Published December 7, 2019 | Version 1

Stochastic pulsing of gene expression enables the generation of spatial patterns in Bacillus subtilis biofilms

  • 1. Sainsbury Laboratory, University of Cambridge
  • 2. Microsoft Research

Description

Data extracted from confocal microscopy associated with the paper "Stochastic pulsing of gene expression enables the generation of spatial patterns in Bacillus subtilis biofilms"

Stochastic pulsing of gene expression can generate phenotypic diversity in a genetically identical population of cells, but it is unclear whether it has a role in the development of multicellular systems. Here, we show how stochastic pulsing of gene expression enables spatial patterns to form in a model multicellular system, Bacillus subtilis bacterial biofilms. We use quantitative microscopy and time-lapse imaging to observe pulses in the activity of the general stress response sigma factor σB in individual cells during biofilm development. Both σB and sporulation activity increase in a gradient, peaking at the top of the biofilm, even though σB represses sporulation. As predicted by a simple mathematical model, increasing σB expression shifts the peak of sporulation to the middle of the biofilm. Our results demonstrate how stochastic pulsing of gene expression can play a key role in pattern formation during biofilm development.

Notes

The work in the J.C.W.L. laboratory is further supported by a fellowship from the Gatsby Foundation (GAT3395/GLC).

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Additional details

Related works

Is cited by
Journal article: 10.1038/s41467-020-14431-9 (DOI)

Funding

European Commission
COUPLED GENE CIRCUIT - Dynamics, noise, and coupling in gene circuit modules 338060