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1.
A selectable marker system for plant transformation that does not require the use of antibiotics or herbicides was developed. The selectable marker consists of the manA gene from Escherichia coli under the control of a plant promoter that encodes for phosphomannose isomerase, pmi. Only transgenic plants were able to metabolize the selection agent, mannose, into a usable source of carbon, fructose. Transgenic plants were produced efficiently after delivery by Biolistics™ of the pmi gene into maize and wheat tissues, with mean transformation frequencies of 45% for maize and 20% for wheat. Adjustment of the sucrose and mannose levels in the selection medium essentially eliminated escapes. Transgenic events can be identified as early as 2 months for wheat and 4 months for maize. A simple test, a modified chlorophenol red assay, was used for early identification of transgenic events expressing the pmi gene. Transformation frequencies for both crops exceeded those obtained with the bar and pat genes with selection on either Basta® or bialaphos.  相似文献   

2.
D. Li  W. Shi  X. Deng 《Plant cell reports》2002,21(2):153-156
Ponkan (Citrus reticulata Blanco), one of the most important commercial cultivars of mandarin, is very seedy. In this study, the chimeric ribonuclease gene (barnase) driven by an anther tapetum-specific promoter (pTA29) was introduced into embryogenic callus of Ponkan by Agrobacterium-mediated transformation using the bar gene as a selectable marker. In contrast to previous reports, embryogenic calluses were used as the explant for Agrobacterium infection and transgenic plant regeneration. Selection of transformed callus was accomplished using basta. After 3 days of co-culture, calluses were transferred to MT medium with 50 mg/l basta and 400 mg/l cefotaxime. Resistant calluses were recovered and proliferated after three to four subcultures and then regenerated plantlets. A total of 52 resistant plants were recovered, of which 43 were verified to be transformants by polymerase chain reaction amplification of a fragment of the transgene. Southern hybridization of seven randomly selected transformed plants further confirmed their transgenic nature. The potential of this strategy for breeding citrus seedless types is discussed.  相似文献   

3.
A system for the production of transgenic plants has been developed for the Liliaceous ornamental plant Muscari armeniacum Leichtl. ex Bak via Agrobacterium-mediated transformation of embryogenic cultures. Leaf-derived embryogenic cultures were co-cultivated with each of three A. tumefaciens strains, all of which harbored the binary vector carrying the neomycin phosphotransferase II (nptII), hygromycin phosphotransferase (hpt) and intron-containing #-glucuronidase (gus-intron) genes in the T-DNA region. Following co-cultivation, the embryogenic cultures were cultured on a medium containing 500 mg l-1 cefotaxime for 1 week followed by a medium containing 75 mg l-1 hygromycin in addition to cefotaxime. After 4-5 weeks, several hygromycin-resistant (Hygr) cell clusters were produced from the co-cultivated embryogenic cultures. The highest efficiency of production of Hygr cell clusters was obtained when embryogenic cultures were inoculated with A. tumefaciens EHA101/pIG121Hm in the presence of 100 µM acetosyringone (AS) and 0.1% (v/v) of a surfactant (Tween20) followed by co-cultivation in the presence of 100 µM AS. Hygr embryogenic cultures developed into complete plants via somatic embryogenesis, and most of them were verified to be transgenic by GUS histochemical assay and polymerase chain reaction analysis. Southern blot analysis revealed the integration of one to five copies of the transgene into the genome of transgenic plants, but most of them had one or two copies.  相似文献   

