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Dietrich Flockerzi

Showing results (1-10 of 21) with videos related to

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Chaos (Woodbury, N.Y.)|January 4, 2007
Comment on "Identification of low order manifolds: validating the algorithm of Maas and Pope" [Chaos 9, 108-123 (1999)]Dietrich Flockerzi, Wolfram Heineken
Journal of Mathematical Biology|July 12, 2011
Multistationarity in mass action networks with applications to ERK activationCarsten Conradi, Dietrich Flockerzi
Journal of Theoretical Biology|July 6, 2012
Structural analysis of a core model for carbohydrate uptake in Escherichia coliAndreas Kremling, Dietrich Flockerzi
Mathematical Biosciences|December 11, 2007
Multistationarity in the activation of a MAPK: parametrizing the relevant region in parameter spaceCarsten Conradi, Dietrich Flockerzi, Jörg Raisch
Journal of the Royal Society, Interface|December 6, 2013
Nested autoinhibitory feedbacks alter the resistance of homeostatic adaptive biochemical networksJörg Schaber, Anastasiya Lapytsko, Dietrich Flockerzi
Bulletin of Mathematical Biology|July 19, 2014
N-Site phosphorylation systems with 2n-1 steady statesDietrich Flockerzi, Katharina Holstein, Carsten Conradi
Bulletin of Mathematical Biology|September 20, 2013
Multistationarity in sequential distributed multisite phosphorylation networksKatharina Holstein, Dietrich Flockerzi, Carsten Conradi
Journal of Chromatography. A|March 4, 2010
A thermodynamically consistent explicit competitive adsorption isotherm model based on second-order single component behaviourMilica Ilić, Dietrich Flockerzi, Andreas Seidel-Morgenstern
Journal of Computational Neuroscience|August 31, 2020
Computational analysis of a 9D model for a small DRG neuronParul Verma, Achim Kienle, Dietrich Flockerzi, et al.
Proceedings of the National Academy of Sciences of the United States of America|November 29, 2007
Subnetwork analysis reveals dynamic features of complex (bio)chemical networksCarsten Conradi, Dietrich Flockerzi, Jörg Raisch, et al.
Pageof 3

Showing results (1-10 of 21) with videos related to

Sort By:
Pageof 3
Chaos (Woodbury, N.Y.)|January 4, 2007
Comment on "Identification of low order manifolds: validating the algorithm of Maas and Pope" [Chaos 9, 108-123 (1999)]Dietrich Flockerzi, Wolfram Heineken
Journal of Mathematical Biology|July 12, 2011
Multistationarity in mass action networks with applications to ERK activationCarsten Conradi, Dietrich Flockerzi
Journal of Theoretical Biology|July 6, 2012
Structural analysis of a core model for carbohydrate uptake in Escherichia coliAndreas Kremling, Dietrich Flockerzi
Mathematical Biosciences|December 11, 2007
Multistationarity in the activation of a MAPK: parametrizing the relevant region in parameter spaceCarsten Conradi, Dietrich Flockerzi, Jörg Raisch
Journal of the Royal Society, Interface|December 6, 2013
Nested autoinhibitory feedbacks alter the resistance of homeostatic adaptive biochemical networksJörg Schaber, Anastasiya Lapytsko, Dietrich Flockerzi
Bulletin of Mathematical Biology|July 19, 2014
N-Site phosphorylation systems with 2n-1 steady statesDietrich Flockerzi, Katharina Holstein, Carsten Conradi
Bulletin of Mathematical Biology|September 20, 2013
Multistationarity in sequential distributed multisite phosphorylation networksKatharina Holstein, Dietrich Flockerzi, Carsten Conradi
Journal of Chromatography. A|March 4, 2010
A thermodynamically consistent explicit competitive adsorption isotherm model based on second-order single component behaviourMilica Ilić, Dietrich Flockerzi, Andreas Seidel-Morgenstern
Journal of Computational Neuroscience|August 31, 2020
Computational analysis of a 9D model for a small DRG neuronParul Verma, Achim Kienle, Dietrich Flockerzi, et al.
Proceedings of the National Academy of Sciences of the United States of America|November 29, 2007
Subnetwork analysis reveals dynamic features of complex (bio)chemical networksCarsten Conradi, Dietrich Flockerzi, Jörg Raisch, et al.
Pageof 3