A .zip file with all of the modeling files can be downloaded [[Media:NTNU_Trondheim_modelingfiles.zip|here]].
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A .zip file with all of the modeling files can be downloaded [[Media:NTNU_Trondheim_modelingfiles.zip|here]]. The csv files are named according to the number of inducer that was applyed in the deterministic simulation.
The Pm/Xyls promotor system is a positive regulator system where the regulator molcule, Xyls, is constitutivly produced. When Xyls binds to the inducer m-toluic acid this complex binds to the Pm promotor(see figure 1). Binding to the promotor facilitates binding of RNA polymerase (RNAp) making it active (RNApA) and production of mRNA in an elongation step. The mRNA will be translated into the recombinant protein, or in our case, RFP. Over time mRNA and RFP will be degraded to som extent.
Figure 1 Overview of how the Pm/Xyls Promotor system funtions. Production of recombinant protein is dependent on access to the indicer m-toluic acid [http://www.vectronbiosolutions.com/info.php?id=13 (1)].
The reaction equations in the Pm/Xyls promotor system are listed below
A deterministic simulation of the system was run on [http://cain.sourceforge.net/ Cain software] with the parameters as viewed in figure 2. Only the number/consentration of the inducer was varieted.
Figure 2: Overview of parameters applied in the [http://cain.sourceforge.net/ Cain program]. The labels of the species (reaction molecules) are as follow: XLS = Xyls, inducer = m-toluic acid, XLSinducer = complex of XylS and m-toluic acid, DNA = plasmic DNA, XDNA = Binding of XLSindicer to the DNA, RNAp = RNA polymerase, RNApa = active RNA polymerase, E = elongation, RFP = red fluorescent protein.
Results
Varies starter consentration, 0, 0.06, 0.3, 0.6, 1.2 and 6 µM of the inducer gave the result as indicated in figure 3 and the table below.
Figure 3: Different consentrations of inducer (0 to 6 uM) was applyed in the deterministic simulations, yeilding different amounts of RFP.
Start consentration (µM) of inducer
Molecules of inducer
Consentration (µM) of RFP (steady state)
Molcules of RFP (steady state)
0
0
0
0
0.06
100
0.51
850
0.3
500
0.63
1050
0.6
1000
0.66
1100
1.2
2000
0.68
1135
6.0
10 000
0.71
1180
A .zip file with all of the modeling files can be downloaded here. The csv files are named according to the number of inducer that was applyed in the deterministic simulation.