A Cytokinin Complex in the Developing Fruits of Lupinus albus

The apices of Lupinus albus L. were analysed for cytokinin activity at three stages of development. Little cytokinin activity could be detected in the apices at the time of flowering. However, a considerable amount of activity was detected as the fruits developed. Separate analyses of seed and pod material indicated that there was a high level of cytokinin in both these parts of the fruit. After fractionation of the peaks of activity obtained from paper chromatograms on Sephadex LH-20, four peaks of cytokinin activity were recorded. Two of these co-eluted with zeatin and zeatin riboside. A third peak at an elution volume of 360–440 ml could be hydrolysed with β-glucosidase to give activity at elution volumes corresponding to those of zeatin and zeatin riboside. This strongly suggested that both glucosylated zeatin and glucosylated zeatin riboside were present in the developing fruits of L. albus. The fourth peak at an elution volume of 160–280 ml did not disappear upon hydrolysis with β-glucosidase, and it is possible that it represented a nucleotide cytokinin.     

The possible involvement of cytokinins in the pathogenicity of Helminthosporium maydis

Green islands/infection sites recorded higher cytokinin activity than surrounding tissue as well as non-inoculated tissue. This activity in infected areas increased with time of incubation while in tissue surrounding the green islands and non-inoculated tissue, cytokinin activity decreased with time of incubation. The culture filtrate extracts of H. maydis had cytokinin activity which increased with growth of the fungus. Cytokinin activity of thin-layer Chromatographic fractions from tissue and culture filtrate extracts revealed that a major portion of the activity was confined to Rf zone 0.6 to 0.8 which co-chromatographed with zeatin and zeatin riboside. Presence of zeatin and zeatin riboside in tissue and culture filtrates was confirmed by high performance liquid chromatography. Cytokinin substances, such as zeatin and zeatin riboside, increase at infection sites with growth of the pathogen suggesting they may be involved in the pathogenicity of H. maydis on maize.     

Changes in Gene Expression from Diploid to Autotetraploid Status of Lycopersicon esculentum

The cytokinin activity of the root exudate, the leaves, and the apices of vegetative and flowering white lupin plants (Lupinus albus L.) was investigated. The level of cytokinin activity in the root exudate decreased over the 11-week experimental period. Four peaks of cytokinin activity were recorded in the root exudate of 8-week-old plants after fractionation on Sephadex LH-20. Two of these peaks co-eluted with zeatin and zeatin riboside. It is suggested that the remaining peaks represent nucleotide and glucoside cytokinins. The cytokinin levels in extracts of the mature leaves fluctuated slightly over the experimental period. Three peaks of activity co-eluting with zeatin, zeatin riboside and the glucoside cytokinins were recorded in extracts of mature leaves of 8-week-old plants. In the apices cytokinin activity could only be detected in the inflorescences of flowering plants. It would appear that cytokinins produced by the roots accumulate in the fully expanded mature leaves, but are utilized in the rapidly growing apical region and in young expanding leaves.     

Changes in cytokinin activity during flower development in Cosmos sulphureus Cav

Endogenous cytokinin activity was determined in the flowers of Cosmos sulphureus Cav. from bud emergence to full bloom using the soybean callus bioassay. Cytokinin activity was low early in flower development but increased prior to full bloom. In Sephadex LH-20 column chromatography of flower extracts, the cytokinins present co-eluted with zeatin, zeatin riboside and glucoside cytokinin. While the former two predominated prior to full bloom, cytokinin glucoside activity appeared to be at a maximum at full bloom. The possible relevance of these findings is discussed in relation to flower development.     

Hormones in Plants Bearing Nitrogen-fixing Root Nodules: Distribution and Seasonal Changes in Levels of Cytokinins in Alnus glutinosa (L.) Gaertn

The root nodules of both dormant and non-dormant plants of Alnusglutinosa (L.) Gaertn. were found (by the soybean callus bioassay)to contain levels of cytokinin activity greatly exceeding thoseof other parts of young vegetative plants. A large, transient increase in cytokinin activity occurred inthe nodules at the time of bud break. Similar, although muchsmaller, increases were detected also in roots and buds. Theincrease in the level of nodule cytokinin activity was observedboth in mature trees and in young pot-grown plants in two successiveyears. A second peak of cytokinin activity, considered to bederived from cytokinin nucleotides, was found in the nodulesof mature trees in midsummer. Analysis of cytokinin extracts of different plant parts by meansof a Sephadex LH20 column revealed the presence of three mainpeaks of activity, with elution volumes corresponding to thoseof zeatin-9-glucoside, zeatin riboside, and zeatin. While theglucoside-like peak -was predominant in the nodules and leavesit was not detected in root pressure sap. A zeatin ribo-side-likepeak was the major cytokinin in the roots and root pressuresap. These findings are discussed in relation to current hypothesesconcerning the production, distribution, and possible physiologicalroles of the cytokinins.     

