Mutagenesis induced by the alkylating agent ethyl methanesulfonate (EMS) is thought to occur primarily via mechanisms that involve direct mispairing at alkylated guanines, in particular, O6-ethyl guanine. Recent evidence indicates that alkylation of guanine at the O-6 position might enhance the deamination of cytosine residues in the complementary strand. To determine whether such deamination of cytosine could play a role in the production of mutations by EMS, the efficacy of this agent was tested in uracil-DNA glycosylase deficient (Ung) strains of Escherichia coli. The Ung- strains showed a linear response with increasing doses of EMS. This response was independent of the umuC gene product. In contrast, the Ung+ strains yielded a dose-squared response that became linear at higher doses of EMS when the cells were defective for the umuC gene product. These results support a model for mutagenesis involving the deamination of cytosines opposite O6-alkylated guanines followed by an error-prone repair event.