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

From 2013.igem.org

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<h2 id="PoF">Proof of Concept</h2>
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<h2 id="RbL">Regulation by Light</h2>
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<p>We have shown in the <a href="https://2013.igem.org/Team:Grenoble-EMSE-LSU/Project/Modelling/Building#AnaSol">construction of the model</a> that it was theorically possible to stabilize the amount of living bacteria with a constant light. With the complete model, this is still true. Even i</p>
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<p>This is how it works:</p>
<p>This is how it works:</p>
<p>$1$. For the first point, we have all the datas : the fluorescence $I(0)$and the amount of living cells $C(0)$(no bacteria has died, so $C(0)=OD_{600}$).</p>
<p>$1$. For the first point, we have all the datas : the fluorescence $I(0)$and the amount of living cells $C(0)$(no bacteria has died, so $C(0)=OD_{600}$).</p>
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<p>$2$. A illumination $I_1(t)$ is created, it is supposed, according to the model, drive $C(t)$ to its setpoint $C_{target}$. The fluorescence $F_1(t)$ and the amount of cells $C_1(t) are also estimated.</p>
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<p>$2$. A illumination $I_1(t)$ is created, it is supposed, according to the model, drive $C(t)$ to its setpoint $C_{target}$. The fluorescence $F_1(t)$ and the amount of cells $C_1(t)$ are also estimated.</p>
<p>$3$. For a determinate time $\tau$, around 10 minutes to have a start of effect, the experiment will be run with the illumination $I_1(t)$</p>
<p>$3$. For a determinate time $\tau$, around 10 minutes to have a start of effect, the experiment will be run with the illumination $I_1(t)$</p>
<p>$4$. At time $t=\tau$, the real fluorescence, $F(\tau)$, is measured and compared to the estimated one, $F_1(\tau)$. </p>
<p>$4$. At time $t=\tau$, the real fluorescence, $F(\tau)$, is measured and compared to the estimated one, $F_1(\tau)$. </p>

Revision as of 18:11, 2 October 2013

Grenoble-EMSE-LSU, iGEM


Grenoble-EMSE-LSU, iGEM

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