Team:Paris/Modeling/Oscillations

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(Difference between revisions)
(Biochemical Assumptions)
(Biochemical Assumptions)
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==Biochemical Assumptions==
==Biochemical Assumptions==
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We do not take into acount the phenomenon of '''traduction'''.
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We do not take into acount the phenomenon of '''translation''' : we consider the '''transduction''' as leading directly to the protein.
We assume that the expression rate of an '''inducible promoter''' is proportionnal to the number of created complexes '''promoter-inducer'''.
We assume that the expression rate of an '''inducible promoter''' is proportionnal to the number of created complexes '''promoter-inducer'''.

Revision as of 17:44, 29 July 2008

Oscillations

We just keep here the following circuit, constituing the Oscillations.

Model Oscillations.png

Biochemical Assumptions

We do not take into acount the phenomenon of translation : we consider the transduction as leading directly to the protein.

We assume that the expression rate of an inducible promoter is proportionnal to the number of created complexes promoter-inducer. In the same way, a repressible promoter has got a basal expression, and its expression is proportionnal to the number of free promoters.

Then, in order to consider theses complexes and free promoters, we just consider the complexation reaction between the transcription factor and the promoter. If we consider that the steady-states of these equations are reached much quickly than the proteins are produced, that leads to promoter's expressions well described by Hill function. We use that property to get (see estimations of parameters) different constants involved in the equations below, but we will simulate the complexation reactions in our implementation, too.

Endly, we simulate the creation of AHL that leads to the negative feed-back, but we still keep the intra cellular observation scale. We just add the hypothesis that all cells follow this determined behaviour, at the same speed, so that the concentration inside and outside the cell are always the same.

Resulting Equations