Team:Slovenia/ModelingDerivation
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The positive feedback loop switch model was derived in a similar manner. | The positive feedback loop switch model was derived in a similar manner. | ||
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+ | <a href='2012.igem.org/Team:Slovenia/ModelingMutualRepressorSwitch'>Deterministic model of the mutual repressor switch</a> | ||
+ | <a href='https://2012.igem.org/Team:Slovenia/ModelingPositiveFeedbackLoopSwitch'>Deterministic model of the positive feedback loop switch</a> | ||
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Revision as of 22:09, 25 September 2012
Deterministic model derivation - genetic switch
The deterministic model for the mutual repressor switch was derived in the following way.
We assumed the following binding site states were possible:
Active promoter state is a state leading to gene expression.
Construct 1 promoter state transitioning is described by a reaction:
Assuming equilibrium of binding and unbinding, we can write:
The fractional occupancy of construct 1 promoter, f1, can be expressed as a ratio of active states to all states:
The equations for other constructs take the same form.
It follows that the fractional occupancy for construct 1 promoter is:
To account for non-linearity, an exponent n1 was added, and the equation generalized to:
Kr is the amount of TAL-A:KRAB it takes for f1 to be equal to 50%.
Derivation for constructs 2, 3 and 4 was similar except for different transcription factor names.
Fractional occupancies were then used to construct a set of ordinary differential equations representing each protein production. Because each protein can be produced from different constructs, production rates (including leaky rates) were summed together. E.g., because TAL-B:KRAB is produced from both constructs 1 and 3, fractional occupancies f1 and f3 were used and corresponding terms summed to obtain:
Since construct 5 promoter has no binding sites and is active at all times, fractional occupancy of the promoter is equal to 1.
The positive feedback loop switch model was derived in a similar manner.
Deterministic model of the mutual repressor switch Deterministic model of the positive feedback loop switch