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Slater, Scott & Fowler: Plant Biotechnology 2e

Chapter 11

Plant biochemistry

Buchanan, B. B., Gruissem, W., and Jones, R. L. (2000) Biochemistry and Molecular Biology of Plants. American Society of Plant Physiologists, Rockville, Md.

Heldt, H.-W. (1997) Plant Biochemistry and Molecular Biology. Oxford University Press, Oxford.

Molecular farming

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Goddijn, O. J. M. and Pen, J. (1995) Plants as bioreactors. Trends in Biotechnology 13, 379-387. [DOI: 10.1016/S0167-7799(00)88985-4]

Hitz, B. (1999) Economic aspects of transgenic crops which produce novel products. Current Opinion in Plant Biology 2, 135-138. [PubMed: 10322200] [DOI: 10.1016/S1369-5266(99)80027-2]

Carbohydrates

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Caimi, P. G., McCole, L. M., Klein, T. M., and Kerr, P. S. (1996) Fructan accumulation and sucrose metabolism in transgenic maize endosperm expressing a Bacillus amyloliquefaciens SacB gene. Plant Physiology 110, 355-363. [PubMed: 12226187]

Cairns, A. J. (2003) Fructan biosynthesis in transgenic plants. Journal of Experimental Botany 54, 549-567. [PubMed: 12508066] [DOI: 10.1093/jxb/erg056]

Ebskamp, M. J. M., Van der Meer, I. M., Spronk, B. A., Weisbeek, P. J., and Smeekens, S. C. M. (1994) Accumulation of fructose polymers in transgenic tobacco. Biotechnology 12, 272-275. [PubMed: 7764488] [DOI: 10.1038/nbt0394-272]

Hellwege, E. M., Czapla, S., Jahnke, A., Willmitzer, L., and Heyer, A. G. (2000) Transgenic potato (Solanum tuberosum) tubers synthesize the full spectrum of inulin molecules naturally occurring in globe artichoke (Cynara scolymus) roots. Proceedings of the National Academy of Sciences USA 97, 8699-8704. [DOI: 10.1073/pnas.150043797]

Jobling, S. (2004) Improving starch for food and industrial applications. Current Opinion in Plant Biology 7, 210-218. [PubMed: 15003223] [DOI: 10.1016/j.pbi.2003.12.001]

Oakes, J. V., Shewmaker, C. K., and Stalker, D. M. (1991) Production of cyclodextrins, a novel carbohydrate, in the tubers of transgenic potato plants. Biotechnology 9, 982-986. [PubMed: 1370622] [DOI: 10.1038/nbt1091-982]

Schwall, G. P., Safford, R., Westcott, R. J., Tayal, A., Shi, Y. C., Gidley, M. J., and Jobling, A. S. (2000) Production of very-high-amylose potato starch by inhibition of SBE A and B. Nature Biotechnology 18, 551-554. [PubMed: 10802625] [DOI: 10.1038/75427]

Sevenier, R., Hall, R. D., Van der Meer, I. M., Hakkert, H. J. C., van Tunen, A. J., and Koops, A. J. (1998) High level fructan accumulation in a transgenic sugar beet. Nature Biotechnology 16, 843-846. [PubMed: 9743117] [DOI: 10.1038/nbt0998-843]

Slattery, C. J., Kavakli, H., and Okita, T. W. (2000) Engineering starch for increased quantity and quality. Trends in Plant Science 5, 291-298. [PubMed: 10871901] [DOI: 10.1016/S1360-1385(00)01657-5]

Tanaka, N., Fujita, N., Nishi, A., Satoh, H., Hosaka, Y., Ugaki, M., Kawasaki, S., and Nakamura, Y. (2004) The structure of starch can be manipulated by changing the expression levels of starch branching enzyme IIb in rice endosperm. Plant Biotechnology Journal 2, 507-516. [PubMed: 17147623] [DOI: 10.1111/j.1467-7652.2004.00097.x]

Van der Meer, I. M., Ebskamp, S. C. M., Visser, R. G. F., Weisbeek, P. J., and Smeekens, S. C. M. (1994) Fructan as a new carbohydrate sink in transgenic potato plants. Plant Cell 6, 561-570. [PubMed: 12244248] [DOI: 10.1105/tpc.6.4.561]

Lipids and bioplastics

Bohmert, K., Balbo, I., Kopka, J., Mittendorf, V., Nawrath, C., Poirier, Y., Teschendorf, G., and Trethewey, R. N. (2000) Transgenic Arabidopsis plants can accumulate polyhydroxybutyrate to up to 4% of their fresh weight. Planta 211, 841-845. [DOI: 10.1007/s004250000350]

