Team:Grenoble/Modeling/Amplification/Stochastic/results
From 2012.igem.org
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We know the time we need to wait to get a response and the sensitivity of our device. But we don't know yet if that device is reliable. | We know the time we need to wait to get a response and the sensitivity of our device. But we don't know yet if that device is reliable. | ||
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- | To answer this question we generate 10 000 simulations of the Gillespie Algorithm when there is no CAMP at the initial point. After 400 minutes we evaluate the number of output signals to establish the percentage of false positives. We consider as "output signal" the production of 35 molecules of CA which represents the lower bound of molecules of CA produced after 400 minutes according to our last modeling (part 2). | + | To answer this question we generate 10 000 simulations of the Gillespie Algorithm when there is no CAMP at the initial point. After 400 minutes we evaluate the number of output signals to establish the percentage of false positives. We consider as "output signal" the production of 35 molecules of CA which represents the lower bound of molecules of CA produced for an initial concentration of CAMP equal to the sensitivity of our device after 400 minutes according to our last modeling (part 2). |
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Revision as of 08:06, 20 September 2012
Goal
In this part we would like to answer 3 questions thanks to the stochastic modeling.- How much time do we need to wait to get a response ?
- Is the sensitivity given by stochastic modeling the same as in ODE modeling ?
- What is the part of false positives ?