Hormonal Control of Tumor Formation in Radish

The role of phytohormones in genetic tumor formation on radish crop-roots was investigated using the collection of inbred Raphanus sativus lines as a model system. The genetic analysis showed that the trait <<tumor formation>> was recessive and monogenic in some crossings. The spectrum of main phytohormones in tumor and non-tumor radish lines has shown that at the initiation of tumor formation (30 days old plants) the amounts of main cytokinins in the lower part of plants from the tumor line were dramatically increased. The transformation of the non-tumor line by the ipt gene of Agrobacterium tumefaciens resulted in tumor formation in plants of the T₁ progeny. We propose that increasing the cytokinin/auxin ratio may lead to tumor formation on radish crop roots.     

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.     

Quantitative studies of embryogenesis in normal and 5-methyltryptophan-resistant cell lines of wild carrot

The frequency of embryo formation was determined in normal and 5-methyltryptophan-resistant (5-MT^r) cell lines of wild carrot (Daucus carota L.) grown in the presence or absence of 2-isopentenyladenine (2-ip) and 2,4-dichlorophenoxyacetic acid (2,4-D). 2-ip stimulated the intitation of embryo formation and also accelerated embryo development. 2.4-D inhibited embryo differentiation at several stages: at 0.1 mg/l, it stopped regeneration at the earliest stage, resulting in callus growth instead of embryo formation; at 0.04 mg/l 2,4-D, some globular embryos were produced, but they did not develop into more advanced embryos. Variant cell lines with higher levels of auxin (indole-3-acetic acid, IAA) were used to study the effect of an elevated endogenous concentration of auxin on embryogenesis. IAA at these concentrations suppressed regeneration in the same manner as the exogenous auxin, 2,4-D, did. This result confirms the hypothesis that high levels of IAA are responsible for the suppression of regeneration in the 5-MT^r cell lines.     

Enhancement of flowering and branching phenotype in chrysanthemum by expression of <Emphasis Type="Italic">ipt</Emphasis> under the control of a 0.821 kb fragment of the <Emphasis Type="Italic">LEACO1</Emphasis> gene promoter

The cytokinin biosynthesis gene, isopentenyl transferase (ipt), under the control of an 821 bp fragment of the LEACO1 gene promoter (from Lycopersicon esculentum) was introduced into Dendranthema × grandiflorium ‘Iridon’ (chrysanthemum). LEACO1_0.821kb-ipt transgenic lines grown in the vegetative state, exhibited a range of phenotypic changes including increased branching and reduced internode lengths. LEACO1_0.821kb-ipt transgenic lines grown in the generative state, exhibited increased flower bud count that ranged from 3.8- to 6.7-times the number produced by wild-type plants. Dramatic increases in flower number were associated with a delay of flower bud development and a decrease in flower bud diameter. RT-PCR analysis indicated differences in ipt gene expression between individual transgenic lines that exhibited a range of phenotypes. Within an individual transgenic line, RT-PCR analysis revealed changes in ipt gene expression at different stages of generative shoot development. Expression of ipt in transgenic lines correlated well with high concentrations of the sum total to bioactive cytokinins plus the glucosides and phosphate derivatives of these species, under both vegetative and generative growth conditions. In general, transgenic lines accumulated higher concentrations of both storage-form cytokinins (O-glucosides) and deactivated-form cytokinins (N-glucosides) in generative shoots of than in vegetative shoots. Based on the range of phenotypes observed in various transgenic chrysanthemum lines, we conclude that the LEACO1 _0.821kb -ipt gene appears to have great potential for use in ornamental crop improvement. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Inorganic salts modify embryo sac development in sexual and aposporous Cenchrus ciliaris