Bohmert, K., Balbo, I., Steinbuchel, A., Tischendorf, G., and Willmitzer, L. (2002) Constitutive expression of the b-ketothiolase gene in transgenic plants. A major obstacle for obtaining polyhydroxybutyrate-producing plants. Plant Physiology 128, 1282-1290. [PubMed: 11950977] [DOI: 10.1104/pp.010615]

Conrad, U. (2005) Polymers from plants to develop biodegradable plastics. Trends in Plant Science 10, 511-512. [PubMed: 16213779]

Houmiel, K. L., Slater, S., Broyles, D., Casagrande, L., Colburn, S., Gonzalez, K., Mitsky, T. A., Reiser, S. E., Shah, D., Taylor, N. B., Tran, M., Valentin, H. E., and Gruys, K. J. (1999) Poly(b-hydroxybutyrate) production in oilseed leucoplasts of Brassica napus. Planta 209, 547-550. [PubMed: 10550638] [DOI: 10.1007/s004250050760]

John, M. and Keller, G. (1996) Metabolic pathway engineering in cotton: biosynthesis of polyhydroxybutyrate in fiber cells. Proceedings of the National Academy of Science USA 93, 12768-12773. [DOI: 10.1073/pnas.93.23.12768]

Mittendorf, V., Robertson, E. J., Leech, R. M., Kruger, N., Steinbuchel, A., and Poirier, Y. (1998) Synthesis of medium-chain-length polyhydroxyalkanoates in Arabidopsis thaliana using intermediates of peroxisomal fatty acid b-oxidation. Proceedings of the National Academy of Sciences USA 95, 13397-13402. [DOI: 10.1073/pnas.95.23.13397]

Napier, J. A., Michaelson, L. V., and Stobart, A. K. (1999) Plant desaturases: harvesting the fat of the land. Current Opinion in Plant Biology 2, 123-127. [PubMed: 10322192] [DOI: 10.1016/S1369-5266(99)80025-9]

Neumann, K., Stephan, D. P., Ziegler, K., Huhns, M., Broer, I., Lockau, W., and Pistorius, E. K. (2005) Production of cyanophycin, a suitable source for the biodegradable polymer polyaspartate, in transgenic plants. Plant Biotechnology Journal 3, 249-258. [PubMed: 17173624] [DOI: 10.1111/j.1467-7652.2005.00122.x]

Poirier, Y., Nawrath, C., and Somerville, C. (1995) Production of polyhydroxyalkanoates, a family of biodegradable plastics and elastomers, in bacteria and plants. Biotechnology 13, 142-150. [PubMed: 9634754] [DOI: 10.1038/nbt0295-142]

Scheller, J. and Conrad, U. (2005) Plant-based material, protein and biodegradable plastic. Current Opinion in Plant Biology 8, 188-196. [PubMed: 15753000] [DOI: 10.1016/j.pbi.2005.01.010]

Thelen, J. J. and Ohlrogge, J. B. (2002) Metabolic engineering of fatty acid biosynthesis in plants. Metabolic Engineering 4, 12-21. [PubMed: 11800570] [DOI: 10.1006/mben.2001.0204]

Topfer, R., Martini, N., and Schell, J. (1995) Modification of plant lipid synthesis. Science 268, 681-685. [PubMed: 17832379] [DOI: 10.1126/science.268.5211.681]

Wrobel, M., Zebrowski, J., and Szopa, J. (2004) Polyhydroxybutyrate synthesis in transgenic flax. Journal of Biotechnology 107, 41-54. [PubMed: 14687970] [DOI: 10.1016/j.jbiotec.2003.10.005]

Proteins

Boothe, J. G., Saponja, J. A., and Parmenter, D. L. (1997) Molecular farming in plants: oilseeds as vehicles for the production of pharmaceutical proteins. Drug Development Research 42, 172-181. [DOI: 10.1002/(SICI)1098-2299(199711/12)42:3/4<172::AID-DDR9>3.0.CO;2-N]

Daniell, H., Streatfield, S. J., and Wycoff, K. (2001) Medical molecular farming: production of antibodies, biopharmaceuticals and edible vaccines in plants. Trends in Plant Science 6, 219-226. [PubMed: 11335175] [DOI: 10.1016/S1360-1385(01)01922-7]

Daniell, H., Chebolu, S., Kumar, S., Singleton, M., and Falconer, R. (2005) Chloroplast-derived vaccine antigens and other therapeutic proteins. Vaccine 23, 1779-1783. [PubMed: 15734040] [DOI: 10.1016/j.vaccine.2004.11.004]

Fischer, R., Schumann, D., Zimmermann, S., Drossard, J., Sack, M., and Schillberg, S. (1999) Expression and characterization of bispecific single-chain Fv fragments produced in transgenic plants. European Journal of Biochemistry 262, 810-816. [PubMed: 10411643] [DOI: 10.1046/j.1432-1327.1999.00435.x]

