Paris/Macroscopic Models
From 2007.igem.org
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=[[Paris/Continuous_model|ODE model and equilibria]]= | =[[Paris/Continuous_model|ODE model and equilibria]]= | ||
- | We present here a theoretical approach based on population dynamics. We consider | + | We present here a theoretical approach based on population dynamics. We consider the case of a well mixed, homogeneous, culture of the SMB organism, i.e. there is no space in this analysis and we follow only the variation of the different cell lines concentrations in the culture volume. |
=[[Paris/Cell_auto|Simple automaton]]= | =[[Paris/Cell_auto|Simple automaton]]= |
Revision as of 15:02, 25 October 2007
Those models are at macroscopic scale. They are focused on the evolution of the population, with global rules avoiding description of all the microscopic mechanisms. We present tree different works, with different approaches (ODE, automaton)
ODE model and equilibria
We present here a theoretical approach based on population dynamics. We consider the case of a well mixed, homogeneous, culture of the SMB organism, i.e. there is no space in this analysis and we follow only the variation of the different cell lines concentrations in the culture volume.
Simple automaton
We want with this work to characterize the diffusion of the DAP and the effect on the cells. We have a lawn of bacterias with germinal cells and some somatic cells.
Complex automaton
We try with this model to see the effect of DAP on the cells. We have a growing culture with germinal cells and somatic cells. We want to see if we can have different kinds of evolution for our cells. as we can see in the simple automaton the diffusion mechanism and the effect on differentiation can be describe more accurately, so for the moment we just ignore the diffusion putting a black box on it and just focused on the total number of DAP entities.