The defensome of complex bacterial communities

Beavogui, Angelina; Lacroix, Auriane; Wiart, Nicolas; Poulain, Julie; Delmont, Tom O.; Paoli, Lucas; Wincker, Patrick; Oliveira, Pedro H.

The defensome of complex bacterial communities

Angelina Beavogui, Auriane Lacroix, Nicolas Wiart, Julie Poulain, Tom O. Delmont, Lucas Paoli, Patrick Wincker and Pedro H. Oliveira ()
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Angelina Beavogui: Université Paris-Saclay
Auriane Lacroix: Université Paris-Saclay
Nicolas Wiart: Université Paris-Saclay
Julie Poulain: Université Paris-Saclay
Tom O. Delmont: Université Paris-Saclay
Lucas Paoli: Institute of Microbiology and Swiss Institute of Bioinformatics, ETH Zürich
Patrick Wincker: Université Paris-Saclay
Pedro H. Oliveira: Université Paris-Saclay

Nature Communications, 2024, vol. 15, issue 1, 1-15

Abstract: Abstract Bacteria have developed various defense mechanisms to avoid infection and killing in response to the fast evolution and turnover of viruses and other genetic parasites. Such pan-immune system (defensome) encompasses a growing number of defense lines that include well-studied innate and adaptive systems such as restriction-modification, CRISPR-Cas and abortive infection, but also newly found ones whose mechanisms are still poorly understood. While the abundance and distribution of defense systems is well-known in complete and culturable genomes, there is a void in our understanding of their diversity and richness in complex microbial communities. Here we performed a large-scale in-depth analysis of the defensomes of 7759 high-quality bacterial population genomes reconstructed from soil, marine, and human gut environments. We observed a wide variation in the frequency and nature of the defensome among large phyla, which correlated with lifestyle, genome size, habitat, and geographic background. The defensome’s genetic mobility, its clustering in defense islands, and genetic variability was found to be system-specific and shaped by the bacterial environment. Hence, our results provide a detailed picture of the multiple immune barriers present in environmentally distinct bacterial communities and set the stage for subsequent identification of novel and ingenious strategies of diversification among uncultivated microbes.

Date: 2024
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DOI: 10.1038/s41467-024-46489-0

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