MicrobiologyOpen (Jun 2021)
Deletion of Rap‐Phr systems in Bacillus subtilis influences in vitro biofilm formation and plant root colonization
Abstract
Abstract Natural isolates of the soil‐dwelling bacterium Bacillus subtilis form robust biofilms under laboratory conditions and colonize plant roots. B. subtilis biofilm gene expression displays phenotypic heterogeneity that is influenced by a family of Rap‐Phr regulatory systems. Most Rap‐Phr systems in B. subtilis have been studied independently, in different genetic backgrounds and under distinct conditions, hampering true comparison of the Rap‐Phr systems’ impact on bacterial cell differentiation. Here, we investigated each of the 12 Rap‐Phr systems of B.subtilis NCIB 3610 for their effect on biofilm formation. By studying single ∆rap‐phr mutants, we show that despite redundancy between the cell–cell communication systems, deletion of each of the 12 Rap‐Phr systems influences matrix gene expression. These Rap‐Phr systems therefore enable fine‐tuning of the timing and level of matrix production in response to specific conditions. Furthermore, some of the ∆rap‐phr mutants demonstrated altered biofilm formation in vitro and colonization of Arabidopsis thaliana roots, but not necessarily similarly in both processes, indicating that the pathways regulating matrix gene expression and other factors important for biofilm formation may be differently regulated under these distinct conditions.
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