Team:Amsterdam/achievements/stochastic model

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(Difference between revisions)
(Stochastic model definition)
(Steady state parameter scanning)
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Our experimental results can thus be explained by any combination of the two parameters which which has an intermediate value in plot.
Our experimental results can thus be explained by any combination of the two parameters which which has an intermediate value in plot.
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A similar parameter scan has been painstakingly performed with the stochastic model. Simulations with 20 trajectories of 200-minute simulations for each parameter combination in a two-dimensional scan for both the $k_{cat}$ and $k_{cFP}$ in the same ranges as the ODE parm-scan. Unfortunately, even for these high amount of replications the variability in the resulting methylation fractions is very high, such that no trends are discernible at all in the results (data not shown). This variability can probably be reduced by performing even longer simulations and using more trajectories. A more efficient implementation of the SSA will have to be used to reach this goal within reasonable time scales, however. We hope to finish these simulations before the Jamboree. Because the deterministic simulations show similar qualitative behaviour as the more realistic stochastic simulations in the time-lapse plots, one might argue that we will obtain similar results from this as the much less computationally expensive ODE-parameter scan.
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The steady state fraction of methylation shows almost no dependence upon the leaky transcription rate in the ODE model. This is likely caused by the steady state value that the mRNA reaches fairly quickly. The parameter scan density plots shows a very weak to no influence of the background noise. The fact that the degradation rate of the mRNA is much larger than the leaky transcription rate probably causes this. On the contrary, the steady state fraction of methylated plasmids is shown to be heavily dependent upon the catalysis rate of the fusion protein.
= Discussion =
= Discussion =

Revision as of 21:48, 26 September 2012