Temperature-sensitive loss of tumor characteristics in a tobacco crown gall strain

Summary Three independently isolated tobacco crown gall strains incited byAgrobacterium tumefaciens C58 required phytohormone (auxin and cytokinin) supplements in the basal medium to grow, at 37°C. Six other tobacco crown gall strains incited, respectively, byA. tumefaciens IIBV7, B6, CGIC, A6NC, 27 and AT4 expressed, at 37°C, the tumor characteristic of ability to grow in vitro on medium lacking phytohormones. Nopaline was not detectable in C58 tumors cultured at 37°C, but octopine was produced by B6 tumor tissues incibated at the elevated temperature. C58 tumor strains kept at 37°C for 1 week or more lost the ability to express tumor characteristics at 27°C such as tissue morphology, growth on basal medium lacking phytohormones and nopaline production. Heat-treated C58 tissues also differed from the original tumor strain in regeneration ability and phytohormone requirements of explants; i.e. explants from regenerated, heart-treated C58 tumors required both auxin and cytokinin for growth in vitro.     

Cold stress triggers freezing tolerance in wheat (Triticum aestivum L.) via hormone regulation and transcription of related genes

• Low temperatures limit the geographic distribution and yield of plants. Hormones play an important role in coordinating the growth and development of plants and their tolerance to low temperatures. However, the mechanisms by which hormones affect plant resistance to extreme cold stress in the natural environment are still unclear.
• In this study, two winter wheat varieties with different cold resistances, Dn1 and J22, were used to conduct targeted plant hormone metabolome analysis on the tillering nodes of winter wheat at 5 °C, −10 °C and −25 °C using an LC–ESI–MS/MS system. We screened 39 hormones from 88 plant hormone metabolites and constructed a partial regulatory network of auxin, jasmonic acid and cytokinin.
• GO analysis and enrichment of KEGG pathways in different metabolites showed that the ‘plant hormone signal transduction’ pathway was the most common. Our study showed that extreme low temperature increased the most levels of auxin, cytokinin and salicylic acid, and decreased levels of jasmonic acid and abscisic acid, and that levels of auxin, jasmonic acid and cytokinin in Dn1 were higher than those in J22. These changes in hormone levels were associated with changes in gene expression in synthesis, catabolism, transport and signal transduction pathways. These results differ from the previous hormone regulation mechanisms, which were mostly obtained at 4 °C.
• Our results provide a basis for further understanding the molecular mechanisms by which plant endogenous hormones regulate plant freezing stress tolerance.

     

The Diageotropica Gene Differentially Affects Auxin and Cytokinin Responses throughout Development in Tomato

The interactions between the plant hormones auxin and cytokinin throughout plant development are complex, and genetic investigations of the interdependency of auxin and cytokinin signaling have been limited. We have characterized the cytokinin sensitivity of the auxin-resistant diageotropica (dgt) mutant of tomato (Lycopersicon esculentum Mill.) in a range of auxin- and cytokinin-regulated responses. Intact, etiolated dgt seedlings showed cross-resistance to cytokinin with respect to root elongation, but cytokinin effects on hypocotyl growth and ethylene synthesis in these seedlings were not impaired by the dgt mutation. Seven-week-old, green wild-type and dgt plants were also equally sensitive to cytokinin with respect to shoot growth and hypocotyl and internode elongation. The effects of cytokinin and the dgt mutation on these processes appeared additive. In tissue culture organ regeneration from dgt hypocotyl explants showed reduced sensitivity to auxin but normal sensitivity to cytokinin, and the effects of cytokinin and the mutation were again additive. However, although callus induction from dgt hypocotyl explants required auxin and cytokinin, dgt calli did not show the typical concentration-dependent stimulation of growth by either auxin or cytokinin observed in wild-type calli. Cross-resistance of the dgt mutant to cytokinin thus was found to be limited to a small subset of auxin- and cytokinin-regulated growth processes affected by the dgt mutation, indicating that auxin and cytokinin regulate plant growth through both shared and separate signaling pathways.     

