Projects: COVID-19 Disease Map
Institutions: University of Surreyhttps://orcid.org/0000-0001-5640-7422
Reader (Professor) of Systems Biology; Executive Director for the International Society of Systems Biology (ISSB); Editor-in-Chief of Current Opinion in Systems Biology (Elsevier).
Institutions: University of Stellenboschhttps://orcid.org/0000-0001-6288-8904
Tools: Biochemistry and protein analysis, Bioinformatics, Systems Biology, SBML, R, ODE, Molecular biology techniques (RNA/DNA/Protein), Genetics, Dynamic modelling, Computational and theoretical biology, CellDesigner, Parameter estimation
Institutions: University of Groningen
I work as a project manager for the Innovative Training Network PoLiMeR - Polymers in the LIver: Metabolism and Regulation funded by the EU. In addition I am a project manager for the UMCG Research BV where I support scientist in the pre-award phase with writing their proposals and in the post-award phase with managing their awarded projects.
Institutions: National Institute of Biologyhttps://orcid.org/0000-0003-0913-2715
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 ...
Projects: Not specified
Institutions: Not specifiedhttps://orcid.org/0000-0003-2727-9518
I am had of the Research Group PiDOMICS which aims at the identification of human biomarkers for fungal infection using omics-data. Moreover, I am PI Infrastructure project of the Collaborative Research Center / Transregio 124 Pathogenic fungi and their human host: Networks of Interaction - FungiNet. Thereby my expertise is the implementation and usage of pipeline for OMICS (genome, transcriptome, protoem) data analysis, as well as data-warehouses for visualizing these data.
Projects: Kinetics on the move - Workshop 2016, Multi-Scale Models for Personalized Liver Function Tests (LiSyM-MM-PLF), FAIRDOM user meeting, COMBINE Multicellular Modelling, FAIRDOM & LiSyM & de.NBI Data Structuring Traininghttps://orcid.org/0000-0003-1725-179X
We are investigating liver metabolism and function with the help of computational models and methods. Read more about the LiSyM junior group at: www.livermetabolism.com
Junior Group Leader Dr. Matthias König
Institute for Theoretical Biology Humboldt-University Berlin Invalidenstraße 43, 10117 Berlin, Germany phone +49 30 2093-8450 firstname.lastname@example.org
The liver is the central metabolic organ of our body playing a crucial role in the clearance of drugs, xenobiotics and numerous metabolites ...
Expertise: Biochemistry, coupling metabolome and environome, rapid sampling experiments, Systems Biology, carbon metabolism, Stoichiometric modelling, Proteomics, Metabolomics, yeast, fungi, Dynamics and Control of Biological Networks
Tools: Biochemistry and protein analysis, Metabolomics, Matlab, Fermentation, Chromatography, Material balance based modeling, stimulus response experiments, continuous cultivation, Enzyme assay, Mass spectrometry (LC-MS/MS), HPLC, GC and LC/MS analysis of metabolites, ODE, Parameter estimation
I've become a SysMO DB PAL for MOSES project in 2007 being a post-doc in lab of Prof. Matthias Reuss at University of Stuttgart. In the MOSES project, our major efforts were in the experimental data acquisition for dynamic model of primary carbon and anaerobic energy metabolism in yeast. The model implements prediction of perturbations of two types: glucose pulse and temperature jump. We implement “stimulus-response” methodology for the unraveling the dynamic structure of the network and to ...
Institutions: Åbo Akademi University
Roles: Project Coordinator
Expertise: Signalling networks, dynamics of biological networks., Databases, Data analysis, Systems Biology, Model selection, Identifiability, Cellular Senescence, Cell Cycle, Dynamic Systems, Image processing, Image analysis, Parameter estimation
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.
Institutions: Institute of Cytology and Genetics
I am a biomodeler, PhD student. Actually, I've graduated from Novosibirsk State University on two specialities: my bachelor diploma is done in computer science and the master thesis is defended in information biology. So, I'm kind of drifting towards biology. I am a part of the Haploid Evolutionary Constructor project. Our research group studies are dedicated to the simulation of prokaryotic communities. Personally, I am involved into the simulation of spatially distributed bacterial communities ...
Institutions: Universität Konstanz
I studied Life Science (which is similar to chemical biology) at the University of Konstanz and became interested in Bioinformatics, Systems Biology and quantitative analyses during my Master's. In my PhD project I combine experimental analyses with modeling and parameter estimation approaches to quantitatively analyse regulation of apoptosis at the level of the Bcl-2 protein family.