Summary Sexual and aposporously apomictic plants of buffelgrass (Cenchrus ciliaris L.) form megaspore tetrads. In sexual plants the chalazal megaspore develops into a single Polygonum type embryo sac. In aposporous plants the megaspores degenerate, and one or more un-reduced nucellar cells form Panicum type embryo sacs. Apospory is conditioned by gene A; the dominant allele of gene B is epistatic to A and preserves sexual reproduction. We recently observed that heavy application of (NH₄)₂SO₄ to the soil induced multiple embryo sacs in a sexual line. Therefore we tested the effect of salt stress on embryo sac formation in sexual and aposporous genotypes. One molar solutions of CaCl₂, NaCl, (NH₄)₂SO₄, NH₄Cl, NaNO₃, or Na₂SO₄ were applied to the soil of greenhouse plants every day or two starting at the archespore stage. Some of the pistils in salt-treated plants of sexual genotypes AaBb, aaBb, and aabb showed features not seen in untreated controls: (1) multiple Polygonum type embryo sacs in 1%–7% of pistils depending upon the salt; (2) embryo sacs without antipodals (0%–7%); (3) embryo sacs protruding through the micropyle (1%–16%). Some pistils of salt-treated obligately aposporous lines, but not controls, developed Polygonum type embryo sacs (4%–13%) and protruding embryo sacs (0%–6%). There was no ion specificity for induction of abnormal features. We postulate that salt stress suppresses the developmental priority of nucellar embryo sacs over megaspores in aposporous lines and of the chalazal megaspore over other megaspores in all lines. This may permit megaspores of aposporous plants to form reduced Polygonum type gametophytes, and permit more than one megaspore to form reduced embryo sacs in all lines. Protrusion of sacs and failure of antipodal formation in reduced embryo sacs may be the consequence of uncoordinated expansion of the embryo sacs and surrounding tissue.Joint contribution of the Department of Biology, The Pennsylvania State University, and USDA-ARS, U.S. Regional Pasture Research Laboratory. Names of products are included for the benefit of the reader and do not imply endorsement or preferential treatment by USDA     

<Emphasis Type="Italic">In vitro</Emphasis> flowering of <Emphasis Type="Italic">Kniphofia leucocephala</Emphasis>: influence of cytokinins

The role of cytokinins in the promotion of flowering in the endangered species Kniphofia leucocephala Baijnath. was investigated using shoots maintained in culture for 3 years. The highest percentage flowering (65%) was obtained on media containing 20 μM benzyladenine (BA). The inclusion of isopentenyladenine and zeatin in the media also resulted in flowering, but these treatments were less effective than BA in inducing flowering. The effect of cytokinins on flowering was dose-dependent, with high concentrations of BA inhibiting flower formation. Treatments that resulted in rooting of explants produced no flowers. The resulting inflorescences in all treatments did not mature and senesced prematurely, even when gibberellic acid (GA₃) was applied post-flower-emergence.     

In vitro zygotic embryo culture of an endangered forest tree Givotia rottleriformis and factors affecting its germination and seedling growth

Summary This study reports a protocol for germination of Givotia rottleriformis (var. Tel. Thella Poniki) using zygotic embryo culture. A 100% germination was obtained by culturing the embryos on Murashige and Skoog medium containing 30 gl^&#x2212;1 sucrose. A sucrose concentration lower or higher than 30 gl^&#x2212;1 resulted in lower germination or promoted callus formation. The seedling growth was promoted by the addition of 100 mgl^&#x2212;1 tyrosine in the medium. Seedlings germinated in the presence of 0.2&#x2013;0.4 mgl^&#x2212;1 &#x03B1;-naphthaleneacetic acid and 0.3&#x2013;0.5 mgl^&#x2212;1 indole-3-butyric acid were abnormal, showing a slender stem with slender roots or forming callus with stout roots. Germination also affected embryo orientation in culture; placing embryos upright on the medium was most beneficial for germination. The in vitro-germinated seedlings were acclimatized in soil under shady conditions with a survival rate of 60&#x2013;70%. These plants were phenotypically normal, healthy, and similar to donor plants. This protocol will be useful for overcoming seed dormancy and for rapid multiplication and conservation of G. rottleriformis using zygotic embryo culture.     

