Institutions: INSTITUTE FOR PLANT MOLECULAR AND CELL BIOLOGY (IBMCP)https://orcid.org/0000-0001-8589-7002
Institutions: UNIBI: Bielefeld Universityhttps://orcid.org/0000-0002-6100-9135
I'm currently a Postdoc at the Institute of Technical Biochemistry in Stuttgart University. My project involves the experimental validation of the Indirect Enzymatic Dehydration Via Phosphorylation and Dephosphorylation of Isobutanol for Isobutene production.
Projects: Not specified
Institutions: Not specifiedhttps://orcid.org/0000-0001-8357-2159
Expertise: protein purification, Immunoassays, Mass spectrometry (LC-MS/MS), Molecular Biology, Biochemical analysis, ELISA, oral food challenge, food allergy, Microbiology, protein extraction, Immunoblots, Data analysis, peanut and treenut allergy
Tools: 1D and 2D SDSPAGE, Immunological techniques, Mass spectrometry, Biochemistry and protein analysis, immunoblot, oral food challenge matrix preparation for food allergy research, protein purification, molecular biology techniques, ELISA Techniques, data analysis and data management, food allergen characterisation
Projects: SysMO-LAB, de.NBI-SysBio, Kinetics on the move - Workshop 2016, Example use cases, SBEpo - Systems Biology of Erythropoietin, FAIRDOM & LiSyM & de.NBI Data Structuring Training, FAIRDOM, EnzymeML, FAIRDOM Community Workers, GMDS Project Group "FAIRe Dateninfrastrukturen für die Biomedizinische Informatik"
Within the de.NBI project my functions in the de.NBI-SysBio node comprise content curation, requirements elicitation, and community engagement for the users of biochemical reaction kinetics database SABIO-RK as well as of the data management platform SEEK.
My research is intended to contribute to the elucidation of the physiological and molecular processes involved in the biofilm formation of acidophilic leaching bacteria with emphasis in their cell-cell communication mechanisms.
In SysMetEx, our role is to understand biofilm formation at a microscopical and OMICS levels, in order to optimize it.
Institutions: Radboud University Nijmegen
I am a first year graduate student in the lab of Prof. Wilhelm Huck at the Radboud University Nijmegen. I am working on a project to create an artificial cell. This involves implementing complex genetic networks in cell-free systems which are far from equilibrium. My project involves designing, quantifying, modeling such networks. I am a molecular biologist by training and have basic modeling skills. I am looking to expand my skill-set to include microscopy, microfluidics and a little bit of
I am PhD student in Wendisch lab (Bielefeld University).
Roles: Project Coordinator
Expertise: genetic engineering, Streptomyces, Protein-DNA-interaction, Microarray experiments with prokaryotes, Molecular microbiology, bacterial gene regulation, regulation of gene expression, Transcriptomics, Microbiology
Tools: transcription analysis, analysis of functional genomics data, microbiology techniques, reporter gene analyses, Mutant and Strain Construction, site-directed and random mutagenesis, Molecular biology techniques (RNA/DNA/Protein), Bioconductor Packages in R, Northern analyses), Chip-chip, Microarray analysis, PCR, Transcriptomics, Genetic modification, Microbiology
Expertise: Clostridium, carbon metabolism, bacterial metabolism, Clostridial Genetics, Metabolic Engineering, Anaerobic Microbiology, Synthetic Biology, Systems Biology, Molecular Biology, Genetics, Microbiology
I'm an experimentalist 'Pre-doc' (I still have to finish my PhD thesis) and my work on the COSMIC project will focus on setting up a metabolomic analysis method for Clostridium acetobutylicum.
In the past I have worked on metabolic engineering of the same organism by disrupting genes to asses their impact on acid and solvent formation.
I'm looking forward to joining the COSMIC web-community. It hopefully will all us to stay in touch and update each other on advances in the (computer)lab.
Roles: Project Coordinator
The Veening lab is interested in phenotypic bi-stability in Streptococcus pneumoniae and its importance in virulence of this human pathogen.