Evidence for an abundant 33,000-dalton polypeptide regulated by cytokinins in cultured tobacco tissues

When cloned pith and leaf tissues of Nicotiana tabacum L. cv. Havana 425 are subcultured for 3 d on auxin-containing medium and labelled for 18 h with [³⁵S]methionine, up to 10% of the labelled, soluble-protein fraction is found in a single band with an apparent molecular weight of approx. 32,000–34,000 dalton on sodium-dodecylsulfate polyacrylamide-gel electrophoretograms. The labelling of this band, designated P33, is dramatically inhibited by the cytokinin, kinetin, in some cell lines at concentrations as low as 1.4·10^-8 M. P33 is a major component of the protein fraction obtained from non-habituated clones, cytokinin-habituated clones, and revertant subclones of crown-gall-transformed clones, but cannot be detected in clones habituated for both auxin and cytokinin, or crown-gall-transformed clones. The evidence supports the hypothesis that cytokinin in the presence of auxin regulates the production of a specific, major polypeptide in the soluble-protein fraction of the tissue and that this protein is not produced in tissues autotrophic for both auxin and cytokinin.     

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

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

Hormonal control of tobacco crown gall tumor morphology

The endogenous levels of auxin and cytokinin in teratoma and unorganized tobacco (Nicotiana tabacum L. var Wisconsin #38) crown gall tumor tissues were determined. Teratoma tissues contain levels of auxin and cytokinin favorable for shoot formation, whereas unorganized tumors contain levels of auxin that suppress shoot formation. This conclusion is based upon the observation that when levels of auxin and cytokinin similar to those found in a teratoma were added to the growth medium of nontumorous tobacco tissue, shoot formation resulted; when levels similar to those found in unorganized tumors were added, the normal tissue grew as unorganized callus.     

Influence of various cooling and warming temperatures on survival after thawing of cryopreserved Plasmodium berghei

Heavy concentrations of viable P. berghei in the natural milieu [20% ($\text{v}\text{v}$) parasitized red blood cells, or 20% ($\text{w}\text{v}$) homogenate of splenic tissue in which malarial cells sequestered wer suspended in a serum-free, protective medium. Various rates of cooling are designated as low (1.3 °C/min) and intermediate (4 °C/ min) on exposure in cold gas evolving from liquid nitrogen refrigerant to ?70 °C, and this followed by direct immersion in the low temperature refrigerant (?196 °C). Cooling designated high was accomplished by abrupt immersion of the sealed vials with the live malaria-bearing tissue in the liquid nitrogen refrigerant. Rates of warming and thawing were designated low (after slow rewarming of frozen tissue in air at 25.5 °C) and high (after rapid rewarming and thawing in a water bath at 40 °C). Strip chart recordings were made of the complete cooling and freezing wave patterns of the suspending medium to ?70 ° C. The functional survivals of the freeze-thaw P. berghei malaria were measured by a special infectivity titration method.None of the cooling and freezing treatments adversely influenced the parasite survivals. Our data showed the optimum cooling velocity that maximally protected this highly lethal P. berghei strain within the host erythrocyte matrix was 1.3 ° C/min to ?70 to ?196 ° C. The functional survivals of two RBC stabilates with P. berghei, after retrieval from 25 days storage in the liquid nitrogen refrigerant, excelled by more than 100-fold the infectivity titer found by viability assay in the pool of the 0-days nonfrozen infected RBC.The precise factors favoring the maximal survivals of the freeze-thaw P. berghei are unclear. Several factors, singly or in combination, may have played key roles in protecting the living P. berghei from the freeze-thaw damage. These factors are: The composition of the suspending medium fortified by additions of bicarbonate, glucose, lactalbumin hydrolysate and yeastolate; the presence of naturally occurring peptide-containing materials surrounding the parasites in the host red cell milieu; and the protective glycerol agent. Any of these constituents singly or combined possess potential for reducing freeze-thaw injury to the parasites to produce maximal survivals.     

