin riboside, O-glucosyldihydrozeatin riboside, zeatin 9-glucoside, zeatin, and the nucleotides of zeatin, dihydrozeatin, and isopentenyladenine. Cytokinin levels in the mature dry seed were considerably lower than cytokinin levels published in the literature for immature seed. Unexpected activity in the radioimmunoassays was detected in the wash from the DEAE cellulose column chromatography step. The compound(s) responsible for this activity did not have the solvent partitioning characteristics of a cytokinin base or riboside. They eluted as a single fraction following high-performance liquid chromatography on a Zorbax C8 column; this fraction showed no activity in theAmaranthus bioassay for cytokinins, but inhibited the activity of authentic zeatin riboside present at an optimal concentration.