Influence of temperature increase on evaportranspiration rate and cytokinin content in wheat seedlings

The content of cytokinins especially zeatin nucleotide decreased in shoots as a result of temperature increase. Simultaneously the cytokinins accumulated in roots. The changes in cytokinins distribution were followed by a decline of evapotranspiration after its initial temperature-induced uprising. This revised version was published online in July 2006 with corrections to the Cover Date.     

Endogenous cytokinins in vegetative shoots of peas

In G2 peas senescence only takes place in long days. In order to determine the role of cytokinins in this process the endogenous cytokinins from vegetative shoots of G2 peas were characterized using gas chromatography-mass spectroscopy following purification by HPLC. Cytokinins were extracted and purified with and without the addition of ¹⁵N labelled internal standards of several cytokinins to estimate cytokin content by isotope dilution in the mass spectra. Samples without internal standards were bioassayed after HPLC. Bioassays showed the presence of zeatin, zeatin riboside and zeatin-0-glucoside. The presence of zeatin was confirmed by its mass spectrum of its permethylated derivative. Tentative identification of zeatin riboside, zeatin-0-glucoside, dihydrozeatin, and dihydrozeatin-0-glucoside was obtained by the coincidence of the major ion for the permethylated natural and ¹⁵N labelled internal standards on GC-MS, and the similar coincidence of ions for permethylated zeatin riboside-0-glucoside by direct probe MS. There was no indication of the presence of significant quantities of zeatin-7-glucoside or zeatin-9-glucoside. The amounts in the tissue ranged from 200–1000 ng/kg fresh weight for each cytokinin and about 2–4 g/kg fresh weight for total cytokinins. There was no apparent difference in the levels in mature but pre-senescent shoots grown in long days and short days indicating that apical senesecence in G2 peas does not appear to be induced by a decline in cytokinin level in the shoots.Cytokinin abbreviations CK Cytokinin - Z trans zeatin - [9R]Z t-zeatin riboside - [9R-5P] Z t-zeatin riboside-5-monophosphate - (OG)Z t-zeatin-0-glucoside - (OG)[9R]Z t-zeatin riboside-0-glucoside - [7Z]G t-zeatin-7-glucoside - [9G]Z t-zeatin-9-glucoside - (diH)Z dihydrozeatin - (diH)[9R]Z dihydrozeatin riboside - iP N6(²-isopentenyl) adenine - [9R]iP N6(²-isopentenyl) adenosine Work performed while PJD was on leave at the University College of Wales at Aberystwyth.     

Endogenous cytokinin levels and metabolism of zeatin riboside in genetic tumour tissues and non-tumourous tissues of tobacco

The cytokinin content of stem tissues, primary genetic tumours (excised from 2-month-old plants) and 3-week-old in vitro cultured genetic tumour tissues derived from Nicotiana glauca (Grah.) × langsdorffii (Weinm.) and N. suaveolens (Lehm.) × langsdorffii (Weinm.) hybrids and stem tissues derived from 2-month-old N. suaveolens and N. langsdorffii plants has been analysed by radioimmunoassay. Stem tissues of tumour-prone hybrids contain high cytokinin levels (3–3.7 nmol g⁻¹). This increase is caused mainly by increased levels of cytokinin nucleotides, particularly those of zeatin nucleotide (0.5 nmol g⁻¹) in stem tissues of parent plants and 2.4 nmol g⁻¹ in stem tissues of hybrids). All other tissues contain lower cytokinin levels (0.7–1.7 nmol g⁻¹). Cytokinin bases and ribosides are major compounds in cultured tumour tissues while the nucleotides are dominant cytokinins in all freshly excised tissues from parent plants and their hybrids. In a separate study, the metabolic fate of supplied [³Hj-zeatin riboside. which is inactivated mainly by sidechain cleavage, has been studied. The results collectively suggest that cytokinins may be involved in tumourigenesis.     

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.     

