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International Journal of Radiation Biology Volume 69, 1996 - Issue 1
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Research Article

Oxidation reactions of a bovine serum albumin-bilirubin complex. A pulse radiolysis study

S. ADHIKARI Chemistry Division, Bhabha Atomic Research Centre, Bombay-400 085, India
&
C. GOPINATHAN Chemistry Division, Bhabha Atomic Research Centre, Bombay-400 085, India
Pages 89-98 | Published online: 03 Jul 2009

References

  • ADAMS, G. E., ALDRICH, J. E., BIBSY, R. H., CUNDALL, R. B., REDPATH, J. L. and WILLSON, R. L., 1972, Selective free radical reactions with proteins and enzymes: reactions of inorganic radical anions with aminoacids. Radiation Research, 49, 278–289.
  • ADAMS, G. E., BOAG, J., GUARANI, J. and MICHAEL, B. D., 1965, The pulse radiolysis of aqueous solution of thiocyanate ion. In: Pulse Radiolysis. Edited by: M. Ebert, J. P. Keene, A. J. Swallow and J. H. Baxendale (Academic, London), pp. 117–129.
  • ADHIKARI, S., GUHA, S. N., BALAN, T. P. and GOPINATHAN, C. 1994a, Reaction of hydrated electrons with bilirubin in CTAB micellar medium. Radiation Physics Chemistry, 43, 503–507.
  • ADHIKARI, S., GUHA, S. N. and GOPINATHAN, C., 1994b, Micellar catalysed redox reactions of bilirubin in CTAB medium. International Journal of Chemical Kinetics, 26, 903–912.
  • BANSAL, K. M. and FESSENDEN, R. W., 1976, Pulse radiolysis study of the oxidation of phenols by SO4 and Br2 in aqueous solutions. Radiation Research, 67, 1–8.
  • BARBER, D. J. W. and RICHARDS, J. T., 1977 Pulse radiolysis of bilirubin in aqueous solution. Radiation Research, 72, 60–70.
  • BENSASSON, R., LAND, E. J. and TRUSCOTT, T. G., 1983, Tetra-pyrrolic pigments. In: Flashphotolysis and Pulse Radiolysis (Pergamon, New York), pp. 20–66.
  • BERDE, C. B., HUDSON, S., SIMONI, R. D. and SKLAR, L. A., 1979, Human serum albumin: Spectroscopic studies of bind-ing and proximity relationships for fatty acids and bilirubin. Journal of Biological Chemistry, 254, 391–400.
  • BLAUER, G. and KING, T. E., 1970, Interaction of bilirubin with bovine serum albumin in aqueous solution. Journal of Biological Chemistry, 245, 372–381.
  • BOBROWSKI, K. and HOLCMAN, J., 1989, Formation and stability of intramolecular three electron 5:. N, 5:, S, and 5:, 0 bonds in one electron-oxidized simple methionine peptides. Pulse radiolysis study. Journal of Physical Chemistry, 93, 6381–6387.
  • BOBROWSKI, K., SCH6ENEICH, C., HOLCMAN, J. and Asmus, K. D., 1991, 'OH radical induced decarboxylation of methio-nine-containing peptides. Influence of peptide sequence and net charge. Journal of Chemical Society, Perkin Transactions, II, 353–362.
  • BOBROWSKI, K., WIERZCHOWSKI, K. L., HOLCMAN, J. and CIURAK, M., 1990, Intramolecular electron transfer in peptides containing methionionine, tryptophan and tyrosine: a pulse radiolysis study. International Journal of Radiation Biology, 57, 919–932.
  • BRAULT, D. and NETA, P., 1984, Reactions of Iron (III) por-phyrins with peroxyl radicals derived from halothane and halomethanes. Journal of Physical Chemistry, 88, 2857–2862.
  • BUTLER, J., LAND, E. J., PROTZ, W. A. and SWALLOW, A. J., 1982, Charge transfer between tryptophan and tyrosine in proteins. Biochemica et Biophysica Acta, 705, 150–162.
  • BUXTON, G. V., GREENSTOCK, C. L., HELMAN, W. P. and Ross, A. B., 1988, Rate constants for reactions of eaq, H and OH with macromolecules and other molecules in hetero-geneous system. Journal of Physical Chemistry Reference Data, 17, 769–780.
  • COOPER, R., CummING, J. B., GORDON, S. and MULAC, W. A., 1980, The reactions of the halomethyl radicals CC13 and CF3 with oxygen. Radiation Physics Chemistry, 16, 169–174.
  • EADSFORTH, C. V., POWER, D. M., THOMAS, E. W. and DAviEs, J. V., 1976, Investigation of the interaction of alkyl sulphates with serum albumin using the thiocyanate radical ion (SCN); . International Journal of Radiation Biology, 30, 449–457.
  • ELLIOTT, A., MCEACHERN, R. J. and ARMSTRONG, R. J., 1981, Oxidation of amino-containing disulfides by Br; and OH . A pulse radiolysis study. Journal of Physical Chemistry, 85, 68–75.
  • FIELDEN, E. M., 1982, Chemical dosimetry of pulsed electron and X-ray sources in the 1–20 MeV range. In: The Study of Fast Processes and Transient Species by Electron Pulse Radiolysis. Edited by: J. H. Baxendale and F. Busi (Riedell, Dordrecht), pp. 49–62.
