Team:ETH Zurich/modeling/qs

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From the original set of reactions, we reduce the rate of production of mRNA<sub>Bxb1</Bxb1> as a Hill function of RLux instead of Mass action kinetics in terms of P<sub>LuxON</sub>  and P<sub>LuxOFF</sub>.
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From the original set of reactions, we reduce the rate of production of mRNA<sub>Bxb1</sub> as a Hill function of RLux instead of Mass action kinetics in terms of P<sub>LuxON</sub>  and P<sub>LuxOFF</sub>.
We assumed that the dimerization of RLux to DRLux is quick. Further, from literature, we found that DRLux is specific to DNA and the dissociation constant is low (k<sub>m</sub> = 0.1nM) {Reference}.  Therefore, we used quasi steady state approximation (QSSA) for the following two equations:
We assumed that the dimerization of RLux to DRLux is quick. Further, from literature, we found that DRLux is specific to DNA and the dissociation constant is low (k<sub>m</sub> = 0.1nM) {Reference}.  Therefore, we used quasi steady state approximation (QSSA) for the following two equations:

Revision as of 11:14, 12 October 2014

iGEM ETH Zurich 2014