CRISPR-Cas targeting in Haloferax volcanii promotes within-species gene exchange by triggering homologous recombination
Deepak Kumar Choudhary, Israela Turgeman-Grott, Shachar Robinzon, Uri Gophna

TL;DR
CRISPR-Cas systems in Haloferax volcanii enhance mating and gene exchange within the species by promoting homologous recombination.
Contribution
This study reveals a novel role of CRISPR-Cas in archaea: promoting within-species gene exchange and speciation.
Findings
CRISPR-Cas targeting increases mating efficiency within the same species.
CRISPR-Cas promotes biased recombination favoring the targeting strain.
DNA damage and elevated recombination activity also increase mating success.
Abstract
CRISPR (Clustered Regularly Interspaced Short Palindromic Repeats)-Cas (CRISPR-associated genes) systems provide adaptive immunity in bacteria and archaea against mobile genetic elements, but the role they play in gene exchange and speciation remains unclear. Here, we investigated how CRISPR-Cas targeting affects mating and gene exchange in the halophilic archaeon Haloferax volcanii. Surprisingly, we found that CRISPR-Cas targeting significantly increased mating efficiency between members of the same species, in contrast to its previously documented role in reducing interspecies mating. This enhanced mating efficiency was dependent on the Cas3 nuclease/helicase and extended beyond the targeted genomic regions. Further analysis revealed that CRISPR-Cas targeting promoted biased recombination in favor of the targeting strain (the strain containing the CRISPR-Cas system) during mating,…
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Taxonomy
TopicsCRISPR and Genetic Engineering · Bacterial Genetics and Biotechnology · Evolution and Genetic Dynamics