4.
We present the first evidence that transgenic Bacillus thuringiensis (Bt) corn pollen naturally deposited on Asclepias syriaca; common milkweed, in a corn field causes significant mortality of Danaus plexippus L. (Lepidoptera: Danaidae) larvae. Larvae feeding for 48 h on A. syriaca plants naturally dusted with pollen from Bt corn plants suffered significantly higher rates of mortality at 48 h (20Dž%) compared to larvae feeding on leaves with no pollen (3Dž%), or feeding on leaves with non-Bt pollen (0%). Mortality at 120 h of D. plexippus larvae exposed to 135 pollen grains/cm2 of transgenic pollen for 48 h ranged from 37 to 70%. We found no sub-lethal effects on D. plexippus adults reared from larvae that survived a 48-h exposure to three concentrations of Bt pollen. Based on our quantification of the wind dispersal of this pollen beyond the edges of agricultural fields, we predict that the effects of transgenic pollen on D. plexippus may be observed at least 10 m from transgenic field borders. However, the highest larval mortality will likely occur on A. syriaca plants in corn fields or within 3 m of the edge of a transgenic corn field. We conclude that the ecological effects of transgenic insecticidal crops need to be evaluated more fully before they are planted over extensive areas.  相似文献   

5.
Somaclonal variation refers to the genetic and epigenetic changes in plants regenerated from plant tissue culture. In this study, using intersimple sequence repeat (ISSR) molecular markers, the somaclonal variation during micropropagation of sugarcane using temporary immersion bioreactors (TIBs) was evaluated. Apices of the cultivar Mex 69-290 were established and multiplied by ten subcultures in TIBs. After 30 d in each subculture, the number and length of shoots per explant were recorded. For the molecular analysis, ten plants were taken per subculture, and a total of 109 bands from ten ISSR primers were obtained. For each subculture, the polymorphism (%) was calculated. A dendrogram of genetic distances between subcultures and the donor plant was obtained using a matrix of Nei’s genetic distances and the unweighted pair group method with arithmetic mean (UPGMA). The results showed that the production of sugarcane shoots tends to increase until subculture 8, while shoot length decreases. ISSR markers showed the existence of somaclonal variation during micropropagation of sugarcane. The subcultures with the highest percentage of polymorphism (%) and genetic distances (GD) were the 1°, 9°, and 10° (with 10.1, 15.6, and 10.1% and 0.0222, 0.0181, and 0.0181 GD, respectively). The molecular and statistical analysis showed that in vitro establishment and the number of subcultures are both factors that affected the frequency of somaclonal variation during the micropropagation of sugarcane using TIBs. Thus, it is important to determine the optimal number of subcultures that can be made from an explant for each species to be micropropagated.  相似文献   

6.
Elite white maize lines W506 and M37W were transformed with a selectable marker gene (bar) and a reporter gene (uidA) or the polygalacturonase-inhibiting protein (pgip) gene after bombardment of cultured immature zygotic embryos using the particle inflow gun. Successful transformation with this device did not require a narrow range of parameters, since transformants were obtained from a wide range of treatments, namely pre-culture of the embryos for 4-6 days, bombardment at helium pressures of 700-900 kPa, selection-free culture for 2-4 days after bombardment and selection on medium containing bialaphos at 0.5-2 mg l-1. However, bombardments with helium pressures below 700 kPa yielded no transformants. The culture of immature zygotic embryos of selected elite white maize lines on medium containing 2 mg l-1 2,4-dichlorophenoxyacetic acid and 20 mM L-proline proved to be most successful for the production of regenerable embryogenic calli and for the selection of putative transgenic calli on bialaphos-containing medium after transformation. Transgenic plants were obtained from four independent transformation events as confirmed by Southern blot analysis. Transmission of the bar and uidA genes to the T4 progeny of one of these transformation events was demonstrated by Southern blot analysis and by transgene expression. In this event, the transgenes bar and uidA were inserted in tandem.  相似文献   

