Template:ETH Modeling Formulas
From 2006.igem.org
To get our models into a form which can be simulated, we needed to transform the wiring diagrams into a set of ODEs (ordinary differential equations), which in our case will be non-linear.
For every concerned species X, we write
d[X]/dt = production - consumption
For enzymatic transformation of substrate S into product P (catalyzed by enzyme E), we write
k+1 k2 S + E <==> E•S --> P + E k−1 d[S]/dt = −k+1[S][E] + k−1[E•S] − dS[S] d[E]/dt = −k+1[S][E] + k−1[E•S] + k2[E•S] − dE[E] d[E•S]/dt = k+1[S][E] − k−1[E•S] − k2[E•S] − dES[E•S] d[P]/dt = + k2[E•S] − dP[P] [S] : substrate concentration [E] : enzyme conc. [E•S] : concentration of enzyme-substrate complex [P] : product concentration kinetic constants: kk+1 : building enzyme-substrate complex (forward) kk−1 : resolving enzyme-substrate complex (backward) k2 : product formation dXXX : degradation constants
For constitutive transcription, we have constant production rate and simply write
d[M]/dt = ktr•u − dM[M] [M] : mRNA concentration ktr : kinetic constant (transcription) u : system input, e.g. transcription rate (≅PoPS) dM : degradation constant for mRNA
A transcriptional regulatory module can be described by and ODE of the following form:
1 d[M]/dt = ktr ( a + −−−−−−−−−−−−−− ) − dM[M] 1 + (K/[S])α•n [M] : mRNA concentration ktr : kinetic constant (transcription) a : constitutive portion, 0 ≤ a < 1 [S] : inducer (α=+1) / repressor (α=−1) concentration K : hill constant n : hill coefficient α : α=+1 for induction, α=−1 for repression dM : degradation constant for mRNA
Finally, translation is usually modeled like this:
d[P]/dt = ktl[M] − dP[P] [P] : product (protein) concentration [M] : mRNA concentration ktl : kinetic constant (translation) dP : degradation constant for protein P
References:
- Modeling Molecular Interaction Networks with Nonlinear Ordinary Differential Equations. Emery D. Conrad and John J. Tyson
in System Modeling in Cellular Biology. From Concepts to Nuts and Bolts.
Editors: Zoltan Szallasi, Jorg Stelling and Vipul Periwal, [http://mitpress.mit.edu/catalog/item/default.asp?ttype=2&tid=10923 MIT Press]. - Synthetic Gene Regulatory Systems. Mads Kaern and Ron Weiss
in System Modeling in Cellular Biology. From Concepts to Nuts and Bolts.
Editors: Zoltan Szallasi, Jorg Stelling and Vipul Periwal, [http://mitpress.mit.edu/catalog/item/default.asp?ttype=2&tid=10923 MIT Press].