Transient Expression of Antibodies in Plants Using Syringe Agroinfiltration
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Publisher
Humana Press
Link
http://link.springer.com/content/pdf/10.1007/978-1-59745-407-0_3.pdf
Reference20 articles.
1. Yusibov, V., Rabindran, S., Commandeur, U., Twyman, R.M., and Fischer, R. (2006) The potential of plant virus vectors for vaccine production.Drugs R&D 7, 203–217.
2. Verch, T., Yusibov, V., and Koprowski, H. (1998) Expression and assembly of a full-length monoclonal antibody in plants using a plant virus vector.J. Immunol. Methods 220, 69–75.
3. Alamillo, J.M., Monger, W., Sola, I., García, B., Perrin, Y., Bestagno, M., Burrone, O.R., Sabella, P., Plana-Durán, J., Enjuanes, L., Lomonossoff, G., and García, J.A. (2006) Use of virus vector for the expression in plants of active full length and single-chain anti-coronavirus antibodies.Biotechnol. J. 1, 1103–1111.
4. Kapila, J., De Rycke, R., Van Montagu, M., and Angenon, G. (1997) An Agrobacterium-mediated transient gene expression system for intact leaves.Plant Sci. 122, 101–108.
5. Vaquero, C., Sack, M., Chandler, J., Drossard, J., Schuster, F., Monecke, M., Schillberg, S., and Fischer, R. (1999) Transient expression of a tumor-specific single chain fragment and a chimeric antibody in tobacco leaves.Proc. Natl. Acad. Sci. USA 96, 11128–11133.
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