Project heads:
Prof. Dr. Alexander Bockmayr
/
Prof. Dr. Volker Mehrmann
Project members:
Dr. Markus Arthur Köbis
Duration: 01.06.2017 - 31.12.2018
Status:
completed
Located at:
Freie Universität Berlin
Description
In the field of sustainable energies, microbial cell factories such as yeasts and cyanobacteria are receiving increasing interest due to their potential to produce biofuels.
A major question is how the metabolism of these microorganisms is coordinated in a dynamic environment such that the correct macromolecules are synthesized at the right time in order to enable growth and survival.
Recent mathematical modeling approaches have made it possible to study this problem using an optimal dynamic resource allocation formalism such as dynamic enzyme-cost flux balance analysis (deFBA).
The goal of this project is to study the mathematical properties properties of the underlying optimal control problem involving differential-algebraic constraints and to develop efficient numerical solution strategies.
https://www.mi.fu-berlin.de/en/math/groups/mathlife/projects_neu/SE16/index.html