In Vitro selection of groundnut cell lines fromCercosporidium personatum culture filtrates and regeneration of resistant plants through cell culture

Cell suspensions derived from immature leaves of the groundnut (Arachis hypogaea L.) were cultured in the presence and absence ofCercosporidium personatum pathotoxic culture filtrates. Cell viability and reactions of cell lines were determined after exposure to various concentrations (25–100%, v/v) of the filtrates. Cell lines have been selected for resistance to the toxin(s) produced byC. personatum. Selected cell lines were used for plant regeneration on regeneration media containingC. personatum culture filtrates. Plant regeneration frequency was found to be low in long-term cultures, whereas it was high in short-term cultures. The selfed progeny of the plants regenerated from the resistant cell lines showed resistance to the pathogen in the field. Six out of 82 plants exhibited enhanced resistance in the R₂ generation. The culture filtrate stimulated callus proliferation as well as plant regeneration at lower concentrations, a response that could prove to be very useful for obtaining disease resistant plants throughin vitro selection.     

Putrescine enhances somatic embryogenesis and plant regeneration in upland cotton

Improvement in somatic embryogenesis has been achieved in several cotton lines (Gossypium hirsutumL.) from the Georgia and Pee Dee germplasm with culture media containing various Putrescine concentrations. The best results were obtained with the -naphthalene acetic acid (NAA)-based treatments, S15 g.05 NAA and EMMS₂, as compared to the 2,4-dichlorophenoxyacetic acid (2,4-D)-based culture medium, EMMS₄. Inclusion of 0.5 mg l^–1 Putrescine improved somatic embryo (SE) induction for most treatments and lines tested. An 8-and 2-fold improvement was achieved in SE production on the EMMS₂-0.5 Putrescine treatment as compared to EMMS₂ alone for cotton lines PD 97019 and GA 98033, respectively. A significant increase in SE number (53-fold) was obtained with the addition of 0.5 mg l^–1Putrescine to EMMS₂ for PD 97021, which was essentially recalcitrant without Putrescine treatment. Conversion of SEs into plants was both genotype- and culture medium-dependent.     

Isolated microspore culture of Chinese flowering cabbage (Brassica campestris ssp. parachinensis)

Microspores of several genotypes of Brassica campestris ssp. parachinensis have been cultured in vitro and induced to undergo embryogenesis and plant formation. Conditions favourable for embryogenesis in this species include a bud size of 2–2.9 mm, NLN-13 culture medium (Nitsch and Nitsch 1967; Lichter 1981, 1982; Swanson 1990), and an induction through exposure to 32°C for a period of 48 h. Longer periods of an elevated temperature for induction of embryogenesis resulted in embryo abortion at early developmental stages. With the protocol developed here, microspores of 60–80% of donor plants could be induced to produce embryos, although embryo yields were low, i.e. 2–5 embryos per 10 buds. Some genotypes responded to culture conditions with high numbers of embryo formation (100–150 embryos per 10 buds) but most of these subsequently failed to mature. The pattern of cell division and morphological changes of the microspores in culture were studied using various microscopic techniques.     

Cytokinins in pathogenesis and disease resistance of Pyrenophora teres-barley and Dreschslera maydis-maize interactions during early stages of infection

Infection of Hordeum vulgare L. by Pyrenophora teresand of Zea mays by Dreschslera maydis were characterized by green island formation, higher cytokinin levels and accumulation of metabolites in the infected areas. Higher cytokinin concentrations of the order 6-Y,Y-dimethylallylaminopurine > zeatinriboside > zeatin >dihydrozeatinriboside were detected at infection sites of susceptible hosts. By virtue of these cytokinins, infection sites may be acting as metabolic sinks helping proliferation of the pathogen. Existence of translocatory sinks at infection zones was confirmed from autoradiographic studies,where, accumulation of labeled metabolites was prominent at infection sites of susceptible hosts. Upon infection the lower cytokinin levels of resistant hosts decreased further with progress of infection. In the infected resistant hosts the concentrations of zeatin/zeatinriboside were the maximum among the four identified cytokinins. The pathogen is also capable of secreting cytokinins as evident from quantification of cytokinins in culture filtrate extracts using HPLC. Since detached leaves were used in the experiments the increase/decrease of various cytokinin levels may be attributed to pathogen influence. The increase in cytokinin levels in the susceptible host may be aiding the growth of the pathogen on one hand, while the decrease in the infected resistant host may signal the host to activate defenses against a potential pathogen at the early stage of infection.This revised version was published online in October 2005 with corrections to the Cover Date.     

