The RecBCD pathway is important in conjugational and transduction

The RecBCD pathway is important in conjugational and transductional recombination [39], and may also be involved in the recombination of plasmids containing one or more Chi sites [40]. Recombination in small plasmids lacking a Chi sequence is primarily catalyzed by the RecFOR pathway [41]. RecF, RecO, and RecR bind to gaps of ssDNA and displace the single-strand DNA binding proteins to allow RecA to bind [42, 43]. The RecJ ssDNA exonuclease acts in concert with RecFOR to enlarge the ssDNA region when needed. Strand exchange is then catalyzed by RecA [44]. Because of

their prominent role in plasmid recombination in E. coli, we analyzed the effect of mutations in recF, recJ and recA on plasmid Venetoclax manufacturer recombination in Salmonella. Attenuated S. Typhi strains have been developed as antigen delivery vectors for human vaccine use. Due to the host restriction phenotype of S. Typhi, preliminary work is typically done in S. Typhimurium MK 1775 using mice as the model system to work out attenuation and antigen expression strategies. Recently, we have also been investigating attenuated derivatives of the host-restricted strain S. Paratyphi A as a human vaccine vector. Therefore, it was

of interest to evaluate and compare the effects of rec mutations in these three Salmonella serovars. We selected S. Typhi strain Ty2 as exemplary of this serovar because most of the vaccines tested in clinical trials to date have been derived from Ribose-5-phosphate isomerase this strain [45]. S. Typhi strain ISP1820 has also been evaluated in clinical trials [46, 47] and we therefore included it in some of our analyses. We found that, for some DNA substrates, the effects of ΔrecA and ΔrecF deletion mutations differed among Salmonella enterica serotypes. In particular,

we found that deleting recA, recF or recJ in S. Typhi Ty2 and deleting recF in strain ISP1820 had significant effects (3-10 fold) on the recombination frequency of our direct repeat substrate, pYA4463 (Table 3). No or very limited effect (< 2 fold) was observed for our S. Typhimurium and S. Paratyphi A strains, consistent with results reported for E. coli indicating that recombination of this type of substrate is recA-independent [35]. In contrast, the ΔrecA and ΔrecF mutations resulted in lower interplasmid recombination in Typhimurium and Paratyphi A but not in Typhi strains. Deletion of recJ led to a reduction in intraplasmid recombination frequencies in S. Typhi, while no effect was seen in S. Typhimurium. The ΔrecJ mutation also affected plasmid recombination frequencies for two of the three substrates tested in S. Paratyphi A. Taken together, these results suggest that the recombination system in S. Typhi, or at least in strains Ty2 and ISP1820, is not identical to the recombination system in S. Typhimurium and S. Paratyphi A.

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