Regulators of Cell Division in Plant Tissues

The cytokinins, 6-benzylaminopurine and kinetin, markedly enhanced the yield of both free and membrane-bound 80S ribosomes per unit weight of radish (Raphanus sativus) cotyledon tissue. The response was observed only after the induction of growth by cytokinin; during the lag period preceding cytokinin-induced growth, ribosome yields from both control and cytokinin-treated cotyledons were below detectable levels. Mannitol depressed both growth and ribosome yield to the same degree. The enhanced ribosome yield appeared to be an indirect effect of cytokinin and was probably a consequence of cytokinin-induced growth. The effect of 6-benzylaminopurine on ribosome yield was not reflected in enhanced levels of cytoplasmic ribosomal RNA, while recently synthesized ribosomes were found to be more readily recovered from cytokinin-treated tissue than from control tissue. It was concluded that cytokinin-enhanced ribosome yield resulted from enhanced ribosome recovery or extractability and that ribosome yield is an unreliable indication of ribosome level in plant tissue.     

Sensitivity of oat leaf chlorophyll retention bioassay to natural and synthetic cytokinins

The cytokinin bioassay based on retention of chlorophyll in excised oat leaf pieces is more sensitive to the synthetic cytokinins (6-benzylaminopurine and kinetin) than to the natural cytokinins (trans-zeatin and N⁶-[Δ²isopentenyl]adenine). This difference in sensitivity decreases with increasing length of leaf pieces (from 2 to 10 cm) and with increasing volume of application (from 5 μ1 to 25 μl). Application of the cytokinin solution to the basal and apical part of the 8 cm pieces decreases the sensitivity of the bioassay but has no significant effect on the relative activities of trans-zeatin and 6-benzylaminopurine. Using 7 cm pieces and 20 μl of solution the trans-zeatin and N⁶-(Δ₂-isopentenyl)-adenine can be detected at concentrations of 10^-5 M and 5 x 10^-5 M, respectively.     

A high affinity binding site for cytokinin to a particulate fraction in carrot suspension cells

Summary Carrot suspension cells contain one class of high affinity binding sites for cytokinin in an 80,000 × g particulate fraction. Binding of [8-¹⁴C]-benzylaminopurine (BA) to this fraction assayed by a sedimentation method was found to be optimal at pH 6.0 and thermolabile. Specific binding was proved in competition experiments in which labelled BA was displaced by increasing concentrations of unlabelled BA. Scatchard plots of these results displayed a dissociation constant (K_d) of 33 ± 6 nM. The number of binding sites found was 1,100 ± 120 fmol g^–1 fresh weight which is equivalent to a frequency of 23,000 binding sites per cell. The specificity of the binding sites to cytokinins and their analogues followed the sequence BA with highest affinity, kinetin, zeatin, iP and adenine. The cytokinin ribosides generally had a lower affinity than their cytokinin bases, and the affinity decreased in the order [9 R] BA, [9 R] iP, [9 R] Z, [9 R] A.     

Possible Regulatory Roles of Cytokinins : NADH Oxidation by Peroxidase and a Copper Interaction

Apparently free-base cytokinins can interact with cupric ions in a specific manner. Oxidation of NADH by a horseradish peroxidase system was strongly promoted by such cytokinins provided cupric ions were present. Oxidation was promoted by 5 micromolar kinetin, zeatin, 6-benzylaminopurine (BA), or 6-(Δ²-isopentenylamino)purine (2iP) but not by adenine, 6-methylaminopurine or 6,6-dimethylaminopurine. The 6-methylaminopurine promoted oxidation at 500 micromolar but adenine and 6,6-dimethylaminopurine did not. Activity of the free-base purines correlated well with their activity in cell-division assays. However, addition of methoxymethyl-, cyclohexyl-, or tetrahydropyranyl- at N-9 of BA or of ribosyl- at N-9 of BA, 2iP, kinetin, or zeatin eliminated activity in the peroxidase system. In a nonenzymic system containing cupric ions, all of the bases, including adenine, inhibited the Cu²⁺ -stimulated oxidation of ascorbic acid. As in the peroxidase system, the N-9 derivatives were inactive. The cytokinin promotion of NADH oxidation by peroxidase may result from an interaction of the hormones with copper, with peroxidase conferring a specificity similar to the cytokinin specificity observed in growth and development.     

