Efficient plant regeneration in vitro in buckwheat

An in vitro highly efficient plant regeneration system was established from hypocotyl segments in buckwheat (Fagopyrum esculentum Moench.). Calli were induced on Murashige–Skoog (MS) medium containing 1.0 mg l^–1 to 2.0 mg l^–1 2,4-dichlorophenoxyacetic acid and 1.5 mg l^–1 6-benzylaminopurine. Shoot buds were formed on subcultured pieces of callus. A high frequency (over 80%) of shoot differentiation was obtained on MS medium supplemented with 2.0 mg l^–1 6-benzylaminopurine and 1.0 mg l^–1 6-furfurylaminopurine. The regenerated shoots rooted readily on MS medium plus 0.2 mg l^–1naphthaleneacetic acid and 0.2 mg l^–1 indole butyric acid. The regenerated plantlets were acclimatized and successfully transferred to pots. Chromosome examination showed that the regenerated plants had normal chromosome number (2n=16).     

Buckwheat (Fagopyrum esculentum Moench) has high capacity to take up phosphorus (P) from a calcium (Ca)-bound Source

Two experiments were carried out in a growth chamber to investigate the phosphorus (P)-uptake efficiency of Fagopyrum esculentum Moench (buckwheat) and Triticum aestivum (spring wheat) from a Ca-bound form. The first experiment was based on a sand-culture system with either rock phosphate (RP) or CaHPO₄ (CaHP) as the P source and nitrate or ammonium nitrate as nitrogen source. A highly calcareous soil was used in the second experiment. Buckwheat was shown to be highly efficient in taking up Ca-bound P compared to spring wheat. When plants were supplied with nitrate, the total P uptake by buckwheat from RP was nearly 10-fold higher than that of spring wheat (20.1 compared with 2.1 mg P pot^–1). Changing nitrogen source from nitrate only to ammonium nitrate increased P uptake by spring wheat substantially, but not buckwheat. High P-uptake efficiency of buckwheat was also demonstrated using the field soil, but to a lesser extent, which may be related to the difference in Zn supply between sand culture and field soil. It is suggested that buckwheat may be included in intercropping or crop rotation systems to activate P sources in calcareous soils. The principal mechanism of P uptake efficiency of buckwheat may be its ability to acidify the rhizosphere; however, further study is needed to unravel the regulation of root excretion of H⁺ and its molecular basis in order to exploit buckwheat's genetic capability to utilise sparingly soluble P from soil.     

Nitrate and ammonium absorption by plants growing at a sufficient or insufficient level of phosphorus in nutrient solutions

Summary Absorption of nitrate and ammonium was studied in water culture experiments with 4 to 6 weeks old plants of barley (Hordeum vulgare L.), buckwheat (Fagopyrum esculentum L. Moench) and rape (Brassica napus L.). The plants were grown in a complete nutrient solution with nitrate (5.7±0.2 mM) or nitrate (5.6±0.2 mM) + ammonium (0.04±0.02 mM). The pH of the nutrient solution was kept at 5.0 using a pH-stat. It was found that phosphorus deficiency reduced the rate of nitrate uptake by 58±3% when nitrate was the sole N source and by 83±1% when both nitrate and ammonium were present. The reduction occurred even before growth was significantly impeded by P deficiency. The inhibition of the uptake of ammonium was less,i.e. ammonium constituted 10±1% of the total N uptake in the P sufficient plants and 30±5% in the P deficient plants. The reduction of nitrate absorption greatly decreased the difference between the uptake of anions and cations. It is suggested that P deficiency reduced the assimilation of NO ₃ ^– into the proteins, which might cause a negative feedback on NO ₃ ^– influx and/or stimulate NO ₃ ^– efflux.     