Dihydrozeatin metabolism in radish seedlings

(±)-[8-¹⁴C]Dihydrozeatin was fed to derooted radish seedlings. After three days the plants were harvested and the cytokinin metabolites purified     

Cytokinins in cut carnation flowers. VII. The effect of zeatin and dihydrozeatin derivatives on flower longevity

Dihydrozeatin, at 4×10^–5 M, delayed the senescence of carnation flowers while tZ, at the same concentration, accelerated it. cis-Zeatin was ineffective. The DHZ derivatives as well as the Z derivatives gave responses very similar to those observed for the parent free bases. While additional experimentation with radiolabelled derivatives is clearly called for, the similarity between the responses observed for the respective derivatives and the free bases, suggests that in the carnation flower there is a great deal of metabolic interconversion.Abbreviations DHZ dihydrozeatin - DHZR ribosyldihydrozeatin - DHZOG glucosyl-O-dihydrozeatin - DHZ9G glucosyl-9-dihydrozeatin - DHZROG glucosyl-O-ribosyldihydrozeatin - cZ cis-zeatin - tZ trans-zeatin - ZR ribosylzeatin - Z9G glucosyl-9-zeatin - ZOG glucosyl-O-zeatin - ZROG glucosyl-O-ribosylzeatin     

Postanthesis temperatures influence cytokinin accumulation and wheat kernel weight

High temperatures during reproductive development alter kernel development and reduce yield and quality in wheat ( Triticum aestivum L.). Understanding how temperature alters kernel formation will help the development of genetic approaches to enhance heat tolerance in this cereal. A relationship between kernel development and postanthesis cytokinin accumulation is well documented, but the effect of temperature on this relationship is not known. This study quantified the effects of a postanthesis temperature treatment (7 d at 35/25 °C day/night) on kernel development and cytokinin accumulation in a soft white winter wheat (c.v. Stephens). Kernels from control plants maintained at 25/15 °C accumulated zeatin, dihydrozeatin and their corresponding 9-ribosides from 1 to 4 d postanthesis. Postanthesis kernel cytokinin accumulation was reduced by 50–80% by the temperature treatment. Kernel cytokinin content in control plants declined to baseline by 5 d postanthesis and remained at that level. Kernels from treated plants had a secondary peak of cytokinin accumulation 6–8 d after anthesis. This treatment significantly reduced kernel weight. The magnitude of the effect on kernel number was smaller than on kernel weight, but was statistically significant. Reduced kernel weight was accompanied by reduced cytokinin accumulation. Exogenous cytokinins did not mitigate the temperature effects on kernel weight, but at the highest concentrations, did reduce the effect on kernel number.     

Identification and quantitation by GC-MS of zeatin and zeatin riboside in xylem sap from rootstock and scion of grafted apple trees

Zeatin and zeatin riboside were identified by full-scan gas chromatography-mass spectrometry (GC-MS) in xylem sap of clonal apple rootstocks (M.27, M.9 and MM.106). These rootstocks exhibit a wide range of control over tree size when grafted to a common scion. The concentrations of zeatin and zeatin riboside were measured by GC-MS selected ion monitoring (SIM) in shoot xylem sap and root pressure exudate obtained from these rootstocks and from trees of Fiesta scion grafted onto the rootstocks. Zeatin was the predominant cytokinin in xylem sap from the dwarfing rootstocks, M.27 and M.9, while zeatin riboside was the predominant cytokinin in xylem sap from the more invigorating rootstock MM.106. Cytokinin concentrations (ng ml^–1) in root pressure exudate and shoot xylem sap, (i.e. from above the graft union in composite trees), increased with increasing vigour of the rootstock, irrespective of whether the plants were non-grafted rootstocks, or were composite plants of Fiesta scion grafted onto the rootstocks. Cytokinin content (ng shoot^–1) of shoot sap differed with rootstock; the more invigorating (MM.106) had greater amounts of cytokinins than the more dwarfing (M.9 and M.27) rootstocks. These results are discussed in relation to possible influences of roots on the growth of shoots via cytokinin supplies in the xylem sap.     

Cytokinins in the vascular saps of Ricinus communis

Roots are recognised as the major sites of cytokinin synthesis and shoots receive a continuous supply of cytokinins from the roots. Although reports are available on the xylem mobility of putative free bases and their ribosides, relatively few studies on the phloem mobility of cytokinins have been reported. The origin of phloem-mobile cytokinins is uncertain but there is evidence which implicates a recirculation from the root source. This study is the first report in which zeatin and zeatin riboside from the root pressure exudate and phloem sap of Ricinus have been identified by full-scan GC-MS and quantified by GC-MS selective-ion-monitoring. In this study, the concentration of cytokinins in root pressure exudate was similar, but lower, and in the phloem sap higher than that reported previously. The concentration of cytokinins quantified in the phloem sap confirms their transport in the sieve tubes. The relatively high concentration of zeatin riboside detected in the root pressure exudate and of zeatin detected in the phloem sap indicate a possible vascular recirculation of these hormones.     

