Global impact of mature biofilm lifestyle on Escherichia coli K-12 gene expression
Article first published online: 16 DEC 2003
Volume 51, Issue 3, pages 659–674, February 2004
How to Cite
Beloin, C., Valle, J., Latour-Lambert, P., Faure, P., Kzreminski, M., Balestrino, D., Haagensen, J. A. J., Molin, S., Prensier, G., Arbeille, B. and Ghigo, J.-M. (2004), Global impact of mature biofilm lifestyle on Escherichia coli K-12 gene expression. Molecular Microbiology, 51: 659–674. doi: 10.1046/j.1365-2958.2003.03865.x
- Issue published online: 16 DEC 2003
- Article first published online: 16 DEC 2003
- Accepted 7 October, 2003.
The formation of biofilm results in a major lifestyle switch that is thought to affect the expression of multiple genes and operons. We used DNA arrays to study the global effect of biofilm formation on gene expression in mature Escherichia coli K-12 biofilm. We show that, when biofilm is compared with the exponential growth phase, 1.9% of the genes showed a consistent up- or downregulation by a factor greater than two, and that 10% of the E. coli genome is significantly differentially expressed. The functions of the genes induced in these conditions correspond to stress response as well as energy production, envelope biogenesis and unknown functions. We provide evidence that the expression of stress envelope response genes, such as the psp operon or elements of the cpx and rpoE pathways, is a general feature of E. coli mature biofilms. We also compared biofilm with the stationary growth phase and showed that the biofilm lifestyle, although sharing similarities with the stationary growth phase, triggers the expression of specific sets of genes. Using gene disruption of 54 of the most biofilm-induced genes followed by a detailed phenotypic study, we validated the biological relevance of our analysis and showed that 20 of these genes are required for the formation of mature biofilm. This group includes 11 genes of previously unknown function. These results constitute a comprehensive analysis of the global transcriptional response triggered in mature E. coli biofilms and provide insights into its physiological signature.