I am PhD student at Prof.Uwe Voelker lab in Department of Functional Genomics. My area of research is microbial functional genomics in particular analysing the whole transcriptome(by microarray and other molecular biolology methods) of B.subtilis under various stress conditions.
I use QconCAT strategy for absolute quantification of carbon metabolic enzymes via MRM(multiple reaction monitoring) by LC-MS/MS.
I also perofrm experiments for understanding of dynamics of SigmaB network for modelling.
From 2005 to 2008 I was group leader at the Institute for System Dynamics at the University of Stuttgart. Since 2008 I am now Professor of Systems Biology at the University of Luxembourg.
The research of the Systems Biology Group at the University of Luxembourg is focussed in the area of experimental and theoretical systems biology. We are applying different modelling techniques (mainly ODE and logical) to biological systems to develop suitable computational models. The analysis of these models
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: VU University Amsterdam
I am a beginning PhD student at the VU in Amsterdam and study the heterogeneity of yeast cells at near zero growth conditions. I have a versatile background in Biophysics and Systems Biology.
Detlef Schmiedl (PhD) is working at Fraunhofer ICT since 02/2006 as scientist & is project leader as well as senior scientist at Fraunhofer ICT. He is a chemist & has long term experience in processing of lignocellulose & chemical modification/ tailored functionalization of tannin & lignin as well as in base catalyzed chemical depolymerization of several lignin types into monomer & oligomer oxy-aromatic building blocks. Additionally he has long term experiences in analytical
I studied chemistry in Erlangen and started research on carbon catabolite regulation in Bacillus megaterium in my diploma thesis. During my PhD thesis I was concerned with quantitative analyses of protein-protein and protein-DNA interactions of CcpA, in vivo- and in vitro-characterization of point mutants of CcpA and coeffectors and I contributed to the structural analysis of different CcpA complexes. During a postdoctoral appointment I focused on interaction analyses of PrfA, a regulator of
Luis Serrano did his PhD at the CBM (Madrid, Spain) on Cell Biology. Then he spent 4 years in the laboratory of Prof. A.R. Fehrs (MRC, UK) working in protein folding. In 1993, he became Group Leader at the EMBL (Heidelberg, Germany) working in Protein Folding and design. Ten years later, he was appointed head of the Structural & Computational Biology programme at the EMBL and he started to work on Systems Biology. By the end of 2006 he moved back to Spain to lead a programme working on Systems
Projects: MESI-STRAT, Systems modelling age-related changes in the maintenance of dermal extra-cellular matrix: mechanisms and interventions, Are microRNAs key mediators of cartilage destruction in osteoarthritis?, Dynamic interplay between nuclei and mitochondria in ageing cells, Outreach - Breast Cancer RStudio-Shiny application, Outreach - Simulation of breast cancer development using an agent based modelling approach, Outreach - Senescence RStudio-Shiny application, Outreach - Simulation of cellular senescence using an agent based modelling approach
Institutions: University of Newcastlehttps://orcid.org/0000-0003-3096-6386
Head of the group of Molecular Enzyme Technology and Biochemistry (Faculty of Chemistry) at the University of Duisburg-Essen. My research interest is on archaeal physiology with a special focuss on the central carbohydrate metabolism of (hyper)thermophilic Archaea and its regulation. The aim is to gain a systems level understanding by the combination of modern highthrouput analyses with classical biochemistry and molecular biology.
Archaea possess many novel enzymes and pathways and our aim is
I am a multicell and multiscale modeler and member of the Biocomplexity group at Indiana University. The group produces and maintains the multicellular modelling package Compucell3D. I am also a voting member of the USA committee to the International Organization for Standards (ISO) working group on standards in biotechnology and the chairman of a sub-sub group on publishing standards.
Projects: PSYSMO, MOSES, SysMO DB, SysMO-LAB, SulfoSys, SulfoSys - Biotec, Whole body modelling of glucose metabolism in malaria patients, FAIRDOM, Molecular Systems Biology, COMBINE Multicellular Modelling, HOTSOLUTE, Steroid biosynthesis, Yeast glycolytic oscillations, Computational pathway design for biotechnological applications
Projects: SysMO DB, Whole body modelling of glucose metabolism in malaria patients, Manchester Institute for Biotechnology, FAIRDOM, ICYSB 2015 - International Practical Course in Systems Biology, GenoSysFat, DigiSal, FAIRDOM user meeting, FAIRDOM Templateshttps://orcid.org/0000-0003-4958-0184
Interested in systems + synthetic biology, biotechnology, mountaineering, swimming, running, and the occasional cup of tea. Once diagnosed as an ENFP.
I started to work with B. subtilis during my diploma thesis in Marburg, analyzing the gene expression pattern during sporulation and their control by the four sporulation sigma factors. This work was continued during my PhD thesis in Greifswald. In collaboration with Prof. Bremer and Prof. Marahiel in Marburg we also studied additional adaptation processes of B. subtilis, like the adaptation to low temperatur and high osmolarity.
I am now working as a staff scientist in Prof. Völkers lab in
Assistant professor at Wageningen University & Research
Researcher at the University Medical Center Göttingen, Department of Medical Informatics