Team:ETH Zurich/modeling/diffmodel

From 2014.igem.org

(Difference between revisions)
(Set of equations used)
Line 102: Line 102:
We have used a function of logistic growth function for the number of cells:
We have used a function of logistic growth function for the number of cells:
-
$$ \frac{N_0 N_m e^{rt}}{N_m+N_0(e^{rt}-1)} $$
+
$$ N = \frac{N_0 N_m e^{rt}}{N_m+N_0(e^{rt}-1)} $$
$$\text{where } N_0 \text{ is the initial number of cells per bead} $$
$$\text{where } N_0 \text{ is the initial number of cells per bead} $$
$$N_m \text{ is the maximum number of cells per bead}$$
$$N_m \text{ is the maximum number of cells per bead}$$
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$$
$$
\begin{align*}
\begin{align*}
-
\frac{d[AHLext]}{dt} &= N \alpha\  D_m \ (AHL_{int}-AHL_{ext}) -d_{AHLext}[AHL_{ext}]\\
+
\frac{d[AHLext]}{dt} &= \frac{N_0 N_m e^{rt}}{N_m+N_0(e^{rt}-1)} \alpha\  D_m \ (AHL_{int}-AHL_{ext}) -d_{AHLext}[AHL_{ext}]\\
\frac{d[AHLint]}{dt} &= Dm (AHL_{ext}-AHL_{int}) + k_{-RLux}[R_{Lux}]-k_{RLux}[LuxAHL_{int}][LuxR]-d_{AHLint}[AHL_{int}]\\
\frac{d[AHLint]}{dt} &= Dm (AHL_{ext}-AHL_{int}) + k_{-RLux}[R_{Lux}]-k_{RLux}[LuxAHL_{int}][LuxR]-d_{AHLint}[AHL_{int}]\\
\frac{d[LuxR]}{dt} &= \alpha_{LuxR} -k_{RLux}[AHL_{int}][LuxR] + k_{-RLux}[RLux] - d_{LuxR}[LuxR] \\
\frac{d[LuxR]}{dt} &= \alpha_{LuxR} -k_{RLux}[AHL_{int}][LuxR] + k_{-RLux}[RLux] - d_{LuxR}[LuxR] \\

Revision as of 02:42, 16 October 2014

iGEM ETH Zurich 2014