Application of capillary gas chromatography-mass spectrometry to chemical characterization of radiation-induced base damage of DNA: Implications for assessing DNA repair processes

The application of capillary gas chromatography-mass spectrometty (CC-MS) to the chemical characterization of radiation-induced base products of calf thymus DNA is presented. Samples of calf thymus DNA irradiated in N@-saturated aqueous solution were hydrolyzed with HCOOH, trimethylsilylated, and subjected to CC-MS analysis using a fused-silica capillary column. Hydrolysis conditions suitable for the simultaneous analysis of the radiation-induced products of all four DNA bases in a single run were determined. The trimethylsilyl derivatives of these products had excellent GC properties and easily interpretable mass spectra; an intense molecular ion (MC) and a characteristic (M-CH,)+ ion were observed. The complementary use of t-butyldimethylsilyl derivatives was also demonstrated. These derivatives provided an intense characteristic (M-57)+ ion, which appeared as either the base peak or the second most intense ion in the spectra. All mass spectra obtained are discussed. Because of the excellent resolving power of capillary GC and the accurate high-sensitivity identification by MS, the capillary CC-MS is suggested as a very suitable technique for identification of altered bases removed from DNA by base excision-repair enzymes such as DNA glycosylases and, thus, as very useful for an understanding of the base excision-repair of DNA. o 1985 Academic RS.S, IW.