Difference between revisions of "Team:Aix-Marseille/Model"

(Program)
(Results)
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These results can be interpreted by the fact that if D is increasing, thus $µ$ also increases, then bacteria grow faster, and divide faster.
 
These results can be interpreted by the fact that if D is increasing, thus $µ$ also increases, then bacteria grow faster, and divide faster.
 
With small values of D, bacteria grow slowly and all plasmids have time to be replicated between each cell division.
 
With small values of D, bacteria grow slowly and all plasmids have time to be replicated between each cell division.
That is why for these values, most bacteria still have maximum values of plasmids.
+
That is why for these values, most bacteria still have maximum values of plasmids and are all in the same situation hence the focusing of the plot for small values of D.
If D is higher time for each bacteria to replicate their plasmids between each division is reduced, and the situation of each individual bacteria becomes different, explaining the scattering on the plot.
+
If D is higher time for each bacteria to replicate their plasmids between each division is reduced, and the situation of each individual bacteria becomes different, explaining the scattering on the plot.
 +
This show that one of the main factor influencing the loss of plasmid is the growth of bacteria. Of course other factor have shown impact as replication rate of plasmids and the relative toxicity of each toxin.  
  
 
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Revision as of 01:15, 20 October 2016