Team:Amsterdam/achievements/stochastic model

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(Difference between revisions)
(ODE Model definition)
(Stochastic model definition)
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The equations in the stochastic model are qualitatively equal to the ones in the differential equation model.
The equations in the stochastic model are qualitatively equal to the ones in the differential equation model.
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The equations and parameter values can be viewed on [[Team:Amsterdam/achievements/stochastic_model_definition|this page]].
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The equations, parameter and initial species values can be viewed on [[Team:Amsterdam/achievements/stochastic_model_definition|this page]].
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Analyzing the behaviour of this model of this model by looking at the time-lapse plots, we see a similar trend as in the ODE-model:
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Analyzing the behaviour of this model by looking at the time-lapse plots, we see a similar trend as in the ODE-model:
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all plasmids are methylated. The fusion protein amounts are shown to be widely varying, but this does not alter the fraction of methylated plasmids much.
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all plasmids are methylated within a short amount of time. The fusion protein amounts are shown to be widely varying, but this does not alter the fraction of methylated plasmids much.
[[File:Stoch_single.png|thumb|200px|Single trajectory of stochastic model. Just as in the deterministic model, all plasmids are methylated within a short amount of time due to the leaky expression with the used values for $ k_{cat} $ and $ k_{cFP} $]]
[[File:Stoch_single.png|thumb|200px|Single trajectory of stochastic model. Just as in the deterministic model, all plasmids are methylated within a short amount of time due to the leaky expression with the used values for $ k_{cat} $ and $ k_{cFP} $]]

Revision as of 23:50, 26 September 2012