SummaryIn this study, we report experimental analysis of transcriptional terminators in the human pathogen Helicobacter pylori. Previous bioinformatics approaches came to differing conclusions regarding transcriptional termination in this bacterium. We used a reporter construct, the tnpR-encoded resolvase, to assess terminators. In our first experiments, we found that a subset of previously predicted intrinsic terminators for H. pylori are functional. In our second experiments, we used an unbiased screen to identify putative terminators and then characterized 18 of these. We found that these putative terminators overlap genomic regions that are either intergenic or intragenic. Using reverse transcription PCR, we showed that an intergenic terminator and an intragenic antisense terminator function at their endogenous loci. Additionally, we found that putative terminators contain features of both intrinsic and Rho-dependent termination, but that intrinsic terminators define the majority. We were unable to delete rho, however, in H. pylori, suggesting that it is essential and likely important. Finally, we carried out a mutational analysis of one of our randomly identified terminators that has both intrinsic and Rho-dependent features, and found that they are both functional. In conclusion, we found that H. pylori possesses numerous Rho-dependent and intrinsic terminators including some found in intragenic regions.
Here we undertook to identify colonization and gastric disease-promoting factors of the human gastric pathogen Helicobacter pylori as genes that were induced in response to the stomach environment. Using recombination-based in vivo expression technology (RIVET), we identified six promoters induced in the host compared to laboratory conditions. Three of these promoters, designated Pivi10, Pivi66, and Pivi77, regulate genes that H. pylori may use to interact with other microbes or the host. Pivi10 likely regulates the mobA, mobB, and mobD genes, which have potential roles in horizontal gene transfer through plasmid mobilization. Pivi66 occurs in the cytotoxin-associated gene pathogenicity island, a genomic region known to be associated with more severe disease outcomes, and likely regulates cagZ, virB11, and virD4. Pivi77 likely regulates HP0289, an uncharacterized paralogue of the vacA cytotoxin gene. We assessed the roles of a subset of these genes in colonization by creating deletion mutants and analyzing them in single-strain and coinfection experiments. We found that a mobABD mutant was defective for murine host colonization and that a cagZ mutant outcompeted the wild-type strain in a coinfection analysis. Our work supports the conclusion that RIVET is a valuable tool for identifying H. pylori factors with roles in host colonization.
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