Plant regeneration from petal explants of <Emphasis Type="Italic">Hypericum perforatum</Emphasis> L

Hypericum perforatum L. (St. John’s wort) produces a number of phytochemicals having medicinal, anti-microbial, anti-viral and anti-oxidative properties. Plant extracts are generally used for treatment of mild to medium cases of depression. Plant regeneration can be achieved in this species by in vitro culture of a variety of explants. However, there are no reports of regeneration from petal explants. In this report plant regeneration from petal explants of St. John’s wort was evaluated. Petals of various ages were cultured on agarized Murashige and Skoog 1962 (MS) medium supplemented with auxin and cytokinin (kinetin), maintained in the dark and callus and shoot regeneration determined after 28 days. At an auxin to cytokinin ratio of 10:1, callus and shoot formation were induced by all levels of indole-3-acetic acid (IAA), indole-3-butyric acid (IBA) and 1-naphthaleneacetic acid (NAA), while 2,4-dichlorophenoxyacetic acid (2,4-D) induced only callus formation. The optimum level of auxin for shoot regeneration was 1.0 and 0.1 mg/l kinetin, where the regeneration frequency was 100 percent for all three auxins. The highest number of shoots per explant (57.4 and 53.4) was obtained with IAA and IBA, respectively. In the absence of auxin, kinetin levels of 0.1 and 0.25 mg/l induce callus and shoot formation at low frequency but not at lower levels. Callus and shoot formation did not occur in the absence of growth regulators. Petal-derived shoots were successfully rooted on half-strength MS medium without a requirement for exogenous auxin and flowering plants were established under greenhouse conditions. From these results it can be concluded that auxin type is a critical factor for plant regeneration from petal explants of Hypericum perforatum and there is no absolute requirement for high levels of cytokinin.     

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

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

Auxin, Gibberellin, Cytokinin and Abscisic Acid Production in Some Bacteria

Summary In this study, auxin (indole-3-acetic acid), gibberellin, cytokinin (zeatin) and abscisic acid production were investigated in the culture medium of the bacteria Proteus mirabilis, P. vulgaris, Klebsiella pneumoniae, Bacillus megaterium, B. cereus, Escherichia coli. To determine the levels of these plant growth regulators, high performance liquid chromatography (HPLC) technique was used. Our findings show that the bacteria used in this study synthesized the plant growth regulators, auxin, gibberellin, cytokinin and abscisic acid.     

In vitro flower bud formation in tobacco: interaction of hormones

External application of auxin and cytokinin is required for the formation of flower buds on thin-layer tissue explants of Nicotiana tabacum cv Samsun. Interaction between both plant growth regulators during this regenerative process has been demonstrated with respect to speed of flower bud initiation and the number of flower buds formed. Separation in time of the hormone application during culture revealed that the cytokinin benzyladenine plays a key role in flower bud initiation whereas auxin (indoleacetic acid) stimulates in particular the differentiation of flower buds. The uptake of each hormone was proportional to the concentration supplied in the medium, and the uptake of either hormone appeared independently of the presence of the other. Metabolism studies showed the conversion of indoleacetic acid by the tissue to at least 13 metabolites after 24 h of culture. In addition, indoleacetic acid metabolism was demonstrated not to be influenced by the uptake and metabolism of benzyladenine. Taken together the results indicate that the interaction of auxin and cytokinin with respect to in vitro flower bud formation is indirect, i.e. does not take place at the level of hormone uptake or metabolism but at some step in the cascade of processes they initiate.     