The aromatic cytokinins

After the discovery of kinetin (Miller et al. 1956, J. Am. Chem. Soc. 78: 1345–1350) there was a flurry of syntheses that led to the finding of 6-benzylaminopurine (BA), an active and easily obtainable cytokinin. Much research into cytokinin physiology was subsequently done with this substance. Further, the isolation and unequivocal identification of natural BA and the high biological activity of its meta -hydroxylated analogues stimulated the search for other natural aromatic cytokinins. Screening was accomplished by ELISA of HPLC fractions using antisera against ortho - and meta -hydroxybenzyladenosine. Subsequent isolation and decisive identification by mass spectrometry led to discovery of a broad spectrum of endogenous plant growth substances structurally similar to a highly active compound, meta -topolin (6-[3-hydroxybenzyl-amino]purine), and to its less active analogue, ortho -topolin (6-[2-hydroxybenzyl-amino]purine). The structures of such aromatic cytokinins suggest considerably different biosynthetic pathways from that of zeatin and related isoprenoid cytokinins. From a physiological viewpoint, aromatic cytokinin metabolism can be classified under four main headings analogous to isoprenoid cytokinins: interconversion, hydroxylation, conjugation, and oxidative degradation. This review attempts to put into context what is known about 9-alkyl-BAs and compares their metabolism in regard to the practical use of cytokinins in agriculture and biotechnology. The recently discovered unusual specificity of additionally C2,N9-disubstituted aromatic cytokinins toward cell cycle kinases, suggests that these cytokinin-derived growth regulators may selectively inhibit certain steps of the cell cycle. The functional overlap of the aromatic cytokinins with those of their isoprenoid counterparts and cytokinin inhibitors, in relation to growth and developmental processes in plants, has yet to be determined.     

A cytokinin binding protein from higher plant ribosomes.

Two types of cytokinin binding sites exist on higher plant ribosomes. One of these, a high affinity site, binds cytokinins at low concentrations, is saturated at one cytokinin molecule per ribosome, is specific for substances with cytokinin activity, and is readily washed from the ribosome with 0.5 M KCl. The binding moiety has the characteristics of a protein and binds cytokinins apart from the ribosome.     

5,6-Dichlorobenzimidazole-1-beta-D-riboside, specific inhibitor of cytokinin activity in tobacco cell suspension cultures

Tobacco cell suspension cultures were supplemented with 4 to 10 microM 5,6-dichloro-1-beta-D-ribofuranosyl-benzimidazole (DBR). The cell suspensions were cultured in the presence or without a cytokinin, kinetin (N6-furfuryladenine). The responses of the cultures to DRB and (or) kinetin were measured by the evolution of cell mass or cell counts in the cultures, as a function of time or kinetin concentration. Chlorophyll biosynthesis was also used as a test-response to cytokinin and (or) DRB activities. It was concluded that DRB behaves as a specific inhibitor of the physiological responses to cytokinins. The evolution of the inhibition ratio versus kinetin concentration shows that DRB is not a competitor of the cytokinins.     

Design and synthesis of photolabile caged cytokinin

Cytokinins are phytohormones that regulate diverse developmental processes throughout the life of a plant. trans-Zeatin, kinetin, benzyladenine and dihydrozeatin are adenine-type cytokinins that are perceived by the AHK cytokinin receptors. Endogenous cytokinin levels are critical for regulating plant development. To manipulate intracellular cytokinin levels, caged cytokinins were designed on the basis of the crystal structure of the AHK4 cytokinin receptor. The caged cytokinin was photolyzed to release the cytokinin molecule inside the cells and induce cytokinin-responsive gene expression. The uncaging of intracellular caged cytokinins demonstrated that cytokinin-induced root growth inhibition can be manipulated with photo-irradiation. This caged cytokinin system could be a powerful tool for cytokinin biology.     

Superoxide dismutase mimetic activity of cytokinin-copper(II) complexes

Dissociation constants of cytokinins, derivatives of purine which form complexes with cupric ion, were determined by spectrophotometry and the stability constants of their copper complexes by pH titration. The values found for kinetin were 3.76, 9.96, 7.8, and 15.3 for pK1, pK2, logk1, and log beta 2, respectively, and those for 6-benzylaminopurine were, in the same order, 3.90, 9.84, 8.3, and 15.9. The copper(II) complexes with kinetin and 6-benzylaminopurine had superoxide dismutase mimetic activity, and the reaction rate constants with superoxide, which were determined by polarography, were 2.3 X 10(-7) M-1 s-1 for kinetin and 1.5 X 10(-7) M-1 s-1 for 6-benzylaminopurine at pH 9.8 and 25 degrees C.     

