Web page: http://www.uni-rostock.de
University of Rostock
Institutions: University of Rostockorcid.org/0000-0002-1678-0051
Institutions: University of Rostockorcid.org/0000-0001-5393-3267
Institutions: University of Rostockorcid.org/0000-0002-5886-5563
Reproducibility of results is fundamental to all sciences. In computational biology, standard formats like Systems Biology Markup Language (SBML), CellML, or NeuroML enable the exchange of simulation models, and foster interoperability between software tools importing and exporting these formats.
My main research interest is in developing methods and tools that (1) improve the reuse of computational models in biology, (2) ensure reproducibility of modeling results and (3) that lead to easier
Tools: data modelling, Dynamic modelling, Computational Systems Biology, Stochastic models, C programming, differential algebraic equations, Mathematica, Matlab, ODE, Computational and theoretical biology
Modelling of cellular signalling, Dynamic Motifs and Feedback, Quantitative Measures, Theoretical Aspects of Modelling Biological Systems
The Systems Biology Service Center of de.NBI (de.NBI-SysBio) provides bioinformatics support and a standards-based data management for systems biology projects, with focus on the provenance of experimental results and on the reproducibility of modeling experiments, as well as high-quality curated biochemical data to modelers and experimentalists.
The node concentrates on two tools for the data management in life sciences research: SEEK, a catalogue for storage, registration and exchange of data
Public web page: Not specified
Organisms: Not specified
Bioprocesses for the optimized, integrated production of butyl esters from sustainable resources (BESTER)
Industrial Biotechnology is a key enabling technology to produce a plethora of different bio-based products from sustainable resources and a driver for developing the bio-based economy in Europe. Systems biology and Synthetic biology are recent additions to the biotechnology toolbox that in interplay with bioprocess and chemical process technology can help developing competitive industrial
Salmon farmed on modern feeds contains less of the healthy, long-chain fatty acids (EPA and DHA) than before. Up until the turn of the millennium, farmed salmon were fed fish oil as a replacement for their omega-3 rich natural prey. However, fish oil is now a scarce resource, and more than half of the fat in modern feeds comes from plant oils that are inexpensive, but devoid of long-chain omega-3 fatty acids. How can we increase the omega-3 content of salmon on sustainable feeds?
One option is