Characterization of the dehydro-guanidinohydantoin oxidation product of guanine in a dinucleotide.

The study of the biological consequences of oxidative damage to DNA requires the characterization of DNA lesions at a molecular level. The oxidation of guanine in the dinucleoside monophosphate, d(GpT), by a metal-oxo porphyrin produces a dehydro-guanidinohydantoin derivative. The (1)H NMR spectrum of this oxidized guanine derivative is reported. The structure was confirmed by the chemical transformation of the dehydro-guanidinohydantoin derivative into a linear oxaluric acid derivative upon hydrolysis at ambient temperature. The proposed mechanism of formation of the dehydro-guanidinohydantoin derivative is in agreement with the labeling experiments performed with H(2)(18)O.