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1.
Summary We have established an efficient Agrobacterium-mediated transformation procedure for Arabidopsis thaliana genotype C24 using the chimeric bialaphos resistance gene (bar) coding for phosphinothricin acetyltransferase (PAT). Hypocotyl explants from young seedlings cocultivated with agrobacteria carrying a bar gene were selected on shoot-inducing media containing different concentrations of phosphinothricin (PPT) which is an active component of bialaphos. We found that 20 mg/l of PPT completely inhibited the control explants from growing whereas the explants transformed with the bar gene gave rise to multiple shoots resistant to PPT after 3 weeks under the same selection conditions. The transformation system could also be applied to root explants. Resulting plantlets could produce viable seeds in vitro within 3 months after preparation of the explants. The stable inheritance of the resistance trait, the integration and expression of the bar gene in the progeny were confirmed by genetic tests, Southern analysis and PAT enzyme assay, respectively. In addition, the mature plants in soil showed tolerance to the herbicide Basta.Abbreviations bar bialaphos resistance gene - CIM callus-inducing medium - DTNB 5,5-dithiobis(2-nitrobenzoic acid) - GM germination medium - HPT hygromycin phosphotransferase - MS Murashige and Skoog salts - NPTII neomycin phosphotransferase II - PAT phosphinothricin acetyltransferase - PPT phosphinothricin - SIM shoot-inducing medium  相似文献   

2.
A simple and inexpensive system for the generation of fertile, transgenic maize plants has been developed. Cells from embryogenic maize suspension cultures were transformed using silicon carbide whiskers to deliver plasmid DNA carrying the bacterial bar and uidA (gus) genes. Transformed cells were selected on medium containing the herbicide bialaphos. Integration of the bar gene and activity of the enzyme phosphinothricin acetyl transferase (PAT) were confirmed in all bialaphos-resistant callus lines analysed. Fertile transgenic maize plants were regenerated. Herbicide spraying of progeny plants revealed that the bar gene was transmitted in a Mendelian fashion.  相似文献   

3.
The microprojectile bombardment method was used to transfer DNA into embryogenic callus of asparagus (Asparagus officcinalis L.) and to produce stably transformed asparagus plants. Embryogenic callus, derived from UC 157 and UC72 asparagus cultivars, was bombarded with tungsten particles coated with plasmid DNA that contained genes encoding hygromycin phosphotransferase, phosphinothricin acetyl transferase and -glucuronidase. Putatively transformed calli were identified from the bombarded tissue after 4 months selection on 25 mg/L hygromycin B plus 4 mg/L phosphinothricin (PPT). By selecting embryogenic callus on hygromycin plus PPT the overall transformation and selection efficiencies were substantially improved over selection with hygromycin or PPT alone, where no transgenic clones were recovered. The transgenic nature of the selected material was demonstrated by GUS histochemical assays and Southern blot hybridization analysis. Transgenic asparagus plants were found to withstand the prescribed levels of the PPT-based herbicide BASTATM for weed control.Abbreviations GUS -glucuronidase - HPT hygromycin phosphotransferase - bar phosphinothricin acetyl transferase gene - PPT phosphophinothricin - NAA naphthalene acetic acid - 2iP 2-isopentenyl adenine  相似文献   

4.
Phosphinothricin (PPT) is a potent inhibitor of glutamine synthetase in plants and is used as a non-selective herbicide. The bar gene which confers resistance in Streptomyces hygroscopicus to bialaphos, a tripeptide containing PPT, encodes a phosphinothricin acetyltransferase (PAT) (see accompanying paper). The bar gene was placed under control of the 35S promoter of the cauliflower mosaic virus and transferred to plant cells using Agrobacterium-mediated transformation. PAT was used as a selectable marker in protoplast co-cultivation. The chimeric bar gene was expressed in tobacco, potato and tomato plants. Transgenic plants showed complete resistance towards high doses of the commercial formulations of phosphinothricin and bialaphos. These data present a successful approach to obtain herbicide-resistant plants by detoxification of the herbicide.  相似文献   

