Team:KULeuven/Modeling

From 2011.igem.org

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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 <a href="https://2011.igem.org/Team:KULeuven/Details"> project description</a> and the 3 modelling pages.
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 <a href="https://2011.igem.org/Team:KULeuven/Details"> project description</a> and the 3 modelling pages.
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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.
<br><p>PARAMETER TABLE
<br><p>PARAMETER TABLE
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<th>'''Name'''</th>
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<th>'''Value'''</th>
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<th>'''Comments  '''</th>
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<th>'''References'''</th>
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Revision as of 09:18, 15 September 2011

KULeuven iGEM 2011

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overview     Freeze     Antifreeze     Cell Death

Modeling Overview


1. Describing 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.

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.

PARAMETER TABLE

'''Name''' '''Value''' '''Comments ''' '''References'''
row 1, cell 1 row 1, cell 2
row 2, cell 1 row 2, cell 2

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 Assimiliation

3. Simulation tests