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

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<p>For the rates of change of the internal state vector then we propose for the bacterial maturity to extend the development presented in Shene et al. [?] to include 2 plasmids and incorporate cell maturity as a state variable. This gives:</p>
 
<p>For the rates of change of the internal state vector then we propose for the bacterial maturity to extend the development presented in Shene et al. [?] to include 2 plasmids and incorporate cell maturity as a state variable. This gives:</p>
  
<div lang="latex">\dot{z}_0 (\mathbf{z},S) = \mu = \mu _{max} \frac{S}{K_S+S} \frac{K_{z_1}}{K_{z_1}+z_1^{m_1}} \frac{K_{z_2}}{K_{z_2}+z_2^{m_2}} (3)\\</div>
+
<div lang="latex">\dot{z}_0 (\mathbf{z},S) = \mu = \mu _{max} \frac{S}{K_S+S} \frac{K_{z_1}}{K_{z_1}+z_1^{m_1}} \frac{K_{z_2}}{K_{z_2}+z_2^{m_2}} (3)\\</div><br/>
 
Here <div lang="latex">\mu _{max}</div> is the maximum growth rate $hr^{-1}$: $\mu (\mathbf{z,S})$ the growth rate ; $K_S$ is the Monod constant in $g/l$ for the substrate; $K_{z_1}$ is the inhibition constant for plamid number 1 in (plasmids per cell)$^{m_1}$, and $m_1$ the Hill coefficient for the cooperativity of inhibition. $K_{z_2}$ and $m_2$ represent the same parameters for plasmid 2.
 
Here <div lang="latex">\mu _{max}</div> is the maximum growth rate $hr^{-1}$: $\mu (\mathbf{z,S})$ the growth rate ; $K_S$ is the Monod constant in $g/l$ for the substrate; $K_{z_1}$ is the inhibition constant for plamid number 1 in (plasmids per cell)$^{m_1}$, and $m_1$ the Hill coefficient for the cooperativity of inhibition. $K_{z_2}$ and $m_2$ represent the same parameters for plasmid 2.
 
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Revision as of 15:18, 17 October 2016