Phosphorylated DegU manipulates cell fate differentiation in the Bacillus subtilis biofilm

Abstract

Cell differentiation is ubiquitous and facilitates division of labor and development. Bacteria are capable of multicellular behaviors that benefit the bacterial community as a whole. A striking example of bacterial differentiation occurs throughout the formation of a biofilm. During Bacillus subtilis biofilm formation, a subpopulation of cells differentiates into a specialized population that synthesizes the exopolysaccharide and the TasA amyloid components of the extracellular matrix. The differentiation process is indirectly controlled by the transcription factor Spo0A that facilitates transcription of the eps and tapA (tasA) operons. DegU is a transcription factor involved in regulating biofilm formation. Here, using a combination of genetics and live single- cell cytological techniques, we define the mechanism of biofilm inhibition at high levels of phosphorylated DegU (DegUP) by showing that transcription from the eps and tapA promoter regions is inhibited. Data demonstrating that this is not a direct regulatory event are presented. We demonstrate that DegUP controls the frequency with which cells activate transcription from the operons needed for matrix biosynthesis in favor of an offstate. Subsequent experimental analysis led us to conclude that DegUP functions to increase the level of Spo0AP, driving cell fate differentiation toward the terminal developmental process of sporulation. © 2014 Marlow et al.