Bacterial natural transformation drives cassette shuffling and simplifies recombination in chromosomal integrons

Nucleic Acids Research

Kevin Debatisse, Manon Brunie, Baptiste Darracq, Elia Bandini, Eloi Littner, Eduardo P C Rocha, Didier Mazel, Céline Loot

Summary

Integrons act as biobanks of gene cassettes conferring functions crucial for bacterial defense, including protection against phages and antibiotics. They enable bacterial on-demand adaptation through capture and shuffling of the cassettes under stress conditions. Our results underscore the significant role of horizontal gene transfer in integron cassette recombination. We discover that sedentary chromosomal integrons (SCIs), such as those found in Vibrio cholerae, efficiently excise and recruit cassettes from linear single-stranded DNA fragments acquired during natural transformation. We propose a simplified mechanism for the cassette excision process from this type of substrates, requiring only a single strand exchange at the attC recombination sites, ruling out any replicative mechanism. We also observe a higher specificity of the V. cholerae integrase for attC recombination sites from the V. cholerae repeat-type, a trait differentiating SCI integrases from the mobile integron (MI) ones. This specificity, likely stemming from a long-term co-evolution between SCI integrases and attC sites, impedes the recruitment of cassettes from phylogenetically distant integrons. Collectively, our findings may explain the greater attC site homogeneity observed in SCIs compared to MIs and showcase the role of natural transformation in driving cassette shuffling and simplifying the cassette recombination mechanism, thereby expanding bacterial phenotypic diversity.

More informations at DOI : https://doi.org/10.1093/nar/gkaf1162