Projects: PSYSMO, DigiSal, GenoSysFat, HUMET Startup, EmPowerPutida, MycoSynVac - Engineering Mycoplasma pneumoniae as a broad-spectrum animal vaccine, SAFE-Aqua, INDIE - Biotechnological production of sustainable indole
Roles: Project Coordinator
Tools: reverse engineering, computational platform development, metabolic netwlrk visualization, microbiology techniques, Metabolic Engineering, Computational Systems Biology, Microarray analysis, Fermentation, Proteomics, Genetic modification, Bioinformatics
My research activities has been to use mathematical models and Computational Biology to answer biological questions, intertwining in silico and experimental methods at all stages. I have a strong interest in exploring the interfaces between Fundamental Biology and bona fide Engineering, specifically in the realm of environmental and industrial problems. The research goals of my group are to contribute to the elucidation of mechanisms underlying basic cellular processes, evolution and ecological
I obtained my PhD in 1989 at the Free University (Amsterdam) on a research project in which microbial physiology, biochemistry, and molecular biology were combined. Subsequently I spent 3 years abroad, 2.5 years of which as EMBO fellow at the EMBL (Heidelberg, Germany) where I worked on protein engineering and protein crystallization. I returned to Amsterdam as KNAW fellow for 3 years, during which I worked on protein analysis and pathway engineering. In 1995 I was appointed as group leader
Martijn Bekker (1979) was born in Amstelveen (The Netherlands). He started his studies in biology in 1997 at the University of Amsterdam, and graduated in 2003 with specializations in molecular microbiology and in immunology. The internships during his undergraduate studies were carried out in the labs of Prof. dr. B. Oudega (VU, Amsterdam, The Netherlands) and Prof. dr. F. Heffron (OHSU, Portland, Oregon, USA).
He continued with his graduate studies in 2003 in the Laboratory for Molecular Microbial
I am interested in the coupling of global regulation and metabolism in E. coli. To analyze this I construct and analyze defined mutant strains. These strains are characterized in bioreactor experiments of different types (batch, conti, pulse ...) and measurements on the level of metabolites, mRNA, and protein are applied. For all projects there are cooperation partners that use the data in modeling approaches either from the MPI Magdeburg or from the SUMO consortium.
PostDoc at Wageningen University, Laboratory of Microbiology
University of Ulm
Institute of Microbiology and Biotechnology
Albert-Einstein- Allee 11
89069 Ulm, Germany
Expertise: mRNA, overflow metabolism in Bacillus, carbon catabolite regulation in Gram positive bacteria, Clostridium, carbon metabolism, regulation of gene expression, Bacillus subtilis, Molecular Biology, Microbiology
Tools: microbiology techniques, Western blot analyses, reporter gene analyses, qRT-PCR, absolute quantification, Optimal experimental design, Molecular biology techniques (RNA/DNA), northern blot analysis, cultivation, Genetic modification
Tools: bacterial two-hybrid system, SubtiWiki, SPINE, Chemical cross-linking, Proteomics (2D-PAGE), mutant strain generation, Genetic modification, Genetic analysis, Biochemistry and protein analysis, Molecular Biology, Microbiology
Tools: molecular biological techniques (RNA/DNA techniques), protein interaction studies, DNA technology RNA technology Protein analysis Fermentation Mutagenesis, gene regulation, Proteomics (2D-PAGE), Model organisms, Proteomics, Transcriptomics, Genomics, Genetic analysis, Cell biology, Biochemistry and protein analysis, Molecular Biology, Microbiology
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 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.
Tools: reporter gene analyses, plasmon resonance spectroscopy, spectroscopy, site-directed and random mutagenesis, molecular biological techniques (RNA/DNA techniques), Membrane protein biochemistry, Chromatography, Fermentation, Biochemistry and protein analysis, Genetics
I am a PhD student of the microbiology department at the Ludwig-Maximilians Universität München. I work at the chair of Prof. Kirsten Jung. The topic of our workpackage deals with "K+ homeostasis in Escherichia coli". In special I'm working on the sensor kinase KdpD that controls together with the response regulator KdpE the expression of the high-affinity K+ uptake system KdpFABC. The yet not fully understood molecular mechanism of stimulus perception and signal transduction is of particular
Dr. Bettina Schiel-Bengelsdorf
Department of Microbiology and Biotechnology
University of Ulm
89069 Ulm, Germany
University of Rostock, Germany
Institute of Biological Sciences
Division of Microbiology
I'm Post-Doc in the lab of Prof. Becher at the University of Greifswald. I'm working on the relative and absolute protein quantitation using gel-based and mass-spectrometric methods.
Expertise: carbon metabolism, Signalling networks, metabolic networks, Nonlinear Dynamics, Systems Biology, stress responses, Mathematical modelling of biosystems and bioprocesses, Bacillus subtilis, Mathematical modelling, Biochemistry, Microbiology
Tools: fed-batch cultivation, Dynamic modelling, Computational Systems Biology, Deterministic models, continuous cultivation, Enzyme assay, Chromatography, Fermentation, Matlab, Mathematica, ODE, Computational and theoretical biology
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.
