We have cloned and sequenced the mutR gene from Escherichia coli, which results in an increased frequency of spontaneous deletions, by using a strain carrying a Tn10 derivative inserted into mutR. The analysis of 1,286 bp of mutR sequence shows that this gene is identical to the topB gene, which encodes topoisomerase III. The increased deletion formation is the first reported phenotype for cells lacking topoisomerase III, and this suggests that topoisomerase III is involved in reactions that normally reduce the levels of spontaneous deletions.
Using site-specific mutagenesis in vitro, we have constructed Escherichia coli strains that allow the detection of the inversion of an 800-bp segment in the lac region. The invertible segment is bounded by inverted repeats of either 12 or 23 bp. Inversions occurring at these inverted repeats will restore the Lac+ phenotype. Inversions can be detected at both short homologies at frequencies ranging from 0.5 x 10(-8) to 1 x 10(-7). These events, which have been verified by DNA sequence analysis, are reduced up to 1000-fold in strains deficient for either RecA, RecB or RecC. They are not reduced in strains deficient in the RecF, J pathway. These results show that the RecB,C,D system can mediate rearrangements at short sequence repeats, and probably plays a major role in cellular rearrangements.
Using site-specific mutagenesis in vitro we constructed a genetic system to detect mutants with altered rates of deletion formation between short repeated sequences in Escherichia coli. After in vivo mutagenesis with chemical mutagens and transposons, the system allowed the identification of mutants with either increased or decreased deletion frequencies. One mutational locus, termed mutR, that results in an increase in deletion formation, was studied in detail. The mutR gene maps at 38.5 min on the E. coli genetic map. Since the precise excision of many transposable elements is also mediated at short repeated sequences, we investigated the effects of the mutant alleles, as well as recA, on precise excision of the transposon Tn9. Neither mutR nor recA affect precise excision of the transposon Tn9, from three different insertions in lacI, whereas these alleles do affect other spontaneous deletions in the same system. These results indicate that deletion events leading to precise excision occur principally via a different pathway than other random spontaneous deletions. It is suggested that, whereas precise excision occurs predominantly via a pathway involving replication enzymes (for instance template strand slippage), deletions on an F'factor are stimulated by recombination enzymes.
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