Paula P. Chee scite author profile

The transfer of genetic material into soybean tissue was accomplished by using an avirulent strain of Agrobacterlum tumefaciens which contained the binary vector pGA482. The method used for transformation requires no tissue culture steps as it involves the inoculation of the plumule, cotyledonary node, and adjacent cotyledon tissues of germinating seeds. The identification of neomycin phosphotransferase (NPT) II enzyme activity in the tissues of 16 (Ro) soybean plants indicated that the plant expressible Nos-NPT II gene, contained within the T-DNA region from pGA482, had been transferred at least into somatic tissues.Putative transformed Ro soybean plants were advanced to produce R1 plants which were also assayed for the presence of the transferred Nos-NPT II gene. The combined results of these assays indicated that about 0.7% of the surviving inoculated seeds yielded transformed tissues in the Ro plant, and that about 1/10 of these plants yielded transformed R1 plants. The presence of the Nos-NPT II gene in DNAs isolated from both Ro and R1 plant was demonstrated by using genomic blot hybridization and polymerase chain reaction methods. Integration of this gene into the soybean genome was demonstrated for three R1 soybean plants.

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Intrinsic GUS-like activities in seed plants

Chee

Chesney

et al. 1990

Plant Cell Reports

101

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Fifty-two plant species, covering some Gymnosperms and all the key groups of Angiosperms, were chosen for surveying their intrinsic beta-glucuronidase-like activities. Histochemical (overnight incubation) and qualitative fluorometric (24 h incubation) assays indicated that, with few exceptions, such activities were detected in certain part(s) of the fruit walls, seed coats, endosperms or, especially, the embryos of the tested plants. Most of such activities in the excised immature embryos of soybean and string bean disappeared after one to a few days' in vitro culturing. Such activities in the intact mature seeds of these two species diminished also during germination process. The vegetative organs of seedlings/mature plants usually lack such activities. The enzyme(s) responsible for such activities was antigenically dissimilar to E. coli beta-glucuronidase.

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Transferring Cucumber Mosaic Virus-White Leaf Strain Coat Protein Gene into Cucumis melo L. and Evaluating Transgenic Plants for Protection against Infections

Gonsalves¹,

Xue²,

Yepes³

et al. 1994

jashs

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A single regeneration procedure using cotyledon explants effectively regenerated five commercially grown muskmelon cultivars. This regeneration scheme was used to facilitate gene transfers using either Agrobacterium tumefaciens (using `Burpee Hybrid' and `Hales Best Jumbo') or microprojectile bombardment (using `Topmark') methods. In both cases, the transferred genes were from the T-DNA region of the binary vector plasmid pGA482GG/cp cucumber mosaic virus-white leaf strain (CMV-WL), which contains genes that encode neomycin phosphotransferase II (NPT II), β-glucuronidase (GUS), and the CMV-WL coat protein (CP). Explants treated with pGA482GG/cpCMV-WL regenerated shoots on Murashige and Skoog medium containing 4.4 μm 6-benzylaminopurine (BA), kanamycin (Km) at 150 mg·liter-1 and carbenicillin (Cb) at 500 mg·liter-1. Our comparison of A. tumefaciens- and microprojectile-mediated gene transfer procedures shows that both methods effectively produce nearly the same percentage of transgenic plants. R0 plants were first tested for GUS or NPT II expression, then the polymerase chain reaction (PCR) and other tests were used to verify the transfer of the NPT II, GUS, and CMV-WL CP genes. This analysis showed that plants transformed by A. tumefaciens contained all three genes, although co-transferring the genes into bombarded plants was not always successful. R1 plants were challenge inoculated with CMV-FNY, a destructive strain of CMV found in New York. Resistance levels varied according to the different transformed genotypes. Somaclonal variation was observed in a significant number of R0 transgenic plants. Flow cytometry analysis of leaf tissue revealed that a significant number of transgenic plants were tetraploid or mixoploid, whereas the commercial nontransformed cultivars were diploid. In a study of young, germinated cotyledons, however, a mixture of diploid, tetraploid, and octoploid cells were found at the shoot regeneration sites.

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Transformation of Cucumis sativus tissue by Agrobacterium tumefaciens and the regeneration of transformed plants

Chee

1990

Plant Cell Reports

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Cotyledons of cucumber seedlings (Cucumis sativus L. cv. Poinsett 76) were co-cultivated with disarmed Agrobacterium strain C58Z707. The Agrobacterium strain contained the Agrobacterium-derived binary vector plasmid pGA482, its T-DNA region contains a plant expressible bacterial derived neomycin phosphotransferase II (NPT II) gene which upon transfer, genome integration, and expression in plant tissues confers resistance to the antibiotic kanamycin. After growth of inoculated cotyledon sections on selective medium containing 100 mg/l kanamycin, transformed embryogenic calli were obtained followed by the development of embryos and plant regeneration. Transformed R0 and R1 cucumber plants appeared normal and tested positive for NPT II enzyme activity. Genomic DNAs isolated from the NPT II positive plants all showed hybridization to the characteristic 2.0 kb (BamHI to HindIII) NPT II gene-containing fragment. These results show that the Agrobscterium-mediated gene transfer system and regeneration via somatic embryogenesis is an effective method for the transfer of genetic material into plant species belonging to the family Cucurbitaceae.

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High Frequency of Somatic Embryogenesis and Recover of Fertile Cucumber Plants

Chee¹

1990

HortSci

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A simple procedure for regeneration of cucumber plants (Cucumis sativus L. cv. Poinsett 76) from cotyledon and hypocotyl explants has been developed. Somatic embryogenesis was induced on Murashige and Skoog (MS) salts and vitamins medium supplemented with 2,4-D at 2.0 mg·liter-1 and kinetin at 0.5 mg·liter-1. Development of embryos was accomplished on MS medium with NAA at 1.0 mg·liter-1 and kinetin at 0.5 mg·liter-1. Eighty-five percent of the mature somatic embryos formed showed a typical bipolar structure. All developed into morphologically normal plantlets when transferred to MS medium containing no growth regulators. Chemical name used: 2,4-dichlorophenoxyacetic acid (2,4-D).

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Paula P. Chee

Transformation of Soybean (Glycine max) by Infecting Germinating Seeds with Agrobacterium tumefaciens

Intrinsic GUS-like activities in seed plants

Transferring Cucumber Mosaic Virus-White Leaf Strain Coat Protein Gene into Cucumis melo L. and Evaluating Transgenic Plants for Protection against Infections

Transformation of Cucumis sativus tissue by Agrobacterium tumefaciens and the regeneration of transformed plants

High Frequency of Somatic Embryogenesis and Recover of Fertile Cucumber Plants

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