References
- Blough N. V., Zafiriou O. C. Reaction of super-oxide with nitric oxide to form peroxynitrite in alkaline aqueous solution. Inorganic Chemistry 1985; 24: 3502–3504
- Beckman J. S., Beckman T. W., Chen J., Marshall P. A., Freeman B. Apparent hydroxyl radical production by peroxynitrite: implications for endothelial injury from nitric oxide and superoxide. Proceedings of the National Academy of Science of the USA 1990; 87: 1620–1624
- Beckman J. S., Carson M., Smith C. D., Koppenol W. H. ALS, SOD and peroxynitrite. Nature 1993; 364: 584
- Hogg N., Darley-Usmar V. M., Graham A., Moncada S. Peroxynitrite and atherosclerosis. Biochemical Society Transactions 1993; 21: 358–362
- White C. R., Brock T. A., Chang L.-Y., Crapo J., Briscoe P., Ku D., Bradley W. A., Gianturco S. H., Gore J., Freeman B. A., Tarpey M. M. Superoxide and peroxynitrite in atherosclerosis. Proceedings of the National Academy of Science of the USA 1994; 91: 1044–1048
- Lipton S. A., Chol Y.-B., Pan Z.-H., Lei S. Z., Chen H.-S., Sucher N. J., Loscalzo J., Singel D. J., Stamler J. S. A redox-based mechanism for the neuroprotective and neurodestructive effects of nitric oxide and related nitroso-compounds. Nature 1993; 364: 626–631
- Olanow C. W. A radical hypothesis for neuro-degeneration. Trends in Neurological Science 1993; 11: 439–444
- Ischiropoulos H., Zhu L., Beckman J. S. Peroxynitrite formation from macrophage-derived nitric oxide. Archives of Biochemistry and Biophysics 1992; 288: 446–451
- Carreras M. C., Pargament G. A., Catz S. D., Poderoso J. J., Boveris A. Kinetics of nitric oxide and hydrogen peroxide production and formation of peroxynitrite. FEBS Letters 1994; 341: 65–68
- Pryor W. A., Stone K. Oxidants in cigarette smoke. Tobacco smoking and nutrition. Annals of the New York Academy of Science 1993; 686: 12–28
- Edwards J. O., Plumb R. C. The chemistry of peroxynitrites. Progress in Inorganic Chemistry 1994; 41: 599–6534
- Mahoney L. R. Evidence for the formation of hy-droxyl radicals in the isomerization of peroxynitrous acid to nitric acid in aqueous solution. Journal of the American Chemical Society 1970; 92: 5262–5263
- Ischiropoulos H., Zhu L., Chen J., Tsai M., Martin J. C., Smith C. D., Beckman J. S. Peroxynitrite-mediated tyrosine nitration catalyzed by superoxide dismutase. Archives of Biochemistry and Biophysics 1992; 298: 431–437
- Beckman J. S., Ischiropoulos H., Zhu L., van der Woerd M., Smith C., Chen J., Harrison J., Martin J. C., Tsai M. Kinetics of superoxide dismutase- and iron-catalyzed nitration of phenolics by peroxynitrite. Archives of Biochemistry and Biophysics 1992; 298: 438–445
- Moreno J. J., Pryor W. A. Inactivation of al-Proteinase inhibitor by peroxynitrite. Chemical Research in Toxicology 1992; 5: 425–431
- Radi R., Beckman J. S., Bush K. M., Freeman B. A. Peroxynitrite-induced membrane lipid peroxidation: the cytotoxic potential of superoxide and nitric. oxide. Archives of Biochemistry and Biophysics 1991; 288: 481–487
- Rubbo H., Radi R., Trujillo M., Kalyanaraman B., Barnes S., Kirk M., Freeman B. Nitric oxide regulation of superoxide and peroxynitrite-dependent lipid peroxidation. Formation of novel nitrogen-containing oxidized lipid derivatives. Journal of Biological Chemistry 1994; 29: 26066–26075
- King P. A., Anderson V., Edwards J. O., Gustafson G., Plumb R. C., Suggs J. W. A stable solid that generates hydroxyl radical upon dissolution in aqueous solutions: reaction with proteins and nucleic acids. Journal of the American Chemical Society 1992; 114: 5430–5432
- Salgo M. G., Stone K., Squadrito G. L., Battista J. R., Pryor W. A. Peroxynitrite causes DNA nicks in plasmid pBR322. Biochemical and Biophysical Research Communications 1995; 210: 1025–1030
- de Rojas-Walker T., Tamir S., Ji H., Wishnok J. S., Tannenbaum S. R. Nitric oxide induces oxidative damage in addition to deamination in macrophage DNA. Chemical Research in Toxicology 1995; 8: 473–477
- Lin T.-S., Cheng J.-C., Ishiguro K., Sartorelli A. C. 8-Substituted guanosine and 2′-deoxyguanosine derivatives as potential inducers of the differentiation of Friend erythroleukemia cells. Journal of Medical Chemistry 1985; 28: 1194–1198
- Ravanat J.-L., Cadet J. Reaction of singlet oxygen with 2′-deoxyguanosine and DNA. Isolation and characterization of the main oxidation products. Chemical Research in Toxicology 1995; 8: 379–388
- Hughes B. N., Nicklin H. G. The chemistry of pemitrites. Part I. Kinetics of decomposition of pernitrous acid. Journal of the Chemical Society (A 1968; 450–452
- Kasai H., Nishimura S. Hydroxylation of deoxyguanosine at the C-8 position by ascorbic acid and other reducing agents. Nucleic Acids Research 1984; 12: 2137–2145
- Dizdaroglu M. Formation of an 8-hydroxyguanine moiety in deoxyribonucleic acid on γ-irradiation in aqueous solution. Biochemistry 1985; 24: 4476–4481
