Team:Montreal/Modeling

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''Using coupled differential equations, we are modeling the repressilator, which is a network of three genes, whose product proteins are repressing each other's growth. This cycle is taking place in each of a colony of cells, who communicate amongst themselves by exchanging an autoinducer molecule. The model attempts to take into account a sparse, heterogeneous distribution of cells with depletion of the autoinducer molecule and leakage.''
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Using coupled differential equations, we are modeling the repressilator, which is a network of three genes, whose product proteins are repressing each other's growth. This cycle is taking place in each of a colony of cells, who communicate amongst themselves by exchanging an autoinducer molecule. The model attempts to take into account a sparse, heterogeneous distribution of cells with depletion of the autoinducer molecule and leakage.
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|[[Image:Theoteam1.jpg|right|frame|Theory Team (from left to right): Alexandra Ortan and Vincent Quenneville-Bélair]]
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|[[Image:Theoteam1.jpg|right|frame|Theory Team: Vincent Quenneville-Bélair and Alexandra Ortan]]
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Revision as of 22:35, 16 June 2008

Home The Team The Project Parts Submitted to the Registry Modeling Notebook

Using coupled differential equations, we are modeling the repressilator, which is a network of three genes, whose product proteins are repressing each other's growth. This cycle is taking place in each of a colony of cells, who communicate amongst themselves by exchanging an autoinducer molecule. The model attempts to take into account a sparse, heterogeneous distribution of cells with depletion of the autoinducer molecule and leakage.

Theory Team: Vincent Quenneville-Bélair and Alexandra Ortan