Team:Grenoble-EMSE-LSU/Project/Modelling/Building

From 2013.igem.org

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<h3>Second model </h3>
<h3>Second model </h3>
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<p> We consider maturation to be a simple chemical reaction, and the conversion of immature Killer Red to the mature form to be adequately described by first order reaction kinetics. A new variable is needed : </p>
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<p> We consider maturation to be a simple chemical reaction, and the conversion of immature Killer Red to the mature form to be adequately described by first-order reaction kinetics. A new variable is needed: </p>
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<p>$\bullet$ $K_m$ the amount of mature KillerRed inside the living bacteria</p>
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<p>$\bullet$ $K_m$ the amount of mature KillerRed inside the living bacteria per milliter of cell suspension.</p>
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<p>$\bullet$ $K_i$ the amount of immature KillerRed inside the living bacteria</p>
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<p>$\bullet$ $K_i$ the amount of immature KillerRed inside the living bacteria per milliter of cell suspension.</p>
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<p>Where :</p>
<p>Where :</p>
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<p> $\diamond K_{Dm}$ the amount of immature KillerRed inside dead bacteria.</p>
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<p> $\diamond K_{Dm}$ the amount of immature KillerRed inside dead bacteria per milliter of cell suspension.</p>
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<p> $\diamond K_{Dm}$ the amount of mature KillerRed inside dead bacteria.</p>
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<p> $\diamond K_{Dm}$ the amount of mature KillerRed inside dead bacteria per milliter of cell suspension.</p>
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<h3> Comparison with experiments</h3>
<h3> Comparison with experiments</h3>
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<p> The curves drawn from the model gives the right trend for the experiments : the lag of the reaction, the peak of fluorescence short after light is switched on and then the swift decrease of fluorescence on the long term are qualitatively described. </p>
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<p> The curves drawn from the model gives the right trend, observed in the experiments: the lag of the reaction, the peak of fluorescence short after light is switched on and then the swift decrease of fluorescence in the long term are qualitatively described. </p>
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<p>Nonetheless, it is impossible to get a good fit between the prediction of the model and the experiment. The maturation step alone doesn't explain why the production of KillerRed is so high two hours after the beginning of the illumination and the decrease of fluorescence is so rapid four hours after the illumination.</p>
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<p>Nonetheless, it is impossible to get a good fit between the prediction of the model and the experiment. The maturation step alone does not explain why the production of KillerRed is so high two hours after the beginning of the illumination and the decrease of fluorescence is so rapid four hours after the illumination.</p>
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Revision as of 23:08, 1 October 2013

Grenoble-EMSE-LSU, iGEM


Grenoble-EMSE-LSU, iGEM

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