Intraspecific responses of <Emphasis Type="Italic">Fagopyrum esculentum</Emphasis> to enhanced ultraviolet B radiation

The effects of supplemental UV-B radiation on crop growth, morphology, reproduction and physiology were studied in three cultivars of Fagopyrum esculentum Moench (buckwheat) originating from high elevation (Qinghai-Tibet plateau) and lower altitudes (The Sichuan Basin). Our results showed that common buckwheat was sensitive to UV-B stress. Plant growth, development, and reproduction were inhibited by elevated UV-B radiation. Plant lipid oxidation and polyphenol oxidase (PPO) activity increased with increasing UV-B radiation, along with the concentration of phenylpropanoid compounds, superoxide dismutase (SOD) activity and ascorbic acid (Asa) concentration were also enhanced at the lowest level of supplemental UV-B radiation but decreased at the higher level of enhanced UV-B. While, a cultivar originating from elevated locations had lower dry matter accumulation and was more tolerant to UV-B radiation than cultivars originating from lower elevations. The effects on leaf thickness and increased antioxidant capacity could be linked with the improved performance of cultivar originating from high elevation when exposed to enhanced UV-B radiation. We conclude that UV-B tolerance should be considered prior to introducing or breeding common buckwheat cultivars from lowland cultivation to regions at high elevation such as the Qinghai-Tibet plateau.     

Theoretical Study of Antagonists and Inhibitors of Mammalian Adenosine Deaminase: I. Adenosine and Its Aza- and Deazaanalogues

Aza- and deazaanalogues of adenosine, including their 1-protonated forms (except for that of 1-deazaadenosine), were studied by computer computation to find a relationship between their molecular structures and substrate properties for the mammalian adenosine deaminase. The atomic charge distribution and maps of the electrostatic potential around their van der Waals molecular surface were calculated for these compounds using the ab initio STO-3G method. The conformational studies are carried out by the MM⁺ method of molecular mechanics. The mechanism that determines the substrate selectivity of mammalian adenosine deaminase is discussed.     

Pb hyperaccumulation and tolerance in common buckwheat (Fagopyrum esculentum Moench)

Common buckwheat grown in Pb-contaminated soil was found to accumulate a large amount of Pb in its leaves (8,000 mg/kg DW), stem (2,000 mg/kg DW), and roots (3,300 mg/kg DW), without significant damage. This indicates that buckwheat is a newly recognized Pb hyperaccumulator, which is defined as a plant containing over 1,000 mg/kg of Pb in its shoots on a dry-weight basis. Moreover, it was shown that application of the biodegradable chelator methylglycinediacetic acid trisodium salt at concentrations of up to 20 mmol/kg resulted in a more than five times higher concentration of Pb in the shoot without notable growth inhibitation at up to 10 mmol/kg. These results indicate that buckwheat is a potential phytoremediator of Pb-contaminated soils.     

Anther culture and androgenetic plant regeneration in buckwheat (Fagopyrum esculentum Moench)

Anther culture for haploid induction of buckwheat was studied over a period of five years. Approximately 24,000 anthers were isolated and cultured on different culture media. The regeneration capacity was generally very low. Data are presented for experiments that included 7278 anthers on which 99 calluses were formed and 20 buds regenerations were noted. Regeneration occurred most readily on gellan-gum solidified media, with 90 g l^-1 maltose, 2.5 mg l^-1 BA, 0.5 mg l^-1 IAA, and preferably in darkness. Haploid cells, as established by chromosome counts, were observed in eight regenerants. Several abnormalities of pollen development in vitro were detected. Starch presence in pollen as a possible sign of androgenic capacity was studied. Microspores in uninucleate and early binucleate stages contained only proplastids, while in adult pollen grains a number of amyloplasts were present.Abbreviations BA benzyladenine - IAA indole-3-acetic acid - 2,4 D-2,4-dichloro-phenoxyacetic acid - IBA indole-3-butyric acid - 2iP 6- c,c-dimethylallylaminol-purine - NAA -naphthalene acetic acid     

Effects of genotype,explant orientation,and wounding on shoot regeneration in tomato

Summary Effects of genotype and explant orientation on shoot regeneration from cotyledonary explants of tomato were studied using 10 commercially important cultivars. The explant orientation affected shoot regeneration in all the tested genotypes. Cotyledons placed in abaxial (lower surface facing down) orientation consistently produced better shoot regenerative response and produced greater numbers and taller shoots compared to those inoculated in adaxial (upper surface facing down) orientation. Genotypic variation in terms of shoot regeneration response, number of shoots, and shoot height was apparent. Wounding of cotyledonary explants increased shoot regeneration response. However, shoot height was much lower in shoots regenerated from wounded explants compared to those that originated from intact cotyledons. Shoots produced from wounded cotyledons were abnormal in their form and structure.     

