In vitro double fertilization in Nicotiana tabacum (L.): polygamy compared with selected single pair somatic protoplast and chloroplast fusions

In vitro polygamy was studied mainly by using isolated sperm and central cells of tobacco in order to elucidate the mechanism that might be involved in preventing in vivo polygamy. In 17.5% 4000 M.W. polyethylene glycol, only when two sperm cells were made close enough to each other and adhered to a female cell simultaneously was polygamy possible. If one sperm cell fused with the egg or central cell, within 30 min another sperm cell could not fuse with the same egg or central cell. Similar phenomena were found in selected single somatic cell fusion. When more than two protoplasts adhered to each other simultaneously, fusion was always successful; after two protoplasts fused, within 30 min the fusion products could not fuse with another protoplast under the same conditions. This comparative study revealed this characteristic to be shared by both sexual and somatic cell fusion. However, after cytoplasm reorganization was complete in the fusion product, it was possible for the fusion product to fuse with the third protoplast. This indicates that the obstruction to additional fusion was present only during a certain period after the preceding fusion under certain condition. The possible reason for the effect is discussed. Received: 7 March 2000 / Revision accepted: 15 June 2000     

Titanium dioxide nanoparticles affect the growth and microRNA expression of tobacco (Nicotiana tabacum)

Titanium dioxide (TiO₂) is one of the most widely used pigments in the world. Due to its heavy use in industry and daily life, such as food additives, cosmetics, pharmaceuticals, and paints, many residues are released into the environment and currently TiO₂ nanoparticles are considered an emerging environmental contaminant. Although several studies have shown the effect of TiO₂ nanoparticles on a wide range of organisms including bacteria, algae, plankton, fish, mice, and rats, little research has been performed on land plants. In this study, we investigated the effect of TiO₂ nanoparticles on the growth, development, and gene expression of tobacco, an important economic and agricultural crop in the southeastern USA as well as around the world. We found that TiO₂ nanoparticles significantly inhibited the germination rates, root lengths, and biomasses of tobacco seedlings after 3 weeks of exposure to 0.1, 1, 2.5, and 5 % TiO₂ nanoparticles and that overall growth and development of the tobacco seedlings significantly decreased as TiO₂ nanoparticle concentrations increased. Overall, tobacco roots were the most sensitive to TiO₂ nanoparticle exposure. Nano-TiO₂ also significantly influenced the expression profiles of microRNAs (miRNAs), a recently discovered class of small endogenous noncoding RNAs (～20–22 nt) that are considered important gene regulators and have been shown to play an important role in plant development as well as plant tolerance to abiotic stresses such as drought, salinity, cold, and heavy metal. Low concentrations (0.1 and 1 %) of TiO₂ nanoparticles dramatically induced miRNA expression in tobacco seedlings with miR395 and miR399 exhibiting the greatest fold changes of 285-fold and 143-fold, respectively. The results of this study show that TiO₂ nanoparticles have a negative impact on tobacco growth and development and that miRNAs may play an important role in tobacco response to heavy metals/nanoparticles by regulating gene expression.     

Cytokinin oxidase from auxin- and cytokinin-dependent callus cultures of tobacco (Nicotiana tabacum L.)

Cytokinin oxidase was extracted and partially purified from auxin- and cytokinin-dependent callus tissue of tobacco (Nicotiana tabacum L. cv. Wisconsin 38). The activity of the enzyme preparation was examined using an assay based on the conversion of tritiated N⁶-(²-isopentenyl)adenine ([2,8-³H]iP) to adenine. Cytokinin oxidase exhibited a temperature optimum at 45–50°C and a relatively high pH optimum (8.5–9.0). The apparent K_m value of the enzyme was 4.3 M for iP. On the basis of the substrate competition assays, iP was determined to be the preferred substrate of the enzyme. Substrate competition was also observed with zeatin and the cytokinin-active urea derivative Thidiazuron. Cytokinins bearing saturated isoprenoid side chains or cyclic side chain structures, as well as auxins and abscisic acid, had no effect on the conversion of [2,8-³H]iP. The cytokinin oxidase exhibited increased activity in the presence of copper-imidazole complex in the reaction mixture. Under optimal concentrations of copper (15 mM CuCl₂) and imidazole (100 mM), the enzyme activity was enhanced ca. 40-fold. Under these conditions the pH optimum was lowered to pH 6.0, whereas the temperature optimum, the apparent K_m value, and the substrate specificity were not altered. Most of the enzyme moiety did not bind to the lectin concanavalin A. The characteristics of cytokinin oxidase presented here suggest that a novel molecular form of the enzyme, previously identified and characterized in Phaseolus lunatus callus cultures (Kamínek and Armstrong (1990) Plant Physiol 93:1530), also occurs in cultured tobacco tissue.Abbreviations Ade adenine - iP N⁶-(²-isopentenyl)adenine - [2,8-³H]iP [2,8-³H]-N⁶-(²-isopentenyl)adenine - [9R]iP N⁶-(²-isopentenyl)adenosine - (diH)iP N⁶-isopentyladenine - (diH)Z dihydrozeatin - BAP N⁶-benzyladenine - ( _o OH)[9R]BAP N⁶-(o-hydroxybenzyl)adenosine - (mOH)[9R]BAP N⁶-(m-hydroxybenzyl)adenosine - IAA indole-3-acetic acid - IBA indole-3-butyric acid - NAA naphthalene-1-acetic acid - ABA abscisic acid - Con A concanavalin A     

