Team:SDU-Denmark/project-bc

From 2010.igem.org

(Difference between revisions)
(Model results)
(Model results)
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The time scale of the model might be to large, because it’s not possible to define units to the deferent parameters in the model such as defining time steps as seconds, minutes and so on, the problem involves defining concentrations of the enzymes.<br>
The time scale of the model might be to large, because it’s not possible to define units to the deferent parameters in the model such as defining time steps as seconds, minutes and so on, the problem involves defining concentrations of the enzymes.<br>
Focusing on the behaviour of TAR/TARm in the model, it demonstrates that the concentration of methylated TAR rises if no phosphorylated CheB is present in the system.<br> When the concentration of phosphorylated CheB rises the concentration of methylated TAR drops.<br>
Focusing on the behaviour of TAR/TARm in the model, it demonstrates that the concentration of methylated TAR rises if no phosphorylated CheB is present in the system.<br> When the concentration of phosphorylated CheB rises the concentration of methylated TAR drops.<br>
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This corresponded well with the known theory for the system.
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This corresponded well with the known theory for the real system.
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<br>  
[[Image: Team-SDU-Denmark-Madonnapic.pngTSRmodel.png |thumb|center|550px|'''Figure 1''': Image '''A''' ]]   
[[Image: Team-SDU-Denmark-Madonnapic.pngTSRmodel.png |thumb|center|550px|'''Figure 1''': Image '''A''' ]]   
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Focusing on the CheA/CheAp behaviour in the model, it demonstrates that CheA auto-phophorylation rate rises when no TAR are methylated, thus producing phosphorylated CheA.<br>
Focusing on the CheA/CheAp behaviour in the model, it demonstrates that CheA auto-phophorylation rate rises when no TAR are methylated, thus producing phosphorylated CheA.<br>
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The dephosphorylation of CheA is performed by both CheB and CheY which rises the concentrations of both phosphorylated CheB and CheY and thereby decreasing the concentration of phosphorylated CheA.   
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The dephosphorylation of CheA is performed by both CheB and CheY which rises the concentrations of both phosphorylated CheB and CheY and thereby decreasing the concentration of phosphorylated CheA.<br>
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This corresponded well with the known theory for the real system.   
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<br>
[[Image:Team-SDU-Denmark-CheAmodel.png |thumb|center|550px|'''Figure 1''': Image '''A''' ]]
[[Image:Team-SDU-Denmark-CheAmodel.png |thumb|center|550px|'''Figure 1''': Image '''A''' ]]
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Focusing on the CheY/CheYp and the flagella motor rotational direction the model illustrates that when concentrations of phosphorylated CheA rises, the concentrations of phosphorylated CheY rises and the flagellar activates clockwise rotation.<br>
Focusing on the CheY/CheYp and the flagella motor rotational direction the model illustrates that when concentrations of phosphorylated CheA rises, the concentrations of phosphorylated CheY rises and the flagellar activates clockwise rotation.<br>
The concentration of phosphylated CheY is proportional to the flagella motor rotational direction, because phosphylated CheY activates Clockwise rotation in the flagellar motors which without phosphylated CheY turns Counter Clockwise.<br>  
The concentration of phosphylated CheY is proportional to the flagella motor rotational direction, because phosphylated CheY activates Clockwise rotation in the flagellar motors which without phosphylated CheY turns Counter Clockwise.<br>  
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The CheY er constantly dephosphorylated by CheZ, which in this case is modelled as the constant k.  
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The CheY er constantly dephosphorylated by CheZ, which in this case is modelled as the constant k.<br>
 +
This corresponded well with the known theory for the real system.
<br>
<br>
[[Image: Team-SDU-Denmark-CheYmodel.png |thumb|center|550px|'''Figure 1''': Image '''A''' ]]
[[Image: Team-SDU-Denmark-CheYmodel.png |thumb|center|550px|'''Figure 1''': Image '''A''' ]]

Revision as of 15:09, 27 October 2010