Effect of Glycinebetaine on Chloroplast Ultrastructure, Chlorophyll and Protein Content, and RuBPCO Activities in Tomato Grown under Drought or Salinity

The effect of foliar-applied glycinebetaine (GB) on chloroplast ultrastructure, the amount of chlorophyll and proteins and ribulose-1,5-bisphosphate carboxylase/oxygenase (RuBPCO) activity in stressed tomato leaves were analysed. Initial, and total activity and activation state state of RuBPCO were also measured. RuBPCO activities, chloroplast area, and the number of plastoglobuli remained unaffected, while the relative area of starch granules increased in GB-treated, salt-stressed tomato leaflets. Under drought-stress, the relative area of plastoglobuli increased upon GB application. The primary effect of GB was, however, the increased protein and chlorophyll content.     

Agrobacterium-mediated transformation and plant regeneration of buckwheat (Fagopyrum esculentum Moench.)

Genetic transformation of buckwheat (Fagopyrum esculentum Moench.) and regeneration of transgenic plants were obtained by using Agrobacterium tumefaciens strains as vectors. Buckwheat cotyledons were excised from imbibed seeds, co-cultivated with A. tumefaciens and subjected to previously reported protocols for callus and shoot regeneration. The transformation with oncogenic strains was confirmed by opine and DNA analyses of tumour tissue extracts. Plants were regenerated on cotyledon fragments incubated with strain A281, harboring pGA472, which carries the neomycin phosphotransferase II gene for kanamycin resistance. The transformation of resistant shoot clones was confirmed by NPTII enzyme assay and DNA hybridization. A large number of transformed shoots were rooted and fertile plantlets were raised in the greenhouse. Transgenic plants comprised pin and thrum clones, which were allowed to cross-pollinate. In about 180 R₂ seeds tested for kanamycin resistance, the ratio of resistant to sensitive seedlings was roughly 3:1.Abbreviations BAP 6-benzylaminopurine - 2,4-D dichloro-phenoxyacetic acid - 2iP 6-(, ,-dimethylallyl-amino)-purine - IBA indole-3-butyric acid - IAA indole-3-acetic acid - Km kanamycin - NPTII neomycin phosphotransferase II     

Plant Growth Regulating Activity of Orotic Acid and Its 1-Cyclohexyl and 1-Phenyl Derivatives

Cytokinin-like activity of orotic acid and its 1-cyclohexyl and 1-phenyl derivatives was tested estimating the anthocyanin accumulation and inhibition of root formation in isolated buckwheat cotyledons (Fagopyrum esculentum Moench.). The anthocyanin content was stimulated most by 1-phenylorotic acid. Strong synergetic effect of the phenylurea cytokinin 4PU-30 was found.     

Effect of the carmine spider mite (Acarida: Tetranychidae) infestation and mechanical injury on the level of ABA in tomato plants

The aim of this study was to determine the changes in the abscisic acid (ABA) content in tomato leaves infested by the carmine spider mite (CSM) (Tetranychus cinnabarinus Boidsuval) and in leaves that were mechanically injured. It was also investigated whether signalling from stressed to non-stressed organs occurred. Tomato plants (Lycopersicon esculentum Mill.) cvs. Romatos and Slonka (with various susceptibility to CSM) were stressed at the stage of first cluster flowering by either CSM feeding (72 hours) or by mechanical puncturing simulated feeding injury by CSM (18 hours). It was found that under control condition the level of ABA differed significantly between cultivars, being always higher in plants of the susceptible cv. Romatos. In response to CSM feeding, the content of ABA in infested organs of the more tolerant plant (cv. Slonka) increased by 95 % but in the susceptible one by 11 % only. ABA content in the organs non-stressed by CSM feeding either increased (Slonka cv.) or decreased (Romatos cv.). In response to mechanical wounding, ABA content in directly injured organs increased but to a lower degree (49 %) and only in Slonka cv.. The same was true for ABA content in non-injured organs of damaged plants of this cultivar. Observed changes in ABA level in non-stressed organs are probably the results of signalling from stressed organs. Plant response measured by changes in ABA level to the stress generated by CSM feeding, was much stronger than merely by mechanical injury.     

