Edward L. Halk scite author profile

The tubular gland of the chicken oviduct is an attractive system for protein expression as large quantities of proteins are deposited in the egg, the production of eggs is easily scalable and good manufacturing practices for therapeutics from eggs have been established. Here we examined the ability of upstream and downstream DNA sequences of ovalbumin, a protein produced exclusively in very high quantities in chicken egg white, to drive tissue-specific expression of human mAb in chicken eggs. To accommodate these large regulatory regions, we established and transfected lines of chicken embryonic stem (cES) cells and formed chimeras that express mAb from cES cell-derived tubular gland cells. Eggs from high-grade chimeras contained up to 3 mg of mAb that possesses enhanced antibody-dependent cellular cytotoxicity (ADCC), nonantigenic glycosylation, acceptable half-life, excellent antigen recognition and good rates of internalization.

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Transformation of cotton (Gossypium hirsutum L.) by Agrobacterium tumefaciens and regeneration of transgenic plants

Firoozabady¹,

DeBoer²,

Merlo³

et al. 1987

Plant Mol Biol

181

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Cotton (Gossypium hirsutum L.) cotyledon tissues have been efficiently transformed and plants have been regenerated. Cotyledon pieces from 12-day-old aseptically germinated seedlings were inoculated with Agrobacterium tumefaciens strains containing avirulent Ti (tumor-inducing) plasmids with a chimeric gene encoding kanamycin resistance. After three days cocultivation, the cotyledon pieces were placed on a callus initiation medium containing kanamycin for selection. High frequencies of transformed kanamycin-resistant calli were produced, more than 80% of which were induced to form somatic embryos. Somatic embryos were germinated, and plants were regenerated and transferred to soil. Transformation was confirmed by opine production, kanamycin resistance, immunoassay, and DNA blot hybridization. This process for producing transgenic cotton plants facilitates transfer of genes of economic importance to cotton.

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Expression of alfalfa mosaic virus RNA 4 in transgenic plants confers virus resistance

Loesch-Fries¹,

Merlo²,

Zinnen³

et al. 1987

The EMBO Journal

185

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Agrobacterium‐mediated transfer from a binary vector was used to produce transgenic Nicotiana tabacum plants that expressed coat protein of the plant virus, alfalfa mosaic virus (AMV). Expression levels of the chimeric gene, which was under the control of the cauliflower mosaic virus 19S promoter, were determined in primary transformed plants, in the progeny from self‐fertilization and in the progeny from crosses to normal tobacco. RNA transcripts that were of the expected size as well as a protein of the Mr and antigenicity of AMV coat protein accumulated in the transgenic plants. Plants that expressed the highest levels of coat protein developed fewer primary infections following inoculation with two strains of AMV and developed systemic infection slower than did plants that did not express coat protein. Resistance was specifically against virions of the AMV strains. AMV RNA and the unrelated virus, tobacco mosaic virus, were as infectious on progeny that expressed coat protein as they were on progeny that did not. The relationship between the virus resistance expressed by these transgenic plants and that observed in virus cross‐protection is discussed.

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Production of Monoclonal Antibodies Against Three Ilarviruses and Alfalfa Mosaic Virus and Their Use in Serotyping

Halk¹,

Hsu²,

Aebig³

et al. 1984

Phytopathology

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Stabilization and particle morphology of prune dwarf virus

Halk

Fulton

1978

Virology

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Edward L. Halk

Production of human monoclonal antibody in eggs of chimeric chickens

Transformation of cotton (Gossypium hirsutum L.) by Agrobacterium tumefaciens and regeneration of transgenic plants

Expression of alfalfa mosaic virus RNA 4 in transgenic plants confers virus resistance

Production of Monoclonal Antibodies Against Three Ilarviruses and Alfalfa Mosaic Virus and Their Use in Serotyping

Stabilization and particle morphology of prune dwarf virus

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