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     

Substituted nitroguanidines provide cytokinin activity during in vitro cultivation of plant tissues

Synthetic nitroguanidine derivatives can be used as alternatives to the traditional adenine-containing cytokinins used in plant tissue culture. First, nitroguanidine derivatives (NG) mimicked the typical activity of two standard cytokinins, 6-benzylaminopurine (BAP) and 2-isopentenyladenine (2iP) in the soybean callus (Glycine max) growth bioassay. NGs caused unanticipated responses as well, as demonstrated in three lines of tobacco (Nicotiana tabacum), when the auxin concentration was reduced from the standard concentration of 2 ug/ml NAA, to much lower concentrations of 0.01 ug/ml NAA or 0.02 ug/ml IAA. At the low auxin concentrations, kinetin lost the ability to promote either growth or differentiation, while the NG cytokinins were fully able to promote both. NGs promoted growth and differentiation in the presence of 0.01 ug/ml NAA in a newly initiated, totipotent line of Coker 319 tobacco. NGs plus 0.02 ug/ml IAA also promoted callus growth in a cytokinin-habituated tobacco line, Havana 425-CH. Lastly, NGs stimulated the outgrowth of healthy callus from aged callus that had been allowed to deteriorate through lack of subculture. Upon transfer of aged NTP callus to fresh media with NGs and 0.02 ug/ml IAA, healthy cell clusters were rapidly produced. In all three cases cited above, kinetin was ineffective at the low auxin concentrations. The NGs are therefore cytokinins, with the additional possibility of reducing the level of auxin required for their activity to be expressed.Abbreviations BAP 6-benzylaminopurine or N⁶- benzyladenine - IAA indoleacetic acid - 2iP N⁶-(²- isopentenyl)adenine - NAA -naphthaleneacetic acid - NG nitroguanidine derivative     

Gamete composition and chromosome variation in pollen-derived plants from octoploid triticale x common wheat hybrids

Summary Anther culture of secondary octoploid triticale (AABBDDRR) and F₁ hybrids (AABBDDR) of octoploid triticale x common wheat crosses was carried out, and 96 pollen-derived plants were developed and studied cytologically. In addition to the 8 types of pollen-derived plants with the theoretically predicted chromosome number, plants with the chromosome constitutions of 2n = 38, 43, 45, 47, 74, and mixoploids were obtained. The haploids and the diploids had different distributions. The frequencies of plants with one and two (pairs of) rye chromosomes were extremely high, and anther culture may be an expeditious route for creating alien addition lines of distant hybrid F₁s. Chromosome aberrations, including deletions, inversions, translocations, as well as isochromosomes and ring chromosomes, were observed in some plants. Abnormal meioses, such as chromosome non-disjunction, were also found. The reasons for the chromosome aberrations are discussed.     

Microspore embryogenesis in anther cultures of two Indian cultivars of Brassica juncea (L.) Czern.

Direct microspore-derived embryo formation in anther cultures of two cultivars of Brassica juncea was obtained. Preliminary culture of anthers at 35°C for 1–5 days prior to maintenance at 25°C stimulated embryogenesis. Embryogenesis was also stimulated by an initial culture at 5°C for 3 days. Analysis of squashed anthers revealed that approximately 10% of the microspores began dividing, but less than 1% developed into macroscopic embryos. All embryos transferred to embryo culture medium survived, but only 30% of these developed directly into normal plantlets. The androgenic plants were haploid (2n=18).     

Effect of cytokinins on <Emphasis Type="BoldItalic">in vitro</Emphasis> development of autotrophism and acclimatization of <Emphasis Type="Italic">Annona glabra</Emphasis> L.

