Difference between revisions of "Team:Paris Bettencourt/Modeling"
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{{Paris_Bettencourt/header}} | {{Paris_Bettencourt/header}} | ||
{{Paris_Bettencourt/menu}} | {{Paris_Bettencourt/menu}} | ||
− | {{Paris_Bettencourt/ | + | {{Paris_Bettencourt/banner|page_id=modeling|page_name=Modeling}} |
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<h2>Introduction</h2> | <h2>Introduction</h2> | ||
− | Based on a set of ordinary differential equations (ODE) describing the kinetics of | + | <div class="column-left"> |
− | differentiation rate. | + | Based on a set of ordinary differential equations (ODE) describing the kinetics of cell differentiation, we designed a model to find the best differentiation rate. |
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− | First we developed a deterministic algorithm based on the ordinary differential | + | First we developed a deterministic algorithm based on the ordinary differential equation. |
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Then we found out that a stochastic algorithm could be another solution to solve our problem. | Then we found out that a stochastic algorithm could be another solution to solve our problem. | ||
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− | For system involving large cell counts, the ordinary differential equations model gives an accurate representation of the behavior. But with small cell | + | </div> |
− | counts, the stochastic and discrete method has a significant influence on the observed behaviour. | + | |
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+ | For a system involving large cell counts, the ordinary differential equations model gives an accurate representation of the behavior. But with small cell counts, the stochastic and discrete method has a significant influence on the observed behaviour. | ||
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− | + | This led us to write both a deterministic program based on the mass action law and a stochastic program based on Gillespie’s stochastic simulation algorithm (SSA). With these two programs we obtain an accurate analysis of vitamin production. | |
− | simulation algorithm (SSA). With these two programs we obtain an accurate analysis of | + | |
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+ | </div> | ||
<h2>Deterministic model</h2> | <h2>Deterministic model</h2> | ||
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We conceived a simple model with the minimum number of parameters. | We conceived a simple model with the minimum number of parameters. | ||
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− | We | + | We found seven significant parameters for our model. |
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<ul> | <ul> | ||
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\] | \] | ||
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<h3>Vitamin optimization</h3> | <h3>Vitamin optimization</h3> | ||
Our goal is to optimize the vitamin production. We can only change three parameters : \(k_{1}\), \(MC_0\) and \(DC_0\). | Our goal is to optimize the vitamin production. We can only change three parameters : \(k_{1}\), \(MC_0\) and \(DC_0\). | ||
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This result seems relevant. The model does not take into account the cells' death and the nutrients present in the medium. | This result seems relevant. The model does not take into account the cells' death and the nutrients present in the medium. | ||
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<h2>Stochastic model</h2> | <h2>Stochastic model</h2> | ||
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<h2>Introduction</h2> | <h2>Introduction</h2> | ||
− | As explained | + | As explained in the modeling section, this program models the cell population evolution with mother cell differentiation and cell division. |
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In order to make this model and code accessible, understandable and editable by everyone, we have created this software section. | In order to make this model and code accessible, understandable and editable by everyone, we have created this software section. | ||
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For more information concerning the model see the modeling section. | For more information concerning the model see the modeling section. | ||
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</html> | </html> | ||
{{Paris_Bettencourt/footer}} | {{Paris_Bettencourt/footer}} |
Latest revision as of 18:44, 28 October 2015