Team:ETH Zurich/modeling/diffmodel

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m (Dynamics by row)
m (Initial conditions determined by bead preparation step)
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The geometry is a simple bead in a bigger compartment filled with calcium chloride. We look at the concentrations at the middle of the bead. Initial concentration of LuxR before bead diffusion starts is a classical steady state aLuxR/dLuxR
The geometry is a simple bead in a bigger compartment filled with calcium chloride. We look at the concentrations at the middle of the bead. Initial concentration of LuxR before bead diffusion starts is a classical steady state aLuxR/dLuxR
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[[File:ETHZ Signaling molecules.png|600px]]
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[[File:ETHZ Signaling molecules.png|600px|center]]
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[[File:ETHZ Regulators and GFP.png|600px]]
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[[File:ETHZ Regulators and GFP.png|600px|center]]
Extracellular AHL diffuses very fast through the membrane, which makes intracellular AHL increase, until both reach the same value and diffusion through the membrane reaches an equilibrium. From this point on AHL starts to bind to LuxR to form RLux, so AHL decreases, until RLux triggers enough production of LuxI which catalyses again AHL production, and makes AHL concentration become stable.
Extracellular AHL diffuses very fast through the membrane, which makes intracellular AHL increase, until both reach the same value and diffusion through the membrane reaches an equilibrium. From this point on AHL starts to bind to LuxR to form RLux, so AHL decreases, until RLux triggers enough production of LuxI which catalyses again AHL production, and makes AHL concentration become stable.

Revision as of 08:27, 16 October 2014

iGEM ETH Zurich 2014