烟草细胞乙醇分解代谢能力的离体调控(英文)

报告了一些重要因子对培养在含有乙醇的培养基上的烟草细胞的乙醇分解代谢能力（ＥＣＡ）的调控效果。在供试的５种生长素和２种细胞分裂素中,ＩＢＡ４ｍｇ／Ｌ和Ｋｔ０．０５ｍｇ／Ｌ最有利于促进ＥＣＡ,而ＮＡＡ２ｍｇ／Ｌ和Ｋｔ０．０２５ｍｇ／Ｌ则最有利于支持处在乙醇胁迫下的细胞的增殖。实验中还发现提高维生素浓度有利于细胞的ＥＣＡ。通过将细胞从低乙醇浓度的培养基转移到较高乙醇浓度的培养基中,能够诱导细胞耐受更高浓度的乙醇并增强细胞的ＥＣＡ。研究结果可以应用于制备适合分离乙醇分解代谢途径中的酶的烟草细胞材料。     

In vitro antioxidant and antidiabetic activities of zinc oxide nanoparticles synthesized using different plant extracts

Phytofabricated green synthesis of zinc oxide (ZnO) nanoparticles using different plant extracts of Azadirachta indica, Hibiscus rosa-sinensis, Murraya koenigii, Moringa oleifera, and Tamarindus indica for biological applications has been reported. ZnO nanoparticles were also synthesized by chemical method to compare the efficiency of the green synthesized nanoparticles. FT-IR spectra confirmed the functional groups involved in the green synthesis of ZnO nanoparticles and the powder XRD patterns of the ZnO nanoparticles revealed pure wurtzite structure with preferred orientation at (100) reflection plane. SEM and TEM analysis revealed the spherical shape of the synthesized ZnO nanoparticles with the particle size between 54 and 27 nm. The antioxidant activity was evaluated by five different free radical scavenging assays. The present study also intends to screen α-amylase and α-glucosidase activity of ZnO nanoparticles synthesized using natural sources, which may minimize the toxicity and side effects of the inhibitors used to control diabetes. The ZnO nanoparticles synthesized using T. indica extract displayed remarkable antioxidant and antidiabetic activities.

     

Effects of 3,4-dihydroxybenzoic acid on tobacco (Nicotiana tabacum L.) cultured in vitro. Growth regulation in callus and organ cultures

ABSTRACT

The influence of 3,4-dihydroxybenzoic acid (protocatechuic acid), a naturally occurring benzoic acid derivative, on tobacco (Nicotiana tabacum L.) cell and tissue cultures was examined. The response to 0.1, 10 and 1000 µM 3,4-dihydroxybenzoic acid was tested with regards to cell proliferation in leaf explants, callus growth and shoot formation. Effects on shoot and root growth in micropropagated plants were also analysed. The highest concentration of 3,4-dihydroxybenzoic acid strongly inhibited the proliferation of leaf tissues, callus growth, shoot regeneration and root growth in micropropagated plants. On the contrary, the lowest concentration (0.1 µM) showed auxin-like activity by stimulating cell dedifferentiation, callus induction and rooting of leaf tissues. The presence of auxins and cytokinins in the media contrasted 3,4-dihydroxybenzoic acid inhibition of callus growth at all tested concentrations.     

The influence of organic and inorganic chelators on the toxicity of bulk and nanoparticles of zinc oxide during germination and seedling growth of Nicotiana tabacum L.

