Abstract
The geometries, relative energies, and hyperfine coupling constants of dehydrogenated, hydrogenated, and hydroxylated radiation products, as well as the anion and the cation, of thymine (T), 1-methylthymine (1-MeT), and uracil (U) are calculated through the use of density functional theory. The results for T and 1-MeT are subsequently compared to accurate ENDOR experiments performed by Sagstuen and co-workers (Sagstuen, E.; Hole, E. O.; Nelson, W. H.; Close, D. M. J. Phys. Chem. 1989, 93, 5974 and references therein). The theoretical coupling constants support the experimental assignment of the observed radicals. It is suggested that the hydrogen added to form the O4-hydrogenated product is located at an angle of 50° out of the molecular plane in T. Unfavorable interactions of this hydrogen with the N3 and the methyl hydrogens are shown to lead to this out-of-plane position for O4−H. For the similar radical in 1-MeT, hydrogen bonding in the crystal leads to an in-plane hydrogen position. Notable geometry ...
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