Physics And Chemistry Basis Of Biotechnology - De Cuyper - tiera.ru

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Radiation-induced bioradicals: technologies and research Malkin, V. G., Malkina, 0. L., Eriksson, L. A,, and Salahub, D. R. 1995. The calculation of NMR and EPR spectroscopy parameters using density functional theory. In Modern density functional theory, a tool for chemistry (J. M. Seminario and P. Politzer, Eds.), pp. 273-347. Elsevier, Amsterdam. Malone, M. E., Cullis, P. M., Symons, M. C. R., and Parker, A. W. 1995. Biphotonic photoionisation of cytosine and its derivatives with UV-radiation at 248 nm - An EPR study in low-temperature perchlorate glasses. J. Phys. Chem. 99:9299-9308, Mathur, A. M., Moorjani, S. K., and Scranton, A. B. 1996. Methods for synthesis of hydrogel networks: A review. J. Macromol. Sci. -Rev. Macromol. 36:405-430. McLaughlin, W. L. 1993. ESR dosimetry. Radiat. Prot. Dosim. 47:255-262. Mehnert, R. 1996. Review of industrial applications of electron accelerators. Nucl. Instrum. Meth. Phys. Res. B 113:81-87. Miaskiewicz, K., and Osman, R. 1994. Theoretical study of the deoxyribose radicals formed by hydrogen abstraction. J. Amer. Chem. Soc. 116:232-238. Miyazaki, T., Arai, J., Kaneko, T., Yamamoto, K., Gibella, M., and Tilquin, B. 1994a. Estimation of irradiation dose of radiosterilised antibiotics by electron-spin-resonance - Ampicillin. J Pharm. Sci. 83: 1643-1 644. Miyazaki, T., Kaneko, T., Yoshimura, T., Crucq, A. S., and Tilquin, B. 1994b. Electron-spin-resonance study of radiosterilisation of antibiotics - Ceftazidime. J. Pharm. Sci. 83:68-71. Moiseenko, V. V., Hamm, R. N., Waker, A. J., and Prestwich, W. V. 1998a. Modelling DNA damage induced by different energy photons and tritium beta-particles. Int. J Radial. Biol. 74:533-550. Moiseenko, V. V., Hamm, R. N., Waker, A. J., and Prestwich, W. V. 1998b. The cellular environment in computer simulations of radiation induced damage to DNA. Radiat. Environ. Biophys. 37:167-1 72. Mondelaers, W., Van Laere, K., and Uyttendaele, D. 1993. Treatment of primary tumours of bone and cartilage by extracorporeal irradiation with a low-energy high-power linac. Nucl Instrum. Meth. Phys. Res. B 79:898-900. Mondelaers, W. 1998. Low-energy electron accelerators in industry and applied research. Nucl. Instrum. Meth. Phys. Res. B 139:43-50. Monk, J. D., Beuchat, L. R., and Doyle, M. P. 1995. Irradiation inactivation of food-borne microorganisms. J Food. Protect. 58:197-208. Moroff, G., Leitman, S. F., and Luban, N. L. C. 1997. Principles of blood irradiation, dose validation, and quality control. Transfusion 37:1084-1092. Mroczka, N. E., and Bernhard, W. A. 1995. Electron-paramagnetic-resonance investigation of X-irradiated poly(U), poly(A) and poly(A)-poly(U) - Influence of hydration, packing and conformation on radical yield at 4 K. Radial. Res. 144:251-257. Mroczka, N. E., Mercer, K. R., and Bernhard, W. A. 1997. The effects of lattice water on free radical yields in x- irradiated crystalline pyrimidines and purines: A low- temperature electron paramagnetic resonance investigation. Radial. Res. 147:560-568. Musial, K., and Przywara, L. 1998. Influence of irradiated pollen on embryo and endosperm development in kiwifruit. Ann. Bot. 82:747-756. Musial, K., and Przywara, L. 1999. Endosperm response to pollen irradiation in kiwifruit. Sex. Plant. Reprod. 12:110-117. Naess, S. K., Swartz, H. J., and Bauchan, G. R. 1998. Ploidy reduction in blackberry. Euphyfica 99:57-73. Nelson, W. H., Hole, E. O., Sagstuen, E., and Close, D. M. 1988. ESRENDOR study of guanine.HC1.2H20 X-irradiated at 20 K. Int. J. Radiat. Biol. 54:963-986. Nelson, W. H., Close, D. M., Sagstuen, E., and Hole, E. 0. 1989. Radiation-chemistry of adeninederivatives following direct ionisation in solids - ESR and ENDOR investigations. Free Radical Res. Commun. 6:81-82. Nelson, W. H., Sagstuen, E., Hole, E. O., and Close, D. M. 1992a. On the proton transfer behaviour of the primary oxidation-product in irradiated DNA. Radial. Res. 131:10-17. Nelson, W. H., Sagstuen, E., Hole, E. O., and Close, D. M. 1992b. Ionisation of adenine-derivatives - EPR and ENDOR studies of X-irradiated adenine.HC1.1/2H20 and adenosine.HC1. Radiat. Res. 131:272- 284. Nelson, W. H., Sagstuen, E., Hole, E. O., and Close, D. M. 1998. Electron spin resonance and electron nuclear double resonance study of X-irradiated deoxyadenosine: Proton transfer behaviour of primary ionic radicals. Radiat. Res. 149:75-86. 299
