Team:Amsterdam/achievements/stochastic model

From 2012.igem.org

(Difference between revisions)
(ODE Model definition)
(ODE Model definition)
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FP-mRNA results only from leaky expression from the operons $O$ with leakiness rate $k_{\text{sMFP}}$ and is degraded with rate $\lambda_{\text{MFP}}$:
FP-mRNA results only from leaky expression from the operons $O$ with leakiness rate $k_{\text{sMFP}}$ and is degraded with rate $\lambda_{\text{MFP}}$:
$$
$$
-
\frac{mFP}{dt} = k_{\text{sMFP}} \cdot \text{O} - \lambda_{\text{MFP}} \cdot \text{MFP}
+
\frac{d\text{mFP}}{dt} = k_{\text{sMFP}} \cdot \text{O} - \lambda_{\text{MFP}} \cdot \text{MFP}
$$
$$
FP is created from mRNA and with rate $k_{\text{sFP}}$ and degraded with rate $\lambda_{\text{FP}}$:
FP is created from mRNA and with rate $k_{\text{sFP}}$ and degraded with rate $\lambda_{\text{FP}}$:
$$
$$
-
\frac{FP}{dt} = k_{\text{sFP}} \cdot \text{MFP} - \lambda_{\text{FP}} \cdot \text{FP}
+
\frac{d\text{FP}}{dt} = k_{\text{sFP}} \cdot \text{MFP} - \lambda_{\text{FP}} \cdot \text{FP}
$$
$$
Unmethylated plasmids are created from both unmethylated and methylated plasmids; methylation is not transferred to daughter plasmid during plasmid replication in prokaryotes. Plasmid growth continues until the plasmid copy number $Ca$ has been reached:
Unmethylated plasmids are created from both unmethylated and methylated plasmids; methylation is not transferred to daughter plasmid during plasmid replication in prokaryotes. Plasmid growth continues until the plasmid copy number $Ca$ has been reached:
$$
$$
-
\frac{\text{PlasU}}{dt} = k_{\text{Plas}}  (1 - \frac{(\text{PlasU} + \text{PlasM})}{Ca}) - k_{cFP} \cdot \text{FP} \cdot \text{PlasU} - \lambda_{\text{Plas}} \cdot \text{PlasU},
+
\frac{d\text{PlasU}}{dt} = k_{\text{Plas}}  (1 - \frac{(\text{PlasU} + \text{PlasM})}{Ca}) - k_{cFP} \cdot \text{FP} \cdot \text{PlasU} - \lambda_{\text{Plas}} \cdot \text{PlasU},
$$
$$
Methylated plasmids result from the fusion protein finding an umethylated plasmid and methylating it:
Methylated plasmids result from the fusion protein finding an umethylated plasmid and methylating it:
$$
$$
-
\frac{\text{PlasM}}{dt} = k_{c\text{FP}} \cdot \text{FP} \cdot \text{PlasU} - \lambda_{\text{PlasM}} \cdot \text{PlasM}
+
\frac{d\text{PlasM}}{dt} = k_{c\text{FP}} \cdot \text{FP} \cdot \text{PlasU} - \lambda_{\text{PlasM}} \cdot \text{PlasM}
$$
$$
The amount of (repressed) operons is identical to the amount of plasmids currently in the system:
The amount of (repressed) operons is identical to the amount of plasmids currently in the system:

Revision as of 17:39, 26 September 2012