References
- Fridovich. Superoxide dismutases. An adaptation to a paramagnetic gas. Journal of Biological Chemistry. 1989; 264: 7761–7764
- McCord J. M. Superoxide dismutase: rationale for use in reperfusion injury and inflammation. Free Radical Biology & Medicine. 1986; 2: 307–310
- Koppenol W. H., Lcvine F., Hatmaker T. L., Epp I., Rush J. D. Catalysis of superoxide dismutation by manganese aminopolycarboxylate complexes. Archives of Biochemistry and Biophysics. 1986; 251: 594–599
- Darr D., Zarilla K. A., Fridovich I. A mimic of superoxide dismutase activity based upon desferrioxamine B and manganese(IV). Archives of Biochemistry and Biophysics. 1987; 258: 351–355
- Beyer W. F., Fridovich I. Characterization of a superoxide dismutase mimic prepared from desferrioxamine and MnO2. Archives of Biochemistry and Biophysics. 1989; 271: 149–156
- Darr D. J., Yanni S., Pinnell S. R. Protection of Chinese hamster ovary cells from paraquat-mediated cytotoxicity by a low molecular weight mimic of superoxide dismutase (DF-Mn). Free Rodicol Biology & Medicine. 1988; 4: 357–363
- Lengfelder E., Fuchs C., Younes M., Weser W. Functional aspects of the superoxide dismutative action of Cu-penicillamine. Biochimica Biopliysica Acta. 1979; 567: 492–502
- Rabinovitch H. D., Rosen G. M., Fridovich I. A mimic of superoxide dismutase activity protects Chlorclla sorokiniana against the toxicity of sulfite. Free Radical Biology &. Medicine. 1989; 6: 45–48
- Berliner L. J. Spin Labeling I: Theory and Applications. Academic Press, NY 1976
- Swartz H. M. Interactions between cells and nitroxides and their implications for their uses as biophysical probes and as metabolically responsive contrast agents for in vivo NMR. Bulletin of Magnetic Resonance. 1986; 8: 172–175
- Samuni A., Krishna C. M., Riesz P., Finkelstein E., Russo A. Nitroxide spin label: A novel metal-free low molecular weight superoxide dismutase mimic. The Jounral of Biological Chemistry. 1988; 263: 17921–17924
- Rauckman E. J., Rosen G. M., Kitchell B. B. Superoxide radical as an intermediate in the oxidation of hydroxylamines by mixed function amine oxidase. Molerular Pharmacology 1979; 15: 131–137
- Nilsson U. A., Olsson L-I., Carlin G., Bylund-Fellenius A-C. Inhibition of lipid peroxidation by spin labels. Relationships between structure and function. Journal of Biological Chemistry. 1989; 264: 11131–11135
- Samuni A., Krishna C. M., Mitchell J. B., Collins C. R., Russo A. Superoxide reaction with nitroxides. Free Radical Research Communication. 1989, (in press).
- Fridovich I. Cytochrome c. In Handbook of Methods for Oxygen Radical Research, R. A. Green-wald. CRC Press, Roca BatonFlorida 1985; 213–215
- Masaki N., Kyle M. E., Farber J. L. Tert-butyl hydroperoxide kills cultured hepatocytes by peroxidizing membrane lipids. Archives of Biochemistry. and Biophysics. 1989; 269: 390–399
- Ochi T., Miyaura S. Cytotoxicity of an organic hydroperoxide and cellular antioxidant defense system against hydroperoxides in cultured mammalian cells. Toxicology. 1989; 55: 69–82
- Taher M. M., Lajshmaiah N. Studies on hydroperoxide-dependent folic acid degradation by hemin. Archives Biochemistry Biophysics. 1989; 257: 100–106
- Goldstein S., Czapski G. Mechanisms of the reactions of some copper complexes in the presence of DNA with O−2, H2O2 and molecular oxygen. Journal of theAmerican Chemical Society. 1986; 108: 224–2250
- Rush J. D., Koppenol W. H. Oxidizing intermediates in the reaction of ferrous EDTA with hydrogen peroxide. Reactions with organic molecules and ferricytochrome c. Journal of Biological Chemistry. 1986; 261: 6730–6733
- Chateauneuf I., Lusztyk J., Lngold K. U. Absolute rate constants for the reactions of some carbon-centcrcd radicals with 2,2,6,6-tetramethylpiperidinc-N-oxyl. Jounial of Orgunic Chcmistry. 1988; 53: 1629–1632