Nano and bulk-forms of zinc oxide (ZnO) are used extensively in industry and consequently may accumulate in the environment. However, there is little information available on the comparative effects of these forms during the critical early stages of plant life. Furthermore, the role of chelating agents, which affect the bioavailability of metals, in ameliorating plant stress due to exposure to nano and bulk-forms of ZnO is not well characterised. In this study, the effects of different concentrations (0.5, 2.5, 5, 10, 50 and 100 ppm) of nano ZnO (22 nm) and bulk ZnO (natural form, 1000 nm) with and without organic (citrate) and inorganic (EDTA) chelators on germination and seedling growth, and oxidative stress markers of Nicotiana tabacum L. were compared. Chelators (without ZnO) enhanced root growth, whilst ZnO negatively affected seedling growth. ZnO toxicity was often mitigated by adding chelators, especially citrate, although at the highest levels (50 and 100?ppm) of ZnO, toxicity was more pronounced when chelated with EDTA, but was decreased with citrate. Collectively, our findings provide important information regarding the different morpho-physiological and biochemical effects of bulk and nano ZnO and organic and inorganic chelators (citrate and EDTA), which are all prevalent in the environment.     

Response of shape in vitro cultures of shape Nicotiana tabacum L. to copper stress and selection of plants from Cu-tolerant callus

In Nicotiana tabacum L. var. BEL W3 copper (Cu) at concentrations higher than 50 μM significantly inhibited callus growth and shoot regeneration. After 5–6 months of culture only a few morphogenic callus lines survived in the presence of 100 μM Cu. These calluses showed the capacity to grow and regenerate shoots through successive subcultures on medium containing 100 μM Cu. The 100 μM Cu-tolerant shoots, in comparison to regenerated control shoots, formed roots only when cultured in the presence of 100 μM Cu. From five independent Cu-tolerant callus lines in a culture period of 4–5 months more than 50 plants (defined ‘tolerant’) able to grow in presence of 100 μM Cu were obtained. These plants showed normal xylem tissue formation while control regenerated plants growing in normal Cu MS content (0.1 μM) had few xylem elements in the central cylinder. No difference as far chlorophyll content and chloroplast structure was found among Cu-tolerant and control plants. In Cu-tolerant plants, dry matter production was higher than in controls, particularly in roots. This revised version was published online in June 2006 with corrections to the Cover Date.     

Ailanthus altissima leaf extract mediated green production of zinc oxide (ZnO) nanoparticles for antibacterial and antioxidant activity

BackgroundFabricating zinc oxide nanoparticles (ZnO-NPs) from plant extracts is a cost-effective, safe, and environmentally friendly alternative to established chemical procedures. This study was aimed at the environmentally friendly fabrication of ZnO-NPs from plant extract. An additional objective was to investigate the antibacterial and antioxidant activity of these biosynthesized ZnO-NPs.MethodsZnO-NPs were fabricated using the leaf extract of Ailanthus altissima, as an eco-friendly approach. The physicochemical properties of ZnO-NPs were explored using UV–visible spectroscopy, scanning electron microscopy, X-ray diffraction, and Fourier transform infrared spectrometry. The bio-fabricated ZnO-NPs were examined for bactericidal activity against pathogenic bacteria (gram-negative and gram-positive) using the agar well diffusion technique. The antioxidant efficiency of ZnO-NPs was assessed using a DPPH assay.ResultsA surface Plasmon peak was recorded at 327 nm, showing the existence of ZnO-NPs in the reaction solution of plant extract and zinc sulfate hexahydrate salt. These nanoparticles were predominantly spherical and capped by different functional groups of biomolecules. Furthermore, ZnO-NPs showed a dose-dependent antibacterial and antioxidant activity. At 20 mg/mL ZnO-NPs, the maximum bactericidal potential of ZnO-NPs was reported against Staphylococcus aureus (201.2 mm). ZnO-NPs have an IC₅₀ value of 78.23 µg/mL, indicating that they are an effective antioxidant.ConclusionThis research presents an environmentally acceptable method for producing spherical ZnO-NPs with high antibacterial and antioxidant activities. These bio-fabricated ZnO-NPs could be a good option for applications in medicine and the healthcare industry.     

Tissue 11In vitro Bud Formation on Explants from the Inflorescence of Nicotiana tabacum L.

