Difference between revisions of "UNIL BSc course: "Solving Biological Problems that require Math 2009""
Line 4: | Line 4: | ||
* Projects | * Projects | ||
** [[Neuroenergetics: Importance of transport for the regulation of energy substrate fluxes in brain cells]] | ** [[Neuroenergetics: Importance of transport for the regulation of energy substrate fluxes in brain cells]] | ||
− | ** [[Whole genome association study: Alcohol | + | ** [[Whole genome association study: Alcohol consumption in the Cohorte Lausannoise]] |
+ | ** [[Whole genome association study: Tobacco consumption in the Cohorte Lausannoise]] | ||
** [[Modeling: Pattern formation using Reaction-Diffusion models]] | ** [[Modeling: Pattern formation using Reaction-Diffusion models]] | ||
** [[Modeling: Gradient formation in the wing imaginal disc and the role of glypicans]] | ** [[Modeling: Gradient formation in the wing imaginal disc and the role of glypicans]] |
Revision as of 17:04, 3 March 2009
- Coordinator: Sven Bergmann
- Concept
- Dates & Deadlines
- Projects
- Neuroenergetics: Importance of transport for the regulation of energy substrate fluxes in brain cells
- Whole genome association study: Alcohol consumption in the Cohorte Lausannoise
- Whole genome association study: Tobacco consumption in the Cohorte Lausannoise
- Modeling: Pattern formation using Reaction-Diffusion models
- Modeling: Gradient formation in the wing imaginal disc and the role of glypicans
- Evolution: Estimating rate of speciation and extinction in a tropical plant
- Supervisors
- Students
- Neuroenergetics: Importance of transport for the regulation of energy substrate fluxes in brain cells
- Whole genome association study: Alcohol consumption in the Cohorte Lausannoise
- Whole genome association study: Tobacco consumption in the Cohorte Lausannoise
- Modeling: Pattern formation using Reaction-Diffusion models
- Modeling: Gradient formation in the wing imaginal disc and the role of glypicans
- Evolution: Estimating rate of speciation and extinction in a tropical plant