Bacterial c-di-GMP plays a key role in the evolution of host-association
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Abstract
Most microbes evolve faster than their hosts and should therefore drive evolution of host-microbe interactions 1–3 . However, relatively little is known about the characteristics that define the adaptive path of microbes to host-association. In this study we have identified microbial traits that mediate adaptation to hosts by experimentally evolving the bacterium Pseudomonas lurida with the nematode Caenorhabditis elegans . We repeatedly observed the evolution of beneficial host-specialist bacteria with improved persistence in the nematode, achieved by mutations that uniformly upregulate the universal second messenger c-di-GMP. We subsequently upregulated c-di-GMP in different Pseudomonas species, consistently causing increased host-association. Comparison of Pseudomonad genomes from various environments revealed that c-di-GMP underlies adaptation to a variety of hosts, from plants to humans, suggesting that it is fundamental for establishing host-association.
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