Alleviation of Negative Effects of Water Stress in Two Contrasting Wheat Genotypes by Calcium and Abscisic Acid

The individual and interactive role of calcium and abscisic acid (ABA) in amelioration of water stress simulated by polyethylene glycol (PEG) 6000 was investigated in two contrasting wheat genotypes. PEG solution (osmotic potential –1.5 MPa) was applied to 10-d-old seedlings growing under controlled conditions and changes in photosynthetic rate, activities of ribulose-1,5-bisphosphate carboxylase and phosphoenolpyruvate carboxylase, water potential and stomatal conductance were observed in the presence of 0.1 mM ABA, 5 mM calcium chloride, 1 mM verapamil (Ca²⁺ channel blocker), and 1 mM fluridone (inhibitor of ABA biosynthesis). ABA and calcium chloride ameliorated the effects of water stress and the combination of the two was more effective. The two genotypes varied for their sensitivity to ABA and Ca²⁺ under stress. As was evident from application of their inhibitors, ABA caused more alleviation in C 306 (drought tolerant) while HD 2380 (drought susceptible) was more sensitive to Ca²⁺.     

Molecular analysis of single copy and repetitive genes on chromosome 2 in intergeneric tomato somatic hybrid plants

Restriction fragment polymorphisms were used to identify and quantify the nuclear contributions from each parent to somatic hybrid plants between tomato (Lycopersicon esculentum Mill.) cv. Sub-Arctic Maxi and Solanum lycopersicoides Dun. Three single-copy clones, 2–13, 2–17, and 3–288, and a clone for the 45s ribosomal RNA, pHA2, all mapped to chromosome 2 of tomato, were used in analysis of 47 somatic hybrids. The amount of hybridizing probe for each parental band was quantified by densitometry of the autoradiograph film. Analyses with the three single-copy clones indicated that there were more than two S. lycopersicoides copies in most somatic hybrid plants. For at least one somatic hybrid there was a loss of one tomato copy. No evidence was found for more than two copies donated from tomato or loss of a copy from S. lycopersicoides. Most of the observed variation in copy number of the single-copy clones was consistent with chromosomal changes occurring in the suspension cells from which S. lycopersicoides parental protoplasts were derived.The number of copies of rDNA derived from each parent varied independently of the number of copies of single-copy clones from each parent. Changes in the copy number of rDNA occurred in both tomato and S. lycopersicoides genomes.     

Effects of quercetin and verapamil on membrane potential in the liverwort Conocephalum conicum

Quercetin is a very common flavonoid widely distributed in many plants. The flavonoid intake has been linked to the prevention of human diseases including cancer. Flavonoids possess also a broad spectrum of effects on plants. Quercetin is involved in Ca²⁺ transport and metabolism. The present study was designed to check the effects of quercetin alone and in combination with verapamil on the resting and action potentials in the liverwort Conocephalum conicum. The application of 59·10⁻⁶ mol·dm⁻³ quercetin caused an increase of action potential amplitudes. During the 3rd and 4th hour of treatment an increase by 20–22 % with respect to the control was observed. No changes were found in the resting potential in quercetin treated plants. Verapamil, a calcium channel inhibitor, caused gradual decrease of action potential amplitudes. Quercetin, when added together with verapamil, prevented its inhibitory effect. Interactions between quercetin and Ca²⁺ transport are discussed.     

