Abstract
Exposure of aqueous solutions of calf-thymus DNA to 60Co γ-rays at 77 K results in the formation of equal yields of G+ and T– centres, detected by e.s.r. spectroscopy. In the presence of oxygen, O2– ions are also formed at the expense of T–, the primary yield of G+ centres being unaffected. On annealing above 77 K the e.s.r. features for O2– ions were initially modified as a result of changes in solvation, and then, at ca. 193 K, they were lost irreversibly. A large growth in signals due to RO2· radicals was observed simultaneously. These radicals are formed from T– anions or the protonated form, TH, and probably also indirectly from G+ radicals. In parallel experiments, under comparable conditions, we have analysed for single and double stand breaks using plasmid DNA (pBR 322). Both single and double strand breaks persist under conditions in which G+ and T– are the only detectable primary radical products. The presence of oxygen causes only a slight increase in damage to DNA.
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