  • GREENE, B. I., LAMOLA, A. A. and SHANK, C. V., 1981, Picosecond primary photoprocesses of bilirubin bound to human serum albumin. Proceedings of the National Academy of Sciences, USA, 78, 2008–2012.
  • GUHA, S. N., MOORTHY, P. N., KISHORE, K., NAIK, D. B. and RAO, K. N., 1987, One-electron reduction of thionine stu-died by pulse radiolysis. Proceedings of Indian Academy of Sciences (Chemical Science), 99, 261–271.
  • HAYON, E. and Simic, M., 1970, Absorption spectra and kinetics of the intermediated produced from the decay of the azide radicals. Journal of the American Chemical Society, 92, 7486–7487.
  • HUIE, R. E. and NETA, P., 1986, Rate constants for one electron oxidation by methyl peroxyl radicals in aqueous solutions. International Journal of Chemical Kinetics, 18, 1185–1191.
  • JACOBSEN, C., 1978, Lysine residue 240 of human serum albumin is involved in high-afinity binding of bilirubin. Biochemistry Journal, 171, 453–459.
  • JACOBSEN, C. and JACOBSEN, J., 1979, Dansylation of human serum albumin in the study of the primary binding sites of bilirubin and L-tryp to phan. Biochemistry Journal, 181, 251–253.
  • KOPOOR, S. and GOPINATHAN, C., 1993, Evidence for possible positive hole transport in the biological protein bovine serum albumin. Journal of Radioanalytical and Nuclear Chemistry Articles, 171, 443–450.
  • LAL, M., SCHONEICH, C., MONIG, J. and Asmus, K. D., 1988, Rate constants for the reactions of halogenated organic radicals. International Journal of Radiation Biology, 54, 773–785.
  • LAND, E. J. and PROTZ, W. A., 1977, Fast one-electron oxidation of tryptophan by azide radicals. International Journal of Radiation Biology, 32, 203–207.
  • LAND, E. J. and PROTZ, W. A., 1979, Reaction of azide radicals with amino acids and proteins. International Journal of Radiation Biology, 36, 75–83.
  • LAND, E. J., SLOPER, R. W. And TRUSCOTT, T. G., 1983, The radical ions photoionization of bile pigments. Radia-tion Research, 96, 450–461.
  • MOHAN, H. and HOPINATHAN, C., 1990a, Oxidation reactions of bilirubin in aqueous solutions. Radiation Physics Chemistry, 36, 399–401.
  • MOHAN, H. and HOPINATHAN, C., 1990b, Oxidation reactions of bilirubin by peroxyl radicals in aqueous solutions. Radiation Physics Chemistry, 36, 801–804.
  • MôNiu, J., GOBL, M. and Asmus, K. D., 1985, Free radical one-electron versus hydroxyl radical-induced oxidation. Reaction of trichloromethyl peroxyl radicals with simple and substituted aliphatic sulphides in aqueous solution. Journal of the Chemical Society, Perkin Transactions, II, 647–651.
  • PACKER, J. E., SLATER, F. T. and WILLSON, R. L., 1978, Reactions of the carbon tetrachloride related peroxy free radical (CC1302) with amino acids: Pulse radiolysis evidence. Life Science, 23, 2617–1620.
  • PACKER, J. E., WILLSON, R. L., BAHNEMANN, D. and Asmus, K. D., 1980, Electron transfer reactions of halogenated per-oxyl radicals: measurements of absolute rate constants by pulse radiolysis. Journal of the Chemical Society, Perkin Transactions, II, 296–299.
  • PROTz, W. A., BUTLER, J., LAND, E. J. and SWALLOW, A. J., 1980, Direct demonstration of electron transfer between tryptophan and tyrosine in proteins. Biochemistry and Biophysics Research Communications, 96, 408–414.
  • PROTZ, W. A. and LAND, E. J., 1979, Charge transfer in peptides. Pulse radiolysis investigation of one electron reactions in dipeptides of tryptophan and tyrosine. International Journal of Radiation Biology, 36, 513–520.
  • PROTz, W. A, LAND, E. J. and SLOPER, R. W., 1981, Charge transfer in peptides. Effect of temperature, peptide length and solvent conditions upon intramolecular one electron reactions involving tryptophan and tryrosine. Journal of the Chemical Society, Faraday Transactions, I, 77, 281–292.
  • SCHUESSLER, H. and HARTMANN, H., 1987, The effect of a protein on the radiolysis of DNA studied by HPLC and pulse radiolysis. International Journal of Radiation Biology, 52, 269–279.
  • SCHUESSLER, H. and JUNG, H., 1989, Protein-DNA crosslinks introduced by primary and secondary radicals. Inter-national Journal of Radiation Biology, 56, 423–435.
  • SCHUESSLER, H. and DAVIES, J. V., 1983, Radiation induced reduction reactions with bovine serum albumin. Inter-national Journal of Radiation Biology, 43, 291–301.
  • SOLAR, S., SOLAR, W. and HETOFF, N., 1984, Reactivity of tyrosine in aqueous solution studied by pulse radiolysis. Journal of Physical Chemistry, 88, 2091–2095.

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