Phosphatase activity and phosphorus partitioning in nodules of developing mungbean

The acid and alkaline phosphatase activities were determined in bacteroid free fraction of nodules during development, using different phosphorylated substrates. Both enzymes change their substrate specificities with nodule development. Alkaline phosphatase, 20 days after sowing (DAS), showed negligible activity with ATP while at later stages maximum activity with ATP was observed. Invariably fructose 1,6 bisphosphate was a better substrate compared to fructose-6-phosphate and glucose-6-phosphate. Using Sephadex G-150 column chromatography, only one peak of acid phosphatase around Ve/Vo of 2.2 to 2.3 was observed at 20 and 30 DAS stages while at 40 DAS stage an additional ATP specific peak at around Ve/Vo of 2.9 was also observed. There was only one alkaline phosphatase peak at 20 and 30 DAS. However, at 40 DAS additional ATP specific peaks of phosphatases were observed at Ve/Vo of 1.4 and 2.6. Alkaline phosphatase could not be detected in the bacteroids whereas activity of acid phosphatase was about 5–7 % of that observed in the bacteroid free preparation. A low activity of both acid and alkaline phytases was observed at all stages of nodule development. However, phytic acid could not be detected. Increase in phosphorus content of water soluble organic phosphate at late stage of nodule development appears to be related with low level of phosphatase activity.     

Effect of Cytokinins and Cytokinin Antagonists on in vitro Cultured Gypsophila paniculata L.

This study deals with the effects of two cytokinins [kinetin (Kin) and N-(2-chloro-4-pyridyl)-N-phenylurea (CPPU)] and cytokinin antagonists [2-chloro-4-cyclobutyl-amino-6-ethylamino-1,3,5-triazine (ACK1) and N-(4-pyridyl)-O-(4-chlorophenyl)carbamate (ACK2)] in concentration of 1 μM on in vitro cultured Gypsophila. The application of Kin and CPPU stimulated bud opening and increased fresh and dry masses. Cytokinin antagonists reduced the number of sprouted buds and bud fresh and dry masses. In plants treated with CPPU the chloroplasts possessed well developed membrane system, which covered almost the entire chloroplasts volume. In ACK2 treated plants, the plastid apparatus in each cell was represented by two types of chloroplast in which the inner membrane system was differently organized. Cell wall adjacent chloroplasts possessed structure similar to the controls. In inner located chloroplasts part of thylakoids were semi-concentrically arranged and partially destructed. This revised version was published online in July 2006 with corrections to the Cover Date.     

Regulation of the Activity of N-1-Naphthylphthalamic Acid Binding Protein by ATP and Phosphatase

N-1-naphthylphthalamic acid (NPA), an auxin transport inhibitor, was found to bind specifically to a crude membrane preparation from sugar beet seedling leaf cell suspension cultures. The dissociation constant (Kd) and binding protein concentration were found to be 1.71 mol dm^–3 and 220 pmol g^–1(membrane protein), respectively. The amount of specific ³H-NPA binding was significantly increased by adding Mg²⁺ATP to the binding assay solution. Treatment of membrane preparations with acid phosphatase, prior to the NPA binding assay, resulted in lower specific binding. ATP activation and phosphatase inactivation were culture stage dependent. Although a considerable effect could be detected when using cells from day 8 (representing the linear phase), the same treatment did not alter the binding if cells from day 1 (representing lag phase) or day 14 (representing the stationary phase) were used. These observations have strongly highlighted the possible involvement of a phosphorylation and dephosphorylation mechanism in vivo in the regulation of the activity of the NPA binding protein. High phosphatase activity was found in the supernatant, but not in the membrane pellet) after 50 000 g centrifugation. Our present study has indicated that receptor activity could be regulated by a phosphorylation and dephosphorylation mechanism in plants.     

Responses of Ribulose-1,5-Bisphosphate Carboxylase,Protein Content,and Stomatal Conductance to Water Deficit in Maize,Tomato, and Bean

We compared responses of maize, tomato, and bean plants to water stress. Maize reached a severe water deficit (leaf water potential –1.90 MPa) in a longer period of time as compared with tomato and bean plants. Maize stomatal conductance (g _s) decreased at mild water deficit. g _s of tomato and bean decreased gradually and did not reach values as low as in maize. The protein content was maintained in maize and decreased at low water potential (_w); in tomato it fluctuated and also decreased at low _w; in bean it gradually decreased. Ribulose-1,5-bisphosphate carboxylase/oxygenase activity remained high at mild and moderate stress in maize and tomato plants; in bean it remained high only at mild stress.