Philippe Lahorte and Wim Mondelaers Onori, S., Pantaloni, M., Fattibene, P., Signoretti, E. C., Valvo, L., and Santucci, M. 1996. ESR identification of irradiated antibiotics: Cephalosporins. Appl. Radiat. Isotopes 47:1569-1 572. Patterson, L. K. 1987. Instruments for measurement of transient behaviour in radiation chemistry. In Radiation chemistry: principles and applications (Farhataziz and M. Rodgers, Eds.), pp. 65-96. VCH Publishers, Inc., New York. Podmore, I. D., Malone, M. E., Symons, M. C. R., Cullis, P. M., and Dalgarno, B. G. 1991. Factors controlling the site of protonation of the one-electron adduct of cytosine and its derivatives. J. Chem. SOC. Faraday Trans. 87:3647-36 5 2. Pouget, J. P., Ravanat, J. L., Douki, T., Richard, M. J., and Cadet, J. 1999a. Use of the comet assay to measure DNA damage in cells exposed to photosensitisers and gamma radiation. J. Chim. Phys. Phys- Chim. Biol. 96:143-146. Pouget, J. P., Ravanat, J. L., Douki, T., Richard, M. J., and Cadet, J. 1999b. Measurement of DNA base damage in cells exposed to low doses of gamma-radiation: comparison between the HPLC-EC and comet assays. Int. .J Radiat. Biol. 7551-58. Prise, K. M., Ahnstrom, G., Belli, M., Carlsson, J., Frankenberg, D., Kiefer, J., Lobrich, M., Michael, B. D., Nygren, J., Shone, G., and Stenerlow, B. 1998. A review of dsb induction data for varying quality radiations. Int. J. Radiat. Biol. 74:173-184. Raffi, J., Thiery, C., Battesti, C., Agnel, J. P., Triolet, J., and Vincent, P. 1993. Electron-spin resonance studies of gamma-irradiated saccharides. J. Chim. Phys. Phys-Cbim. Biol. 90: 1009-1019. Riganakos, K. A,, Koller, W. D., Ehlermann, D. A. E., Bauer, B., and Kontominas, M. G. 1999. Effects of ionising radiation on properties of monolayer and multilayer flexible food packaging materials. Radiat. Phys. Chem. 54:527-540. Rosiak, J. M., Ulanski, P., Pajewski, L. A., Yoshii, F., and Makuuchi, K. 1995. Radiation formation of hydrogels for biomedical purposes - Some remarks and comments. Radiat. Phys. Chem. 46:161-168. Rosiak, J. M., and Yoshii, F. 1999. Hydrogels and their medical applications. Nucl. Instrum. Meib. Phys. Res. B 151:56-64. Sabo, D., Bernd, L., Ewerbeck, V., Eble, M., Wannenmacher, M., and Schulte, M. 1999. Intraoperative extracorporeal irradiation and replantation (IEIR) in the treatment of primary malignant bone tumours. Unfallchirurg 102:580-588. Sagstuen, E., Lund, A., Awadelkarim, O., Lindgren, M., and Westerling, J. 1986. Free radicals in Xirradiated single crystals of sucrose: a reexamination. J. Phys. Chem. 90:5584-5588. Sagstuen, E., Hole, E. O., Nelson, W. H., and Close, D. M. 1988. Electron-spin-resonance ENDOR study of guanosine 5'-monophosphate (free acid) single-crystals X-irradiated at 10 K. Radiat. Res. 116: 196- 209. Sagstuen, E., Hole, E. O., Nelson, W. H., and Close, D. M. 1989a. Structure of the primary reduction product of thymidine after X-irradiation at 10 K. J. Phys. Chem. 93:5974-5977. Sagstuen, E., Hole, E. O., Nelson, W. H., and Close, D. M. 1989b. Free-radical formation in nucleosides and nucleotides of guanine - ESR and ENDOR of guanosine 5'-monophosphate and guanosinedimethylformamide X-irradiated at 10 K. Free Radical Res. Commun. 6:91-92. Sagstuen, E., Hole, E. O., Nelson, W. H., and Close, D. M. 1992a. Radiation-induced free-radical formation in thymine derivatives - EPWENDOR of anhydrous thymine single-crystals X-irradiated at 10 K. J. Phys. Chem. 96:1121-1126. Sagstuen, E., Hole, E. O., Nelson, W. H., and Close, D. M. 1992b. Protonation state of radiation-produced cytosine anions and cations in the solid-state - EPR ENDOR of cytosine monohydrate single-crystals X-irradiated at 10 K. J. Phys. Chem. 96:8269-8276. Sagstuen, E., Hole, E. O., Nelson, W. H., and Close, D. M. 1996. Radiation damage to DNA base pairs .1. Electron paramagnetic resonance and electron nuclear double resonance study of single crystals of the complex I-methylthymine-9-methyladenine X- irradiated at 10 K. Radiat. Res. 146:425-435. Sagstuen, E., Hole, E. O., Haugedal, S. R., and Nelson, W. H. 1997. Alanine radicals: Structure determination by EPR and ENDOR of single crystals X-irradiated at 295 K. J. Phys. Chem. A 101 :9763-9772. Sagstuen, E., Hole, E. O., Nelson, W. H., and Close, D. M. 1998. Radiation damage to DNA base pairs. II. Paramagnetic resonance studies of I-methyluracil center dot 9-ethyladenine complex crystals Xirradiated at 10 K. Radiat. Res. 149:120-127. 300