Pathogenesis of barley leaves by Helminthosporium teres I: Green island formation and the possible involvement of cytokinins

Infection sites/green islands were formed in host leaf tissue infected with drops of H. teres. They exhibited higher cytokinin-like activity, sugar and starch than their surrounding tissue and tissue under water drops. The cytokinin-like activity at the infection sites increased from 24 to 72 h of incubation. However, the cytokinin-like activity of the tissue surrounding the infection drops and the tissue under water drops fell from 24 to 72 h incubation. The culture filtrate extracts of the fungus also produced cytokinin-like activity which increased from 1 to 10 days incubation. Application of this culture filtrate extract evoked green island formation. Application of kinetin to host leaves duplicated the green island effect. Thin-layer chromatographic fractions of the tissue extracts and the culture filtrate extracts revealed that a major portion of cytokinin-like activity corresponded to zeatin and zeatin riboside. The presence of zeatin and zeatin riboside (both in tissue and culture filtrate extracts) was confirmed by high performance liquid chromatography. Increases in the amounts of cytokinin-like substances, particularly zeatin and zeatin riboside, attributed to pathogen influence are suggested to be involved in infection and pathogenicity of H. teres.     

Determination of cytokinins by mass spectrometry based on stable isotope dilution.

A method for quantitative determination of individual cytokinin species has been developed, based on gas chromatography-mass spectrometry and selected ion monitoring. Deuterated internal standards were prepared for analysis of N⁶-isopentenyladenosine, N⁶-isopentenyl-2-methylthioadenosine, zeatin riboside, and 2-methylthiozeatin riboside and were tested over the range of 1 to 20 ng of endogenous cytokinin per injection, relative to 100 ng of labeled standard. An isolation procedure for extracts of cabbage hearts as a model plant source has been developed that gives maximum recovery and minimum interference for gas chromatographic-mass spectrometric measurements. The present method differs from the commonly used bioassay by its selectivity for individual cytokinin components and shortened analysis time, including extractions, of 3 days vs several weeks.     

ENDOGENOUS CYTOKININS IN THREE GENERA OF MICROALGAE FROM THE CHLOROPHYTA1

Nine axenic microalgal (Chlorophyta) strains from three genera (Protococcus, Chlorella, and Scenedesmus) were analyzed for endogenous cytokinins. Cytokinin‐like activity was detected using the excised cucumber cotyledon bioassay. Five strains showed no cytokinin‐like activity and four strains, low cytokinin‐like activity. Ethanolic extracts of the microalgae containing a mixture of deuterium‐labeled standards were purified using a combined DEAE‐Sephadex octadecysilica column and immunoaffinity column based on wide‐range specific mon‐oclonal antibodies and analyzed by HPLC linked to a micromass single quadrupole mass spectrometer with an electrospray interface and a photodiode array detector. There were similar trends in cytokinin profiles for the nine microalgal strains investigated, although concentrations did vary. Both isopentenyladenine and isopentenyladenosine were detected in all nine strains. cis‐Zeatin and cis‐zeatin riboside occurred at higher concentrations than the trans isomers, whereas trans‐zeatin‐O‐glucoside and trans‐zeatin riboside‐O‐glucoside were dominant over the cis isomers. Dihydrozeatin and its conjugates were not detected in any significant amounts. The aromatic benzyladenine always occurred at higher concentrations than benzyladenosine. The topolins were well represented with all three isomers (ortho, meta, and para) being detected, with ortho‐topolin and ortho‐topolin riboside occurring at higher concentrations than the other isomers. However, for the O‐glucosides, the meta isomers (meta‐topolin‐O‐glucoside and meta‐topolin riboside‐O‐glucoside) occurred at higher concentrations than the other isomers. No N‐glucosides were detected (isopentenyladenine‐9‐glucoside, zeatin‐9‐glucoside, dihydrozeatin‐9‐glucoside, benzyladenine‐9‐glucoside, ortho‐topolin‐9‐glucoside, and meta‐topolin‐9‐glucoside). Generally, zeatin and topolin conjugates were the dominant forms of isoprenoid and aromatic cytokinins, respectively. There was no distinct trend in the proportions of isoprenoid to aromatic cytokinins.     

