References
- Ashley P. L., Griffin B. W. Chloroperoxidase-catalyzed halogenation of antipyrene, a drug substrate of liver microsomal cytochrome P-450. Archives of Biochemistry and Biophysics 1981; 210: 167–178
- Betts J. J., Bray H. G., James S. P., Thorpe W. V. The metabolism of the trichlorobenzenes in the rabbit. Biochemical Journal 1957; 66: 610–621
- Betts J. J., James S. P., Thorpe W. V. The metabolism of pentachloronitrobenzene and 2:3:4:6-tetrachloronitrobenzene and the formation of mercapturic acids in the rabbit. Biochemical Journal 1955; 61: 611–617
- Bray H. G., James S. P., Thorpe W. V. The metabolism of the monochloronitrobenzenes in the rabbit. Biochemical Journal 1956; 64: 38–44
- Corbett M. D., Baden D. G., Chipko B. R. The nonmicrosomal production of N-(4-chlorophenyl)-glycolhydroxamic acid from 4-chloronitrosobenzene by rat liver homogenates. Bioorganic Chemistry 1979; 8: 227–235
- Corbett M. D., Cahoy J. E., Chipko B. R. Conversion of nitrosobenzene to N-phenylacetohydroxamic acid by yeast pyruvate decarboxylase. Journal of the National Cancer Institute 1975; 55: 1247–1248
- Corbett M. D., Chipko B. R. N-Phenylglycolhydroxamate production by the action of transketolase on nitrosobenzene. Biochemical Journal 1977; 165: 263–267
- Corbett M. D., Chipko B. R., Batchelor A. O. The action of chloride peroxidase on 4-chloroaniline: N-oxidation and ring halogenation. Biochemical Journal 1980; 187: 893–903
- Corbett M. D., Chipko B. R., Paul J. H. The production of hydroxamic acid metabolites of nitrosobenzene by Chlorella pyrenoidosa. Journal of Environmental Pathology and Toxicology 1978; 1: 259–266
- Corbett M. D., Corbett B. R. Metabolism of 4-chloronitrobenzene by the yeast Rhodosporidium sp. Applied and Environmental Microbiology 1981; 41: 942–949
- Grisham M. B., Jefferson M. M., Melton D. F., Thomas E. L. Chlorination of endogenous amines by isolated neutrophils. Ammonia-dependent bactericidal, cytotoxic, and cytolytic activities of the chloramines. Journal of Biological Chemistry 1984; 259: 10404–10413
- Hager L. P., Morris D. R., Brown F. S., Eberwein H. Chloroperoxidase: II. Utilization of halogen anions. Journal of Biological Chemistry 1966; 241: 1769–1777
- Harrison M. R. Toxic methaemoglobinaemia. A case of acute nitrobenzene and aniline poisoning treated by exchange transfusion. Anaesthesia 1977; 32: 270–272
- Hasegawa H., Sato M. Experimental study on p-chloronitrobenzene poisoning in rabbit. Journal of Biochemistry 1963; 54: 51–57
- Hernandez O., Bend J. R. Metabolism of epoxides. Metabolic Basis of Detoxication, W. B. Jakoby, J. R. Bend, J. Caldwell. Academic Press, New York 1982; 207–228
- Hodgson H. H., Kershaw A. The 3-halogeno-2-, -4-, and -6-aminophenols. Journal of the Chemical Society 1928; 2703–2705
- Hollenberg P. F., Rand-Meir T., Hager L. P. The reaction of chlorite with horseradish peroxidase and chloroperoxidase: enzymatic chlorination and spectral intermediates. Journal of Biological Chemistry 1974; 249: 5816–5825
- Hurst J. K., Albrich J. M., Green T. R., Rosen H., Klebanoff S. Myeloperoxidase-dependent fluorescein chlorination by stimulated neutrophils. Journal of Biological Chemistry 1984; 259: 4812–4821
- Ishizu S., Minami M., Yamamura K. Study on heinz bodies. Industrial Health 1973; 11: 95–104
- Itoh N., Izumi Y., Yamada H. Haloperoxidase-catalyzed halogenation of nitrogencontaining aromatic heterocycles represented by nucleic bases. Biochemistry 1987; 26: 282–289
- Jakoby W. B., Habig W. H. Glutathione transferases. Enzymatic Basis of Detoxication, W. B. Jakoby. Academic Press, New York 1980; Vol. 2: 63–94
