Radiation-induced free radicals in solid 5-halouracil derivatives: single crystals of 5-iododeoxyuridine.

X-irradiation of single crystals of 5-iododeoxyuridine (IUdR) in the temperature range 8-300 K produces mainly four different radicals which have been studied by electron spin resonance (e.s.r.) and electron nuclear double resonance (ENDOR)-spectroscopy. At low temperatures, a pi-anion is formed which shows predominantly an interaction of the unpaired electron with a proton at carbon C6 of the base (-11.8 G, -23.9 G, -4.6 G). Above 10-20 K, the anion protonates at C6 to yield a RC-I(CH2)-R' radical comprising alpha-iodo and beta-methylene proton hyperfine interactions. The primary oxidation product is an O5'-situated alkoxy radical RCH2O which shows inequivalent beta-proton couplings of about 100 G and 35 G together with a highly anisotropic g-tensor. Upon warming to 265 K, a C2'-located radical on the deoxyribose is formed which is stable at room temperature. A detailed account of its spectral features as obtained by ENDOR exhibits three different alpha-type couplings, two small beta-protons and a dipolar interaction. Other radicals, not reproducibly observed, involve a C5'-hydroxyalkyl radical and a species related to the base cation at low temperatures.