Croes, A. F., Creemers-Molenaar, T., van den Ende, G., Kemp,A. and Barendse, G. W. M. 1985. Tissue age as an endogenousfactor controlling in vitro bud formation on explants from theinflorescence of Nicotiana tabacum L.—J. exp. Bot. 36:1771–1779. The in vitro formation of generative buds was studied on explantsfrom flower and fruit stalks and from internodes of the floralramifications of tobacco. A floral gradient was found to existalong the axis of the branch. The gradient concerns the numberof flower buds formed in vitro and is present in both typesof tissues. The number of flower buds is greater on tissuesfrom the apical than from the basal portion of the branch. Thecapacity to generate these buds is largely determined by tissueage at the moment of the excision. Consequently, the gradientmoves along the axis during the outgrowth of the inflorescence. The alternative possibility that some apex-derived stimuluspredetermines the morphogenetic capacity of the tissue priorto excision is excluded by the observation that the gradientremains virtually unaltered if the apex is removed one weekbefore the onset of culturing. Auxin affects the floral gradient Increasing the auxin concentrationin internode tissue culture causes a steeper gradient of flowerbud generation by almost completely abolishing bud formationon older tissues. Key words: Auxin, flower buds, gradient, tissue culture, tobacco     

Differentiation in callus cultures of a tobacco (Nicotiana tabacum cv. White Burley) variant: some biochemical aspects

A slow-growing variant plant with distinct foliar and floral morphology was obtained in tissue cultures ofNicotiana tabacum cv. White Burley. The root and shoot differentiation in the callus derived from normal plants occurred on the 8th and 12th day, respectively, but took 10 and 14 days, respectively, in the variant callus. Amylase and acid phosphatase activities, starch and soluble carbohydrate contents were studied in non-differentiating callus (NDC), root differentiating callus (RDC) and shoot differentiating callus (SDC). The activities of amylase and acid phosphatase were low in the variant as compared to normal. Maximum amylase and acid phosphatase activities coincided with the appearance of roots or shoots. There was more starch accumulation in normal callus on differentiating media, but the variant showed a less pronounced change. The normal callus under differentiating conditions also showed more increase in soluble carbohydrates as compared to the variant. The increase in soluble carbohydrate was maintained till roots and shoot appeared. The increase the variant in differentiating was reflected in slow development of enzyme activities and low starch and sugar concentrations.     

In vitro induction of stigma-like and style-like structures from receptacle tissue in Nicotiana tabacum L.

Stigma-like and style-like structures were induced from the receptacle tissue in tobacco (Nicotiana tabacum L.). The presence of kinetin was necessary to induce these structures. The structures have a form similar to and the same function as normal stigmas and styles.     

Dynamic metabonomic responses of tobacco (Nicotiana tabacum) plants to salt stress

Metabolic responses are important for plant adaptation to osmotic stresses. To understand the dosage and duration dependence of salinity effects on plant metabolisms, we analyzed the metabonome of tobacco plants and its dynamic responses to salt treatments using NMR spectroscopy in combination with multivariate data analysis. Our results showed that the tobacco metabonome was dominated by 40 metabolites including organic acids/bases, amino acids, carbohydrates and choline, pyrimidine, and purine metabolites. A dynamic trajectory was clearly observable for the tobacco metabonomic responses to the dosage of salinity. Short-term low-dose salt stress (50 mM NaCl, 1 day) caused metabolic shifts toward gluconeogenesis with depletion of pyrimidine and purine metabolites. Prolonged salinity with high-dose salt (500 mM NaCl) induced progressive accumulation of osmolytes, such as proline and myo-inositol, and changes in GABA shunt. Such treatments also promoted the shikimate-mediated secondary metabolisms with enhanced biosynthesis of aromatic amino acids. Therefore, salinity caused systems alterations in widespread metabolic networks involving transamination, TCA cycle, gluconeogenesis/glycolysis, glutamate-mediated proline biosynthesis, shikimate-mediated secondary metabolisms, and the metabolisms of choline, pyrimidine, and purine. These findings provided new insights for the tobacco metabolic adaptation to salinity and demonstrated the NMR-based metabonomics as a powerful approach for understanding the osmotic effects on plant biochemistry.     

The effect of humic acid (HA) and zinc oxide nanoparticles (ZnO-NPS) on in vitro regeneration of date palm (Phoenix dactylifera L.) cv. Quntar

Plant Cell, Tissue and Organ Culture (PCTOC) - Date palm (Phoenix dactylifera L.) micropropagation still faces many problems, such as reduced growth and development of callus, low multiplication...     