5.
Stably transformed callus of a hybrid sugarcane cultivar (Saccharum species hybrid, CP72-1210) was achieved following high velocity microprojectile bombardment of suspension culture cells, and electroporation of protoplasts. A three-day old cell suspension culture (SC88) was bombarded with gold particles coated with pBARGUS plasmid DNA containing the ß-glucuronidase (GUS) reporter gene and the bar selectable gene that confers resistance to the herbicide basta. The pBARGUS plasmid was also electroporated into the protoplasts of another cell line (SCPP). Colonies resistant to basta were recovered from both sources. Stable integration of the bar gene in the resistant cell lines was confirmed by Southern analysis. In addition, phosphinothricin acetyltransf erase (PAT) activity was also demonstrated in the transformed cell lines.Abbreviations GUS ß-glucuronidase - 2,4-D 2,4-dichlorophenoxyacetic acid - BAP benzylaminopurine - PMSF phenylmethylsulfonyl fluoride - MES 2[N-Morpholino]ethanesulfonic acid - HEPES [N-2-hydroxyethyl] piperazine-N-[2-ethane sulfonic acid] - PAT Phosphinothricin acetyltransferase - CTAB cetyltrimethylammonium bromide  相似文献   

6.
A system for the production of transgenic papaya (Carica papaya L.) plants using zygotic embryos and embryogenic callus as target cells for particle bombardment is described. Phosphinothricin (bar ) and kanamycin (npt II) resistance genes were used as selectable markers, and the gus gene (uidA) as a reporter gene. Selection with 100 mg/l kanamycin and 4 mg/l phosphinothricin (PPT) yielded a total of over 90 resistant embryogenic colonies from three independent experiments using embryogenic callus as a target tissue. This represents an efficiency of 60 transgenic clones per gram of fresh weight callus bombarded. The efficiency of genetic transformation using zygotic embryos was lower, as only 8 independent resistant clones were recovered out of 645 bombarded zygotic embryos, giving a efficiency of 1.24%. Subsequent subculture of transgenic somatic embryos both from zygotic embryos and embryogenic callus led to the development of plants with apparently normal morphology. Histological, fluorimetric assay for GUS, NPT II assay and DNA analysis (Southern hybridization) showed that kanamycin /PPT resistant plants carried and expressed the transgenes.Abbreviations Gus -glucuronidase - NPTII neomycin phophotransferase II - bar phophinothricin acetyl transferase gene - Pat phosphinothricin acetyl transferase - PPT phosphinothricin - Km kanamycin - 2,4-D 2,4-dichlorophenoxyacetic acid - K kinetin - BAP benzylaminopurine - IBA indolbutyric acid  相似文献   

7.
Protoplasts isolated from embryogenic suspension cultures of wheat (Triticum aestivum cv. Hartog) were electroporated in the presence of plasmid pEmuGN and/or pEmuPAT, which contained the reporter gene gus and selectable marker gene bar, respectively. Under optimised electroporation conditions, up to 0.9% of viable protoplasts displayed gus activity two days after electroporation. To select for phosphinothricin (PPT) resistant colonies, electroporated protoplasts were incubated for six weeks in a medium containing 10 g/ml PPT. The cells surviving the selection were maintained as individual colonies on solid medium or as suspension cultures. More than 60% of these colonies exhibited tolerance to 40 g/ml PPT when tested 10 months after initial selection. To date, 57 green plants have been regenerated from these colonies and 24 have been transferred to soil. Southern blot analyses of colonies and plants, using the bar gene sequence as the probe, confirmed transformation of the cells. Positive PAT assays of both regenerated colonies and plants indicated the presence of the bar gene product. These results provide a basis for the establishment of routine procedures for transformation of wheat by direct gene transfer into protoplasts.Abbreviations gus -glucuronidase - PAT phosphinothricin N-acetyltransferase - PPT phosphinothricin - MS Murashige and Skoog medium  相似文献   

8.
A reproducible system for the generation of fertile, transgenic maize plants has been developed. Cells from embryogenic maize suspension cultures were transformed with the bacterial gene bar using microprojectile bombardment. Transformed calli were selected from the suspension cultures using the herbicide bialaphos. Integration of bar and activity of the enzyme phosphinothricin acetyltransferase (PAT) encoded by bar were confirmed in all bialaphos-resistant callus lines. Fertile transformed maize plants (R0) were regenerated, and of 53 progeny (R1) tested, 29 had PAT activity. All PAT-positive progeny analyzed contained bar. Localized application of herbicide to leaves of bar-transformed R0 and R1 plants resulted in no necrosis, confirming functional activity of PAT in the transgenic plants. Cotransformation experiments were performed using a mixture of two plasmids, one encoding PAT and one containing the nonselected gene encoding [beta]-glucuronidase. R0 plants regenerated from co-transformed callus expressed both genes. These results describe and confirm the development of a system for introduction of DNA into maize.  相似文献   

