References
- Box H.C., Potter W.R., Budzinski E.E. The reduction of nucleotides by ionizing radiation: uridine 5′ phosphate and cytidine 3′ phosphate. Journal of Chemical Physics 1975; 62: 3476–3478
- Hiraoka W., Kuwabara M., Sato F. OH-induced free radicals in purine nucleoside monophosphates: ESR and spin-trapping. International Journal of Radiation Biology 1989; 55: 51–58
- Hiraoka W., Kuwabara M., Sato F., Matsuda A., Ueda T. Free-radical reactions induced by OH-radical attack on cytosine-related compounds: a study by a method combining ESR, spin trapping and HPLC. Nucleic Acids Research 1990; 18: 1217–1223
- Hüttermann J., Herak J.N., Westhof E. Structure of radicals from nucleic acid constituents. Effects of Ionizing Radiation on DNA, J. Hüttermann, W. Kohnelin, R. Téoule, A.J. Bertinchamps. Springer, Berlin, Heidelberg, New York 1978; 31–58
- Inanami O., Kuwabara M., Endoh D., Sato F. OH-induced free radicals in uridine studied by a method combining ESR, spin-trapping, and liquid chromatography. Radiation Research 1986; 108: 1–11
- Inanami O., Kuwabara M., Sato F. OH-induced free radicals in 3′-UMP and poly(U): spin-trapping and radical chromatography. Radiation Research 1987; 112: 36–44
- Kuwabara M., Inanami O., Sato F. OH-induced free radicals in purine nucleosides and their homopolymers: e.s.r. and spin-trapping with 2-methyl-2-nitrosopropane. International Journal of Radiation Biology 1986; 49: 829–844
- Kuwabara M., Inanami O., Endoh D., Sato F. Spin trapping of precursors of thymidine damage in X-irradiated DNA. Biochemistry 1987; 26: 2458–2465
- Kuwabara M., Hiraoka W., Sato F. Evidence for the formation of strand-break precursors in hydroxy-attacked thymidine 5′ monophosphate by the spin trapping method. Biochemistry 1989; 28: 9625–9632
- Radons G., Oloff H., Hüttermann J. Free radicals from X-irradiated single crystals of uridine-5′-phosphate disodium salt. International Journal of Radiation Biology 1981; 40: 245–263
- Ravkin B., Herak J.N. ESR study of radiation-induced radicals in the sugarphosphate region of nucleotides. II. PO2-4 radical in a crystal of uridine 5′-phosphate (Na salt). Radiation Research 1978; 74: 387–392
- Rakvin B., Herak J.N. An e.s.r. study of stable radicals in gamma-irradiated single crystals of uridine 5′-phosphate (Na salt). International Journal of Radiation Biology 1980; 28: 129–138
- Riesz P., Rustgi S. Aqueous radiation chemistry of protein and nucleic acid constituents: ESR and spin-trapping study. Radiation Physics and Chemistry 1979; 13: 21–40
- Sagstuen E. Radiation damage to nucleosides and nucleotides I. An ESR study of uridine-5′-phosphate · 2Na+ single crystals. Radiation Research 1980a; 81: 188–199
- Sagstuen E. Radiation damage to nucleosides and nucleotides. III. A C4-centred radical in the ribose moiety of uridine-5′-phosphate single crystals. Radiation Research 1980b; 84: 164–170
- von Sonntag C. Free-radical reactions of carbohydrates as studied by radiation techniques. Advances in Carbohydrate Chemistry and Biochemistry 1980; 37: 7–77
- Zhang Z.-Y., Kuwabara M., Yoshii G. ESR and spin-trapping study of room-temperature radicals in γ-irradiated polycrystalline pyrimidine nucleotides. Radiation Research 1983; 93: 213–231