Nonrandom distribution of O6-methylguanine in H-ras gene sequence from DNA modified with N-methyl-N-nitrosourea

Abstract

The distribution of O6-meG in the rat H-ras gene sequence was studied using PCR by transition of O6-meG to adenine during the reaction. In order to study the transition mutations the PCR product was cloned in a replicative form of phage M13mp18 and sequenced. The use of PCR for detection of O6-meG was validated by using oligonucleotides (61 bases) containing one O6-meG residue at a defined site. After treatment of rat liver DNA by N-methyl-N-nitrosourea in vitro, a striking nonrandom sequence distribution of O6-meG was observed. Sixty-eight per cent of O6-methylated Gs were found in the middle G of the sequences GGT and GGA in the H-ras gene whereas no methylation was found in the middle G of the sequences AGG, GGG, TGT, TGC, CGA and CGC. No O6-meG adduct was found in the 12th codon of H-ras (sequence GGA). The frequency of O6-meG formation as a function of two flanking nucleotides on each side of the target guanine was calculated as an approach to understanding more distant sequence effects. It was found that in the DNA sequence studied the formation of O6-meG was highest if the G was flanked by PyPu or PuPu on the 5' side (Py, pyrimidine and Pu, purine) whereas PuPu on the 3' side showed maximal inhibition of O6-meG formation.