References
- Halliwell B., Gutteridge J. M.C. Free Radicals in Biology and Medicine. Clarendon Press, Oxford 1985
- O'Brien P. J. Intracellular mechanisms for the decomposition of a lipid peroxide. 1. Decomposition of a lipid peroxide by metal ions, heme compounds and nucleophiles. Canadian Journal of Biochemistry 1969; 47: 485–492
- Biemond P., van Eijk J. G., Swaak A. J.G., Koster J. F. Iron mobilization from ferritin by superoxide derived from stimulated polymorphonuclear leukocytes. Possible mechanism in inflammation diseases. Journal of Clinical Investigation 1984; 73: 1576–1579
- Gutteridge J. M.C. Iron promoters of the Fenton reaction and lipid peroxidation can be released from haemoglobin by peroxides. FEBS Letters 1986; 210: 291–295
- O'Connell M., Halliwell B., Moorhouse C. P., Aruoma O. I., Baum H., Peters T. J. Formation of hydroxyl radicals in the presence of ferritin and haemosiderin. Biochemical Journal 1986; 234: 727–731
- Aruoma O. I., Halliwell B. Superoxide-dependent and ascorbate-dependent formation of hydroxyl radicals from hydrogen peroxide in the presence of iron. Biochemical Journal 1987; 241: 273–278
- Davies M. J. Detection of peroxyl and alkoxyl radicals produced by reaction of hydroperoxides with heme-proteins by electron spin resonance spectroscopy. Biochimica et Biophysica Acta 1988; 964: 28–35
- Harel S., Kanner J. The generation of ferryl or hydroxyl radicals during interaction of haemproteins with hydrogen peroxide. Free Radical Research Communications 1988; 5: 21–33
- Puppo A., Halliwell B. Formation of hydroxyl radical in biological systems. Does myoglobin stimulate hydroxyl radical formation from hydrogen peroxide?. Free Radical Research Communications 1988; 4: 415–422
- Harel S., Salan M. A., Kanner J. Iron release from metmyoglobin, methaemoglobin and cytochrome c by a system generating hydrogen peroxide. Free Radical Research Communications 1988; 5: 11–19
- Davies M. J. Direct direction of peroxyl radicals formed in the reactions of metmyoglobin and methaemoglobin with t-butyl hydroperoxide. Free Radical Research Communications 1989; 7: 27–32
- Chance M., Powers L., Kumar C., Chance B. X-ray absorption studies of myoglobin peroxide reveal functional differences between globins and heme enzymes. Biochemistry 1986; 25: 1259–1265
- Yonetani T., Schleyer H. Studies on Cytochrome c Peroxidase. IX. The reaction of ferrimyoglobin with hydroperoxides and a comparison of peroxide-induced compounds of ferrimyoglobin and cytochrome c peroxidase. Journal of Biological Chemistry 1967; 242: 1974–1979
- Balasubramanian P. N., Lindsay Smith J. R., Davies M. J., Kaaret T. W., Bruice T. C. Dynamics of reaction of (meso-tetrakis(2,6-dimethyl-3-sulfonatophenyl)porphinato)-iron (III) hydrate with tert-butyl hydroperoxide in aqueous solution. 2. Establishment of a mechanism that involves homolytic O-O bond breaking and one-electron oxidation of the iron (III) porphyrin. Journal of the American Chemical Society 1989; 111: 1477–1483
- Schlafer M., Myers C. L., Adkins S. Mitochondrial hydrogen peroxide generation and activities of glutathione peroxidase and superoxide dismutase following global ischaemia. Journal of Molecular and Cellular Cardiology 1987; 19: 1195–1206
- Buettner G. R., Oberley L. W. Considerations in the spin trapping of superoxide and hydroxyl radical in aqueous systems using 5,5-dimethylpyrroline-1-oxide. Biochemical and Biophysical Research Communications 1978; 83: 69–74
- Saltzman H., Sharefkin J. G. Iodosobenzene. Organic Syntheses 1963; 43: 60–61
- Jones P., Middlemiss D. N. Formation of Compound I by the reaction of Catalase with Peroxacetic acid. Biochemical Journal 1972; 130: 411–415
