References
- “Oxidases and Related Redox Systems”, T. E. King, H. S. Mason, M. Morrison, 1973, University Press, Baltimore, MD.
- Dolphin D. Cytochrome P150:substrate and prosthetic-group free radicals generated during enzymatic cycle. Phil. Trans. Royal Soc. London, Series B. 1986; 311: 579
- Penner-Hahn J. E., Eble K. S., McMurry T. J., Renner M., Balch A. L., Groves J. T., Dawson J. H., Hodgson K. O. Structural Characterization of Horseradish Peroxidase Using EXAFS Spcctro-xopy. Evidence for Fe =O Ligation in Compounds I and II. J. Am. Chem. Soc. 1986; 108: 7819
- Whitburn K. D. The Interaction of Oxymyoglobin with Hydrogen Peroxide: The Formation of Ferrylmyoglobin at Moderate Excesses of Hydrogen Peroxide. Arch. Biochem. Biophys. 1987; 253: 419
- Balasubramanian P. N., Bruice T. C. Oxygen Transfer Involving Nan-Heme Iron. The Reaction of (EDTA)Fe111 with m-Chloroperbenzoic Acid. J. Am. Chem. Soc. 1986; 108: 5495
- Chelating Agents in Oxidation Reduction Reactions. Literature Code G-1 Organic Chemical Division. W. R. Grace & Co. Lexington, Mass. USA
- Audette R. J., Quail J. W., Smith P. J. Fcrrate(VI) Ion. A Novel Oxidizing Agent. J. Chem. Soc., Chem. Commun. 1972; 38
- Groves J. T., Van Der Puy M. Stereospecific Aliphatic Hydroxylation by an Iron-Based Oxidant. J. Am. Chem. Soc. 1974; 96: 5274
- Bartzatt R., Tabatabai A., Carr J. Kinetics of Oxidation of Low Molecular Weight Alcohols by Potassium Ferrate. J. Synth. Reuct. Inure. Met.-Org. Chem. 1985; 15: 1171
- Sugimoto H., Sawyer D. T. Iron(II)-Induced Activation of Hydrogen Peroxide to Ferryl Ion (FeO2+) and Singlet Oxygen (lO2) in Acetonitrile: Monooxygenations, Dehydrogenations and Dioxygenations of Organic Substrates. J. Am. Chem. Soc. 1984; 106: 4283
- Aust S. D., Morehouse L. A., Thomas C. E. Role of Metals in Oxygen Radical Reactions. J. Free Radicals Biol. Med. 1985; 1: 3
- Levanson W., McAuliffe C. A. “Higher Oxidation State Chemistry of Iron, Cobalt, and Nickel” in. Coordination Chem. Rev. 1974; 12: 151, and references therein.
- Conocchioli T. J., Hamilton E. J., Jr., Sutin N. The Formation of Iron (IV) in the Oxidation of Iron (II). J. Am. Chem. Soc. 1965; 87: 926
- Borg D. C., Schaich K. M. Cytotoxicity from Coupled Redox cycling of Autoxidizing Xenobiotics and Metals. Israel J. Chem. 1984; 24: 38
- Koppenol W. H., Liebman J. F. The Oxidizing Nature of the Hydroxyl Radical: A Comparison with the Ferryl Ion (FeO2+). J. Phys. Chem. 1984; 88: 99
- Sutton H. C., Vile G. F., Winterbourn C. C. Radical Driven Fenton Reactions -Evidence from Parquet Radical Studies for Production of tetravalent Iron in the Presence and Absence of Ethylenediaminetetraacetic Acid. Arch. Biochem. Biophys. 1987; 256: 462
- Rahhal S., Richter H. W. Reaction of Hydrogen Peroxide with Low Molecular Weight Iron Complexes. Radial. Phys. Chem. 1988; 32: 135
- Cohen G., Sinet P. M. The Fenton Reaction Between Ferrous-Diethylene triamincpen-taacetic Acid and Hydrogen Peroxide. FEES Lett. 1982; 138: 258
- Bull C., Fee J. A. Steady-State Kinetic Studies of Superoxide Dismutases: Properties of the Iron Containing Protein from. Escherichia Coli. J. Am. Chem. Soc. 1985; 107: 3295
- Halliwell B., Guttridge J. M. C. The Importance of Free Radicals and Catalytic Metal Ions in Human Diseases. Molec. Aspects Med. 1985; 8: 89
- Czapski G., Aronovitch J., Samuni A., Chevion M. The Sensitization of the Toxicity of Superoxide and Vitamin C by Copper and Iron: A Site Specific Mechanism. Oxy Radicals and Their Scavenger Systems, G. Cohen, R. A. Greenwald. Elsevier Science Publ. Co. Inc., New York 1983; Vol I: 111
- Goldstein S., Czapski G. The Role and Mechanism of Metal Ions and Their Complexes in Enhancing Damage in Biological Systems or in Protecting These Systems from the Toxicity of O2-. J. Free Radicals Biol. Med. 1986; 2: 3
- Thompson G. W., Oekerman L. T., Schreyer J. M. Preparation and Purification of Potassium Ferrate. VI. J. Am. Chem. Soc. 1951; 73: 1379
- Goff H., Murmann R. K. Studies on the Mechanism of Isotopic Oxygen Exchange and Reduction of Ferrate(VI) Ion (FeO24-). J. Am. Chem. Soc. 1971; 93: 6058, and references therein.
- Bielski B. H. J., Thomas M. J. Studies of Hyperrealist Iron in Aqueous Solutions. I. Radiation-Induced Reduction of Iron(VI) to Iron(V) by CO−2. J. Am. Chem. Soc. 1987; 109: 7761
- Rush J. D., Bielski B. H. J. The Kinetics of Ferrate(V) Decay in Aqueous Solution. A Pulse Radiolysis Study. Inorg. Chem. 1989; 28: 3947
- Carr J. D., Kelter P. B., Tabatabai A., Splichal D., Erickson J., McLaughlin C. W. “Properties of Ferrate(VI) in Aqueous Solution: An Alternate Oxidant in Wastewater Treatment” in. Water Chlorination Chemistry. Environmental Impact and Health Effects 1985; 5: 1285
- Ernst T., Wawrzenczyk M., Cyfert M., Wronska M. Efiect of pH on the Kinetics of Ferrate(VI) Decomposition. Bull. Acad. Pol. Sci. Ser. Sci. Chim. 1979; 27: 773
- Wood R. H. The Heat, Free Energy and Entropy of Ferrate(VI) Ion. J. Am. Chem. Soc. 1958; 80: 2038
- Rush J. D., Bielski B. H. J. Pulse Radiolysis Studies of Alkaline Fe (III) and Fe (VI) Solutions. Observation of Transient Iron Complexes with Intermediate Oxidation States. J. Am. Chem. Soc. 1986; 108: 523
- Melton J. D., Bielski B. H. J. (in press) Studies of the Kinetic, Spectral and Chemical Properties of Fe(IV) Pyrophosphate by Pulse Radiolysis. Radial. Phys. Chem.
- Cyr J. E., Bielski B. H. J., (unpublished results) The Reduction of Ferrate(VI) to Ferrate(V) by Ascorbate.