Abstract
Far-UV-induced formation of dimeric pyrimidine photoproducts within DNA is a major cause of the carcinogenic effects of solar light. The chemical structure of this class of lesion has been mostly determined by studies on model compounds. The present work is aimed at providing mass spectrometry data on the thymine–thymine photoproducts, including the diastereoisomers of the cyclobutane dimer, the (6–4) adduct, the related Dewar valence isomer and the spore photoproduct. Fragmentation mass spectra of the modified bases, nucleosides, dinucleoside monophosphates and dinucleotides were recorded following electrospray ionization with either triple-quadrupolar or ion-trap detection. The results showed differences in fragmentation pattern between the different types of photoproducts. In addition, a drastic effect of the diastereoisometry was observed for the cyclobutane dimers. A sensitive detection technique has been developed for the analysis of dinucleoside monophosphate photoproducts by high-performance liquid chromatography associated with mass spectrometry in the negative mode with multiple reaction-monitoring detection.
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