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Carsten Conradi
Carsten Conradi
HTW Berlin - Life Science Engineering
Verified email at htw-berlin.de - Homepage
Title
Cited by
Cited by
Year
Chemical Reaction Systems with Toric Steady States
M Pérez Millán, A Dickenstein, A Shiu, C Conradi
Bulletin of Mathematical Biology, 1-39, 2011
1452011
Subnetwork analysis reveals dynamic features of complex (bio) chemical networks
C Conradi, D Flockerzi, J Raisch, J Stelling
Proceedings of the National Academy of Sciences 104 (49), 19175, 2007
1422007
Sign conditions for injectivity of generalized polynomial maps with applications to chemical reaction networks and real algebraic geometry
S Müller, E Feliu, G Regensburger, C Conradi, A Shiu, A Dickenstein
Foundations of Computational Mathematics 16 (1), 69-97, 2016
1212016
Identifying parameter regions for multistationarity
C Conradi, E Feliu, M Mincheva, C Wiuf
PLoS computational biology 13 (10), e1005751, 2017
1062017
Using chemical reaction network theory to discard a kinetic mechanism hypothesis
C Conradi, J Saez-Rodriguez, E Gilles, J Raisch
Systems biology 152 (4), 243, 2005
822005
Multistationarity in the activation of a MAPK: Parametrizing the relevant region in parameter space
C Conradi, D Flockerzi, J Raisch
Mathematical biosciences 211 (1), 105-131, 2008
702008
Catalytic constants enable the emergence of bistability in dual phosphorylation
C Conradi, M Mincheva
Journal of The Royal Society Interface 11 (95), 20140158, 2014
612014
Dynamics of posttranslational modification systems: Recent progress and future directions
C Conradi, A Shiu
Biophysical journal 114 (3), 507-515, 2018
532018
A global convergence result for processive multisite phosphorylation systems
C Conradi, A Shiu
Bulletin of mathematical biology 77 (1), 126-155, 2015
522015
Multistationarity in mass action networks with applications to ERK activation
C Conradi, D Flockerzi
Journal of mathematical biology 65, 107-156, 2012
502012
Multistationarity in Sequential Distributed Multisite Phosphorylation Networks
K Holstein, D Flockerzi, Conradi, Carsten
Bulletin of Mathematical Biology 75 (11), 2028-2058, 2013
382013
N-site Phosphorylation Systems with 2N-1 Steady States
D Flockerzi, K Holstein, C Conradi
Bulletin of Mathematical Biology 76 (8), 1892-1916, 2014
272014
Emergence of oscillations in a mixed-mechanism phosphorylation system
C Conradi, M Mincheva, A Shiu
Bulletin of mathematical biology 81, 1829-1852, 2019
242019
Switching in mass action networks based on linear inequalities
C Conradi, D Flockerzi
SIAM Journal on Applied Dynamical Systems 11 (1), 110-134, 2012
242012
Multistability of signal transduction motifs
J Saez-Rodriguez, A Hammerle-Fickinger, O Dalal, S Klamt, ED Gilles, ...
Systems Biology, IET 2 (2), 80-93, 2008
212008
Multistationarity in the space of total concentrations for systems that admit a monomial parametrization
C Conradi, A Iosif, T Kahle
Bulletin of Mathematical Biology 81, 4174-4209, 2019
202019
Detecting binomiality
C Conradi, T Kahle
Advances in Applied Mathematics 71, 52-67, 2015
162015
The Process-Interaction-Model: a common representation of rule-based and logical models allows studying signal transduction on different levels of detail
K Kolczyk, R Samaga, H Conzelmann, S Mirschel, C Conradi
BMC bioinformatics 13 (1), 1-20, 2012
152012
On the existence of Hopf bifurcations in the sequential and distributive double phosphorylation cycle
C Conradi, E Feliu, M Mincheva
arXiv preprint arXiv:1905.08129, 2019
142019
Subnetwork analysis for multistationarity in mass action kinetics
D Flockerzi, C Conradi
Journal of Physics: Conference Series 138, 012006, 2008
142008
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Articles 1–20