Team:Grenoble/Projet/Design/toggle

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Grenoble 2011, Mercuro-Coli iGEM

Toggle switch explanation

In a few words

Our project is based on a toggle switch system. So we have to explain how it works. Basically it corresponds to an irreversible choice between two pathways depending on the environment. In reality, the reversibility is possible but very difficult to obtain because of the strength of the interactions and the stability of the system (defined by hysteresis * insérer un lien ici*).

Genetically, what is happening ?

Contrary to us, bacteria can’t think or make voluntary choices. So how can they choose a pathway? Through our project, we are creating a genetic system which helps bacteria to take such a decision. For that, we exploit chemical components of the environment which influence the bacterial behaviour. By taking into account two proteins repressing each other’s expression (LacI and XR), we create the fundaments of a toggle system that can switch when using two inducers (IPTG and X) in the medium.

	Suppose that initially the genes in the Toggle Switch are both expressed.
	If the effect of LacI is dominant through the presence of a high level of IPTG, the bacteria will synthesise more XR and switch off the expression of lacI
	The bacteria toggle to one side and totally block the expression of lacI.
	We need to use very high level of the second inducer X to try to switch the toggle back because the active pathway creates an excess of XR, inhibiting lacI expression.
	The amount of X would have to be so high as to relieve the inhibition of lacI expression and consequently turn off the other pathway.

Importance of Toggle Switch for 'Le Projet' ?

Importance of Toggle Switch for Le Projet ? Our Toggle switch is composed by the two repressors (LacI and TetR), also the ways express ether a Quorum Sensing receptor (CinR) or the Quorum Sensing synthesise enzyme (CinI). By this ways the bacterium will engage itself in secretion path or receptor path.

(missing picture)

That’s why we use Toggle Switch to have two different behaviours in one cell type, and simplify the immobilisation on plate. We use cell’s communication to finalise our biosensor so we need a homogeneous repartition of ‘sender cell’ and ‘receptor cell’ to have a good communication and response. So locate specifically (homogeneously) two type of cell, will be very hard work contrary to one ‘differentiable type cell’ that we can locate uniformly on the plate.