AI Article Synopsis
- Helicobacter pylori is a bacterium that undergoes frequent genetic recombination, which is essential for its evolution and adaptation but must be carefully regulated to preserve its genome.
- The study investigates how the MutS2 protein controls this recombination process, particularly its nuclease activity, which is important for limiting recombination during transformation.
- Researchers identified a new nuclease motif in MutS2, and experiments showed that both a specific point mutation and a deletion in the protein significantly decreased its ability to cleave DNA, indicating the importance of these nuclease sites for maintaining genomic stability.
Article Abstract
Helicobacter pylori, a human pathogen, is a naturally and constitutively competent bacteria, displaying a high rate of intergenomic recombination. While recombination events are essential for evolution and adaptation of H. pylori to dynamic gastric niches and new hosts, such events should be regulated tightly to maintain genomic integrity. Here, we analyze the role of the nuclease activity of MutS2, a protein that limits recombination during transformation in H. pylori. In previously studied MutS2 proteins, the C-terminal Smr domain was mapped as the region responsible for its nuclease activity. We report here that deletion of Smr domain does not completely abolish the nuclease activity of HpMutS2. Using bioinformatics analysis and mutagenesis, we identified an additional and novel nuclease motif (LDLK) at the N-terminus of HpMutS2 unique to Helicobacter and related ε-proteobacterial species. A single point mutation (D30A) in the LDLK motif and the deletion of Smr domain resulted in ∼ 5-10-fold loss of DNA cleavage ability of HpMutS2. Interestingly, the mutant forms of HpMutS2 wherein the LDLK motif was mutated or the Smr domain was deleted were unable to complement the hyper-recombination phenotype of a mutS2(-) strain, suggesting that both nuclease sites are indispensable for an efficient anti-recombinase activity of HpMutS2.
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| http://dx.doi.org/10.1111/mmi.13003 | DOI Listing |
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