Team:Paris/Modeling

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= APE (APE Parameters Estimation) Approach =
= APE (APE Parameters Estimation) Approach =
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The second approach was motivated by our will to characterize our system in the most precise way. Each step is taken into account at a fundamental kinetic processes level or at a more global level by a Hill function which is
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The second approach was motivated by our will to characterize our system in the most precise way.
 +
Each step is taken into account at a fundamental kinetic processes level or at a more global level by a Hill function which is a simple way to take into account multiple interactions and more especially cooperative binding.
 +
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Specific experiments focused on finding relevant parameters designed and planned.
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Noise parameters included in the set of parameters to try to translate the natural entropy into the model.
  What is at stake here is to determine the real parameters that govern the dynamics of our system.
  What is at stake here is to determine the real parameters that govern the dynamics of our system.
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** First of all, you can find [[Team:Paris/Modeling/estimation|here]] the description of how we intend to find relevent parameters for our models.
 
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** We will need many parameters to fully describe the system according to the asumptions of the previous models. A natural way to have access to their value, after looking them up in the litterature, is to design specific experiments. As a consequence of the characterization of the promoters activity, some Hill functions could be obtained.
 
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** In a second step, we shall try to find a way to translate the natural noise to our model, given the numerical values obtained in the wet lab.
 
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*** Firstly, we could compute the standard deviation for each set of points at a given inducer concentration, and to normalize it according to the mean value of the set itself.
 
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*** The next stage is to get the mean of those normalized sd values at every inducer concentration.
 
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*** Since the β parameter of the Hill function has a linear influence, it is possible to translate this error directly on the parameter; for example: '''β_err = random('norm',β,err)''' where '''β''' is the estimated value of the parameter and '''err''' is the mean of the normalized standard deviations of the experimental values.
 
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*** For each cell in the model, we could use such noised values for Vmax parameter, in order to reproduce randomness estimated in the wet lab.
 
<center>[[Team:Paris/Modeling/APE|Read more ...]]</center>
<center>[[Team:Paris/Modeling/APE|Read more ...]]</center>
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<center>([[Team:Paris/Modeling/Bibliography|Bibliographic References]] - [[Team:Paris/Modeling/linear_approach|Depreciated BoB page]] - [[Team:Paris/Modeling/hill_approach|Depreciated APE page]] - [[Team:Paris/Modeling/estimation|Depreciated Estimation page]] - [[Team:Paris/Modeling/Roadmap|Depreciated Roadmad page]])</center>
<center>([[Team:Paris/Modeling/Bibliography|Bibliographic References]] - [[Team:Paris/Modeling/linear_approach|Depreciated BoB page]] - [[Team:Paris/Modeling/hill_approach|Depreciated APE page]] - [[Team:Paris/Modeling/estimation|Depreciated Estimation page]] - [[Team:Paris/Modeling/Roadmap|Depreciated Roadmad page]])</center>

Revision as of 15:30, 27 August 2008

We had different approaches to model the biological system. We found interesting to explain at least two ways that we went throught. It is important to understand that both models aim at different goals in the process of understanding our system.

BOB (Based On Bibliography) Approach

Our first approach is quite rough and simple but effective. The goal here was to guess the behavior of our Bacteri'OClock, considering the overall system. Since it is a preliminary approach, we could not yet fill the model with data from the wet lab. This is why our work is mainly based on a bibliographic work, which allow us to use parameters and datas from scientific articles.

The keys points of this approach:

  • Simplicity for itself is not so much important, what we were looking for was understandability at first.
  • We used linear equations as much as possible: when it as already been proved in a paper than one interaction is efficiently modeled with an elementary expression, we tried to keep it.
  • Too many parameters in a model means less relevancy. In addition, the more parameters you have, the hardest it becomes to tune the system in order to have the behavior you are looking for.
Read more ...

APE (APE Parameters Estimation) Approach

The second approach was motivated by our will to characterize our system in the most precise way.

Each step is taken into account at a fundamental kinetic processes level or at a more global level by a Hill function which is a simple way to take into account multiple interactions and more especially cooperative binding.

Specific experiments focused on finding relevant parameters designed and planned. Noise parameters included in the set of parameters to try to translate the natural entropy into the model.

What is at stake here is to determine the real parameters that govern the dynamics of our system.
Read more ...


(Bibliographic References - Depreciated BoB page - Depreciated APE page - Depreciated Estimation page - Depreciated Roadmad page)