Abstract
Many myxobacteria initiate a process of multicellular fruiting body development upon starvation, but key features of the regulatory network controlling the transition from growth to development remain obscure. Previous work with Myxococcus xanthus identified the first small RNA (sRNA) regulator (Pxr) known to serve as a gatekeeper in this life history transition, as it blocks development when nutrients are abundant. In the present study, a screen for spontaneous mutants of M. xanthus was developed that revealed a two-component system operon (encoding a histidine kinase and a σ54 response regulator) associated with the production and processing of Pxr sRNA. This discovery broadens our knowledge of early developmental gene regulation and also represents an evolutionary integration of two-component signaling and sRNA gene regulation to control a bacterial social trait.
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