Purpose: The aim of this paper was to investigate the sequence preference of ionizing radiation (IR)-induced DNA damage as assessed by a linear amplification/polymerase stop (LA/PS) assay. The LA/PS assay is able to detect a wide range of IR-induced DNA lesions and this technique was utilized to quantitatively determine the preferential sites of gamma irradiation-induced DNA lesions in three different DNA sequences.Materials and methods: This analysis was performed on an automated DNA sequencer with capillary electrophoresis and laser-induced fluorescence detection.Results: The main outcome of this study was that G nucleotides were preferentially found at IR-induced polymerase stop sites. The individual nucleot... More
Purpose: The aim of this paper was to investigate the sequence preference of ionizing radiation (IR)-induced DNA damage as assessed by a linear amplification/polymerase stop (LA/PS) assay. The LA/PS assay is able to detect a wide range of IR-induced DNA lesions and this technique was utilized to quantitatively determine the preferential sites of gamma irradiation-induced DNA lesions in three different DNA sequences.Materials and methods: This analysis was performed on an automated DNA sequencer with capillary electrophoresis and laser-induced fluorescence detection.Results: The main outcome of this study was that G nucleotides were preferentially found at IR-induced polymerase stop sites. The individual nucleotides at the IR-induced DNA damage sites were analyzed and a consensus sequence of 5'-GG* (where * indicates the damaged nucleotide) was observed. In a separate method of analysis, the dinucleotides and trinucleotides at the IR-induced DNA damage sites were examined and 5'-GG* and 5'-G*G dinucleotides and 5'-GG*G trinucleotides were found to be the most prevalent. The use of the LA/PS assay permits a large number of IR-induced DNA lesions to be detected in the one procedure including: double- and single-strand breaks, apurinic/apyrimidinic sites and base damage.Conclusions: It was concluded that 2,6-diamino-4-hydroxy-5-formamidopyrimidine (Fapy-G) and the degradation products of 8-oxoG were possibly the main lesions detected. To our knowledge, this is the first occasion that the DNA sequence preference of IR-induced DNA damage as detected by a LA/PS assay has been reported.