Team:Imperial College London/Modelling/Signalling/Detailed Description
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Latest revision as of 23:00, 27 October 2010
Modelling | Overview | Detection Model | Signaling Model | Fast Response Model | Interactions |
A major part of the project consisted of modelling each module. This enabled us to decide which ideas we should implement. Look at the Fast Response page for a great example of how modelling has made a major impact on our design! |
Objectives | Description | Results | Constants | MATLAB Code |
Detailed Description |
We are assuming steady-state for AIP, Phosphate, ComD and ComE in our cell/in the solution. Hence, we can neglect production and degradation rates of ComD and ComE. |
Equation 1: AIP binds to ComD receptor to form a complex (AIP-ComD) |
AIP + ComD ↔ AIP-ComD |
Equation 2: Phosphate binds to the AIP-ComD complex to form another complex (AIP-ComD*) |
AIP-ComD + Phosphate ↔ AIP-ComD* |
Equation 3: ComE binds to the AIP-ComD* recepetor to form another complex (AIP-ComD*-ComE) |
AIP-ComD* + ComE ↔ AIP-ComD*-ComE |
Equation 4: Phosphate group on ComD binds to ComE and forms two products: phosphorylated ComE (ComE*) and AIP-ComD |
AIP-ComD*-ComE ↔ AIP-ComD + ComE* |
Using the Law of Mass Action, we can rewrite these 4 equations: |
In the above equations, the forwards reaction constants are represented by k1,2,3,4, for the first, second, third and fourth reaction, respectively. The backwards reaction constants are represented by k-1,-2,-3,-4. |
Click here for the results of this model... |