Team:RDFZ-China/Model

Modelling

Bound Fraction &Unbound Fraction

By defining a simple equation where P is the promoter region and X is the ligand that can bind with P, namely a repressor in this case:

Intuitively, the factional saturation of the promoter is denoted by Ps , which is the fraction of occupied binding sites:

At equilibrium of this reaction, the rate of forward reaction and that of backward reaction are the same:

Then we rearrange this equation and get:

Where kd is the dissociation constant of this binding event. Now we substitute equation 1.3 into equation 1.1 and hence obtain:

Assuming that the sum of the bound and the unbound equals one, the unbound fraction Pu is thus:

Bound fraction is considered for activation in gene regulation and unbound fraction for repressive regulation.

Modelling Equations

The chemical AHL (A) is required by LuxR to activate transcription. The active form for LuxR it consists of a dimer of the complex LuxR-AHL ((Y:A)2). Thus we can consider the production of this dimer as an elementary reaction: 2A+2Y --> (Y:A)2, whose rate depends upon A, the concentration of AHL, and the concentration of unbound LuxR monomer, Runbound.

Methods

Results

Discussion

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