Phytohormones,Rhizobium mutants,and nodulation in legumes. VII. Identification and quantification of cytokinins in effective and ineffective pea root nodules using radioimmunoassay

Radioimmunoassays (RIA), employing antisera raised in rabbits against bovine serum albumin conjugates of zeatin riboside, dihydrozeatin riboside, and isopentenyladenosine, were used to estimate levels of these cytokinins and their corresponding bases in samples of effective (nitrogen-fixing, Fix⁺), ineffective (nonnitrogen-fixing, Fix^–) pea root nodules and uninoculated roots. Assays were done on extracts of nodule tissue, 1–2 g fresh weight, or approximately 10 g fresh weight of root tissue, and high specific activity [³H]zeatin riboside was added during preparation of the extract for use as a recovery marker. Two different purification procedures were employed, each involving several purification steps. High performance liquid chromatography (HPLC) was the final step in both procedures. Fractions from HPLC were analyzed by RIA using the appropriate antiserum. The cytokinins, zeatin, zeatin riboside, dihydrozeatin riboside, isopentenyl adenine, and isopentenyladenosine were detected and quantified in nodule tissue, and similarly, in root tissue (with the exception of zeatin, which we were unable to quantify in root tissue). Cytokinin levels in nodule tissue were higher than those in root tissue. The major cytokinins detected in nodule tissue were zeatin, followed by zeatin riboside and then dihydrozeatin riboside. The levels of zeatin and zeatin riboside estimated in nodules in the present study by RIA were of the same order of magnitude, though tending to be a little higher, than values obtained previously by bioassay. Dihydrozeatin riboside was identified with confidence for the first time in nodule tissue. There was a general decline with age in cytokinin levels in nodules, but no major qualitative change in nodule cytokinins with age. For theRhizobium strains examined, the data did not indicate a clear correlation between nodule cytokinin levels and the effectiveness of nodules in nitrogen fixation.     

Cytokinin Activity in Lupinus albus

The cytokinin content of the root exudate and leaves of fruiting white lupin plants (Lupinus albus L.) was investigated at 2 weekly intervals after anthesis of the lowest flower on the primary inflorescence. Up to 8 weeks after anthesis the level of cytokinins in the root exudate increased. However, at 10 weeks after anthesis insufficient sap was produced for analysis. Cytokinins co-eluting with zeatin and zeatin riboside were detected in the root exudate after fractionation on Sephadex LH-20. The cytokinin levels in the mature leaves steadily increased up to 8 weeks after anthesis and thereafter remained relatively constant. Three peaks of activity, co-eluting with zeatin, zeatin riboside and the glucoside cytokinins were recorded in the leaf extracts. The level of glucoside cytokinins in the leaves was high at 8 and 10 weeks after anthesis. Paper chromatography of extracts of fruits collected at 2 weeks after anthesis indicated that as fruit development proceeded there was a build up of cytokinin in this region of the plant. It is suggested that, in the white lupin, the cytokinins translocated to the shoot are accumulated in the leaves and in the fruits and that it is only later when there is a considerable decrease in sap (10 weeks after anthesis) production that a decreasing supply of cytokinins leads to shoot senescence.     

Isolation and identification of substances inducing formation of tracheary elements in cultured carrot-root slices

Data are presented on the cytokinin status of seeds and seed components, at different stages of development in Phaseolus coccineus L., as determined with the soybean callus growth bioassay: A change in cytokinin types according to developmental stage occurred: from biologically very active less polar types (zeatin=Z) at early stages to more polar types (zeatin glucoside=Z₉G and zeatin riboside=Zr), with relatively low biological activity, at intermediate and late stages of seed development: When cytokinins were analyzed separately in embryos (embryo proper) and suspensors at two embryonic stages: heart-shaped (A) and middle cotyledonary embryos (stage B) respectively, it was found that: i) at stage A, the suspensor showed cytokinin activity at the level of Z, 2iPA (2-isopentenyladenosine) and Zr, whereas more polar cytokinins (Z₉G, Zr) were present in the embryo; ii) at stage B, when the embryo seems to become autonomous for cytokinin supply, there was a relative abundance of active cytokinins (Z, 2iPA) in the embryo to which Z₉G activity in the suspensor corresponded. It is concluded that the suspensor plays an essential role in embryogenesis by acting as a hormone source to the early embryo.Abbreviations GA gibberellic acid - 2iPA 2-isopentenyladenosine - Stage A heart-shaped embryo - siage B middle cotyledonary embryo - Z zeatin - Z₉G zeatin glucoside - Zr Zeatin riboside     

The Effect of Ringing on Cytokinin Distribution in Salix baylonica

Although quantitative differences were observed in the cytokinin content of mature leaves and bark of Salix babylonica it would appear as if these tissues contained the same cytokinin complement. Ringing resulted in a decrease in the level of cytokinins in the leaves and an increase in the bark, both above and below the girdle. In the leaves the decrease was due mainly to a drop in the level of those compounds that co-chromatographed with the cytokinin glucosides. These compounds were also almost undetectable in the bark above the girdle, where callus was formed. The observed increase in the cytokinin content of the bark above the girdle was due to higher activity in those parts of the chromatograms where zeatin and zeatin riboside occurred. Ringing stimulated the growth of lateral buds below the girdle. These developing buds as well as the bark below the girdle contained very high levels of cytokinins that cochromatographed with zeatin and zeatin riboside.     