Increases in cytokinin levels in Scots pine in relation to chilling and bud burst

Levels of isopentenyladenosine and zeatin riboside were monitored in buds and needles of Scots pine ( Pinus sylvestris L.) seedlings grown under controlled climatic conditions and in field-grown trees. Extracts were purified by immunoaffinity chromatography and high-performance liquid chromatography. Cytokinin levels were quantified with an enzyme-linked immunosorbent assay. The cytokinin content was low in buds and needles of dormant seedlings but increased during dormancy release, reaching peak values in buds just before resumption of shoot growth. Samples collected in the field also showed a marked increase in the levels of cytokinins just prior to bud burst. Further, the biological activity of applied cytokinins in activating the dormant buds of Scots pine is shown. The results indicate a probable role of cytokinins in seedlings during dormancy release.     

Biosynthesis of cytokinins by potato cell cultures

Potato cells grown in liquid culture incorporated mevalonic acid lactone-[2-¹⁴C] into free cytokinin (zeatin riboside and zeatin and the cytokinin of RNA (zeatin riboside). The cytokinin liberated by catabolism of RNA can account for no more than 40% of the free cytokinins.     

Enhanced oxidative stress in the ethylene-insensitive (ein3-1) mutant of Arabidopsis thaliana exposed to salt stress

To better understand the role of ethylene signaling in plant stress tolerance, salt-induced changes in gene expression levels of ethylene biosynthesis, perception and signaling genes were measured in Arabidopsis thaliana plants exposed to 15 days of salinity. Among the genes analyzed, EIN3 showed the highest expression level increase under salt stress, suggesting a key role for this ethylene-signaling component in response to salt stress. Therefore, we analyzed the salt stress response over 15 days (by adding 100 mM NaCl to the nutrient solution) in the ein3-1 mutant compared to the wild-type (Col-0) in terms of growth, oxidative stress markers (lipid peroxidation, foliar pigments and low-molecular-weight antioxidants) and levels of growth- and stress-related phytohormones (including cytokinins, auxins, gibberellins, abscisic acid, jasmonic acid and salicylic acid). The ein3-1 mutant grew similarly to wild-type plants both under control and salt stress conditions, which was associated with a differential time course evolution in the levels of the cytokinins zeatin and zeatin riboside, and the auxin indole-3-acetic acid between the ein3-1 mutant and the wild-type. Despite showing no signs of physiological deterioration under salt stress (in terms of rosette biomass, leaf water and pigment contents, and PSII efficiency) the ein3-1 mutant showed enhanced lipid peroxidation under salt stress, as indicated by 2.4-fold increase in both malondialdehyde and jasmonic acid contents compared to the wild-type. We conclude that, at moderate doses of salinity, partial insensitivity to ethylene might be compensated by changes in endogenous levels of other phytohormones and lipid peroxidation-derived signals in the ein3-1 mutant exposed to salt stress, but at the same time, this mutant shows higher oxidative stress under salinity than the wild-type.     

Changes in Cytokinin Distribution in the Ovule and Ovary of Taraxacum officinale Web. in Early Stages of Embryogenesis

Quantitative changes in the hormonal status of the ovules and ovaries were first studied in Taraxacum officinale Web. at the early stages of embryogenesis. The plant material was analyzed by ELISA using labeled anti-rabbit antibodies. A new procedure for differential and quantitative determination of the main endogenous cytokinins based on the estimation of the effective zeatin and zeatin riboside concentrations from calibration curves constructed using zeatin and zeatin riboside as standard antigens was developed. It was shown that, at the three initial stages of embryogenesis examined, the concentration of zeatin uniformly increased in T. officinale ovules. The concentration of zeatin riboside, conversely, uniformly decreased. However, their total concentration changed insignificantly. A gradual increase in the concentration of the active and storage hormone forms from the ovary to the ovule was shown.     

Spatial and Temporal Distribution of Zeatin and Zeatin Riboside during the Period of the Egg-Cell Activity in the Ovaries of Amphimictic and Apomictic Plants

Spatial and temporal distribution of zeatin and zeatin riboside was studied in the ovaries of amphimictic (Triticum aestivum L.) and apomictic (Taraxacum officinale Web.) species during the period from the quiescence release of the egg cell to its first division. This period was divided into three stages: (1) no signs of division of the central cell, (2) division of the central cell and no signs of division of the egg, and (3) division of the egg. Cytokinin content was determined in ovary and its four sections (basal, medial, apical, and ovule) using an original modification of ELISA. Apomicts and amphimicts were shown to be similar in the pattern of changes in the cytokinin content in basal and medial zones but differed substantially in that of apical section and ovule.     

