Team:ETH Zurich/modeling/qs

From 2014.igem.org

(Difference between revisions)
(Chemical Species)
Line 179: Line 179:
These assumptions hold true for all input LuxAHL and LasAHL concentrations.  
These assumptions hold true for all input LuxAHL and LasAHL concentrations.  
 +
== Retrieving degradation rates==
 +
 +
We are considering quorum sensing experiments with riboregulator, and this time we look at dynamic curves.
 +
 +
Curve
 +
 +
 +
By adding an additional quasi steady state assumptions on R<sub>Lux</sub>, and neglecting degradation of R<sub>Lux</sub> compared to its unbinding rate, we can find :
 +
 +
$$\frac{d[mRNABxb1]}{dt}=LeakyLux+\frac{k_mRNABxb1 \alpha_{LuxR}^2}{d_{LuxR}^2(Km_{Lux}^2+\alpha_{LuxR})}\frac{ [AHL]^2}{K_{mAHL}}-d_{GFP}[GFP]
 +
}$$
 +
 +
$$\text{with} K_{mAHL}=\frac{K_{mLux}^2 k_{-RLux}}{k_{RLux}(K_{mLux}^2+\alpha_{LuxR}/d_{LuxR})}$$
<html></article></html>
<html></article></html>

Revision as of 00:56, 17 October 2014

iGEM ETH Zurich 2014