- Davies M. J., Forni L. G., Willson R. L. Vitamin E analogue Trolox C. E.s.r. and pulse radiolysis studies of free-radical reactions. Biochemical Journal 1988; 255: 513–522
- Davies M. J., Donker R., Dunster C. A., Gee C. A., Jonas S., Willson R. L. Desferrioxamine (Desferal) and superoxide free radicals. Formation of an enzyme-damaging nitroxide. Biochemical Journal 1987; 246: 725–729
- Keilin D., Hartree E. F. Reaction of methaemoglobin with hydrogen peroxide. Nature 1950; 166: 513–514
- Whitburn K. D. The interaction of oxymyoglobin with hydrogen peroxide: the formation of ferrylmyoglobin at moderate excesses of hydrogen peroxide. Archives of Biochemistry and Biophysics 1987; 253: 419–430
- Rice-Evans C., Okunade G., Khan R. The suppression of iron release from activated myoglobin by physiological electron donors and desferrioxamine. Free Radical Research Communications 1989; 7: 45–54
- Harbour J. R., Bolton J. R. Superoxide formation in spinach chloroplasts: electron spin resonance detection by spin trapping. Biochemical and Biophysical Research Communications 1975; 64: 803–807
- Maples K. R., Jordan S. J., Mason R. P. In vivo rat haemoglobin thiyl free radical formation following phenylhydrazine administration. Molecular Pharmacology. 1988; 33: 344–350
- Dautrevaux M., Boulanger Y., Han K., Bisterte G. Structure covalente de la myoglobine de cheval. European Journal of Biochemistry 1969; 11: 267–277
- Buettner G. R. Spin trapping: e.s.r. parameters of spin adducts. Free Radicals in Biology and Medicine 1987; 3: 259–303
- Adams G. E., Bisby R. H., Cundall R. B., Redpath J. L., Willson R. L. Selective free radical reactions with proteins and enzymes: the inactivation of ribonuclease. Radiation Research 1972; 49: 290–299
- King N. K., Looney F. D., Winfield M. E. Amino acid free radicals in oxidised metmyog-lobin. Biochimica et Biophysica Acta 1967; 133: 65–82
- Miki H., Harada K., Yamazaki I., Tamura M., Watanabe H. Electron spin resonance spectrum of Tyr-151 free radical formed in reactions of sperm whale metmyoglobin with ethyl hydroperoxide and potassium irridate. Archives of Biochemistry and Biophysics 1989; 275: 354–362
- Ehrenberg A., Reichard P. Electron Spin Resonance of the iron-containing Protein B2 from ribonucleotide reductase. Journal of Biological Chemistry 1972; 247: 3485–3488
- Barry B. A., Babcock G. T. Tyrosine radicals are involved in the photosynthetic oxygen-evolving system. Proceedings of the National Academy of Science USA 1987; 84: 7099–7103
- Kulmacz R. J., Tsai A.-L., Palmer G. Heme Spin states and peroxide-induced radical species in Prostaglandin H Synthase. Journal of Biological Chemistry 1987; 262: 10524–10531
- Ortiz de Montellano P. R., Catalano C. E. Epoxidation of styrene by haemoglobin and myoglobin. Transfer of oxidising equivalents to the protein surface. Journal of Biological Chemistry 1985; 260: 9265–9271
- Ortiz de Montellano P. R. Control of the catalytic activity of prosthetic heme by the structure of hemoproteins. Accounts of Chemical Research 1987; 20: 289–294
- Shiga T., Imaizumi K. Electron spin resonance study on peroxidase- and oxidase-reactions of horse radish peroxidase and methemoglobin. Archives of Biochemistry and Biophysics 1975; 167: 469–479
- Kanner J., Harel S. Lipid peroxidation and oxidation of several compounds by H2O2 activated metmyoglobin. Lipids 1985; 20: 625–628
- Grisham M. B. Myoglobin-catalysed hydrogen peroxide dependent arachidonic acid peroxidation. Journal of Free Radicals in Biology and Medicine 1985; 1: 227–232