Bleomycin-induced mutagenesis in repackaged lambda phage: base substitution hotspots at the sequence C-G-C-C.

DNA isolated from lambda phage was treated with bleomycin A2 plus Fe2+. The bleomycin-damaged DNA was added to lambda packaging extracts and the resulting phage were grown in SOS-induced E. coli. Under these conditions, treatment of the DNA with 0.8 microM bleomycin reduced the viability of the repackaged phage to 3% and increased the frequency of clear-plaque mutants in the progeny by a factor of 16. Bleomycin-induced mutations which mapped to the DNA-binding domain of the cI gene were subjected to DNA-sequence analysis. The most frequent events were single-base substitutions at G:C base pairs, nearly all of which occurred at cytosines in the sequence Py-G-C. Cytosines in the third position of the sequence C-G-C-C were particularly susceptible to mutation. At A:T base pairs, mutations were less frequent and were a mixture of single-base substitutions and -1 frameshifts, occurring primarily at G-T and A-T sequences. Thus, the overall specificity of bleomycin-induced mutations matches that of bleomycin-induced DNA lesions (strand breaks and apyrimidinic sites), which are formed at G-C (particularly Py-G-C), G-T and, to a lesser extent, A-T sequences. Furthermore, the frequency of various types of substitutions was consistent with selective incorporation of A and T residues opposite apyrimidinic sites at these sequences. The highly selective nature of bleomycin-induced mutations may explain the lack of mutagenesis by this compound in a number of reversion assays.