Influence of exogenous hormones on growth and secondary metabolite production in hairy root cultures of Cichorium intybus L. CV. Lucknow local

Summary The effect of exogenously fed hormones on hairy root cultures of Cichorium intybus L. ev. Lucknow Local was studied. It was seen that auxin in the presence of low levels of kinetin induces rapid disorganization in hairy root cultures of C. intybus, ultimately to form suspension cultures, and this process was associated with the decrease in coumarin content in the cells. Of various treatments, it was observed that with an increase in the auxin: cytokinin ratio, the biomass decreased with the increase in disorganization index during the culture period of 28 d. The disorganization index was less when the inoculum size was enhanced to 10-fold. The total endogenous indole-3-acetic acid titers and indole-3-acetic acid oxidase activity also decreased with an increase in disorganization index, and was independent of initial inoculum size, with only a magnitude difference. The total coumarin content strictly correlated with growth in all the treatments. In contrast, exogenously supplied gibberellic acid at the 0.5 mg l⁻¹ level enhanced growth, coumarin content, and branching patterns over the control and other treatments on day 28. The exogenously fed growth regulators had an effect on growth, auxin and coumarin biosyntheses, wherein transformed roots treated with increasing concentration of auxin to cytokinin ratios lost their ability for coumarin biosynthesis. The behavior of hairy roots from an Indian cultivar of chicory upon growth regulator treatment is discussed in terms of growth, coumarin and auxin biosyntheses.     

Regeneration in Streptocarpus Leaf Discs and its Regulation by Temperature and Growth Substances

The formation of adventitious buds and roots in leaf discs of Streptocarpus x bybridus‘Constant Nymph’ were both stimulated by relatively low temperatures (12 and 18°C) applied to isolated discs or to the growing plants before leaf harvest. Auxins also promoted both bud and root formation, the optimum concentration for rooting always being one to two orders of magnitude higher than the optimum for budding. Cytokinins had only a small stimulatory effect on bud formation. At higher concentrations it was inhibitory and even counteracted the stimulatory effect of auxin on bud formation. As usual, root formation was inhibited by cytokinin. GA₃ inhibited both bud and root formation but the inhibition was reversible by auxin. In presence of optimum auxin levels abscisic acid enhanced bud formation. It had little effect on root formation except for an inhibition at high concentrations. The effects of exogenous auxin and cytokinin suggest that Streptocarpus leaves have a high and non-limiting level of endogenous cytokinin with auxin as the limiting factor for both root and bud formation. This would also explain the exceptionally high regeneration ability of this plant.     

Effect of temperature on spawning of Penaeus merguiensis

The maturation rate and spawning performance of ablated Penaeus merguiensis were significantly (P<0.05) higher at 27°C than at 23°C. Increasing the temperature from 23°C to 27°C further improved spawning performance (P<0.05), whereas reducing the temperature from 27°C to 23°C impaired spawning. The effect of temperature during the inducing period was more critical than during the holding period. Prawn growth (% of weight gain), however, was not different between 23°C and 27°C over the 60-day experimental period (P>0.05).     

Induction of localized auxin response during spontaneous nodule development in Lotus japonicus

In leguminous plants, rhizobial infection of the epidermis triggers proliferation of cortical cells to form a nodule primordium. Recent studies have demonstrated that two classic phytohormones, cytokinin and auxin, have important functions in nodulation. The identification of these functions in Lotus japonicus was facilitated by use of the spontaneous nodule formation 2 (snf2) mutation of the putative cytokinin receptor LOTUS HISTIDINE KINASE 1 (LHK1). Analyses using snf2 demonstrated that constitutive activation of cytokinin signaling causes formation of spontaneous nodule-like structures in the absence of rhizobia and that auxin responses are induced in proliferating cortical cells during such spontaneous nodule development. Thus, cytokinin signaling positively regulates the auxin response. In the present study, we further investigated the induction of the auxin response using a gain-of-function mutation of Ca²⁺/calmodulin-dependent protein kinase (CCaMK) that causes spontaneous nodule formation. We demonstrate that CCaMK^T265D-mediated spontaneous nodule development is accompanied by a localized auxin response. Thus, a localized auxin response at the site of an incipient nodule primordium is essential for nodule organogenesis.