| Abstract: | Bromouracil (BU)-induced mutagenesis of λC17 am o8 phage, in relation to the recombination systems of phage (red) or bacteria (rec), was studied. The mutations investigated were am → am+. For efficient BU-induced mutagenesis, red or recA genes as well as bacterial lex gene functions, known to be involved in UV-induced mutagenesis, were required. This suggests a common mechanism or some common step(s) in UV- and BU-induced mutagenesis. Moreover, a several-fold increase was observed in the number of mutants induced by BU in the excision-repair-deficient strain (uvrA), implying that incorporated BU induces some premutational lesions that are recognized and repaired by excision-repair enzymes. A hypothesis on the possible mechanism of BU-induced mutagenesis is proposed, which assumes a common mechanism for UV- and BU-induced mutagenesis, involving recombination repair processes. Incorporation of a tautomeric or ionized form of BU is considered only as a premutational change in DNA activating the dark-repair mechanisms in cells. The observation that BU enhances the frequency of recombination in λ phages also supports teh idea that recombination processes are involved in BU-induced mutagenesis. |