7.
8.
. Agrobacterium-mediated transformation is highly dependent upon competency of the target plant tissues. It is important to develop the capacity of transformed cells to include cell proliferation and differentiation. A system which results in cell proliferation and differentiation only of transformed cells is highly desirable for plant transformation. We report here a new GST-MAT vector system (MATIMH), in which the ipt gene combined with iaaM/H genes was used as the selectable marker gene and the GST-II promoter was used as the promoter of the R gene in a site-specific recombination system. In tobacco transformation, the combination of the ipt gene and the iaaM/H genes can result in the production of both auxin and cytokinin in transformed tissues and induce regeneration of transgenic shoots exhibiting an ipt-shooty phenotype more efficiently than the ipt gene alone. When we transformed 20 tobacco leaf discs with the MATIMH vector, marker-free transgenic plants were produced from five (41.6%) out of 12 ipt-shooty lines. These results indicated that the combination of the iaaM/H genes and the ipt gene can more efficiently produce both transgenic plants and marker-free transgenic plants.  相似文献   

9.
Glasshouse experiments were conducted to study the response of non-host Brassica rapa and host Sorghum bicolor to inoculation with the arbuscular mycorrhizal fungus (AMF) Glomus etunicatum when given different levels of N (0.9 mmol kg-1 sand, 2.7 mmol kg-1 sand, 8.1 mmol kg-1 sand) and P (3.6 µmol kg-1 sand, 10.7 µmol kg-1 sand, 32.0 µmol kg-1 sand) fertiliser. On both plant species, the presence of G. etunicatum inoculum (+AMF) was associated with significant changes of shoot '15N values, with +AMF plants having larger average '15N values than uninoculated plants (-AMF). These values are the largest average differences in shoot '15N yet recorded for AMF and nutrient effects. B. rapa shoot '15N average differences ranged from 1.67‰ to 2.70‰, while for S. bicolor they range between 2.07‰ and 4.40‰. For shoot '13C only the non-host B. rapa responded to -AMF and added N. Although the harvested dry weight biomass (-35.2% B. rapa; +39.8% S. bicolor) of both plant species responded to AMF inoculation, no direct relationship was observed between isotopic discrimination and growth inhibition for the non-host B. rapa. In this paper we discuss some implications regarding AMF inocula on the basis of our findings and current literature.  相似文献   

10.
We investigated in the field the carbon (C) transfer between sugar maple (Acer saccharum) saplings and the spring ephemeral Erythronium americanum via the mycelium of arbuscular mycorrhizal (AM) fungi. Sugar maple saplings and E. americanum plants were planted together in pots placed in the ground of a maple forest in 1999. Ectomycorrhizal yellow birches (Betula alleghaniensis) were added as control plants. In spring 2000, during leaf expansion of sugar maple saplings, the leaves of E. americanum were labelled with 14CO2. Seven days after labelling, radioactivity was detected in leaves, stem and roots of sugar maples. Specific radioactivity in sugar maples was 13-fold higher than in yellow birches revealing the occurrence of a direct transfer of 14C between the AM plants. The quantity of 14C transferred to sugar maple saplings was negatively correlated with the percentage of 14C allocated to the storage organ of E. americanum. A second labelling was performed in autumn 2000 on sugar maple leaves during annual growth of E. americanum roots. Radioactivity was detected in 7 of 22 E. americanum root systems and absent in yellow birches. These results suggest that AM fungi connecting different understorey species can act as reciprocal C transfer bridges between plant species in relation with the phenology of the plants involved.  相似文献   

11.
. The cyclin-dependent kinase (CDK) inhibitors ICK1 and ICK2 have been shown to inhibit plant CDK activity in vitro, and the expression of ICK1 was able to inhibit cell division in the plant and modify plant growth and morphology. In order to characterize other ICK1-related inhibitor genes and understand possible differences among plant CDK inhibitors, the interactions of plant CDK inhibitors with cell cycle regulators were analysed in the yeast two-hybrid system and their functions were compared in transgenic Arabidopsis plants. Yeast two-hybrid results indicate that there are likely two groups of plant CDK inhibitors. The A-group inhibitors ICK1, ICK2, ICK6 and ICK7 interact with Cdc2a and three D-type cyclins (D1, D2 and D3), while the B-group inhibitors ICK4, ICK5 and ICKCr interact with D-type cyclins but not with Arabidopsis Cdc2a. ICK1 (A-group), and ICK4 and ICKCr (B-group) were expressed separately in transgenic Arabidopsis plants. Overexpression of the three inhibitor genes resulted in plants of a smaller size with serrated leaves and modified flowers. These plants also had reduced nuclear DNA content (polyploidy), suggesting that expression of these inhibitors affected endoreduplication. Further, there were apparent differences in the strength of effect among the inhibitors. These results provide the first evidence on the CDK inhibitory function for ICK4 and ICKCr. They also suggest that these CDK inhibitors play important roles in cell division and plant growth.  相似文献   

