Repair of semi-oxidized 3,5-diiodotyrosine: radiation chemical studies in the presence of oxygen, ascorbate and superoxide anion

References

• BUXTON, G. V., GREENSTOCK, C. L., HELMAN, W. P., and Ross, A. B., 1988, Critical review of rate constants for reac-tions of hydrated electrons, hydrogen atoms and hydroxyl radicals (.OH/ .0) in aqueous solution. Journal of Physical and Chemical Reference Data, 17, 513–886.
   Web of Science ®Google Scholar
• CHUAQUI, C. A., and PETKAU, A., 1987, Chemical reactivity and biological effects of superoxide radicals. Radiation Phy-sics and Chemistry, 30, 365–373.
   Web of Science ®Google Scholar
• CUDINA, I., and Josimovic, L., 1987, The effect of oxygen on the radiolysis of tyrosine in aqueous solutions. Radiation Research, 109, 206–215.
   PubMed Web of Science ®Google Scholar
• DAS, T. N., 1994, Aqueous medium pulse and steady state radiation chemical studies on the reduction of 3,5-diiodotyrosine. Journal of Physical Chemistry, 98, 11109–11114.
   Web of Science ®Google Scholar
• DAS, T. N., and PRIYADARSINI, K. I., 1994, Characterization of transients in aqueous medium by pulse radiolytic oxidation of 3,5-diiodotyrosine. Journal of Physical Chemistry, 98, 5272–5278.
   Web of Science ®Google Scholar
• DEAN, J. A., 1992, Lange's Handbook of Chemistry, 14th edn (McGraw Hill: New York), section 8.
   Google Scholar
• DEFELIPPIS, M. R., MURTHY, C. P., BROITMAN, F., WEINRAUB, D., FARAGGI, M., and KLAPPER, M. H., 1991, Electrochemical properties of tyrosine phenoxy and tryptophan indolyl radicals in peptides and amino acid analogues. Journal of Physical Chemistry, 95, 3416–3419.
   Web of Science ®Google Scholar
• EBERHARDT, N. L., APRILETTI, J. M., and BAXTER, J. D., 1980, Biochemical Action of Hormones, vol VII, edited by G. Litwack (Academic: New York), chapter 9.
   Google Scholar
• FIELDEN, E. M., 1884, Chemical dosimetry of pulsed electron and X-ray source in the 1–20 MeV range. In The Study of Fast Processes and Transient Species by Electron Pulse Radi- olysis, edited by J. H. Baxendale and F. Busy (Reidel: Boston), pp. 59.
   Google Scholar
• GuDA, S. N., MOORTHY, P. N., KISHORE, K., NAIK, D. B., and RAO, K. N., 1987, One electron reduction of thionine stud-ied by pulse radiolysis. Proceedings of the Indian Academy of Sciences (Chemical Sciences), 99, 261–271.
   Google Scholar
• HALLIWELL, B., and GUTTERMGE, J. M. C., 1989, Free Radicals in Biology and Medicine, 2nd edn (Oxford University Press: Oxford).
   Google Scholar
• JEFFERY, G. H., BASSETT, J., MENDHAM, J., and DENNEY, R. C., 1989, Vogel's Textbook of Quantitative Chemical Analysis (ELBS-Longman: Harlow), pp. 373.
   Google Scholar
• JIN, F., LEITICH, J., and VON SONNTAG, C., 1993, The superoxide radical reacts with tyrosine-derived phenoxyl radicals by addition rather than by electron transfer. Journal of the Chemical Society, Perkin Transaction 2, 1583–1588.
   Google Scholar
• JoNssoN, M., LIND, J., REITBERGER, T., ERIKSON, T. E., and MERENYI, G., 1993, Free radical combination reactions involving phenoxyl radicals. Journal of Physical Chemistry, 97, 8229–8233.
   Web of Science ®Google Scholar
• KATCOFF, S., 1960, Fission product yields from neutron induced fission. Nucleonics, 18, 201–208.
   Google Scholar
• LEHRER, S. S., and FASMAN, G. D., 1967, Ultraviolet irradiation effects in poly-L-tyrosine and model compounds. Iden-tification of bityrosine as a product. Biochemistry, 6, 757–767.
   PubMed Web of Science ®Google Scholar
• MEISEL, D., and CZAPSKI, G., 1975, One-electron transfer equili-bria and reduction potentials of radicals studied by pulse radiolysis. Journal of Physical Chemistry, 79, 1503–1509.
   Web of Science ®Google Scholar
• MURRAY, R. L., 1993, Nuclear Energy, An Introduction to the Concepts, Systems and Applications of Nuclear Processes, 4th edn (Pergamon: Oxford), pp. 286.
   Google Scholar
• National Council of Radiation Protection and Management NCRP Report No. 92, 1987 (Bethesda).
   Google Scholar
• NAQUI, A., CHANCE, B., and CADENAS, E., 1986, Reactive oxygen intermediates in biochemistry. Annual Reviews of Biochemistry, 55, 137–166.
   PubMed Web of Science ®Google Scholar
• NETA, P., HUIE, R. E., and Ross, A .B., 1988, Rate constants for reactions of inorganic radicals in aqueous solutions, Journal of Physical and Chemical Reference Data, 17, 1027–1284.
   Google Scholar
• OPPENHEIMER, J. H., and SAMUELS, H. H., 1983, Molecular Basis of Thyroid Hormone Action (Academic: New York).
   Google Scholar
• PRuTz, W. A., BUTLER, J., and LAND, E. J., 1983, Phenol coupling initiated by one-electron oxidation of tyrosine units in peptides and histone. International Journal of Radiation Biology, 44, 183–196.
   Web of Science ®Google Scholar
• REDPATH, J. L., and WILLSON, R. L., 1973, Reducing compounds in radioprotection and radiosensitization; Model experiments using ascorbic acid. International Journal of Radiation Biology, 23, 51–65.
   Web of Science ®Google Scholar
• VON SONNTAG, C., 1987, The Chemical Basis of Radiation Biology (Taylor 8c Francis: London), pp. 404.
   Google Scholar
• TAUBER, A. I., and BABIOR, B. M., 1978, 02 and host defence: the production and fate of 02 in neutrophils. Photo-chemistry Photobiology, 28, 701–709.
   PubMed Web of Science ®Google Scholar
• WARDMAN, P., 1989, Reduction potentials of one-electron cou-ples involving free radicals in aqueous solution. Journal of Physical and Chemical Reference Data, 18, 1637–1755.
   Web of Science ®Google Scholar
• WEST, E. S., TODD, W. R., MASON, H. S., and VAN BRUGGEN, J. T., 1966, Textbook of Biochemistry, 4th edn (Macmilan: London), pp. 271.
   Google Scholar
• WINTERBOURNE, C. C., 1993, Superoxide as an intercellular radical sink. Free Radicals in Biology and Medicine, 14, 85–90.
   PubMed Web of Science ®Google Scholar