Some effects of plant growth regulators on tissue cultures of the marine red alga Agardhiella subulata (Gigartinales,Rhodophyta)

We examined whether auxins and cytokinins, either singly or in combination, stimulate cell division in tissue cultures of a red seaweed. Our experimental model consisted of filamentous and callus-like growths that developed from cross-sectional discs cut from young branches of Agardhiella subulata. Plant growth regulators were added to the medium to give combinations of an auxin with a cytokinin over a range of concentrations (1 µg L^–1 –10 mg L^–1). Several mixtures of auxins and cytokinins, as well as some single auxins, cytokinins and phenolics, stimulated cell division and growth in the tissue cultures beyond that of controls. The treatments that were effective included: phenylacetic acid/zeatin; phenylacetic acid/6-benzylaminopurine; -naphthaleneacetic acid/zeatin; 2,4,5-trichlorophenoxyacetic acid/6-benzylaminopurine; and indoleacetic acid/kinetin. High concentrations of cytokinins (i.e. 10 mg L^–1) inhibited the regeneration of plants in some of the cell cultures. These results provide further evidence that growth regulators can be used for the tissue culture of seaweeds and for the study of developmental phenomena in these plants.     

Das Verhalten von CO2-Assimilation,Nadpund PGS-Reduktion und ATP-Synthese Intakter Blattzellen in Abhängigkeit vom Wassergehalt

Summary The carrot-root tissue culture assay for cytokinin activity has been improved by changing the site of explant excision and eliminating certain vitamins from the basal medium. These modifications increased its sensitivity and enabled zeatin [6-(4-hydroxy-3-methylbut-trans-2-enyl)aminopurine] to be detected at concentrations less than 5×10^-5M. In the improved assay, zeatin was markedly more active than kinetin, 6-benzylaminopurine, 6-(o-methylbenzyl)aminopurine and 6-(3-methylbut-2-enyl)aminopurine.The activity of zeatin also exceeded that of kinetin in the etiolated bean-leaf disk expansion assay. Zeatin was markedly more effective than kinetin and 6-(3-methylbut-2-enyl)aminopurine in promoting frond expansion and increasing frond number of Spirodela oligorrhiza cultures grown under continuous illumination. Zeatin was also more active than kinetin and 6-(3-methylbut-2-enyl)aminopurine in increasing frond number of Spirodela cultures grown in darkness. In retarding the senescence of disks of leaves of several species, kinetin was considerably more effective than zeatin which was more active than 6-(3-methylbut-2-enyl)aminopurine. The allylic hydroxyl group in zeatin is therefore a structural feature associated with high cytokinin activity.The relative activities of cytokinins can be very different and even in reverse order in different bioassays. It is suggested that this is due to the mechanism of cytokinin action varying in the different biological systems used.Part IV: Shannon and Letham (1966).     

An in vitro technique for the production de novo of multiple shoots in cotyledon explants of cucumber (Cucumis sativus L.)

A technique is described for the production de novo of cucumber (Cucumis sativus L.) shoots in the presence of cytokinin using cotyledon explants. The shoots, which arose from adventitious buds and not from enhanced axillary branching, are confined to a specific region at the base of the cotyledon. Concentrations (4 mgl^–1 or less) of the cytokinins 6-benzylaminopurine, kinetin and N⁶-(2-isopentenyl)adenine, are all effective in producing adventitious buds. It is possible to achieve a yield of 23 shoots per cotyledon by removal of the axillary bud. The yield is increased to 50 shoots per cotyledon by cutting the basal region of the cotyledon into small pieces prior to culturing. These techniques may be useful for transformation studies in cucumber.     

