Carsten Conradi
Carsten Conradi
HTW Berlin - Life Science Engineering
Email verificata su - Home page
Citata da
Citata da
Chemical Reaction Systems with Toric Steady States
M Pérez Millán, A Dickenstein, A Shiu, C Conradi
Bulletin of Mathematical Biology, 1-39, 2011
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
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
Identifying parameter regions for multistationarity
C Conradi, E Feliu, M Mincheva, C Wiuf
PLoS computational biology 13 (10), e1005751, 2017
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
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
Catalytic constants enable the emergence of bistability in dual phosphorylation
C Conradi, M Mincheva
Journal of The Royal Society Interface 11 (95), 20140158, 2014
Dynamics of posttranslational modification systems: Recent progress and future directions
C Conradi, A Shiu
Biophysical journal 114 (3), 507-515, 2018
A global convergence result for processive multisite phosphorylation systems
C Conradi, A Shiu
Bulletin of mathematical biology 77 (1), 126-155, 2015
Multistationarity in mass action networks with applications to ERK activation
C Conradi, D Flockerzi
Journal of mathematical biology 65, 107-156, 2012
Multistationarity in Sequential Distributed Multisite Phosphorylation Networks
K Holstein, D Flockerzi, Conradi, Carsten
Bulletin of Mathematical Biology 75 (11), 2028-2058, 2013
N-site Phosphorylation Systems with 2N-1 Steady States
D Flockerzi, K Holstein, C Conradi
Bulletin of Mathematical Biology 76 (8), 1892-1916, 2014
Emergence of oscillations in a mixed-mechanism phosphorylation system
C Conradi, M Mincheva, A Shiu
Bulletin of mathematical biology 81, 1829-1852, 2019
Switching in mass action networks based on linear inequalities
C Conradi, D Flockerzi
SIAM Journal on Applied Dynamical Systems 11 (1), 110-134, 2012
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
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
Multistationarity in biochemical networks: results, analysis, and examples
C Conradi, C Pantea
Algebraic and combinatorial computational biology, 279-317, 2019
Detecting binomiality
C Conradi, T Kahle
Advances in Applied Mathematics 71, 52-67, 2015
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
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, 1-20, 2012
Il sistema al momento non puň eseguire l'operazione. Riprova piů tardi.
Articoli 1–20