- Lewalter J., Korallus U. Blood protein conjugates and acetylation of aromatic amines. New findings on biological monitoring. International Archives of Occupational and Environmental Health 1985; 56: 179–196
- Linch A. L. Biological monitoring for industrial exposure to cyanogenic aromatic nitro and amino compounds. American Industrial Hygiene Association Journal 1974; 35: 426–432
- Lower G. M. J., Bryan G. T. Enzymatic N-acetylation of carcinogenic aromatic amines by liver cytosol of species displaying different organ susceptibilities. Biochemical Pharmacology 1973; 22: 1581–1588
- Oettingen W. F. Poisoning. A Guide to Clinical Diagnosis and Treatment. Paul B. Hoeber, New York 1952; 306
- Rickert D. E. Metabolism of nitroaromatic compounds. Drug Metabolism Reviews 1987; 18: 23–53
- Rickert D. E., Held S. D. Metabolism of chloronitrobenzenes by isolated rat hepatocytes. Drug Metabolism and Disposition 1990; 18: 5–9
- Sayo H., Saito M. The mechanism of myeloperoxidase-catalysed oxidation of aminopyrine. Xenobiotica 1990; 20: 957–965
- Tabuchi T., Hara I., Minami M., Yamashiro H. Acute p-nitrochlorobenzene poisoning cases among stevedores at Osaka port. Proceedings of Osaka Prefectural Institute of Public Health Education of Industrial Health 1985; 23: 25–30
- Thomas J. A., Morris D. R., Hager L. P. Chloroperoxidase: VIII. Formation of peroxide and halide complexes and their relation to the mechanism of the halogenation reaction. Journal of Biological Chemistry 1970; 245: 3135–3142
- Uetrecht J. P., Zahid N. N-Chlorination of phenytoin by myeloperoxidase to a reactive metabolite. Chemical Research in Toxicology 1988; 1: 148–151
- Uetrecht J. P., Zahid N. N-Chlorination and oxidation of procainamide by myeloperoxidase: toxicological implications. Chemical Research in Toxicology 1991; 4: 218–222
- Williams R. T. Detoxication Mechanisms. The Metabolism and Detoxication of Drugs, Toxic Substances and Other Organic Compounds. Chapman & Hall, London 1959a; 205–206, 237–277
- Williams R. T. Detoxication Mechanisms. The Metabolism and Detoxication of Drugs, Toxic Substances and Other Organic Compounds. Chapman & Hall, London 1959b; 435–439
- Winterbourn C. C. Comparative reactivities of various biological compounds with myeloperoxidase-hydrogen peroxide-chloride, and similarity of the oxidant to hypochlorite. Biochimica et Biophysica Acta 1985; 840: 204–210
- Yamada H., Itoh N., Izumi Y. Chloroperoxidase-catalyzed halogenation of trans-cinnamic acid and its derivatives. Journal of Biological Chemistry 1985; 260: 11962–11969
- Yoshida T., Andoh K., Tabuchi T. Identification of urinary metabolites in rats treated with p-chloronitrobenzene. Archives of Toxicology 1991a; 65: 52–58
- Yoshida T., Andoh K., Tabuchi T., Sugimoto K. Synthesis of standard substances for identification of urinary metabolites in rats treated with p-chloronitrobenzene. p-Chloroformanilide, 2-chloro-5-nitrophenol, 2-amino-5-chlorophenol and 4-chloro-2-hydroxyacetanilide. Proceedings of Osaka Prefectural Institute of Public Health Education of Industrial Health 1988; 26: 49–57
- Yoshida T., Hirata M., Tabuchi T., Miyajima K. Identification of urinary metabolites in a patient of acute poisoning by p-chloroaniline. Japanese Journal of Industrial Health 1991b; 33: 501–508
- Yoshida T., Hirata M., Tabuchi T., Miyajima K. Excretion of p-chloroaniline metabolites into urine. Excretion of 2,4-dichloroaniline and p-chloroformanilide. Japanese Journal of Industrial Health 1992; 34: 3–9
- Yoshimura H. Dokuseigaku. Kodansha, Tokyo 1982; 33
- Zgliczy'Nski J. M., Stelmaszy'Nska T. Chlorinating ability of human phagocytosing leucocytes. European Journal of Biochemistry 1975; 56: 157–162