Adenine type and diphenyl urea derived cytokinins improve the postharvest performance of <Emphasis Type="Italic">Iris germanica</Emphasis> L. cut scapes

An experiment was designed to evaluate the effect of various adenine derived cytokinins (kinetin and 6-benzylaminopurine) and diphenyl urea cytokinin (thidiazuron) on the postharvest performance of cut scapes of Iris germanica. Flower scapes were harvested with the oldest bud at ‘1 day before anthesis stage’, brought to laboratory under water, cut to a uniform length of 35 cm, divided into three sets viz., kinetin (KIN), 6-benzyl aminopurine (BAP) and thidiazuron (TDZ). Each set of scapes was treated with a particular cytokinin alone or in combination with 0.1 M sucrose. TDZ was effective than KIN and BAP in improving the postharvest life of the I. germanica scapes by 5.4 days as compared to the control (untreated scapes held in distilled water). This was because of the minimum percentage of bud abortion by TDZ application. Cytokinin application resulted in increased antioxidant activity, higher protein and phenolic content, besides a decrease in specific protease activity and α-amino acids in the tepal tissues. Application of TDZ resulted in the maximum increase in the superoxide dismutase, catalase and ascorbate peroxidase activity in the tepal tissues. The scapes treated with BAP and KIN maintained higher carbohydrate content in the tissue samples as compared to control and TDZ treated scapes. TDZ and BAP application resulted in increased membrane stability because of the decreased lipoxygenase activity which prevented membrane lipid peroxidation. Among the cytokinins tested, TDZ proved to be the promising cytokinin in improving the postharvest performance of beautiful flowers of I. germanica scapes.     

植物体内的芳环细胞分裂素

芳环细胞分裂素包括6-苄基氨基嘌呤（BA）,6-（3-羟苄基氨基）-嘌呤（mT）,6-（2-羟苄基氨基）-嘌呤(oT)和它们的衍生物。它的代谢具有相互转换、羟基化作用、结合作用和氧化降解四个特征。本文从信号的感受,转导和应答阐明细胞分裂素在细胞和分子水平上的 功能。     

A brassinosteroid-cytokinin interaction on ethylene production by etiolated mung bean segments

Three cytokinins and their ribosides were tested in conjunction with brassinosteroid (BR) for their effects on ethylene production in etiolated mung bean ( Vigna radiata L. Rwilcz cv. Berken) hypocotyl segments. When varying concentrations of BR were tried in combination with a fixed amount of kinetin (10 μ M ), there was an increase in ethylene production with increasing concentrations of BR up to 3 μ M , and a decline beyond. A stimulation in ethylene production was observed with increasing concentrations of each of the cytokinins used. However, when applied in conjunction with 3 μ M BR, all cytokinin concentrations produced similar stimulatory patterns. When 3 μ M BR or 10 μ M 6-benzylaminopurine (BAP) was applied in conjunction with increasing concentrations of IAA, there was a stimulation in ethylene production with increasing concentrations of IAA. However, 3 μ M BR and 10 μ M BAP together with varying concentrations of IAA failed to alter the level of ethylene production.     

Kinetic and chemical analyses of the cytokinin dehydrogenase-catalysed reaction: correlations with the crystal structure

CKX (cytokinin dehydrogenase) is a flavoprotein that cleaves cytokinins to adenine and the corresponding side-chain aldehyde using a quinone-type electron acceptor. In the present study, reactions of maize (Zea mays) CKX with five different substrates (N6-isopentenyladenine, trans-zeatin, kinetin, p-topolin and N-methyl-isopentenyladenine) were studied. By using stopped-flow analysis of the reductive half-reaction, spectral intermediates were observed indicative of the transient formation of a binary enzyme-product complex between the cytokinin imine and the reduced enzyme. The reduction rate was high for isoprenoid cytokinins that showed formation of a charge-transfer complex of reduced enzyme with bound cytokinin imine. For the other cytokinins, flavin reduction was slow and no charge-transfer intermediates were observed. The binary complex of reduced enzyme and imine product intermediate decays relatively slowly to form an unbound product, cytokinin imine, which accumulates in the reaction mixture. The imine product only very slowly hydrolyses to adenine and an aldehyde derived from the cytokinin N6 side-chain. Mixing of the substrate-reduced enzyme with Cu2+/imidazole as an electron acceptor to monitor the oxidative half-reaction revealed a high rate of electron transfer for this type of electron acceptor when using N6-isopentenyladenine. The stability of the cytokinin imine products allowed their fragmentation analysis and structure assessment by Q-TOF (quadrupole-time-of-flight) MS/MS. Correlations of the kinetic data with the known crystal structure are discussed for reactions with different cytokinins.     