12.
Several species of Piper (Piperaceae) live in symbiosis with Pheidole bicornis (Formicidae-Myrmicinae) on the southern Pacific slope of Costa Rica. These plants produce small single-celled food bodies (FBs) in leaf domatia, formed by the petiole bases and roofing leaf sheaths. In the present study the dependency of ants on FBs of Piper fimbriulatum as a food source was analysed by comparing the natural abundance of 13C and 15N in ants and FBs. Both '13C and '15N values were very similar between FBs and Pheidole bicornis ants but differed substantially between the plant and other ant species. Therefore we suggest that FBs are a main food source for Pheidole bicornis ants. To strengthen this suggestion, the chemical composition of FBs of four myrmecophytic Piper species was analysed, with special emphasis on the nutritional requirements of inhabiting Pheidole bicornis ants. Standard chemical methods were modified and combined to a novel analysis scheme by which all major FB constituents could be quantified from minute [3-10 mg dry mass (DM)] quantities. Piper FBs mainly consisted of lipids (41-48% of DM) and proteins (17-24% of DM). Soluble carbohydrates and amino acids proved to be quantitatively unimportant. N was predominantly stored as soluble protein and, thus, was easily available to the ants. FBs proved to be a high-energy food source (up to 23 kJ g-1 DM), with a chemical composition that meets well the nutritional needs of the inhabiting ants.  相似文献   

13.
We hypothesized that changes in plant growth resulting from atmospheric CO2 and O3 enrichment would alter the flow of C through soil food webs and that this effect would vary with tree species. To test this idea, we traced the course of C through the soil microbial community using soils from the free-air CO2 and O3 enrichment site in Rhinelander, Wisconsin. We added either 13C-labeled cellobiose or 13C-labeled N-acetylglucosamine to soils collected beneath ecologically distinct temperate trees exposed for 3 years to factorial CO2 (ambient and 200 µl l-1 above ambient) and O3 (ambient and 20 µl l-1 above ambient) treatments. For both labeled substrates, recovery of 13C in microbial respiration increased beneath plants grown under elevated CO2 by 29% compared to ambient; elevated O3 eliminated this effect. Production of 13C-CO2 from soils beneath aspen (Populus tremuloides Michx.) and aspen-birch (Betula papyrifera Marsh.) was greater than that beneath aspen-maple (Acer saccharum Marsh.). Phospholipid fatty acid analyses (13C-PLFAs) indicated that the microbial community beneath plants exposed to elevated CO2 metabolized more 13C-cellobiose, compared to the microbial community beneath plants exposed to the ambient condition. Recovery of 13C in PLFAs was an order of magnitude greater for N-acetylglucosamine-amended soil compared to cellobiose-amended soil, indicating that substrate type influenced microbial metabolism and soil C cycling. We found that elevated CO2 increased fungal activity and microbial metabolism of cellobiose, and that microbial processes under early-successional aspen and birch species were more strongly affected by CO2 and O3 enrichment than those under late-successional maple.  相似文献   

