Team:ETH Zurich/modeling/diffmodel

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(Geometry and boundary conditions)
(Geometry and boundary conditions)
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[[File:ETHZ comsol geometry.png|left|610px|thumb|Geometry used for simulation on Comsol Multiphysics]]
[[File:ETHZ comsol geometry.png|left|610px|thumb|Geometry used for simulation on Comsol Multiphysics]]
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In order to fulfill these conditions in Comsol Multiphysics, the cells are not drawn but instead, beads are considered as compartments with a certain density of cells. Rates of diffusion through the membrane are added as reaction rates and intracellular species are contained in beads via a Newmann's boundary condition applied to the surface of the beads, that is :
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In order to fulfill these conditions, a Newmann's boundary condition is applied to the surface of the beads, that is :
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$$ \nabla C . \textbf{n} =0$$
$$ \nabla C . \textbf{n} =0$$
$$\text{for all species except extracellular AHL}$$
$$\text{for all species except extracellular AHL}$$
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$$\text{for every vector n normal to the surface of a cell}$$
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$$\text{for every vector n normal to the surface of a bead}$$
== Species and reactions==
== Species and reactions==

Revision as of 21:54, 15 October 2014

iGEM ETH Zurich 2014