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Biotechnology advances

Figure 7.11 Restriction map of Xanthomonas campestris xanthan gene cluster. Adapted from R W Vanderslice at at. Genetic engineering of polysaccharide structure In Xanthomonas campestris. In Biomedical and Biotechnological Advances In Industrial Polysaccharides, 1989, Gordon and Breach N Y. Figure 7.11 Restriction map of Xanthomonas campestris xanthan gene cluster. Adapted from R W Vanderslice at at. Genetic engineering of polysaccharide structure In Xanthomonas campestris. In Biomedical and Biotechnological Advances In Industrial Polysaccharides, 1989, Gordon and Breach N Y.
Saha, B. C. (2000). Alpha-L-arabinofuranosidases Biochemistiy, molecular biology and application in biotechnology. Biotechnology Advances, Vol. 18, 5, (August 2000), pp. (403-423), ISSN 0734-9750... [Pg.83]

The need to develop new materials for electrophoretic analysis and macromolecular separations prompted by the needs of the human genome project and the rapidly advancing fields associated with biotechnology, advances in the development of new analytical instrumentation—especially capillary electrophoresis, and practical limitations of the media currently used for gel electrophoresis [73]... [Pg.528]

Plant use is less biotechnologically advanced and fundamentally more complex. The first generation of plant metabolic engineering met with mixed success and produced unanticipated results — problems that are not necessarily restricted to manipulation of carotenogenesis. The reason is that predictive metabolic engineering relies on the establishment of both needed tools and an information infrastructure... [Pg.382]

Pilon-Smits, E. and Freeman, J.L., Environmental cleanup using plants Biotechnological advances and ecological considerations, Frontiers in Ecology and Environment, 4 (4), 203-210, 2006. [Pg.402]

Malinowski, J.J. (2001) Two-phase partitioning bioreactors in fermentation technology. Biotechnology Advances, 19, 525-538. [Pg.241]

Kaplan, D.L. (1998) Biopolymers from Renewable Resources, (ed D.L. Kaplan), Springer, Berlin, Chapter 1. Sandford, P.A. and Baird, J. (1983) The Polysaccharides (ed G.O. Aspinall), Academic Press, New York, Chapter 7. Garcia-Ochoa, F., Santosa, V.E., Casas, J.A. and Gomez, F. (2000) Xanthan gum production, recovery, and properties. Biotechnology Advances, 18, 549-579. [Pg.111]

Banerjee, A., Chisti, Y., and Banerjee, U.C. 2004. Streptokinase - a clinically useful thrombolytic agent. Biotechnology Advances 22(4), 287-307. [Pg.368]

Benhar, I. 2001. Biotechnological applications of phage and cell display. Biotechnology Advances 19, 1-33. [Pg.417]

Mhashilkar A, Chada S, Roth JA, and Ramesh R. 2001. Gene therapy - therapeutic approaches and implications. Biotechnology Advances 19(4), 279-297. [Pg.461]

Funaro A, Florenstein AL, Santoro P, et al. Monoclonal antibodies and therapy of human cancers. Biotechnology Advances 18 385-401 (2000). [Pg.134]

Calabrese, L. In Electronics and Biotechnology Advanced (ELBA) Forum Series, Nicolini, C., Ed. Plenum Press New York, 1998 Vol. 3. p 161. [Pg.646]

Bradshaw, J. E. (2007a). Potato-Breeding Strategy. In D. Vreugdenhil (Ed.), Potato Biology and Biotechnology Advances and Perspectives (pp. 157-177). Elsevier, Oxford. [Pg.22]

Vreugdenhil, D. (2007). Potato Biology and Biotechnology Advances and Perspectives. Elsevier, Oxford. [Pg.26]

Vadali RV, Bennett GN, San K-Y (2004) Metabolic Engineering 6 294-299 Ramachandra Rao S, Ravishankar GA (2002) Biotechnology Advances 20 1001-153 Walton NJ, Narbad A, Faulds CB, Williamson G (2000) Current Opinion in Biotechnology 11 490-496... [Pg.627]

McClements, D.J. (2006). Non-covalent interactions between proteins and polysaccharides. Biotechnology Advances, 24, 621-625. [Pg.28]

Drahos, D. J. (1991a). Field testing of genetically engineered microorganisms. Biotechnology Advances, 9, 157-71. [Pg.378]

Schugerl, K. (2000) Integrated processing of biotechnology products. Biotechnology Advances, 18, 581. [Pg.533]

Hegedus, D. D., and Khachatourians, G. G. (1995). The impact of biotechnology on hyphomycetous fungal insect biocontrol agents. Biotechnology Advances, 13, 455-490. [Pg.294]

Although much still needs to be learned, biotechnological advancements complement traditional procedures in the search for improved quality and regional character. [Pg.303]

Eapen, S. and D Souza, S.F. 2005. Prospects of genetic engineering of plants for phytoremediation of toxic metals. Biotechnology Advances, 23(2) 97-114. [Pg.145]

Glick, B.R. 2003. Phytoremediation Synergistic use of plants and bacteria to clean up the environment. Biotechnology Advances, 21(5) 383-93. [Pg.145]

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See also in sourсe #XX -- [ Pg.365 ]

See also in sourсe #XX -- [ Pg.32 ]



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