The role of cytokinins in the differentiation of the photosynthetic apparatus in micropropagated plants and their effect on the plant’s ability to transition from a heterotrophic to an autotrophic condition during acclimatization was investigated. Annona glabra L. shoots were cultured on woody plant medium supplemented with sucrose and different cytokinins to evaluate leaf tissue for chloroplast development, chloroplast numbers, photosynthetic pigmentation, total photosynthetic potential, and soluble sugar content. Plants were transferred to the rooting medium in the presence or absence of sucrose and then acclimatized. Kinetin and benzyladenine (BAP) stimulated chloroplast differentiation. Inclusion of zeatin in the medium induced the formation of greater numbers of chloroplasts in the leaves, while plants cultivated in the presence of only kinetin and BAP demonstrated greater chlorophyll a and carotenoid content. The use of kinetin and BAP during in vitro culture promoted accumulation of dry matter during the acclimatization phase, especially in plants rooted under autotrophic conditions (without sucrose). Kinetin and BAP promoted development of more leaf area and greater plant survival rates in plant acclimatization on both autotrophic and heterotrophic media. The inhibitory effects of thidiazuron on the differentiation of chloroplasts, accumulation of chlorophyll a, and photosynthetic potential were examined.     

Plant regeneration via direct embryo axis-like shoot and root formation from excised cotyledon explants of ginseng seedlings

Summary Cotyledon explants of Panax ginseng at various developmental stages were cultured on Murashige and Skoog (MS) medium with 0.5 μM indole butyric acid and 8.8 μM N⁶-benzyladenine. Upon culturing of cotyledon explants from mature zygotic embryos, 34% of the explants formed somatic embryos, and 46% formed adventitious shoots. In the cotyledon explants from 1-wk-old seedlings, embryo axis-like shoots and roots developed at a high frequency (79%) near the excised portion of the cotyledon base. The developmental pattern of embryo axis-like organ formation was structurally different from that of somatic embryos and adventitious shoots but similar to that of parts of the embryo axis of zygotic embryos. In the early stages of embryo axis-like organ formation, epicotyl-like shoot primordia were developed directly from the cotyledon base after 2 wk of culture; subsequently roots developed near the base of the epicotyl-like shoots and eventually regenerated into plantlets with both shoots and roots. The frequency of embryo axis-like organ formation declined as the growth of seedlings proceeded. In addition, the frequency of somatic embryo and adventitious bud formation rapidly declined with the age of the cotyledons. Plant regeneration via embryo axis-like organ formation might be a new pattern of morphogenesis in P. ginseng cotyledon culture.     

Adventitious shoot regeneration from immature embryos of sorghum

Eleven genotypes of sorghum were examined for their response in tissue culture, and the tissue culture system was optimized. The cultures were initiated from immature embryos taken approximately two weeks after flowering. The response of immature embryos varied with the genotype. `C. Kafir' and `PE932 025' showed the highest frequency of callus induction and regenerable callus formation under appropriate culture conditions. Regeneration occurred at high frequencies when cytokinins (kinetin or 6-benzyladenine) had been added in the callus induction medium, followed by regeneration medium devoid of growth regulators. The addition of proline and polyvinylpyrrolidone also enhanced shoot formation, but the addition of cytokinins to regeneration media did not improve shoot formation. On the revised culture medium, plants were regenerated from up to 100% of sorghum immature embryos.     

Cotton ovule culture: A tool for basic biology, biotechnology and cotton improvement

Summary Nearly 30 years ago the conditions for culturing immature cotton ovules were established to serve as a working research tool for investigating the physiology and biochemistry of fiber development. Not only has this tissue culture method been employed to characterize the biochemistry of plant cell expansion and secondary cell wall synthesis, but ovule cultures have contributed to numerous other aspects of plant cell physiology and development as well. In addition to basic studies on fiber development, cotton ovule cultures have been used to examine plant-fungal interactions, to model low temperature stress responses, to elucidate the pathways responsible for pigment formation in naturally pigmented fiber and to probe how cytoskeletal elements regulate cell wall organization. Success in rescuing Gossypium interspecific hybrids was dependent on ovule culture media formulations that could support early embryo development in ovulo. As tissues produced in culture are analyzed by increasingly more sophisticated techniques, there appear to be some differences between ovule growth in planta and ovule growth in vitro. Discerning how ovule culture fiber development is different from fiber development in field-grown plants can contribute valuable information for crop improvement. Cotton ovule cultures are an especially attractive model system for studying the effects of gravity on cell elongation, cellulose biosynthesis and embryo development and are excellent targets for examining transient expression of introduced gene constructs. With only minor modification, the procedure originally described by C. A. Beasley and I. P. Ting for growing cotton ovules in vitro will continue to be useful research tool for the foreseeable future.