, 2003; Galhardo et al, 2005) Therefore, the dnaE2-containing g

, 2003; Galhardo et al., 2005). Therefore, the dnaE2-containing gene cluster has also been named as a ‘mutagenesis cassette’ (Erill et al., 2006). The fact that the presence of the ‘mutagenesis cassette’ coincides with the lack of umuDC genes in the bacterial genome has suggested that this gene cassette

might functionally replace the absence of Pol V in these species by playing a role in TLS (Erill et al., 2006). The results presented in Alonso et al. (1999) showed that the emergence of multidrug-resistant mutants in P. aeruginosa increases under antibiotic challenge. Nonlethal concentrations of antibiotics have been suggested to enhance mutations conferring antibiotic find more resistance via the induction of specialized DNA polymerases (Couce & Blázquez, 2009). For example, Pol IV is induced by ceftazidime, a PBP3 inhibitor (Blázquez et

al., 2006). The role of specialized DNA polymerases in stationary-phase mutagenesis in Pseudomonas species under carbon starvation conditions has mostly been investigated using a P. putida model (e.g. Tegova et al., 2004; Tark et al., 2005; Koorits et al., 2007). The assay systems used in P. putida enable to isolate phenol-degrading Phe+ revertants due to the activation of a silent phenol monooxygenase gene pheA on a plasmid under carbon starvation conditions on minimal agar plates containing phenol as the only carbon source (Kasak et al., 1997; Tegova et al., 2004). Among the P. putida DNA polymerases, Pol IV is specifically involved in the generation of frameshift mutations under Erlotinib the carbon starvation conditions, but has no effects on the frequency of occurrence of base substitutions (Tegova et al., 2004). Differently from

the Pol IV-dependent stationary-phase mutations in E. coli, the occurrence of 1 bp deletions in starving P. putida cells does not depend on RecA functionality, nor does it require the stationary-phase sigma factor RpoS (Tegova et al., 2004; Tarassova et al., 2009). Notably, the Pol IV-dependent mutagenesis is remarkably elevated in P. putida populations starved for >1 week. This indicates that the level of expression of the mutagenic activity of Pol IV or certain Thiamet G type of DNA damage serving as a substrate for TLS by Pol IV might be increased during the long-term carbon starvation of P. putida. As already noted above, DnaE2 has been considered as an error-prone DNA polymerase (Boshoff et al., 2003; Galhardo et al., 2005). Unexpectedly, the frequency of accumulation of base substitution mutations was up to three times elevated in the DnaE2-deficient P. putida during the 10-day carbon starvation period studied (Koorits et al., 2007). The antimutator effect of DnaE2 also occurred using the chromosomal Rifr assay, which enables to detect base substitution mutations in the rpoB gene. UV-irradiated cells of the DnaE2-deficient P.

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