Team:Bielefeld-CeBiTec/Results/Modelling/erster/test/123
From 2014.igem.org
Modelling
Introduction
Mathematical modelling is essentiell to understand complex biological systems (Klipp et al., 2009). The analysis of isolated biological components is supplemented by a systems biology approach since ten years ago (Chuang et al., 2010). Mathematical modelling is used to combine biological results (Kherlopian et al., 2008). Modelling is also a way to gain results without carrying out experiments in a laboratory. The behaviour of a system can be simulated to get results which cannot be derived from simply looking at the given system (Klipp et al., 2009). The most important aim of any modelling approach is the reduction of complexity. The given biological reality is often very divers and variable. Therefor it is important to identify the major rules and principles which can describe a system.
Results
First of all it was our aim to predict the production of isobutanol. Our model should give information about the optimal concentration of each enzyme in the isobutanol production pathway. The next aim was the prediction of isobutanol production in a carbon dioxide fixing cell. The complete system is shown in figure 1. This complex network of reactions was reduced to the system shown in fig. 2. This reduced version was used for modelling.
[komplette Grafik] Fig.1: Complete metabolic network of reactions which describes a part of our project.
[reduzierte Grafik = modellierter Teil des Stoffwechsels] Fig.2: Reduced metabolic network of reactions which were selected for modelling.
We started our modelling work by reading publications about the isobutanol production pathway (Atsumi et al., 2008 and Atsumi et al., 2008). The first modelling approach was a system of differential equations using Michealis-Menten kinetics. This was published as the best approach if reaction kinetics are not known (REFERENZ EINFÜGEN). All needed Vmax and KM values were colleted from the literature and from databases like KEGG, biocyc and BRENDA (table 1).
Enzyme | Vmax | KM | Reference |
---|---|---|---|
AlsS | |||
IlvC | |||
IlvD | |||
KivD | |||
AdhA |
Metabolite | Concentration | Reference |
---|---|---|
Pyruvate | ||
2-Acetolactate | ||
2,3-Dihydroxyisovalerate | ||
2-Ketoisovalerate | ||
Isobutyraldehyde | ||
Isobutanol |
Enzyme | kcat | Reference |
---|---|---|
AlsS | ||
IlvC | ||
IlvD | ||
KivD | ||
AdhA |
Enzyme | kcat | Reference |
---|---|---|
AlsS | ||
IlvC | ||
IlvD | ||
KivD | ||
AdhA |