In vitro double fertilization in Nicotiana tabacum (L.): the role of cell volume in cell fusion

The role of cell volume in regulating cell fusion was investigated by in vitro fertilization to elucidate mechanisms involved in double fertilization. The results revealed that in our model gamete fusion was more efficient than the fusion of somatic cells under the same conditions. The fusion of selected mesophyll protoplasts of different sizes and their fusion with chloroplasts demonstrated that cell volume ratio played a role in this process: as the ratio increased, fusion was more efficient and faster. When one of the cells was as small as a sperm, the formation of a round fusion product was faster. This might explain why gamete fusion was highly efficient in all in vitro germ cell fusion systems. This finding may also explain why sperm evolved as small cells. The results reported here will be useful for interpreting and evaluating data of in vitro fertilization experiments and for distinguishing gamete-specific characters. Received: 12 September 2000 / Revision accepted: 6 December 2000     

In vitro double fertilization in Nicotiana tabacum (L.): fusion behavior and gamete interaction traced by video-enhanced microscopy

In vitro double fertilization in tobacco was carried out with attention to fusion behavior and gamete interaction. Structural and cytological events indicating possible reaction to the fusion of sperm-egg and especially sperm-central cell were recorded by video-enhanced microscopy. Generative cells were fused with the egg cell or central cell as a control system to better understand gamete interaction. As early as adherence of the male cell, the female cell showed response by means of cytoplasm strand formation. After gamete fusion, cytoplasm activation in the egg cell was observed as long distance movement of organelles. In fertilized central cells, however, fusion did not result in notable cytological change within 30 min. Male nuclear movement recorded in the female cell illustrated two different patterns of movement which showed similarity to organelle movement. The dynamics of male and female nuclear fusion after in vitro fertilization was also recorded in the central cell. It revealed that the fusion process requires only a few seconds and is similar to that of gamete fusion in vitro. This may offer a new clue for understanding how female and male nuclei attract, adhere and finally fuse each other. Received: 13 October 1999 / Revision accepted: 6 December 1999     

Cellular origin and ultrastructural changes of regenerating shoots from tobacco (Nicotiana tabacum) internodes cultured in vitro

Ultrastructural changes were studied during shoot formation from tobacco internode slices cultured on Murashige and Skoog's (MS) basal medium plus 0.54 μ M naphthaleneacetic acid, 0.44 μ M 6-benzyladenine, 3% (w/v) sucrose and 0.8% (w/v) agar. Dramatic structural changes were observed in cortical cells below the internodal epidermis, especially those immediately centripetal to the stomata, by light and scanning electron microscopy. Transmission electron microscopic investigation revealed conspicuous structural changes to plastids at each stage during shoot regeneration. To confirm the significance of the cortical cells in shoot regeneration, protoplasts were isolated from them and shoots regenerated successfully. The ability of single cortical cell protoplasts to differentiate into shoots was demonstrated.     

The effect of photoperiod on flower formation in vitro in a quantitative short-day cultivar of Nicotiana tabacum

Superficial cell layers of a quantitative short-day tobacco plant ( Nicotiana tabacum L. cv. White Burley) were excised from different parts of the inflorescence (i.e. pedicels, branch internodes, rachises), and cultured in continuous darkness, continuous light or 8 h light/16 h dark daily. The flowering response in vitro of the different types of explants was investigated with respect to the effect of light on the post-evocation phases of the flowering process and explant commitment. Treatment effect was qualitatively and quantitatively influenced by explant origin. Three morphogenic features were observed: flower neoformation, caulogenesis and rhizogenesis (the latter on rachis explants only). Under all treatments, the highest flowering potential was shown by pedicels, while the highest vegetative potential was shown by rachises. Branch internodes showed an intermediate response, but with a tendency towards caulogenesis, which probably reflects their phylogenetic origin. Thus, opposite gradients of the neoformation of flowering and vegetative buds on explants were observed under all treatments. Pedicels formed new single flowers rather than inflorescences, while rachises regenerated mainly inflorescences. In darkness, flowering was limited mostly to pedicels. Vegetative bud formation was higher than floral bud regeneration in all types of explant. Continuous light enhanced the flowering response mostly in pedicel and branch internode explants. Short days enhanced flower bud formation in vitro on all types of explant. Results with respect to microsporogenesis, flower and inflorescence anomalies observed under darkness also seem to support the existence of a quantitative photoperiodic control on floral neoformation in vitro in this plant. These results suggest that in Nicotiana tabacum cv. White Burley in vivo floral induction, initiation and development are governed by the same photoperiodic requirements.