O6-methylguanine in the SV40 origin of replication inhibits binding but increases unwinding by viral large T antigen.

To study the effect of the potentially cytotoxic base O6-methylguanine (O6-meG) on the initiation of DNA replication, double-stranded oligonucleotides corresponding to the SV40 origin of replication were constructed in which O6-meG replaced guanine in one strand. Out of 14 methylated residues, 10 were present in the Binding sites for T antigen (3 in Binding Site 1 and 7 in Binding Site 2). Binding of purified T antigen to the substituted oligonucleotide was considerably reduced in comparison to the unsubstituted one, as measured by nitrocellulose filter binding. Both the ATP-dependent and ATP-independent binding of T antigen were affected by the presence of the methylated base. Band shift analysis revealed an altered pattern of delayed-migrating complexes of T antigen with the O6-meG-containing oligonucleotide. Competition experiments, in which unmodified oligonucleotides containing Binding Site 1 or 2 were included in the binding assays, indicated that the affinity of T antigen for the O6-meG modified sites was reduced. When partially duplex oligonucleotides containing either Binding Site 1 or Site 2 of the origin of replication were used as substrates for the helicase activity of T antigen, the presence of O6-meG increased the extent of T antigen catalysed displacement of single-stranded DNA fragments.