Oxidized guanine (8-oxo-7,8-dihydroguanine; 8-oxo-G) is a potent mutagen because of its ambiguous pairing with cytosine and adenine. The Escherichia coli MutT protein specifically hydrolyzes both 8-oxo-deoxyguanosine triphosphate (8-oxo-dGTP) and 8-oxo-guanosine triphosphate (8-oxo-rGTP), which are otherwise incorporated in DNA and RNA opposite template A. In vivo, this cleaning of the nucleotide pools decreases both DNA replication and transcription errors. The effect of mutT mutation on transcription fidelity was shown to depend on oxidative metabolism. Such control of transcriptional fidelity by the ubiquitous MutT function has implications for evolution of RNA-based life, phenotypic expression, adaptive mutagenesis, and functional maintenance of nondividing cells.
SummaryWe have proposed previously that, in Escherichia coli, blockage of replication forks can lead to the reversal of the fork. Annealing of the newly synthesized strands creates a double-stranded end adjacent to a Holliday junction. The junction is migrated away from the DNA end by RuvAB and can be cleaved by RuvC, while RecBCD is required for the repair of the double-stranded tail. Consequently, the rep mutant, in which replication arrests are frequent and fork reversal occurs, requires RecBCD for growth. We show here that the combination of sbcB sbcCD null mutations restores the viability to rep recBC mutants by activation of the RecF pathway of recombination. This shows that the proteins belonging to the RecF pathway are able to process the DNA ends made by the replication fork reversal into a structure that allows recombination-dependent replication restart. However, we con®rm that, unlike sbcB null mutations, sbcB15, which suppresses all other recBC mutant defects, does not restore the viability of rep recBC sbcCD strains. We also show that ruvAB inactivation suppresses the lethality and the formation of doublestranded breaks (DSBs) in a rep recBC recF strain, totally de®cient for homologous recombination, as well as in rep recBC mutants. This con®rms that RuvAB processing of arrested replication forks is independent of the presence of recombination intermediates.
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