14.
Our previous studies have shown that tCUP, a cryptic promoter from tobacco, functions in all living plant cell types in a wide range of plant species. This led us to investigate if an enhanced derivative, EntCUP(, could be used to drive the neomycin phosphotransferase II (nptII) gene and select for kanamycin resistance in crop species that regenerate by organogenesis or embryogenesis. Tobacco (leaves), cauliflower (hypocotyls) and alfalfa (leaves, petioles, stems) explants were co-cultivated with Agrobacterium containing either EntCUP(-nptII-nos or 35S-nptII-nos to compare the efficiency of selection for kanamycin resistance. The infected alfalfa explants were placed in somatic embryo induction media, whereas tobacco and cauliflower explants were placed in shoot induction media with kanamycin at concentrations that normally inhibit regeneration. Transgenic plants were recovered from all of the explants with both selectable marker gene constructs. The transformation efficiencies using tCUP(-nptII-nos were comparable to or higher than those using 35S-nptII-nos in all three species tested. This study demonstrated that promoters which are not associated with expressed plant genes can be used as alternatives for the expression of selectable marker genes in a broad range of tissues and species for the generation of transgenic plants.  相似文献   

15.
The green-fluorescent protein (GFP) gene from the Pacific Northwest jellyfish, Aequorea victoria, was used as a screenable marker in the production of transgenic barley plants. Isolated barley microspore culture was biolistically transformed with two synthetic forms of GFP, sgfp and pgfp. Thirty-seven fluorescing multicellular structures were isolated using epifluorescent microscopy. Sixteen structures developed shoots, but only five regenerated into green plants. Three events had been co-bombarded with #-glucuronidase (gus) and assayed positive for gus expression in the leaves, and all five events were positive for gfp expression. The expected transgene band size was PCR-amplified from all five plants, and Southern blots performed on three plants revealed unique patterns of gfp transgene integration. Fluorescent in situ hybridization also revealed the transgenic status and hemizygous nature of all the events. GFP-based visual screening provides a viable alternative method to chemical selection of transgenic plants from barley microspore culture.  相似文献   

16.
Commercial barley cultivars are difficult to transform because of the lack of an efficient regeneration system. By modifying certain components in the standard culture medium, we have developed a reproducible and more efficient regeneration system. Herbicide-resistant transgenic plants from barley (Hordeum vulgare L. cv. Conlon) were obtained using this medium. Embryo-derived callus was bombarded with pAHC25, which contains the screenable marker gus (#-glucuronidase) and the selectable marker bar (bialaphos resistance gene), both driven by the maize ubiquitin promoter (Ubi1) and followed by the nos terminator. Following bombardment, callus was transferred to callus-induction medium supplemented with 5 mg/l bialaphos for selection. Resistant calli were subsequently transferred to maintenance medium containing 5 mg/l bialaphos for further selection and finally transferred to regeneration medium with 5 mg/l bialaphos. Green shoots that developed on the regeneration medium were transferred to rooting medium containing 3 mg/l bialaphos. Eighty-five transgenic plants were obtained from 13 independent transformation events. Progeny tests showed Mendelian inheritance for the transgenes. This is the first report of the production of large numbers of transgenic plants from a commercial cultivar adapted to Midwestern US barley production.  相似文献   

17.
A protocol for the production of transgenic tea [Camellia sinensis (L.) O. Kuntze cv. Kangra Jat] was developed via Agrobacterium-mediated genetic transformation of somatic embryos. Two disarmed Agrobacterium tumefaciens strains, EHA 105 and LBA 4404, both carrying the binary plasmid p35SGUSINT with the nptII gene and gus-intron were evaluated as vector systems. A number of parameters were tested with respect to maximizing transformation efficiency. While pre-culture, wounding and acetosyringone treatment were inhibitory, the bacterial growth phase (optical density; OD600 = 0.6), cell density (109/ml), co-cultivation period (5 days) and pH of the co-cultivation medium (5.6) had positive effects on transformation. Following co-cultivation, globular somatic embryos were placed on multiplication medium and stressed with kanamycin (50 µg/ml). Further selection occurred in the maturation and germination medium at an elevated kanamycin level (75 µg/ml). An average of 40% transient expression was evident based on the GUS histochemical assay. Kanamycin-resistant, GUS-positive embryos were germinated, and the resulting microshoots were multiplied in vitro. Integration of the transgenes into the tea nuclear genome was confirmed by PCR analysis using nptII- and gus-specific primers and by Southern hybridization using an nptII-specific probe. The transgenic shoots were micrografted onto seed-grown rootstocks of cv. Kangra Jat and eventually hardened in a walk-in polyhouse. This is the first report on the production of transgenic tea.  相似文献   

