Abstract

Viruses are parasites that infect all living organisms, and bacteria are no exception. To defend themselves against their viruses (phages), bacteria have developed numerous and sophisticated defense mechanisms, our understanding of which is rapidly growing. In the 2000s, only a handful of mechanisms were known and only two of them seemed to be found in most bacteria. In 2018, a new key method based on genome analysis revealed that there were likely many others. Indeed, over the past five years, more than 150 new mechanisms have been discovered. It is now estimated that there are probably thousands. This remarkable diversity, paralleled with the tremendous viral diversity, is evident both in terms of possible combinations of systems in bacterial genomes and in molecular mechanisms. One of the most surprising observations emerging from the exploration of this diversity is the discovery of striking similarities between certain bacterial defense systems and antiviral systems in humans, as well as plant (and eukaryotes in general) immune systems. Contrary to the previously accepted paradigm, organisms as diverse as fungi, plants, bacteria and humans share certain molecular strategies to fight viral infections, suggesting that an underestimated part of eukaryotic antiviral immunity could have evolved from bacterial antiviral defense systems.

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