Team:Groningen/Modelling
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Our initial ideas on how and what to model can be found at Brainstorm/Modelling.
Usage of graphs in wiki: Graphs
Models
Apart from some computations on gas vesicles we have the following models involving import, export and accumulation of heavy metals:
Kinetic Laws
TODO Add references.
TODO Find out how to determine experimentally which is applicable (and if you know, what the parameters are).
- Mass Action
- Molecules randomly interact, the reaction rate is simply the product of the concentrations of the reactants (multiplied by a constant).
- Michaelis-Menten
- Applicable to situations where there is a maximum reaction rate (due to needing a catalyst/transporter/binding site of which there is only a limited amount for example) under the assumption that there is much more of the "main" reactant than of the catalyst/transporter. Has two constants, the maximum reaction rate and the concentration at which the reaction rate is half the maximum reaction rate.
- Michaelis-Menten reversible
- TODO
- Hill
- Generalization of Michaelis-Menten. More detail.
For rate parameters it is best to have both the forward and reverse reaction rates, if you don't then a dissociation constant can be used (which is the ratio of the reverse and forward rates), in combination with a "standard" rate of 108-109 (see appendix A of Alon2007), in the case of two reactants at least.
See http://www.biomodels.net/ for a database of models.
Protein production
Concepts:
- translation rate
- Number of amino acids per second that are translated (per mRNA). Expressed in amino acids per second per mRNA?
- ribosome occupancy
- Fraction of mRNA bound to ribosomes.
- mRNA abundance
- Amount of mRNA (molecules per cell or concentration).
- translational activity / protein production rate ?
- Translation rate per mRNA times mRNA abundance (units?: 1/(mol*sec) * mol/L = 1/(sec*L)). ???