Team:Groningen/Expression model
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Revision as of 19:23, 1 September 2010
Expression
Introduction
To form a biofilm with hydrophobic surface properties, expression of the hydrophobic proteins(in our case chaplins) should coincide with the late stages of biofilm formation. There are several reasons for this: mainly because not all bacteria participate in biofilm formation, there is significant cell differentiation prior to the formation of a biofilm. Also the expression of chaplins should not interfere with the growth speed and biofilm formation. The latter could be problematic due to the hydrophobic properties of the chaplins which might interfere with the formation of the extracellular matrix(ECM). We found that the ComXPA quorum sensing system and related gene expressions might suitable for this purpose.
ComXPA quorum sensing system
Quorum sensing in bacteria means that bacteria ‘talk’ to each other via signaling molecules. These molecules accumulate extracellularly as cultures grow to high cell densities. The response to these signaling molecules can result in dramatic changes in gene expression. In Bacillus subtilis a quorum sensing pathway named ComX-ComP-ComA is present which regulates the development of genetic competence. The ComX pheromone is a 10-amino-acid peptide which is secreted.
When ComX accumulates extracellularly, it stimulates the activity of a membrane bound receptor histidine kinase called ComP. ComP then autophosphorylates and activates the response regulator ComA by donating a phosphate molecule. The activated ComA functions as a transcriptional activator and activates the expression of 20 genes directly and the expression of another 150 genes is affected indirectly. The affected genes seem to have three different functions: the coordination of physiological changes involved in developmental pathways, the production of extracellular products and the enhancement of survival, growth and colonization. ComA directly activates the srfA operon which encodes enzymes needed for the production of the lipopeptide surfactin. The binding site for the activated ComA is known, the consensus sequence is a 12 bp palingdrome with a 4-5 bp spacer (TTGCGGNNNNCCGCAA). A DNA microarray study determined which genes were mostly activated by the active ComA <ref>Comella N, Grossman AD., Conservation of genes and processes controlled by the quorum response in bacteria: characterization of genes controlled by the quorum-sensing transcription factor ComA in Bacillus subtilis, Molecular Microbiology (2005) 57 (4), 1159–1174. http://www.ncbi.nlm.nih.gov/pubmed/16091051 </ref>. For our project we chose to link our chaplins to the promoter of the srfA gene which was most activated, which was srfAA.
Surfactin and biofilm formation
Recently, it has been found that not all bacteria respond to the signaling molecules in the same way. It was shown that biofilm formation in Bacillus subtilis involves paracrine signaling ( Lopez et al. ). Although most cells produce and secrete ComX, only a subpopulation of the cells is triggered to make surfactin. Surfactin serves as signaling molecule and the cells which are not able to make surfactin, respond to surfactin by making extracellular matrix components for the biofilm.
It is believed that the extracellular matrix interferes with the interaction between ComX and ComP and therefore prevents surfactin production in extracellular matrix producing cells. In a mutant which did not express extracellular matrix proteins, the surfactin expression was more than three times higher.
During our project we would like to explore the possibilities of expressing the chaplins directly as a extracellular matrix protein. This could be done by using the yqxM promotor, responsible for TasA expression, in both a TasA (null mutant) and a wild type strain.
References
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