Team:SDU-Denmark/project-bc

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(The real system)
(Description of the model)
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=== Description of the model ===
=== Description of the model ===
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<p style="text-align: justify;">The model of the system we will be using to predict biochemical behaviour of the system is a simplification of the real system.<br>  
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<p style="text-align: justify;">The model we will be using to predict biochemical behaviour of the system is a simplification of the real system.<br>  
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The simplified model doesn’t consider the normal metabolism in the cell. It only includes the most important enzymes in the normal ''E. coli'' chemotaxis pathway and the proteins responsible for coupling the phototaxis to the chemotaxis.<br>
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The simplified model does not consider the normal metabolism in the cell. It only includes the most important enzymes in the normal ''E. coli'' chemotaxis pathway and the proteins responsible for coupling the phototaxis to the chemotaxis.<br>
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Below, you will se a schematic representation of the system our modelling was performed on. The crossed-out enzymes and proteins have not been modelled as a differential equation but considered as a constant in the system.<br></p>  
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Below, you will se a schematic representation of the system our biochemical modelling was performed on. The crossed-out enzymes and proteins have not been modelled as a differential equation but considered as a constant in the system.<br></p>  
[[Image: Team-SDU-Denmark-biomodelling.png |400px |center]]
[[Image: Team-SDU-Denmark-biomodelling.png |400px |center]]
<p style="text-align: justify;">The important enzymes in the system are mathematically represented by a differential equation under the assumption of steady state in the system and modelled in a demo version of the program [http://www.berkeleymadonna.com/ Berkeley Madonna].<br>  
<p style="text-align: justify;">The important enzymes in the system are mathematically represented by a differential equation under the assumption of steady state in the system and modelled in a demo version of the program [http://www.berkeleymadonna.com/ Berkeley Madonna].<br>  
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When light hits the receptor SRII, the signal is transduced through the HTRII and TSR and on to the enzyme CheW. CheW is then activated because it is a straight-forward signal transduction. The proteins SRII and HTRII is not considered in the model and the equation for the activation of CheW is:<br> <br><br>
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When light hits the photo receptor SRII, the signal is transduced through the HtrII and Tsr and on to the enzyme CheW. CheW is then activated because it is a straight-forward signal transduction. The proteins SRII and HtrII are not considered in the model and the equation for the activation of CheW is:<br> <br><br>
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When the CheW enzyme is activated, it induces auto-phosphorylation of CheA. The phosphorylated CheA can then phosphorylate the enzymes CheY and CheB. The equation for CheAp concentration is given by:<br>       
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When the CheW enzyme is activated, it induces auto-phosphorylation of CheA. The phosphorylated CheA can then phosphorylate the enzymes CheY and CheB. The equation for CheA-p concentration is given by:<br>       
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Phosphorylated CheY is produced by phosphorylation of CheA and removed by CheZ which, in this model, is defined by a constant. This can be described mathematically by this equation:<br> <br><br>
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Phosphorylated CheY is produced by phosphorylation of CheA and is removed by CheZ which, in this model, is defined by a constant. This can be described mathematically by this equation:<br> <br><br>
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Phosphorylated CheB is dephosphorylated when TSRm is demethylated, this can be described mathematically by this equation:<br> <br><br>
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Phosphorylated CheB is dephosphorylated when methylated Tsr is demethylated, this can be described mathematically by this equation:<br> <br><br>
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Methylated TSR is constantly produced by the CheR enzyme which, in this model, is also considered a constant. The demethylation is performed by CheBp. The TSRm concentration can bescribed by this equation:<br> <br><br>   
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Methylated Tsr is constantly produced by the CheR enzyme which, in this model, is also considered a constant. The demethylation is performed by CheB-p. The concentration of methylated Tsr can be described by this equation:<br> <br><br>   
In Berkeley Madonna it is possible to define different parameters as sliders which enable the user to change parameters continually while the model is running. The sliders used in the model are:
In Berkeley Madonna it is possible to define different parameters as sliders which enable the user to change parameters continually while the model is running. The sliders used in the model are:
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Revision as of 19:19, 26 October 2010