Team:KULeuven/Modeling
From 2011.igem.org
(Difference between revisions)
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<td>Active LacI concentration (LacI which is not inactivated by IPTG)</td> | <td>Active LacI concentration (LacI which is not inactivated by IPTG)</td> | ||
<td>NA</td> | <td>NA</td> | ||
- | |||
<td>Notation convention</td> | <td>Notation convention</td> | ||
</tr> | </tr> | ||
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<td>IPTG concentration</td> | <td>IPTG concentration</td> | ||
<td>NA</td> | <td>NA</td> | ||
- | |||
<td>Notation convention</td> | <td>Notation convention</td> | ||
</tr> | </tr> | ||
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<td>Inactived LacI concentration</td> | <td>Inactived LacI concentration</td> | ||
<td>NA</td> | <td>NA</td> | ||
- | |||
<td>Notation convention</td> | <td>Notation convention</td> | ||
</tr> | </tr> | ||
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<td>Total LacI concentration</td> | <td>Total LacI concentration</td> | ||
<td>TBD</td> | <td>TBD</td> | ||
- | |||
<td>Steady state for equation</td> | <td>Steady state for equation</td> | ||
</tr> | </tr> | ||
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<td>T7 RNA polymerase (emitter, T7') concentration</td> | <td>T7 RNA polymerase (emitter, T7') concentration</td> | ||
<td>NA</td> | <td>NA</td> | ||
- | |||
<td>Notation convention</td> | <td>Notation convention</td> | ||
</tr> | </tr> |
Revision as of 13:39, 15 September 2011
Modeling Overview
1. Description of the whole system
To make predictions for are plasmid transformed E.coli, a structured segregated model is designed in Simbiology. A graphical representation of the model was build in the block diagram editor . Afterwards reaction equations and parameters were added. We designed one model for the whole system and 3 models for 3 subsystems. The 3 subsystems are antifreeze, freeze and cell death. For more information about these 3 subsystems, we refer to the extended project description and the 3 modelling pages: freeze, antifreeze and cell death.2. Full Model
There are in total 5 different kinetic equations we used in the model Transcription equation For most promoters, hill kinetics is used, it is a way of quantitatively describing cooperative binding processes, it was developed for hemoglobin in 1913. A Hill coefficient (n) is a measure for the cooperativity. Translation equation RNA degradation Protein degration Assimiliation3. Simulation tests
In the table below the parameters for our full model are displayed. However it was hard to find accurate parameters, because databases for kinetic parameters are limiting.The parameters used in this model are:
Parameter | Description | Value | Reference | |
---|---|---|---|---|
Active LacI concentration (LacI which is not inactivated by IPTG) | NA | Notation convention | ||
IPTG concentration | NA | Notation convention | ||
Inactived LacI concentration | NA | Notation convention | ||
Total LacI concentration | TBD | Steady state for equation | ||
T7 RNA polymerase (emitter, T7') concentration | NA | Notation convention | ||
mRNA associated with T7' concentration | NA | molecules per cell |
Notation convention | |
T7 RNA polymerase (auto-amplification, T7'') concentration | NA | molecules per cell |
Notation convention | |
mRNA associated with T7'' concentration | NA | molecules per cell |
Notation convention | |
GFP concentration | NA | molecules per cell |
Notation convention | |
mRNA associated with GFP concentration | NA | molecules per cell |
Notation convention | |
RFP concentration | NA | molecules per cell |
Notation convention | |
mRNA associated with RFP concentration | NA | molecules per cell |
Notation convention | |
Maximal production rate of pVeg promoter (constitutive) | 0.02 | molecules.s-1 or pops |
Estimated, see the justification | |
Maximal production rate of pLac promoter | 0.02 | molecules.s-1 or pops |
Estimated, see the justification | |
Maximal production rate of pT7 promoter | 0.02 | molecules.s-1 or pops |
Estimated, see the justification | |
Dissociation constant for IPTG to LacI | 1200 | molecules per cell |
Aberdeen 2009 wiki | |
Dissociation constant for LacI to LacO (pLac) | 700 | molecules per cell |
Aberdeen 2009 wiki | |
Dissociation constant for T7 RNA polymerase to pT7 | 10 | molecules per cell |
We used the classic assumption 1nM=1 molecule per cell and [1] | |
Translation rate of proteins | 0.9 | s-1 | Estimated, see the justification | |
Dilution rate in exponential phase | 2.88x10-4 | s-1 | Calculated with a 40 min generation time. See explanation | |
Degradation rate of mRNA | 2.88x10-3 | s-1 | Uri Alon (To Be Confirmed) | |
Degradation rate of GFP | 10-4 | s-1 | BioNumbers | |
Degradation rate of RFP | 10-4 | s-1 | Estimated equal to GFP degradation rate | |
Delay due to T7 RNA polymerase production and maturation | 300 | s | [2] | |
Delay due to GFP production and maturation | 360 | s | BioNumbers | |
Delay due to RFP production and maturation | 360 | s | Estimated equal to GFP delay (similar molecules) | |
Delay due to mRNA production | 30 | s | BioNumbers with an approximation: all our contructs are around 1-2kb |
References