9.
Herbicide-resistant sweet potato plants were produced through biolistics of embryogenic calli derived from shoot apical meristems. Plant materials were bombarded with the vectors containing the β-glucuronidase gene (gusA) and the herbicide-resistant gene (bar). Selection was carried out using phosphinothricin (PPT). Transformants were screened by the histochemical GUS and Chlorophenol Red assays. PCR and Southern-blot analyses indicated the presence of introduced bar gene in the genomic DNA of the transgenic plants. When sprayed with Basta, the transgenic sweet potato plants was tolerant to the herbicide. Hence, we report successful transformation of the bar gene conferring herbicide resistance to sweet potato.  相似文献   

10.
Summary Suspension cells of Oryza sativa L. (rice) were transformed, by microprojectile bombardment, with plasmids carrying the coding region of the Streptomyces hygroscopicus phosphinothricin acetyl transferase (PAT) gene (bar) under the control of either the 5 region of the rice actin 1 gene (Act1) or the cauliflower mosaic virus (CaMV) 35S promoter. Subsequently regenerated plants display detectable PAT activity and are resistant to BASTATM, a phosphinothricin (PPT)-based herbicide. DNA gel blot analyses showed that PPT resistant rice plants contain a bar-hybridizing restriction fragment of the expected size. This report shows that expression of the bar gene in transgenic rice plants confers resistance to PPT-based herbicide by suppressing an increase of ammonia in plants after spraying with the herbicide.  相似文献   

11.
Summary Transgenic Atropa belladonna conferred with a herbicide-resistant trait was obtained by transformation with an Ri plasmid binary vector and plant regeneration from hairy roots. We made a chimeric construct, pARK5, containing the bar gene encoding phosphinothricin acetyltransferase flanked with the promoter for cauliflower mosaic virus 35S RNA and the 3 end of the nos gene. Leaf discs of A. belladonna were infected with Agrobacterium rhizogenes harboring an Ri plasmid, pRi15834, and pARK5. Transformed hairy roots resistant to bialaphos (5 mg/l) were selected and plantlets were regenerated. The integration of T-DNAs from pRi15834 and pARK5 were confirmed by DNA-blot hybridization. Expression of the bar gene in transformed R0 tissues and in backcrossed F1 progeny with a nontransformant and self-fertilized progeny was indicated by enzymatic activity of the acetyltransferase. The transgenic plants showed resistance towards bialaphos and phosphinothricin. Tropane alkaloids of normal amounts were produced in the transformed regenerants. These results present a successful application of transformation with an Ri plasmid binary vector for conferring an agronomically useful trait to medicinal plants.Abbreviations CaMV cauliflower mosaic virus - NPT-II neomycin phosphotransferase II - PAT phosphinothricin acetyltransferase - PPT phosphinothricin  相似文献   

12.
Transgenic plants were obtained after particle bombardment of embryogenic callus derived from stem segments of two tetraploid Alstroemeria genotypes with plasmids containing different selection/reporter genes. Firstly, a plasmid containing a firefly luciferase reporter gene driven by the maize ubiquitin promoter (Ubi1), was bombarded into both friable embryogenic callus and proembryos. Transient and stable expression of luciferase was visually detected by a luminometer. This selection method is non-destructive and can be applied over the whole developmental process from callus to embryo and plantlet. Molecular proof of transformation was obtained both by PCR analysis and Southern hybridization. Secondly, a plasmid containing the bar gene together with an uidA gene coding for -glucuronidase both driven by the Ubi1 promoter was bombarded into proembryos. The transgenic callus was effectively selected from the callus clumps four months after bombardment on a medium containing 5 mg/l phosphinotricin (PPT). Selection by PPT was efficient and labour-saving. Stable expression of GUS was confirmed by the histochemical staining assay and molecular proof was obtained by PCR analysis.  相似文献   