The Putative Factors Involved in the Induction of Embryogenesis in Angiosperms

We quantified various endogenous cytokinins during wheat (Triticum aestivumL.) and dandelion (Taraxacum officinaleWeb.) ovary development. Wheat ovaries were studied at the following developmental stages: the mature embryo sac with eight nuclei (stage 1), the interphasic zygote 12 h and 24 h after fertilization (stage 2), and the onset of zygote division (stage 3). The dandelion ovaries were studied at the stage of the mature embryo sac (stage 1), in the interphase of the parthenogeneticaly developing ovule (stage 2), and during its first division (stage 3). The material was analyzed by the method of competitive solid-phase immunoenzyme assay (ELISA) using peroxidase-labeled anti-rabbit antibodies. The onset of embryogenesis in wheat and dandelion ovules was accompanied by the substantial rearrangement of their hormonal complexes, which preceded the morphogenetic processes leading to seed formation. This implies that the hormonal system of the whole maternal plant is involved in the induction of embryogenesis. The final stages of embryogenesis depend on the hormonal systems in the flower, ovary, and ovule.     

甘蔗幼叶脱分化及愈伤组织形成过程中内源细胞分裂素和ABA的变化

甘蔗幼叶片,叶鞘和幼茎在含有2.4-D的培养条件下脱分化的情况有明显差异。它们除了在形态学上有区别外,这三种材料原有的细胞分裂素和ABA的水平明显不同。在幼叶片脱分化及愈伤组织形成过程中,内源细胞分裂素和ABA的水平也发生了明显变化。据此我们认为在甘蔗组织培养中2.4-D可能通过调节内源激素的水平及其相互作用,引起培养物中某些生理生化过程发生改变,从而进行脱分化和愈伤组织形成。     

Changes in phytohormones and oxidative stress markers in buried seeds of Vellozia alata

Little information is still available on the mechanisms underlying seed persistence in the soil in several species, and most particularly in vegetation of the rupestrian fields of the Espinhaço Range in Brazil, where ca. 90% of their species are endemic and are of interest for conservation biology. Here we aimed at examining the putative physiological and biochemical changes seeds of one of this species (Vellozia alata L.B.Sm., Velloziaceae) may experience after burial under natural conditions. Endogenous concentrations of phytohormones and oxidative stress markers were measured in seeds buried in the soil for 12 months. Buried seeds experienced a significant loss of germination capacity, which decreased from 58 to 29% during the first 6 months. This was associated with a decline in gibberellins (by 65%), abscisic acid (by 98%), cytokinins (up to 75%) and jasmonic acid (by 97%) during the first 3 months, while salicylic acid increased at 6 months of burial. Malondialdehyde and tocopherol levels also decreased dramatically to non-detectable values during this period, while all tocotrienol homologues decreased by 30%. By contrast, germination capacity remained constant around 30% between 6 and 12 months of burial. During this period, concentrations of all phytohormones examined remained unaltered, except for salicylic acid, whose levels returned to initial values. Tocotrienols decreased significantly, particularly between 9 and 12 months of burial, while the extent of lipid peroxidation remained constant. It is concluded that in V. alata, (i) seed burial causes dramatic changes in phytohormones and in the extent of lipid peroxidation, while the potential for germination decreases; (ii) after 6 months of burial, seed germination capacity remains constant, at least until one year, which is associated with absence of oxidative damage.     

Cytokinin profile during early phase of germination of gram seeds after application of benzylaminopurine

Qualitative and quantitative differences in cytokinin levels of gram seeds were observed during germination of control and 6-benzylaminopurine (BAP; 4.44 x 10^t-5 M) treated seeds. Zeatin riboside (ZR), zeatin (Z), dihydrozeatin (DHZ), isopentenyladenosine (iPA) and isopentenyladenine (iP) were determined using high pressure liquid chromatography. In the control seeds the ZR content increased markedly only after 24 h of germination. In BAP treated seeds, the increase in ZR content was stronger than in control seeds and it persisted during further germination. Z content increased during germination in both control and treated seeds. After 48 h of germination iP appeared in control and especially in treated seeds. Acknowledgements: The senior author is thankful to University Grants Commision, New Delhi for award of Research Associateship.