Post-doctoral research associate working in Sheffield in the SUMO consortium.
I am a first year PhD student, working with Professor Robert Poole (University of Sheffield), Professor Jeff Green (University of Sheffield) and Dr Jamie Wood (University of York) using a systems biology approach to study respiration in Escherichia coli.
I have a permanent position at the department of microbiology at the TU-München. As a microbiologist I am interested in the regulation of central metabolism in prokaryotic organisms with different types of energy metabolism such as Clostridia, Bacilli and acetic acid bacteria. Furthermore I worked as a software developer for several years in a bioinformatics company and I am very interested in bioinformatics and handling of large amounts of data.
I`m interested to investigate the Influence of the accumulation of reduction equivalents on solvent production
Tools: molecular biological techniques (RNA/DNA techniques analyses of transport across cell membranes heterologous expression of transporters, Fluorecence based reporter gene analyses/single cell analyses, mutant strain generation, Biochemistry and protein analysis
biochemistry, molecular biology and physiology of lower eukaryotes,
characterization of cell membrane transporters
I am assistant professor at the Laboratory of Microbiology and my interest is in the area of molecular microbiology. Research focuses on the analysis of the metabolism of anaerobic fermentative bacteria and archaea, especially with respect to biofuel production (hydrogen, butanol). Within SysMo our tasks concern the effect of butanol stress, using metabolomics and transcriptomics.
Tools: Site-directed mutagenesis, Chemical cross-linking, Membrane protein biochemistry, Biochemistry of substrate transport. molecular biological techniques (RNA/DNA techniques analyses of transport across cell membranes heterologous e..., Molecular Biology, Microbiology
I am a biologist by training. My research career is focussed on the structure-function relationships of membrane transport systems in Escherichia coli. I am interested in understanding the mechanism of ion and solute transport across the membrane and how this influences bacterial cell survival. My work mainly focusses on the ligand-gated potassium efflux systems which are crucial for cell survival during electrophile exposure and the mechanosensitive channels involved in hypoosmotic stress
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
Kosmobac, WP3, looking at diffusion of macromolecules in vivo (in E.coli cells) and cell responses to osmotic shock using confocal (fluorescence) microscopy especially pulsed - FRAP
Professor of Microbiology
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.
Tools: transcriptional analysis (Northern blots, Molecular biology techniques (RNA/DNA), quantitative western blot analyses, Proteomics (2D-PAGE), molecular biological techniques (RNA/DNA techniques, quantitative Western analyses), Fluorescence and confocal microscopy, PCR, Web services, Pharmacology and toxicology, Spectroscopy and structural analysis, Proteomics, Genetics
Postdoctoral Research fellow with experience in Genomics, transcriptomics, proteomics and metabolomics
Tools: qPCR, mutant strain generation, Northern analyses), Fluorecence based reporter gene analyses/single cell analyses, Proteomics (2D-PAGE), enzymatic analyses, Protein chemical methods (protein overproduction, quantitative Western analyses), purification, molecular biological techniques (RNA/DNA techniques
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,
I am a research technician at the Institute of Medical Science in Aberdeen, working for Prof. Ian Booth. The topic of our workpackage deals with K+ homostasis in Escherichia coli. I am working with the protein KefF, a regulatory subunit of the potassium channel KefC.
Professor in Jinan University, Guangzhou, China.
My research interest is in the modeling of translation. Connecting various processes in translation, we can investigate the impact of different factors on protein biosynthesis and biogenesis in genome-wide scale. This may reveal various general mechanisms on control level of gene expression and folding efficiency regulation in different growth conditions.
Expertise: Systems Biology, regulation of gene expression, Signal transduction in Gram-negative bacteria; Synthetic Microbiology; Single cell gene expression; Regulatory networks; biochemistry; histidine ki..., gene regulation, stress responses, bistability, sporulation, phenotypic heterogeneity, translational control of gene expression, Bacillus subtilis, Molecular Biology, Genetics, Microbiology
Tools: Time-lapse fluorescence microscopy Flow cytometry, time lapse microscopy, Molecular biology techniques (RNA/DNA), Fluorecence based reporter gene analyses/single cell analyses, PCR, Model organisms, Single Cell analysis, Genetic modification, Genetic analysis, Molecular Biology, Genetics, Microbiology