13.
Summary Transgenic sorghum plants (Sorghum bicolor L. Moench, cv. SRN39) were obtained by microprojectile-mediated DNA delivery (Bio-Rad PDS 1000/He Biolistic Delivery System) to explants derived from immature inflorescences. Explants were precultured on medium supplemented with 2.5 mg/l (11.31 μM) 2,4-D, 0.5 mg/l (2.32 μM) kinetin, and 60 g/l sucrose for 1 to 2 wk prior to bombardment. Bialaphos selectron pressure was imposed 2 wk after bombardment and maintained throughout all the culture stages leading to plant regeneration. More than 2500 explants from 1.5 to 3.0 cm inflorescences were bombarded and subjected to bialaphos selection. Out of more than 190 regenerated plants, 5 were determined to be Ignite resistant. Southern analyses confirmed the likelihood that the 5 herbicide resistant plants derived from two independent transformation events. The phosphinothricin acetyltransferase gene (bar) was inherited by and functionally expressed in T1 progeny. However, no β-glucuronidase (GUS) activity could be detected in T1 plants that contained uidA restriction fragments. Histological analyses indicated that in the absence of bialaphos morphogenesis was primarily via embryogenesis while organogenesis was more predominant in callus maintained with herbicide selection.  相似文献   

14.
A plasmid pARK 22 harbouring thebar gene encoding phosphinothricin acetyltransferase (PAT) under the control of the cauliflower mosaic virus (CaMV) 35S promoter and nopaline synthase (NOS) terminator was constructed and introduced into root sections ofArabidopsis thaliana using the pneumatic particle gun. The root sections that had been bombarded with this plasmid gave four to eight times higher yield of drug-resistant calluses than those sections bombarded with pCaMVNEO or pCH, which respectively contain the neomycin phosphotransferase and hygromycin phosphotransferase genes. Among a number of primary transformant (T0) plants obtained from independent bialaphos-resistant calluses, three were studied by Southern blot hybridization and PAT enzyme activity analyses, confirming the stable integration of the foreign gene into theArabidopsis genome and its expression in plants. The progeny analysis showed transmission of the foreign gene and its expression in up to the T2 generation. Some of the T1 progeny showed morphological abnormalities. Thus, thebar gene can be used effectively to allow selection of transgenicA. thalianna plants.  相似文献   

15.
 Our long-term goal is to control wheat diseases through the enhancement of host plant resistance. The constitutive expression of plant defense genes to control fungal diseases can be engineered by genetic transformation. Our experimental strategy was to biolistically transform wheat with a vector DNA containing a rice chitinase gene under the control of the CaMV 35 S promoter and the bar gene under control of the ubiquitin promoter as a selectable marker. Immature embryos of wheat cv ‘Bobwhite’ were bombarded with plasmid pAHG11 containing the rice chitinase gene chi11 and the bar gene. The embryos were subcultured on MS2 medium containing the herbicide bialaphos. Calli were then transferred to a regeneration medium, also containing bialaphos. Seventeen herbicide-resistant putative transformants (T0) were selected after spraying with 0.2% Liberty, of which 16 showed bar gene expression as determined by the phosphinothricin acetyltransferase (PAT) assay. Of the 17 plants, 12 showed the expected 35-kDa rice chitinase as revealed by Western blot analysis. The majority of transgenic plants were morphologically normal and self-fertile. The integration, inheritance and expression of the chi11 and bar genes were confirmed by Southern hybridization, PAT and Western blot analysis of T0 and T1 transgenic plants. Mendelian segregation of herbicide resistance was observed in some T1 progenies. Interestingly, a majority of the T1 progeny had very little or no chitinase expression even though the chitinase transgene was intact. Because PAT gene expression under control of the ubiquitin promoter was unaffected, we conclude that the CaMV 35 S promoter is selectively inactivated in T1 transgenic wheat plants. Received: 12 May 1998 / Accepted: 15 May 1998  相似文献   

16.
Summary Efficient regeneration (80%) and high frequency genetic transformation (10–33%) were achieved by culturing protoplasts isolated from hypocotyl tissues of six day old Brassica oleracea seedlings and by subjecting these protoplasts to PEG mediated direct plasmid uptake. Three different plasmid vectors carrying marker genes for resistance to methotrexate (dhfr), hygromycin (hpt) and phosphinotricin (bar) were constructed and used for transformation. Large number of normal, fertile transformants were obtained with vectors carrying hpt and bar genes. No transformants could be regenerated for resistance to methotrexate as it severely suppressed shoot differentiation.Abbreviations bar/PAT bialaphos resistance gene/phosphinotricin acetyltransferase - 2,4-D 2,4-di-chlorophenoxyacetic acid - dhfr/DHPR dihydrofolate reductase gene/enzyme - gus/GUS -glucuronidase gene/enzyme - hpt/HPT hygromycin phosphotransferase gene/enzyme - Kn kinetin - PEG polyethylene glycol - RH relative humidity  相似文献   