Control by cytokinins of the cellular behavior in the plate meristem of zucchini cotyledons

The temporal and spatial effects of exogenous cytokinins on both cell expansion and division activity in the plate meristem of cultured zucchini cotyledons were studied. N ⁶-benzylaminopurine (1–100 μM) and N-(2-chloro-4pyridyl)-N′-phenylurea (4PU-30) (0.1–100 μM) greatly stimulated the cell growth and division. They provoked multiple cell cycles, formation of larger clusters of daughter cells and an increase of the final number of cells. Both cytokinins led to earlier achievement of final cotyledon size and shortened the cell doubling time. By contrast to the purine cytokinin, phenylurea cytokinin 4PU-30 enlarged the cotyledon predominantly in length. Zeatin and kinetin were less effective, particularly in stimulating cell expansion. In low concentrations, all cytokinins were more effective in stimulating division activity rather than expansion. The cells in the cotyledon margins displayed a higher division activity, especially when treated with exogenous cytokinins. The final cotyledon and cluster areas were not of the strict proportional dependence upon the number of their cells. These results provide a novel example where stimulated cell division fails to evoke a respective increase in the final organ size.     

In vitro cytokinin binding to a particulate cell fraction from protonemata of Funaria hygrometrica

Cytokinin-induced bud formation in moss protonemata is specific for cytokinin bases, their ribosides being relatively inactive. Binding of [³H]benzyladenine (BA) to a 13,000–80,000 x g subcellular fraction from extracts of Funaria hygrometrica (L.) Sibth. was measured by a centrifugation assay. Increasing concentrations of non-radioactive BA decreased the binding proportionally to the logarithm of the BA concentration between 3×10^-8 and 10^-4M. [³H]Zeatin also bound to these fractions, although the extent of binding was not as great as with [³H]BA. Biologically active cytokinins, including BA, zeatin, 6-(3-methyl-2-enylamino)purine (IPA) and kinetin, competed for the binding of [³H]BA, whereas the ribosides of BA, zeatin and IPA competed poorly. Other biologically inactive compounds, such as adenine and 9-methyl-BA, were also ineffective as competitors. The ability to bind BA by the 13,000–80,000 x g fraction was greatly reduced by treatment with 1% Triton X-100, and heat treatment eliminated more than one-half of the binding activity. Competitive binding appeared to be pH-dependent, with maximal activity between pH 6.0 and 6.5. After fractionation by differential centrifugation, the ability to bind cytokinins was not correlated with the RNA content of the fraction and thus probably did not represent binding to ribosomes which has been reported in other plant tissues. Cytokinins also exhibited competitive binding to non-biological materials, e.g., talc. The detailed characteristics of the binding of BA to talc were different from those to the biological fractions. However, the problem remains, in all studies of cytokinin binding, to distinguish between binding that is biologically meaningful, and biological (biologically) non-meaningful physical adsorption.Abbreviations BA N⁶-benzyladenine - IPA 6-(3-methyl-2-enylamino)purine - 9-MeBA N⁶-benzyl-9-methyladenine     

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.     

The effect of cytokinins on nitrate reductase activity

Cytokinins in addition to nitrate induce nitrate reductase activity (NRA) in some plants. Effects of cytokinins onNRA was investigated in stem pith parenchyma of kale, intact wheat and barley seedlings and isolated cucumber cotyledons. The most profound effect onNRA was found in barley and wheat seedlings.NRA in seedlings sprayed with 100 μM 6-benzylaminopurine (BAP) for three subsequent days was increased in leaves and decreased in roots. These changes were further enhanced in seedlings grown in nutrient solution lacking nitrate:NRA in wheat and barley leaves was increased by 57% and 202%, respectively, in plants supplied with nitrate theNRA increase was not significant: in wheat and barley leaves by 22% and 9%, respectively. Similar effect of BAP and kinetin was found in kale stem parenchyma and cucumber cotyledons. The cytokinin kinetin or BAP alone increasedNRA about twice in kale and three times in cucumber. Addition of nitrate to the medium enhanced the effect of kinetin in kale discs, but the two effects were not additive. Additive effect of nitrate and BAP onNRA was found in cucumber cotyledons in light. In general NRA was more affected by cytokinins in intact seedlings of wheat and barley as compared to explanted tissue of kale and cucumber, and lack of nitrogen made their effect more expressive.