Role of uracil-DNA glycosylase in mutation avoidance by Streptococcus pneumoniae

Abstract

Uracil-DNA glycosylase activity was found in Streptococcus pneumoniae, and the enzyme was partially purified. An ung mutant lacking the activity was obtained by positive selection of cells transformed with a plasmid containing uracil in its DNA. The effects of the ung mutation on mutagenic processes in S. pneumoniae were examined. The sequence of several malM mutations revertible by nitrous acid showed them to correspond to A.T----G.C transitions. This confirmed a prior deduction that nitrous acid action on transforming DNA gave only G.C----A.T mutations. Examination of malM mutant reversion frequencies in ung strains indicated that G.C----A.T mutation rates generally were 10-fold higher than in wild-type strains, presumably owing to lack of repair of deaminated cytosine residues in DNA. No effect of ung on mutation avoidance by the Hex mismatch repair system was observed, which means that uracil incorporation and removal from nascent DNA cannot be solely responsible for producing strand breaks that target nascent DNA for correction after replication. One malM mutation corresponding to an A.T----G.C transition showed a 10-fold-higher spontaneous reversion frequency than other such transitions in a wild-type background. This "hot spot" was located in a directly repeated DNA sequence; it is proposed that transient slippage to the wild-type repeat during replication accounts for the higher reversion frequency.