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.
Optimisation of Bacillus subtilis for the secretion of heterologous proteins Therapeutic proteins (including those required for experimental purposes and clinical trials) are major products of biomanufacturing processes and considerable time and expense are expended to maximise the yield and quality of proteins produced in heterologous hosts. The production host of choice is the Gram-negative bacterium Escherichia coli for which many strains and expression systems have been developed. However,
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
I'm an 'experimentalist' (molecular microbiologist) Postdoc working on regulation and peptide signaling in Clostridium acetobutylicum.
I'm also a SysMO-DB PAL (Product Application Liason) for COSMIC, working on data management including standards and integration with SysMO SEEK.
I am research assistant in the microbiology department at the Ludwig-Maximilians Universität in Munich (München), working at the chair of Prof. Kirsten Jung. In our SysMO consortium we generate biological data and work in close cooperation with the workgroup of Dr. Andreas Kremling of the Max-Planck-Institut für Dynamik komplexer technischer Systeme in Magdeburg who performs mathematical modeling. The topic of our workpackage deals with "K+ homeostasis in Escherichia coli", wherby the K+ transporters,
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.
Institutions: University of Tübingen
Trained as a Computer Scientist at the University of Jena, Germany, my interests drifted more and more towards "computing life" during my PhD at Simon Fraser University and the University of British Columbia, Canada. On one hand, that term captures that I got fascinated by the idea to understand life as a form of computation and to describe, reprogram, and reassemble parts of cells as described in many brilliant experiments from a spectrum of disciplines ranging from DNA computing to Synthetic
Dr. Stephanie Heux is leader of the MetaSys Team at LISB of Toulouse. She has 14 years of experience with microorganism as a model, metabolic engineering and NMR & MS-based metabolomics and fluxomics. After a 2-year Marie Curie fellowship at ETH Zurich where she developed advanced metabolomics methods and data mining approaches, she joined the LISBP as INRA researcher to undertake systems biotechnology research. She is interested in the microbial metabolism and, in particular, its organization,
Full Professor and Chairman of Microbiology
Lehrstuhl für Mikrobiologie
Institut für Biologie
91058 Erlangen, Fed. Rep. of Germany
Date of Birth: April 24, 1948
Place of Birth: Osnabrück, FRG
Children: Hauke Sven Hillen - May 17, 1987
RESEARCH AND PROFESSIONAL EXPERIENCE
Present Full Professor and Chairman of Microbiology at the Institute of Biology, Friedrich-Alexander
Professor of Computer Science, University of Sheffield. FBCS, FIMA, CEng, C.Math, CITP.
I have been involved in the use of computational techniques for modelling biological systems since 1980. More recently I have developed a technique of agent-based modelling based on the framework FLAME which is the only such system that can be run on supercomputers. We have made significant new biological discoveries using this approach: The approach models the location and activity of millions of individual