Chemistry Reference
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Ward JF, Blakely WF, Joner EI (1985) Mammalian cells are not killed by DNA single-strand breaks
caused by hydroxyl radicals from hydrogen peroxide. Radiat Res 103:383−392
Ward JF, Webb CF, Limoli CL, Milligan JR (1990) DNA lesions produced by ionizing radiation: Locally
multiply damaged sites. In: Wallace SS, Painter RB (eds) Ionizing radiation damage to DNA: Mo-
lecular aspects. Wiley-Liss, New York, pp 43−50
Ward RL (1980) Mechanisms of poliovirus inactivation by the direct and indirect effects of ionizing
radiation. Radiat Res 83:330−344
Wardman P (1977) The use of nitroaromatic compounds as hypoxic cell radiosensitizers. Curr Top
Radiat Res Q 11:347−398
Wardman P (1982) The kinetics of the reaction of ‚anomalous' 4-nitroimidazole radiosensitizers with
thiols. Int J Radiat Biol 41:231−235
Wardman P (1984) Radiation chemistry in the clinic: Hypoxic cell radiosensitizers for radiotherapy.
Radiat Phys Chem 24:293−305
Wardman P (1987) The mechanism of radiosensitization by electron-affinic compounds. Radiat
Phys Chem 30:423−432
Wardman P (1995) Reactions of thiyl radicals. In: Packer L, Cadenas E (eds) Biothiols in health and
disease. Marcel Decker, New York, pp 1−19
Wardman P (1998) Evaluation of the „radical sink“ hypothesis from a chemical-kinetic viewpoint. J
Radioanal Nucl Chem 232:23−27
Wardman P (2001) Electron transfer and oxidative stress as key factors in the design of drugs selec-
tively active in hypoxia. Curr Medic Chem 8:739−761
Wardman P, Clarke ED (1985) Electron transfer and radical-addition in the radiosensitization and
chemotherapy of hypoxic cells. In: Breccia A, Fowler JF (eds) New Chemo and Radiosensitizing
Drugs. Lo Scarabeo, Bologna, pp 21−38
Wardman P, von Sonntag C (1995) Kinetic factors that control the fate of thiyl radicals in cells. Meth
Enzymol 251:31−45
Wardman P, Middleton RW, Monney H, Parrick J, Watts ME (1973) Unexpected reactivity of some
nitroaryl compounds with thiols: Implications in their use as radiosensitizers and probes for
hypoxia. In: Broerse JJ, Barendsen GW, Kal HB, van der Kogel AJ (eds) Proc. 7th Int. Conf. Radiat.
Res. Martinus Nijhoff, Amsterdam, pp A4−35
Wardman P, Dennis MF, Everett SA, Patel KB, Stratford MRL, Tracy M (2003) Radicals from one-elec-
tron reduction of nitro compounds, aromatic
N
-oxides and quinones: the kinetic basis for hy-
poxia-selective, bioreductive drugs. Biochem Soc Symp 61:171−194
Warman JM, de Haas MP, Hummel A, van Lith D, Verberne JB, Loman H (1980) A pulse radiolysis con-
ductivity study of frozen aqueous solutions of DNA. Int J Radiat Biol 38:459−459
Warman JM, de Haas MP, Rupprecht A (1996) DNA: a molecular wire? Chem Phys Lett 249:319−322
Warters RL, Lyons BW (1992) Variation in radiation-induced formation of DNA double-strand breaks
as a function of chromatin structure. Radiat Res 130:309−318
Warters RL, Hofer KG, Harris CR, Smith JM (1977) Radionuclide toxicity in cultured mammalian cells:
Elucidation of the primary site of radiation damage. Curr Top Radiat Res Q 12:389−407
Weiland B, Hüttermann J (1998) Free radicals from X-irradiated ‚dry' and hydrated lyophilized DNA
as studies by electron spin resonance spectroscopy: analysis of spectral components between
77 K and room temperature. Int J Radiat Biol 74:341−358
Weinfeld M, Soderlind K-JM (1991)
32
P-Postlabeling detection of radiation-induced DNA-damage:
identification and estimation of thymine glycols and phosphoglycolate termini. Biochemistry
30:1091−1097
Weinfeld M, Liuzzi M, Paterson MC (1990) Response of phage T4 polynucleotide kinase toward di-
nucleotides containing apurinic sites: design of a
32
P-postlabeling assay for apurinic sites in
DNA. Biochemistry 29:1737−1743
Whillans DW, Hunt JW (1978) Rapid-mixing studies of the mechanisms of chemical radiosensitiza-
tion and protection in mammalian cells. Br J Cancer 37:38−41
Whillans DW, Hunt JW (1982) A rapid-mixing comparison of the mechanisms of radiosensitization
by oxygen and misonidazole in CHO cells. Radiat Res 90:126−141
Whillans DW, Adams GE, Neta P (1975) Electron-affinic sensitization. VI. Pulse radiolysis and ESR
comparison of some 2- and 5-nitroimidazoles. Radiat Res 62:407−421
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