Institutions: Imperial College London
I am a PhD student in the Theoretical Systems Biology group, based at Imperial College London. The aim of my PhD is to understand how noise can be the driving force of decision-making processes (differentiation, self-renewal, apoptosis or tumorgenesis), and what are our chances to control them. So far I have been working on method development for stochastic models, a moment closure framework and a stochastic reachability method, to look into cell-to-cell-variability.
Expertise: Mathematical modelling, Bacillus subtilis, Deterministic modelling of gene regulation networks, stress responses, Systems Biology, sensitivity analysis, Dynamics and Control of Biological Networks, Parameter estimation
Modelling of the general stress response activation cascade of sigB in B. subtilis in response to starvation.
Tools: Computational and theoretical biology, ODE, Matlab, Mathematica, differential algebraic equations, Stochastic models, C programming, Computational Systems Biology, Dynamic modelling, Data Modelling
Modelling of cellular signalling, Dynamic Motifs and Feedback, Quantitative Measures, Theoretical Aspects of Modelling Biological Systems
Expertise: Molecular Biology, Bioinformatics, Mathematical modelling, Reactor models, dynamics of biological networks, Mathematical and statistical modeling, bioreactor models, Dynamics and Control of Biological Networks, Parameter estimation
Tools: Bioinformatics, Computational and theoretical biology, Transcriptomics, Model organisms, Single Cell analysis, SBML, ODE, Linear equations, Matlab, Microarray analysis, linux, Material balance based modeling, stimulus response experiments, DIVA, differential algebraic equations, evaluation of process dynamics, continuous cultivation
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.
biomathematician, PhD student at the University of Rostock, Systems Biology Group Rostock
My background is physics engineering & biomedical engineering. I did my PhD in Surrey on the modelling of response of mammalian cells to radiation of different qualities. I have been working at the University of Aberdeen since November 2007 as a theoreticien research fellow of the KOSMOBAC project. We are investigating the homeostasis of ions in bacteria E. coli. I have been working at a model of the buffering capacity of the cytopplasm, arising from the presence of weak acids and bases. We ...
Expertise: Mathematical modelling of biosystems and bioprocesses, Optimal experimental design, Systems Biology, sensitivity analysis, Dynamic optimization., 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
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
Expertise: Microbiology, Biochemistry, Mathematical modelling, Bacillus subtilis, Mathematical modelling of biosystems and bioprocesses, stress responses, Systems Biology, Nonlinear Dynamics, carbon metabolism, Signalling networks, Metabolic Networks
Tools: Computational and theoretical biology, ODE, Matlab, Mathematica, Fermentation, Chromatography, continuous cultivation, Enzyme assay, Computational Systems Biology, Deterministic models, Dynamic modelling, fed-batch cultivation
I am a biologist in the lab of Prof. Reuss at the University of Stuttgart and I am working in the field of biotechnology and mathematical modelling.
Physicist, working on the modelling side.
Expertise: Mathematical modelling, Statistically and biologically inspired optimization algorithms, Mathematical modelling of biosystems and bioprocesses, Dynamics and Control of Biological Networks, Parameter estimation
Tools: Computational and theoretical biology, ODE, Partial differential equations, Matlab, Mathematica, Computational Systems Biology, including: - Dynamic modelling - Parameter estimation - Optimal experimental design - Dynamic optimization
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
Tools: Computational and theoretical biology, ODE, linux, data modeling, enzymatic analyses, Stochastic models, C programming, Computational Systems Biology, Deterministic models, including:- Dynamic modelling- Parameter estimation- Optimal experimental design- Dynamic optimization
Former: 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. Now: Industrial affiliation
I am working on a kinetic model of the central metabolism as well as on a genome wide model of Streptococcus pyogenes.
Tools: Molecular Biology, Cell biology, Computational and theoretical biology, Metabolomics, Model organisms, SBML, ODE, Partial differential equations, Algebraic equations, Linear equations, Copasi, JWS Online, Matlab, Mathematica, SQL, Material balance based modeling
I'm a modeller, specialized in kinetic modeling of biochemical networks. My focus in the SysMO-LAB consortium is on creating models of Lactococcus lactis glycolysis and couple this to other related lactic acid bacteria like Streptococcus pyogenes and Enterococcus faecalis. Besides kinetic modeling, I'm also interested in combining various modeling techniques (genome-scale modeling, qualitative modeling).
Institutions: University of Rostock
Tools: Computational and theoretical biology, ODE, Matlab, Mathematica, stimulus response experiments, differential algebraic equations, quantitative western blot analyses, quantitative western blot analysis, Stochastic models