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PHYSICS AND CHEMISTRY BASIS OF BIOT
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Physics and Chemistry Basis of Biot
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EDITORS PREFACE At the end of the 2
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TABLE OF CONTENTS EDITORS PREFACE .
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4.3. Expression and functionality .
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2 . Magnetically labelled antibodie
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6.1. Instrumental characterisation
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BIOMIMETIC MATERIALS SYNTHESIS Abst
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Biomimetic materials synthesis cont
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Biomimetic materials synthesis 3. I
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Biomimetic materials synthesis The
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Biomimetic materials synthesis 3.2.
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Biomimetic materials synthesis 3.5.
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Biomimetic materials synthesis In t
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Biomimetic materials synthesis The
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Biomimetic materials synthesis Othe
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Biomimetic materials synthesis on s
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Biomimetic materials synthesis form
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Biomimetic materials synthesis poly
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Biomimetic materials synthesis anal
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Biomimetic materials synthesis Figu
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Biomimetic materials synthesis Sinc
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Biomimetic materials synthesis inte
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Biomimetic materials synthesis 42.
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DENDRIMERS: Chemical principles and
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Dendrimers: Chemical principles and
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RATIONAL DESIGN OF P450 ENZYMES FOR
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Rational design of P450 enzymes for
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AMPEROMETRIC ENZYME-BASED BIOSENSOR
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Amperometric enzyme-based biosensor
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SUPPORTED LIPID MEMBRANES FOR RECON
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Supported lipid membranes for recon
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FUNCTIONAL STRUCTURE OF THE SECRETI
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Functional structure of the secreti
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COLD-ADAPTED ENZYMES D. GEORLETTE,
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Cold-adapted enzymes enzyme activit
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Cold-adapted enzymes their high spe
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Cold-adapted enzymes flexibility of
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Cold-adapted enzymes Some recent wo
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Cold-adapted enzymes Figure 2. Acti
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Cold-adapted enzymes is not complet
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Cold-adapted enzymes 16. Gilichinsk
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Cold-adapted enzymes 58. Rina, M.,
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Cold-adapted enzymes 101. Yip, K. S
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MOLECULAR AND CELLULAR MAGNETIC RES
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Molecular and cellular magnetic res
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RADIOACTIVE MICROSPHERES FOR MEDICA
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Radioactive microspheres for medica
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Page 256 and 257: RADIATION-INDUCED BIORADICALS: Phys
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Page 300 and 301: References Radiation-induced biorad
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