Team:Paris/Modeling/f3bis

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Revision as of 15:30, 21 August 2008

At the steady-state, we have

and

so the expression

gives

and

and for calculated values of the TF,

and

param	signification	unit	value
[expr(pFlhDC)]	expression rate of pFlhDC with RBS E0032	nM.s^-1	see "findparam" need for 20 + 20 measures and 5x5 measures for the SUM?
γ_GFP	dilution-degradation rate of GFP(mut3b)	s^-1	ln(2)/3600
[GFP]	GFP concentration at steady-state	nM	need for 20 + 20 measures and 5x5 measures for the SUM?
(fluorescence)	value of the observed fluorescence	au	need for 20 + 20 measures and 5x5 measures for the SUM?
conversion	conversion ration between fluorescence and concentration	nM.au^-1	(1/79.429)

param	signification corresponding parameters in the equations	unit	value
β₁₂	production rate of FliA-pFlhDC with RBS E0032 β₁₂	nM.s^-1
(K₁₁/{coef_fliA}^n₁₁)	activation constant of FliA-pFlhDC K₁₁	nM^n₁₁
n₁₁	complexation order of FliA-pFlhDC n₁₁	no dimension
β₂	production rate of OmpR-pFlhDC with RBS E0032 β₂	nM.s^-1
(K₁₉/{coef_ompR}^n₁₉)	activation constant of OmpR-pFlhDC K₁₉	nM^n₁₉
n₁₉	complexation order of OmpR-pFlhDC n₁₉	no dimension

Then, if we have time, we want to verify the expected relation

@@ Line 1: / Line 1: @@
-[[Image:f3env.png|thumb]]
+[[Image:f3env.png|thumb]] At the steady-state, we have
+<center>[[Image:FliAeq.jpg]]</center>
+and
+<center>[[Image:EnvZeq.jpg]]</center>
+so the expression
+<center>[[Image:f3envexpr.jpg]]</center>
+gives
+<center>[[Image:f3bisFliA.jpg]]</center>
+and
+<center>[[Image:f3bisEnvZ.jpg]]</center>
+and for ''calculated values of the TF'',
+<center>[[Image:f3bisFliACalc.jpg]]</center>
+and
+<center>[[Image:f3bisEnvZCalc.jpg]]</center>
+<br><br>
+{|border="1" style="text-align: center"
+|param
+|signification
+|unit
+|value
+|-
+|[expr(pFlhDC)]
+|expression rate of <br> pFlhDC '''with RBS E0032'''
+|nM.s<sup>-1</sup>
+|see [[Team:Paris/Modeling/Programs|"findparam"]] <br> need for 20 + 20 measures <br> and 5x5 measures for the ''SUM''?
+|-
+|γ<sub>GFP</sub>
+|dilution-degradation rate <br> of GFP(mut3b)
+|s<sup>-1</sup>
+|ln(2)/3600
+|-
+|[GFP]
+|GFP concentration at steady-state
+|nM
+|need for 20 + 20 measures <br> and 5x5 measures for the ''SUM''?
+|-
+|(''fluorescence'')
+|value of the observed fluorescence
+|au
+|need for 20 + 20 measures <br> and 5x5 measures for the ''SUM''?
+|-
+|''conversion''
+|conversion ration between <br> fluorescence and concentration
+|nM.au<sup>-1</sup>
+|(1/79.429)
+|}
+<br><br>
+{|border="1" style="text-align: center"
+|param
+|signification <br> corresponding parameters in the [[Team:Paris/Modeling/Oscillations#Resulting_Equations|equations]]
+|unit
+|value
+|-
+|β<sub>12</sub>
+|production rate of FliA-pFlhDC '''with RBS E0032''' <br> β<sub>12</sub>
+|nM.s<sup>-1</sup>
+|
+|-
+|(K<sub>11</sub>/{coef<sub>fliA</sub>}<sup>n<sub>11</sub></sup>)
+|activation constant of FliA-pFlhDC <br> K<sub>11</sub>
+|nM<sup>n<sub>11</sub></sup>
+|
+|-
+|n<sub>11</sub>
+|complexation order of FliA-pFlhDC <br> n<sub>11</sub>
+|no dimension
+|
+|-
+|-
+|β<sub>2</sub>
+|production rate of OmpR-pFlhDC '''with RBS E0032''' <br> β<sub>2</sub>
+|nM.s<sup>-1</sup>
+|
+|-
+|(K<sub>19</sub>/{coef<sub>ompR</sub>}<sup>n<sub>19</sub></sup>)
+|activation constant of OmpR-pFlhDC <br> K<sub>19</sub>
+|nM<sup>n<sub>19</sub></sup>
+|
+|-
+|n<sub>19</sub>
+|complexation order of OmpR-pFlhDC <br> n<sub>19</sub>
+|no dimension
+|
+|}
+<br><br>
+Then, if we have time, we want to verify the expected relation
+<center>[[Image:SumFlhDC1.jpg]]</center>