Abstract
The reactions of thymine in aqueous solution with radiation-induced radicals OH, H, and e-aq were studied under various conditions. Competition studies using scavengers of OH radicals (methanol, ethanol, iodide) or of e-aq and/or H atoms (N2O, H+, O2) led to the conclusion that OH and H radicals destroy the chromophoric group of thymine, but e-aq does not. A trace of O2 proved to be necessary to obtain maximal destruction. Removal of the last traces of O2 resulted in a decrease of the destruction yield, possibly through restitution reactions. It was found that (1) alcohol radicals destroy thymine, even in the presence of O2; (2) the rate constant, k(OH + thymine) = 4.3 X 10(9) M(-1) sec(-1) (from competition with iodide); and (3) k(H + thymine) = 8 X 10(8) M(-1) sec(-1) (from competition with O2 in acid solution).
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