Team:Paris/Modeling/f1
From 2008.igem.org
In the exponential phase of growth, at the steady state, we haveso, with
that gives, after reducing the expression
with the previous expression of [TetR]eq
so, finally, if we use a calculated value of [TetR] (by using the expression of 0 for instance, or by introducing a value given by tetR after an other "caracterised promoter")
param | signification | unit | value |
[expr(pTet)] | expression rate of pTet with RBS E0032 | nM.s-1 | see "findparam" need for 20 measures |
γGFP | dilution-degradation rate of GFP(mut3b) | s-1 | ln(2)/3600 |
[GFP] | GFP concentration at steady-state | nM | need for 20 measures |
(fluorescence) | value of the observed fluorescence | au | need for 20 measures |
conversion | conversion ration between fluorescence and concentration | nM.au-1 | (1/79.429) |
param | signification corresponding parameters in the equations | unit | value |
βtet | production rate of pTet with RBS E0032 β1 | nM.s-1 | |
(Ktet/{coeftetR}ntet) | activation constant of pTet K18 | nMntet | |
ntet | complexation order of pTet of n18 | no dimension | |
KaTc | complexation constant aTc-TetR K17 | nMnaTc | |
naTc | complexation order aTc-TetR n17 | no dimension |