17.
Fertile transgenicTriticale ( ×Triticosecale Wittmack) plants expressing the-glucuronidase (uidA) and phosphinothricin acetyltransferase (bar) genes were obtained after microprojectile bombardment of scutellar tissue with the plasmid pDB1 containing theuidA gene under the control of the actin-1 promoter (Act1) from rice and the selectable marker genebar under the control of the CaMV 35S promoter. From 465 bombarded scutella about 4000 plantlets were regenerated; 300 plants survived the selection. These regenerants were screened for enzyme activity by the histological GUS assay and by spraying the plants with a herbicide (Basta). Twenty-five regenerants showed GUS activity and survived repeated Basta spraying. Southern blot analysis showed the presence of both marker genes introduced into the genome of analysed plants.All transgenic plants were fertile. They were grown to maturity and set seed. Pollen and progeny analyses provided evidence for inheritance of the introduced genes to the next generation.  相似文献   

18.
A system for enhanced induction of somatic embryo-genesis and regeneration of plants from isolated scutellar tissue of wheat has been developed. This system has been successfully used in the development of a simple and reproducible protocol for the production of self-fertile transgenic wheat plants. The procedure is rapid resulting in the production of transgenic plantlets within 12 weeks from initiation of cultures and it avoids the need for establishing long-term callus, cell suspension or protoplast cultures. Somatic embryos regenerated from scutella bombarded with plasmid pBARGUS were selected on L-phosphinothricin (L-PPT) to obtain herbicide-resistant self-fertile transgenic plants. Phosphinothricin acetyltransferase (PAT) activity was observed at varying levels in 50% of the plants selected on L-PPT whereas none of the plants showed β-glucuronidase (GUS) activity. Molecular analysis of PAT-positive plants confirmed stable integration of both bar and gus genes in R0 and R1 progeny plants. Segregation of the PAT activity and herbicide resistance in R1 progeny plants confirmed the Mendelian inheritance of the bar gene. Additionally, isolated scutella bombarded with plasmid DNA containing a gus::nptII fusion gene driven by a rice actin promoter and its first intron were selected in the presence of geneticin to obtain fully fertile transgenic plants. Functional expression of the fusion gene was demonstrated in transgenic plants by GUS and neomycin phospho-transferase (NPTII) enzyme assays. Southern blot analysis confirmed the integration of transgenes into the wheat genome. Histochemical GUS staining showed transmission of the fusion gene to floral organs of primary transformants and confirmed Mendelian segregation of the transgene in R1 progeny.  相似文献   

19.
Despite the significant advantages of using herbicide resistance for selection of genetically engineered plants, alfalfa transformation has relied primarily on selection for antibiotic resistance. In the few studies reporting the use of resistance to the herbicide phosphinothricin (PPT), transformation efficiencies were low. The present investigation describes a PPT-based selection system for alfalfa transformation that uses the phosphinothricin acetyl-transferase (pat) gene as a selectable marker and 5.0 mg l−1 of bialaphos as the selective agent. The method achieves transformation efficiencies, measured as the percentage of explants giving rise to one or more transformed plantlets, greater than 50%. These plantlets accumulated detectable amounts of PAT at levels varying from 2 to 1367 pg μg−1 total protein. Transformed plants transferred to soil in the greenhouse were phenotypically normal and exhibited resistance to bialaphos leaf painting at 5 g l−1 and applications of PPT equivalent to field-level use (0.5 kg ha−1).  相似文献   

20.
Explants (7.5±2.5 mm) cut from stems and roots of 3-week-old Eustoma grandiflorum Grise, (lisianthus) cv. Glory White seedlings were bombarded with plasmid pBI221, which harbors the uidA gene encoding β-glucuronidase (GUS) driven by the cauliflower mosaic virus (CaMV) 35S promoter. More than 800 blue spots of GUS-expressing cells were observed per 90 explants. Explants bombarded with pARK22 harboring the bar gene encoding phosphinothricin acetyltransferase driven by the CaMV 35S promoter were selected for bialaphos resistance. Putative transgenic plants were obtained about 3 months after bombardment. Southern blot analysis of putative transgenic plants revealed the presence of the bar gene in their genome. Received: 10 April 1996 / Revision received: 7 November 1997 / Accepted: 22 November 1997  相似文献   

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