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Adaptive laboratory evolution reveals regulators involved in repressing biofilm development as key players in <i>Bacillus subtilis</i> root colonization

Maude Pomerleau, Vincent Charron‐Lamoureux, Lucille Léonard, Frédéric Grenier, Sébastien Rodrigue, Pascale B. Beauregard

2024mSystems30 citationsDOIOpen Access PDF

Abstract

In this study, we aimed to enhance the abilities of the plant-beneficial bacterium Bacillus subtilis to colonize plant roots in the presence of competing Pseudomonas bacteria. To achieve this, we conducted adaptive laboratory experiments, allowing Bacillus to evolve in a defined environment. We successfully obtained strains of Bacillus that were more effective at colonizing plant roots than the ancestor strain. To identify the genetic changes driving this improvement, we sequenced the genomes of these evolved strains. Interestingly, mutations that facilitated the formation of robust biofilms on roots were predominant. Many of these evolved Bacillus isolates also displayed the remarkable ability to outcompete Pseudomonas species. Our research sheds light on the mutational paths selected in Bacillus subtilis to thrive in root environments and offers exciting prospects for improving beneficial traits in plant growth-promoting microorganisms. Ultimately, this could pave the way for the development of more effective biofertilizers and sustainable agricultural practices.

Topics & Concepts

Bacillus subtilisBiofilmColonizationKey (lock)BiologyMicrobiologyEcologyBacteriaGeneticsPlant-Microbe Interactions and ImmunityLegume Nitrogen Fixing SymbiosisMycorrhizal Fungi and Plant Interactions
Adaptive laboratory evolution reveals regulators involved in repressing biofilm development as key players in <i>Bacillus subtilis</i> root colonization | Litcius