- Ravanat J.-L., Berger M., Benard F., Langlois R., Ouellet R., van Lier J.E., Cadet J. Phthalocyanine and naphthalocyanine photosensitized oxidation of 2′-deoxyguanosine: distinct type I and type II products. Photochemistry and Photobiology 1992; 55: 809–814
- Cadet J., Berger M., Buchko G. W., Joshi P. C., Raoul S., Ravanat J.-L. 2,2-Diamino-4–[(3,5-di-O-acetyl-2-deoxy-β-D-erythro-pento-furanosyl)amino]-5–(2H)-oxazolone: a novel and predominant radical oxidation product of 3′-5′-di-O-acetyl-2′-deoxyguanosine. Journal of the American Chemical Society 1994; 116: 7403–7404
- Cadet J., Berger M. Radiation-induced decomposition of the purine bases within DNA and related model compounds. International Journal of Radiation Biology 1985; 47: 127–143
- Floyd R. A., Watson J. J., Wong P. K., Altmiller D. H., Rickard R. C. Hydroxyl free radical adduct of deoxyguanosine: sensitive detection and mechanism of formation. Free Radical Research Communications 1986; 1: 163–172
- Berger M., Anselmino C., Mouret J.-F., Cadet J. High performance liquid chromatography-electro-chemical assay for monitoring the formation of 8-oxo-7,8-dihydroadenine and its related 2′-deoxynucleoside. Journal of Liquid Chromatography 1990; 13: 929–940
- Cadet J., Ravanat J.-L., Buchko G. W., Yeo H. C., Ames B. N. Singlet oxygen DNA damage: chromatographic and mass spectrometry of damage products. Methods in Enzymology 1994; 234: 79–88
- Feldberg R. S., Carew J. A. Water radiolysis prod-ucts and nucleotide damage in γ-irradiated DNA. International Journal of Radiation Biology 1981; 40: 11–17
- Yang G., Candy T. E.G., Boaro M., Wikin H. E., Jones P., Nazhat N. B., Saadalla-Nazhat R. A., Blake D. R. Free radical yields from homolysis of peroxynitrous acid. Free Radical in Biology and Medecine 1992; 12: 327–330
- Augusto O., Gatti R. M., Radi R. Spin-trapping studies of peroxynitrite decomposition and of 3-morpholinosydnonimine N-ethylcarbamide autooxida-tion: direct evidence for metal-independent formation of free radical intermediates. Archives of Biochemistry and Biophysics 1994; 310: 118–125
- Mascio P. Di, Bechara E. J.H., Medeiros M. H.G., Briviba K., Sies H. Singlet molecular oxygen production in the reaction of peroxynitrite with hydrogen peroxide. FEBS. Letters 1994; 355: 287–289
- Cadet J., Decarroz C., Wang S. Y., Midden W. R. Mechanism and production of photosensitized degradation of nucleic acids and related model compounds. Israel Journal of chernisty 1983; 23: 420–429
- Cadet J., Berger M., Decarroz C., Wagner J. R., van Lier J.E., Ginot Y. M., Vigny P. Photosensitized reactions of nucleic acids. Biochimie 1986; 68: 813–834
- Pou S., Nguyen S. Y., Gladwell T., Rosen G. M. Does peroxynitrite generate hydroxyl radical?. Biochimica et Biophysica Acta 1995; 1244: 62–68
- Koppenol W. H., Moreno J. J., Pryor W. A., Ischiropoulos H., Beckman J. S. Peroxynitrite, a cloaked oxidant formed by nitric oxide and superoxide. Chemical Research in Toxicology 1992; 5: 834–842
- Crow J. P., Spruell C., Chen J., Gum C., Ischiropoulos H., Tsai M., Smith C. D., Radi R., Koppenol W., Beckman J. S. On the pH-dependent yield of hydroxyl radical products from peroxynitrite. Free Radical in Biology and Medecine 1994; 16: 331–338
- Tsai J.-H. M., Harrison J. G., Martin J. C., Hamilton T. P., van der Woerd M., Lablonsky M. J., Beckman J. S. Role of conformation of peroxynitrite anion (ONOO-) in its stability and toxicity. Journal of the American Chemical Society 1994; 116: 4115–4116
- Pryor W. A., Jin X., Squadrito G. L. One- and two-electron oxidations of methionine by peroxynitrite. Proceedings of the National Academy of Science of the USA 1994; 91: 11173–11177
- Kasai H., Yamaizumi Z., Berger M., Cadet J. Photosensitized formation of 7,8-dihydro-8-oxo-2′-deoxyguanosine (8-hydroxy-2′-deoxy guanosine) in DN A by riboflavin: a non singlet oxygen mediated reaction. Journal of the American Chemical Society 1992; 114: 9692–9694
- Isomura K., Chikahira M., Teranishi K., Hamada K. Induction of mutations and chromosome aberrations in lung cells following in vivo exposure of rats to nitrogen oxides. Mutation Research 1984; 136: 119–125
- Stamler J. S., Singel D. J., Loscalzo J. Biochemistry of nitric oxide and its redox-activated forms. Science 1992; 258: 1898–1902
- Lewis R. S., Tannenbaum S. R., William M. D. Kinetics of N-nitrosation in oxygenated nitric oxide solutions at physiological pH: role of nitrous anhydride and effects of phosphate and chloride. Journal of the American Chemical Society 1995; 117: 3933–3939
- Brunelli L., Crow J. P., Beckman J. S. The comparative toxicity of nitric oxide and peroxynitrite to. Escherichia coli. Archives of Biochemisty and Biophysics 1995; 316: 327–334