Giddings, G., Giddings, G., Allison, G., Brooks, D., and Carter, A. (2000) Transgenic plants as factories for biopharmaceuticals. Nature Biotechnology 18, 1151-1155. [PubMed: 11062432] [DOI: 10.1038/81132]

Gil, F., Brun, A., Widgorovitz, A., Catal"R., Martinez-Torrecuadrada, J. L., Casal, I., Salinas, J., Borca, M. V., and Jos"M. E. (2001) High-yield expression of a viral peptide vaccine in transgenic plants. FEBS Letters 488, 13-17. [DOI: 10.1016/S0014-5793(00)02405-4]

Gleba, Y., Marillonnet, S., and Klimyuk, V. (2004) Engineering viral expression vectors for plants: the 'full virus' and the 'deconstructed virus' strategies. Current Opinion in Plant Biology 7, 182-188. [PubMed: 15003219] [DOI: 10.1016/j.pbi.2004.01.003]

Goddijn, O. J. M. and Pen, J. (1995) Plants as bioreactors. Trends in Biotechnology 13, 379-387. [DOI: 10.1016/S0167-7799(00)88985-4]

Hemming, D. (1995) Molecular farming: using transgenic plants to produce novel proteins and other chemicals In: AgBiotech News and Information 7, 19N-29N.

Hiatt, A. (1990) Antibodies produced in plants. Nature 344, 469-470. [PubMed: 2320114] [DOI: 10.1038/344469a0]

Kusnadi, A. R., Nikolov, Z. L., and Howard, J. A. (1997) Production of recombinant proteins in transgenic plants: practical considerations. Biotechnology and Bioengineering 56, 473-484. [DOI: 10.1002/(SICI)1097-0290(19971205)56:5<473::AID-BIT1>3.0.CO;2-F]

Ma, J. K.-C. and Hein, M. B. (1995) Immunotherapeutic potential of antibodies produced in plants. Trends in Biotechnology 13, 522-527. [PubMed: 8595138] [DOI: 10.1016/S0167-7799(00)89016-2]

Ma, J. K.-C., Hiatt, A., Hein, M. B., Vine, N. D., Wang, F., Stabila, P., van Dolleweerd, C., Mostov, K., and Lehner, T. (1995) Generation and assembly of secretory antibodies in plants. Science 268, 716-719. [PubMed: 7732380] [DOI: 10.1126/science.7732380]

Ma, J. K.-C., Chikwamba, R., Sparrow, P., Fischer, R., Mahoney, R., and Twyman, R. M. (2005) Plant-derived pharmaceuticals-the road forward. Trends in Plant Science 10, 580-585. [PubMed: 16290220] [DOI: 10.1016/j.tplants.2005.10.009]

Miele, L. (1997) Plants as bioreactors for biopharmaceuticals: regulatory considerations. Trends in Biotechnology 15, 45-49. [PubMed: 9081298] [DOI: 10.1016/S0167-7799(97)84202-3]

Peeters, K., De Wilde, C., and Depicker, A. (2001) Highly efficient targeting and accumulation of a Fab fragment within the secretory pathway and apoplast of Arabidopsis thaliana. European Journal of Biochemistry 268, 4251-4260. [PubMed: 11488919] [DOI: 10.1046/j.1432-1327.2001.02340.x]

Santi, L., Giritch, A., Roy, C. J., Marillionnet, S., Klimyuk, V., Gleba, Y., Webb, R., Arntzen, C. J., and Mason, H. S. (2006) Protection conferred by recombinant Yersinia pestis antigens produced by a rapid and highly scalable plant expression system. Proceedings of the National Academy of Sciences USA 103, 861-866. [DOI: 10.1073/pnas.0510014103]

Staub, J. M., Carcia, B., Graves, J., Peter, T. J., Hunter, P., Nehra, N., Paradkar, V., Schilittler, M., Carroll, J. A., Spatola, L., Ward, D., Ye, G., and Russell, D. A. (2000) High-yield production of a human therapeutic protein in tobacco chloroplasts. Nature Biotechnology 18, 333-337. [DOI: 10.1038/73796]

Thanavala, Y. Huang, Z., and Mason, H. S. (2006) Plant-derived vaccines: a look back at the highlights and a view to the challenges on the road ahead. Expert Review of Vaccines 5, 249-260. [PubMed: 16608424] [DOI: 10.1586/14760584.5.2.249]

Zhang, X., Buehner, N. A., Hutson, A. M., Estes, M. K., and Mason, H. S. (2006) Tomato is a highly effective vehicle for expression and oral immunization with Norwalk virus capsid protein. Plant Biotechnology Journal 4, 419-432. [PubMed: 17177807] [DOI: 10.1111/j.1467-7652.2006.00191.x]