18.
A rat P450 monooxygenase gene (CYP1A1) was introduced into potato plants to enhance the metabolism of the environmental contaminants in subterranean organs. The CYP1A1 gene was kept under the control of the potato patatin promoter to enhance tuber-specific expression. A total of 106 transgenic plants (PAT1A1 plants) were obtained following selection by a resistance test to kanamycin and PCR analysis. PAT1A1 plants treated with 10% exogenous sucrose showed a higher activity of monooxgenase in the leaves than the non-transgenic plants. This indicated that the activity enhanced by 10% sucrose was due to the patatin promoter containing the sucrose-inducted elements. One representative transgenic plant, Ag2197, was selected on the basis of monooxgenase activity in the leaves and Western blot analysis. Ag2197 was found to accumulate a large amount of CYP1A1 mRNA and protein in the developing tuber but not in the mature tuber. The residual herbicides, atrazine and chlortoluron, were analyzed in the micro-tubers of Ag2197 and non-transgenic plants. The amount of residual herbicides in Ag2197 was much lower than that in the non-transgenic plant, indicating that the transgenic plant metabolized the herbicides to a detoxified form. The transgenic plants produced in this study might be useful for the phytoremediation of chemical pollution in the soil.  相似文献   

19.
Colonial bentgrass (Agrostis tenuis Sibth. Fl. Oxen.) is a cool-season turfgrass used on fairways in golf courses. The object of this study was to develop a more efficient, reliable and repeatable approach in transforming the grass using Agrobacterium (strain LBA4404), in which -glucuronidase (gus) gene was used as a reporter and hygromycin phosphotransferase (hpt) gene as a selectable marker. This vector was effective in transforming 7-week-old calluses derived from mature seeds cultured on MS medium supplemented with 2,4-D. A two-step solid medium selection with increasing hygromycin concentration (from 50 to 70 mg l–1) was used to obtain resistant calluses. Hundreds of transgenic plants have been produced from several independent transformed calluses. The presence of functional -glucuronidase (GUS) was detected in hygromycin-resistant calluses, young leaves and roots of transgenic plants. The transgenic plants collected from greenhouse showed strong resistance to 50 mg l–1 hygromycin solution. Four putative transgenic plants and one control plant were randomly chosen and analyzed by Southern blot analysis. Bands corresponding to the hpt gene were clearly shown in transgenic plants.  相似文献   

20.
Roridula dentata is associated with hemipterans, which facilitate nitrogen assimmilation from insects. R. dentata is also associated with spiders and their role in digestion is unknown. We quantify approximately how much nitrogen Roridula assimilates from insects through "indirect digestion." Using '15N we then determine whether nitrogen absorption from hemipteran insects differs with varying spider densities. In this way, we are able to determine their nutritional role. At low spider densities, indirect digestion of prey accounts for approximately 70% of plant nitrogen. These values are comparable to methods of direct prey digestion found in other carnivorous plants. However spiders decrease the numbers of hemipteran individuals inhabiting Roridula plants and also decrease efficiency of indirect prey digestion by up to 30%. We deduce that spiders are cheaters as they exploit plant rewards without offering any rewards in return. However, indirect carnivory is still efficient enough when hemipteran densities are at their lowest, ensuring that the mutualism does not break down.  相似文献   

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