PMID:7692254
| Citation |
Oller, AR, Fijalkowska, IJ and Schaaper, RM (1993) The Escherichia coli galK2 papillation assay: its specificity and application to seven newly isolated mutator strains. Mutat. Res. 292:175-85 |
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| Abstract |
The Escherichia coli dnaE and dnaQ genes encode, respectively, the alpha (polymerase) and epsilon (proofreading) subunits of DNA polymerase III. Mutations in these genes resulting in mutator or antimutator phenotypes provide important tools to understand the mechanisms by which mutations occur. One way to isolate such strains is the use of papillation assays. We used one such assay based on the reversion of the galK2 allele in cells grown on MacConkey-Gal plates. Here, we describe the identification of the galK2 mutation and its possible reversion pathways, and the characterization of 7 mutators isolated using this system. 1 mutator resided in dnaE and 6 in dnaQ. Sequencing of the galK2 allele revealed a G.C-->T.A transversion at base pair 571 that changed a glu codon (GAA) to a stop codon (TAA). The analysis of 319 revertants showed that a Gal+ phenotype can be achieved by A.T-->G.C transition, A.T-->T.A transversion and A.T-->C.G transversion. We characterized the mutator phenotypes of the newly isolated mutators by determining (i) their mutation frequencies to resistance to rifampicin and nalidixic acid in both wild-type and mutL backgrounds, (ii) their temperature sensitivity and medium dependence and (iii) their mutational specificity (by analyzing the nature of galK revertants). Based on the genomic locations of their mutations, specificity of reversion pathways and magnitude of mutator effects, the mutators can be grouped into 3 classes. These classes may represent different mutational mechanisms that include defective base insertion, defective proofreading and interference with the postreplicative mismatch-repair system. |
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| Keywords |
DNA Mutational Analysis; DNA Polymerase III/genetics; Drug Resistance/genetics; Escherichia coli/genetics; Genes, Bacterial; Mutagenesis; Mutation; Phenotype; Rifampin/pharmacology |
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