Cytokinins in Populus x robusta Schneid: A complex in leaves

Summary At least seven cytokinins have been detected in mature leaves of Populus x robusta Schneid after chromatography on Sephadex LH-20. Two of these have similar elution volumes to zeatin and zeatin riboside. A third appears to be a cytokinin glucoside. A fourth is a new, unidentified cytokinin, susceptible to mild oxidation, and yielding two cytokinin active products after acid hydrolysis. This cytokinin complex has been found in fully expanded leaves, a tissue in which cell division is completed.     

High Performance Liquid Chromatographic Analysis of Cytokinins in Sorghum bicolor Leaves

High performance liquid chromatography with octadecylsilica (Bondapak C₁₈/Poracil B) column packing was used to purify and separate cytokinins in Sorghum leaf extracts. The column size was 56 × 0.21 cm i.d. By gradient elution, using acidified water with increasing amounts of methanol, the major peaks of cytokinin activity, as determined by the callus tissue bioassay. were effectively separated from large amounts of extraneous impurities. These cytokinins were further separated on a microoctadecylsilica column (μBondapak C₁₈, 30 × 0.4 cm i.d.) with a gradient of acidified water-acetonitrile. Zeatin and zeatin riboside gave distinct ultra violet absorption peaks which could be used for quantitative estimation. Biological activity corresponded to the elution of these peaks. These two cytokinins are the major cytokinins in Sorghum leaves.     

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.     

Cytokinin translocation: Changes in zeatin and zeatin-riboside levels in the root exudate of tomato plants during their development

Summary The zeatin and zeatin riboside content of tomato (Lycopersicon esculentum Mill.) root exudates were determined at different stages of development. Zeatin riboside was found to be the major translocational form of cytokinin in the xylem during early vegetative growth. During flower bud formation this cytokinin decreased markedly in concentration so that, at anthesis, there was no appreciable difference in the zeatin and zeatin riboside concentration in the root exudate.     

Identification of Cytokinins of Root Nodules of the Garden Pea, Pisum sativum L

Five cytokinin activities which induced soybean callus proliferation were detected in ethanol extracts of root nodules of the garden pea (Pisum sativum L., cv. Little Marvel). The most active factors among them were identified as zeatin and its riboside on the basis of their mobility on thin layer chromatography in three solvent systems. Smaller activities of zeatin ribotide, isopentenyladenine and its riboside were also detected. Cytokinin activity gradually decreased with the cultivation period, but no qualitative change in the active compounds was found.     

Distribution of cytokinin-like activity in different plant parts of the water hyacinth, Eichhornia crassipes

Cytokinin-like activity in extracts of leaf laminae, petioles, shoots, roots and flowers of young plants of the water hyacinth, Eichhornia crassipes S. was analyzed following Sephadex LH-20 column chromatography using the soybean callus bioassay. In all plant parts analyzed, two prominent peaks of cytokinin activity having elution volumes similar to zeatin and zeatin riboside were detected. Putative cytokinin gluco-side-like activity was detected only in leaves and flowers. The cytokinin complements of the leaves and the roots were qualitatively different. It would appear that cytokinins supplied by the roots are metabolized in the leaves or certain cytokinins are synthesized in the leaves themselves. The possible significance and distribution of cytokinins in different plant parts in relation to roots is discussed.     

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.     

Cytokinins in Xanthium strumarium L.: Distribution in the Plant and Production in the Root System

Cytokinins from leaf laminae, buds, petioles, stems, roots,and root exudate of mature vegetative plants of Xanthium strumariumL. were extracted, fractionated, and partially characterizedby means of column chromatography with Sephadex LH20. Two peaksof cytokinin activity with elution volumes corresponding tozeatin and zeatin riboside were detected, in varying concentrations,in all plant parts. A third cytokinin, detected only in petiolesand in expanding and mature leaves, eluted off the Sephadexcolumn before zeatin riboside. This cytokinin (peak ‘a’)was converted to zeatin or to a zeatin-like cytokinin followingboth acid hydrolysis and treatment with ß-glucosidase.Peak ‘a’ was not detected in buds or in the youngestdeveloping leaves but was the predominant cytokinin presentin half-expanded and more mature leaves. By contrast, the zeatinriboside-like peak (peak ‘b’) constituted the majorcytokinin in root exudate, apical buds, and the youngest developingleaves, while not greatly contributing to the cytokinin contentof mature leaves. The detopped root system was shown to be capable of cytokininproduction. The distribution of cyrtokinins in the plant isdiscussed in relation to their probable origin in the root system.