Induction of T → G and T → A transversions by 5-formyluracil in mammalian cells

Abstract

Oxidatively damaged thymine, 5-formyluracil (5-fU), was incorporated into a predetermined site of double-stranded shuttle vectors. The nucleotide sequences in which the modified base was incorporated were 5′-CFTAAG-3′ and 5′-CTFAAG-3′ (F represents 5-fU), the recognition site for the restriction enzyme AflII (5′-CTTAAG-3′). The 5-fU was incorporated into a template strand of either the leading or lagging strand of DNA replication. The modified DNAs were transfected into simian COS-7 cells, and the DNAs replicated in the cells were recovered and were analyzed after the second transfection into Escherichia coli. The 5-fU did not block DNA replication in mammalian cells. The 5-fU residues were weakly mutagenic, and their mutation frequencies in double-stranded vectors were 0.01–0.04%. The T → G and T → A transversions were the mutations found most frequently, suggesting the formation of 5-fU·C and 5-fU·T base pairs, respectively. This is the first report that clearly shows the induction of transversion mutations by an oxidized pyrimidine base in DNA in mammalian cells.