Institutions: Technische Universität Dresdenorcid.org/0000-0003-0137-5106
Lutz Brusch is heading the research group "Spatio-temporal pattern formation in cells and tissues" at the Centre for Information Services and High Performance Computing of TU Dresden, Germany. The group is co-developing the multi-cellular modelling and simulation framework Morpheus (https://imc.zih.tu-dresden.de/wiki/morpheus/) and is collaborating with experimental labs on questions of tissue morphogenesis and regeneration.
Projects: COMBINE Multicellular Modellingorcid.org/0000-0002-7692-7203
I studied Engineering Cybernetics at the University of Stuttgart and the University of Wisconsin, Madison. After my graduation, I started my PhD studies in systems biology for which I received a Ph.D. degree in 2013. A few months later I became team leader at the Institute of Computational Biology at the Helmholtz Zentrum München. Since August 2015, I lead an independent junior research group at the Helmholtz Zentrum München.
My research focuses on the development of methods for the data-driven
Roles: Project Coordinator
Expertise: Image processing, Image analysis, Dynamic Systems, Signalling networks, dynamics of biological networks., parameter estimation, Databases, Data analysis, Systems Biology, Model selection, Identifiability, Cellular Senescence, Cell Cycle
My group investigates dynamic regulation and control mechanisms of cellular signal transduction networks by a combination of theoretical, experimental and computational methods. We seek to make sense of our biological data with the help of mathematical models, which ideally enable us to make valid predictions for new experiments, thereby generating novel biological insights.
Expertise: Mathematical and statistical modeling, bioreactor models, dynamics of biological networks, dynamics and control of biological networks, parameter estimation, Reactor models, Mathematical modelling, Bioinformatics, Molecular Biology
Tools: evaluation of process dynamics, continuous cultivation, DIVA, differential algebraic equations, linux, Material balance based modeling, stimulus response experiments, Microarray analysis, Matlab, Linear equations, ODE, Model organisms, Single Cell analysis, SBML, Transcriptomics, Computational and theoretical biology, Bioinformatics
I'm an engineer at the MPI Magdeburg and I'm working in the field of mathematical modeling, model verification, parameter identification, model analysis and experimental design. I'm involved in two projects, KOsmoBac and PSYSMO.
Physicist, working on the modelling side.
biomathematician, PhD student at the University of Rostock, Systems Biology Group Rostock
Expertise: Mathematical modelling of biosystems and bioprocesses, Statistically and biologically inspired optimization algorithms, dynamics and control of biological networks, parameter estimation, Mathematical modelling
Tools: including: - Dynamic modelling - Parameter estimation - Optimal experimental design - Dynamic optimization, Computational Systems Biology, Mathematica, Matlab, Partial differential equations, ODE, Computational and theoretical biology
We are very interested in applying a systems approach (i.e. model-based concepts and related computational tools) to problems from the biological domain. In particular, we are doing research in computational systems biology, targetting the following topics:
- Parameter estimation (inverse problems, model calibration) in biochemical pathways
- Optimal experimental design (optimal dynamic experiments) for Systems Biology
- Dynamic optimization (optimal control) of biosystems and bioprocesses
Expertise: sensitivity analysis, Dynamic optimization., Systems Biology, Optimal experimental design, Mathematical modelling of biosystems and bioprocesses, dynamics and control of biological networks, parameter estimation
I am a postdoctoral researcher in the group of Julio Banga. My research is focused on computational systems biology with particular attention to the mathematical modelling of biosystems and bioprocesses. Some of the topics we address are:
- Parameter estimation
- Model identifiability
- Global sensitivity analysis
- Optimal experimental design
- Dynamic optimization
- Robust control of diffusion-reaction systems
Expertise: sensitivity analysis, Systems Biology, stress responses, Deterministic modelling of gene regulation networks, dynamics and control of biological networks, parameter estimation, Bacillus subtilis, Mathematical modelling
Modelling of the general stress response activation cascade of sigB in B. subtilis in response to starvation.
Institutions: Beuth University of Applied Sciences Berlinorcid.org/0000-0001-6096-1354
Roles: Project Coordinator
Expertise: Nonlinear Dynamics, Data integration, Dynamic optimization., Optimal experimental design, bioreactor models, dynamics of biological networks, parameter estimation, coupling metabolome and environome, rapid sampling experiments, Data Management, Mathematical modelling
Process engineer, modeling biological systems since 1985.
Institutions: University of Applied Sciences Koblenz, Rhein Ahr Campus
Grammar school until 1998
1998-99 Alternative civilian service
1999-2002 Professional education as male nurse
2002-2007 Study of Biomathematics
2007-... PhD student in TRANSLUCENT project
PhD student as research associate at the Institute for System Dynamics (ISYS), Universität Stuttgart, Germany. Engineering background→modelling, identification and analyses. Detailed kinetic modelling, identification and analysis of the TCA cycle (tricarboxylic acid cycle, citric acid cycle) and the ETC (electron transport chains, respiratory chains) of Escherichia coli. One of the SysMO-DB pals for SUMO.
PI of the SUMO work package "Detailed kinetic modelling, identification and analysis of the citric acid cycle and respiratory chains of E. coli". Director of the Institute for System Dynamics, Universität Stuttgart, Germany.