Hotspot of recombination in Metamycoplasma equirhinis: evidence of multiple horizontal gene transfer events originating from bacteria sharing the same ecological niche - Normandie Université
Communication Dans Un Congrès Année : 2024

Hotspot of recombination in Metamycoplasma equirhinis: evidence of multiple horizontal gene transfer events originating from bacteria sharing the same ecological niche

Résumé

Mycoplasma genomes were long thought to be shaped exclusively by successive gene losses. In-depth analyses of their genomes have clearly demonstrated the contribution of horizontal gene transfer (HGT) to the evolution and plasticity of many mycoplasma species. Therefore, HGT may be used by mycoplasmas as a mean to adapt to new environmental stresses or ecological niches. A recent effort to sequence and analyze the genomes of 24 Metamycoplasma (M.) equirhinis, a species associated with the equine respiratory disease complex in horses, revealed that all these genomes are overall syntenic except for a few regions, one of which is adjacent to the CRISPR/Cas locus (Martineau et al., IOM submission number 80). This locus turned out to be highly variable between the 24 genomes with eight different genetic patterns resulting from rearrangements affecting i) the presence and/or general genetic organization of the CRISPR/Cas locus, but also ii) the genomic region downstream of the CRISPR/Cas locus, which was defined as a hot spot of genetic diversity. Remarkably, all the genes downstream of the CRISPR/Cas system were horizontally acquired and appeared to originate from bacteria belonging to the Bacillota and Fusobacteriota phyla, many of them being commonly found in the respiratory tract of horses. In silico analyses further revealed that some of the coding sequences present in these regions shared high homologies with previously described defense mechanisms such as restriction-modification or toxin-antitoxin (TA) systems. In particular, the presence of at least one candidate TA system was identified in half of the genomes and shared high amino acid homology with one of the TA systems functionally characterized in Mycoplasma mycoides subsp. capri (1). The functional characterization of these systems is currently ongoing using different heterologous expression systems. These results suggest that M. equirhinis can acquire and potentially exchange genetic material with other phylogenetically distant bacteria that share the same ecological niche, i.e. the equine respiratory tract. The coding sequences located in this hotspot of recombination have putative functions linked to bacterial defense systems. 1. Hill V, Akarsu H, Barbarroja RS, Cippa VL, Kuhnert P, Heller M, et al. Minimalistic mycoplasmas harbor different functional toxin-antitoxin systems.PLoS Genet.2021. https://doi.org/10.1371/journal.pgen.1009365
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anses-04856839 , version 1 (27-12-2024)

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  • HAL Id : anses-04856839 , version 1

Citer

Maxime Bruto, Albertine Léon, Matthieu Martineau, Florence Tardy, Fabien Labroussaa, et al.. Hotspot of recombination in Metamycoplasma equirhinis: evidence of multiple horizontal gene transfer events originating from bacteria sharing the same ecological niche. 25th Congress of the International Organization for Mycoplasmology (IOM 2024), International Organization for Mycoplasmology, Jul 2024, Gran Canaria, Spain. pp.Communication orale. ⟨anses-04856839⟩
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