Calibrate or re-calibrate a kinetic model of a mammalian signaling pathway
First, find an appropriate model from the curated portion of BioModels
- Represents Homo sapiens or Mus musculus
- Represents a signaling pathway
- Species are annotated with UniProt ids
Here's the SBML files for the curated portion of BioModels.
Second, try to use the PAXdb data either to
- (a) Calibrate the initial species concentrations (i.e., predict the values in the SBML file; the values in the SBML file would serve as the "gold" standard)
- (b) Re-calibrate the initial species concentrations to represent a different organism or cell type
Enhanced Yeast FBA model
Any version could be used as a starting point.
Ways to improve the yeast model
- Additional flux constraints equal to {k_cat} * {enzyme abundance}
- More detailed biomass reconstruction using metabolite concentrations from YMBD
Potential ways to demonstrate improvement of the FBA model
- Increase in the number of reactions with non-zero predicted flux
- Increase in the number of exchanged metabolites (metabolites imported from the extracellular media)
- Improved prediction of gene essentiality (would be due to more detailed biomass)
- Resolution of any problem with the original model described in one of the original publications
- Prediction of distribution of growth rates of single cells (demonstrates improvement in capabilities rather than in biological validity)
Calibrate or re-calibrate a kinetic model of a mammalian signaling pathway
First, find an appropriate model from the curated portion of BioModels
Here's the SBML files for the curated portion of BioModels.
Second, try to use the PAXdb data either to
Enhanced Yeast FBA model
Any version could be used as a starting point.
Ways to improve the yeast model
Potential ways to demonstrate improvement of the FBA model