Abstract
We have previously isolated mutants of Escherichia coli that replicate their DNA with increased fidelity. These mutants have a mutation in the dnaE gene, encoding the alpha subunit of DNA polymerase III. They were isolated in a mismatch-repair-defective mutL background, in which mutations can be considered to represent uncorrected DNA replication errors. In the present study we analyze the effect of one of these alleles, dnaE911, on spontaneous mutagenesis in a mismatch-repair-proficient background. In this background, spontaneous mutations may be the sum of uncorrected replication errors and mutations resulting from other pathways. Hence, the effect of the dnaE allele may provide insights into the contribution of uncorrected DNA replication errors to spontaneous mutation. The data show that dnaE911 decreases the level of Rifr, lacI and galK mutations in this background by 1.5-2-fold. DNA sequencing of 748 forward mutants in the lacI gene reveals that this effect has a clear specificity. Transversions are decreased by approximately 3-fold, whereas transitions, frameshifts, deletions and duplications remain essentially unchanged. Among the transversions, A.T-->T.A are affected most strongly (approximately 6-fold). In addition to this effect on transversions within the lacI gene, one previously recognized A.T-->G.C base-pair substitution hotspot in the lac operator is also reduced (approximately 5-fold). The data are discussed in the light of the role of DNA replication errors in spontaneous mutation, as well as other possible explanations for the observed antimutator effects.
Pathway correcting DNA replication errors in Saccharomyces cerevisiae.