Dr.-Ing. Markus Rehberg
Bioprozesstechnik
Max-Planck-Institut für Dynamik komplexer technischer Systeme
Max-Planck-Institut für Dynamik komplexer technischer Systeme
Vita
Publications:
Rehberg M., Ritter J.B., Reichl U., Glycolysis Is Governed by Growth Regime and Simple Enzyme Regulation in Adherent MDCK Cells, PLoS Computational Biology, 10/2014, 10(10):e1003885
Rath A., Rehberg M., Janke R., Genzel Y., Scholz S., Noll T., Rose T., Sandig V., Reichl U., The influence of cell growth and enzyme activity changes on intracellular metabolite dynamics in age1.hn.aat cells, J. of Biotechnol., 2014, 178: 43--53
Rehberg M., Rath A., Genzel Y., Ritter J.B., Reichl U., Changes in intracellular metabolite pools during growth of adherent MDCK cells in two different media, Appl. Microbiol. Biotechnol., 2014, 98(1): 385--397
Rehberg M., Wetzel M., Ritter J.B., Reichl U., The regulation of glutaminolysis and citric acid cycle activity during mammalian cell cultivation, IFAC proceedings, 2013, 12(1): 48--53
Rodriguez-Fernandez M., Rehberg M., Kremling A., Banga J.R., Simultaneous model discrimination and parameter estimation in dynamic models of cellular systems, BMC Systems Biology, 2013, 7(1): 76
Rehberg M., Ritter J.B., Genzel Y., Flockerzi D., Reichl U., The relation between growth phases, cell volume changes and metabolism of adherent cells during cultivation, J. Biotechnol., 2013, 164: 498-499
Talks:
The regulation of glutaminolysis and citric acid cycle activity during mammalian cell cultivation, Computer Applications in Biotechnology, 2013, Mumbai, India
The modulation of central carbon metabolism during adherent MDCK cell growth, International Conference on Systems Biology, 2013, Kopenhagen, Denmark
Glycolysis of adherently growing mammalian cells - dynamics during cell growth and glucose limitation, 2012, guest presentation in the Biophysics Group of Dr. Hauser, Institute for Experimental Physics, Otto-von-Guericke University, Magdeburg, Germany
Inherent Dynamics of Glycolysis in MDCK Cells, Guest presentation at the Institute for Complex Systems and Mathematical Biology, 2010, University of Aberdeen, Scotland
Rehberg M., Ritter J.B., Reichl U., Glycolysis Is Governed by Growth Regime and Simple Enzyme Regulation in Adherent MDCK Cells, PLoS Computational Biology, 10/2014, 10(10):e1003885
Rath A., Rehberg M., Janke R., Genzel Y., Scholz S., Noll T., Rose T., Sandig V., Reichl U., The influence of cell growth and enzyme activity changes on intracellular metabolite dynamics in age1.hn.aat cells, J. of Biotechnol., 2014, 178: 43--53
Rehberg M., Rath A., Genzel Y., Ritter J.B., Reichl U., Changes in intracellular metabolite pools during growth of adherent MDCK cells in two different media, Appl. Microbiol. Biotechnol., 2014, 98(1): 385--397
Rehberg M., Wetzel M., Ritter J.B., Reichl U., The regulation of glutaminolysis and citric acid cycle activity during mammalian cell cultivation, IFAC proceedings, 2013, 12(1): 48--53
Rodriguez-Fernandez M., Rehberg M., Kremling A., Banga J.R., Simultaneous model discrimination and parameter estimation in dynamic models of cellular systems, BMC Systems Biology, 2013, 7(1): 76
Rehberg M., Ritter J.B., Genzel Y., Flockerzi D., Reichl U., The relation between growth phases, cell volume changes and metabolism of adherent cells during cultivation, J. Biotechnol., 2013, 164: 498-499
Talks:
The regulation of glutaminolysis and citric acid cycle activity during mammalian cell cultivation, Computer Applications in Biotechnology, 2013, Mumbai, India
The modulation of central carbon metabolism during adherent MDCK cell growth, International Conference on Systems Biology, 2013, Kopenhagen, Denmark
Glycolysis of adherently growing mammalian cells - dynamics during cell growth and glucose limitation, 2012, guest presentation in the Biophysics Group of Dr. Hauser, Institute for Experimental Physics, Otto-von-Guericke University, Magdeburg, Germany
Inherent Dynamics of Glycolysis in MDCK Cells, Guest presentation at the Institute for Complex Systems and Mathematical Biology, 2010, University of Aberdeen, Scotland