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Society, biotechnology

I would like to thank Mrs B. J. Bashford for her patient preparation of the diagrams and the Royal Society, Biotechnology and Biological Sciences Research Council and the Cell Surface Research Fund for financial support. This chapter is an extensive revision of Chapter 7 in Bioh ical membranes A practical approach (ed. J. B. C. Findlay and W. H. Evans), pubhshed by IRL Press in 1987 any material reproduced is by permission of Oxford University Press. [Pg.304]

Ceramic Abstracts Chemical Engineering and Biotechnology Abstract (CEBA) Chemical Journals of the American Chemical Society (CJACS)... [Pg.115]

H. Misono and co-workers in M. Yamada, H. Tsutsui and K. Shimoto, Proceed. Ann. Mtg of Japan Society of Bioscience Biotechnology Agrochemistry 1990, p. 364. [Pg.300]

T. Tsunoda in Bioindustry Development Center (BIDEC), eds.. From Fermentation to Neir Biotechnology (in Japanese), Japan Science Society Press, Tokyo, Japan, 1989. [Pg.301]

R. B. Fdedman, ed.. Biotechnology ofMmylodextrin Oligosaccharides, Symposium Senes, Vol. 458, American Chemical Society, Washington, D.C., 1991. [Pg.490]

The biotechnology (qv) industry has no formal standards for equipment manufacture and quality control as of this writing. The American Society of Mechanical Engineers (ASME) set up a task force in 1989, for developing relevant standards for biotechnology equipment. [Pg.234]

German Society for Chemical Engineering, Biotechnology and Environmental Protection (DECHEMA)... [Pg.260]

Biotechnology therefore offers a more environmentally friendly and sustainable approach to fulfilling the needs of society. It can achieve this by, for example, offering alternative routes to the manufacture of products hitherto made by potentially environmentally damaging routes. Alternative, it enables the production of novel products, which are less environmentally damaging than products made via conventional chemical routes. We will use two examples to illustrate these principles. [Pg.7]

McGrath, J.J. Diller, K.R. (1988). Low Temperature Biotechnology Emerging Applications and Engineering Contributions. Amer. Society of Mechanical Engineers, New York. [Pg.384]

This situation must be corrected. Society needs a clean and safe enviromnent. It also needs to capitalize fully on new developments in chemistry, biotechnology, and materials science, if the United States is to retain technological leadership and international competitiveness in major segments of indnstry. [Pg.121]

The need of modern science to achieve a sustainable future development has been shown in many circumstances in society. Finding strategies less harmful to the environment has been a quest for research in several areas, such as pharmaceuticals, biotechnology, and food industries. With that purpose, the increase in research and development of more applications of xylan and its derivatives has shown the versatility of this biopolymer, thus helping the search for sustainable alternatives. [Pg.78]

The Society for Biotechnology Japan, Experiments of Biotechnology, Baihukan, 1992... [Pg.136]

Verrall M.S. (Ed) (1985) Discovery and Isolation of Microbial Products. Society of Chemical Industry Series in Biological Chemistoy and Biotechnology. Chichester Ellis Horwood. [Pg.161]

Glick B.R Pasternak J.J. (1994) Molecular Biotechnology Principles and Applications of Recombinant DNA. Washington, D.C. American Society for Microbiology. [Pg.468]

A.G.J. Voragen and W Pilnik, In J.R. Whitacker and P.E. Sonnet (eds.) Biocatalysis in Agricultural Biotechnology, ACS Symposium Series, Volume 389, American Chemical Society, Washington, DC, 1989. [Pg.55]

L. Chitradon, P. Mahakhan, V. Kitpreechavanit and N. Lotong, Abstract in the 8 NRCT NUS DOST-JSPS Joint Seminar on Biotechnology and the 4th Annual Meeting of the Thai Society for Biotechnology (1992) 104. [Pg.860]

Biotechnology and Materials Science Chemistry for the Future Good, M. L, Ed. American Chemical Society Washington, DC, 1987. [Pg.75]

Y.X. acknowledges support from the Research Excellence Fund in Biotechnology from Oakland University and R01 grant (AR 45172) from NIH while P.T. C. acknowledges financial support from the Royal Society of New Zealand Marsden Fund and Centres of Research Excellence Fund. [Pg.415]

Uegaki R, Ando S, Ishida, M, Takada O, Shiokura K and Kohchi Y (2001), Antioxidative activity of milk from cows fed herbs , Journal of the Japanese Society for Bioscience Biotechnology and Agrochemistry, 75, 669-671. [Pg.115]

Boas, U., Christensen, J.B. and Heegaard, P.M.H. (2006) Dendrimers in Medicine and Biotechnology New Molecular Tools. Royal Society of Chemistry. [Pg.1048]

Hollingworth, R.M., Bjeldanes, L.F., Bolger, M., Kimber, I., Meade, B.J., Taylor, S.L. and Wallace, K.B., Society of Toxicology position paper. The safety of genetically modified foods produced through biotechnology. Toxicol. Sci., 71,2, 2003. [Pg.617]

Magoshi, J., Magoshi, Y., and Nakamura, S. (1994). Mechanism of fibre formaUon of silkworm. In Silk Polymers. Materials Science and Biotechnology (Kaplan D., W. W. Wade, B. Farmer, and C. Viney, Eds.), Vol. 544, pp. 292-310. American Chemical Society, Washington, DC. [Pg.49]


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German Society for Chemical Engineering, Biotechnology and Environmental Protection

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