DOI10.1023/A:1019183206064zbMath1012.92046OpenAlexW130878554MaRDI QIDQ5928774
No author found.
Publication date: 3 April 2001
Published in: Journal of Mathematical Chemistry (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1023/a:1019183206064
ON THE RELATION BETWEEN ORGANIZATIONS AND LIMIT SETS IN CHEMICAL REACTION SYSTEMS ⋮
Stability analysis of the Michaelis-Menten approximation of a mixed mechanism of a phosphorylation system ⋮
Handling Biological Complexity Using Kron Reduction ⋮
Concordant chemical reaction networks ⋮
On the relation between \(\omega \)-limit set and boundaries of mass-action chemical reaction networks ⋮
A computational approach to persistence, permanence, and endotacticity of biochemical reaction systems ⋮
Chemical reaction-diffusion networks: convergence of the method of lines ⋮
Monotonicity of interleukin-1 receptor-ligand binding with respect to antagonist in the presence of decoy receptor ⋮
Linear conjugacy of chemical reaction networks ⋮
A graph-theoretical approach for the analysis and model reduction of complex-balanced chemical reaction networks ⋮
Stability of mass action reaction-diffusion systems. ⋮
Reachability, persistence, and constructive chemical reaction networks. I: Reachability approach to the persistence of chemical reaction networks ⋮
Reachability, persistence, and constructive chemical reaction networks. III: A mathematical formalism for binary enzymatic networks and application to persistence ⋮
Reachability, persistence, and constructive chemical reaction networks. II: A formalism for species composition in chemical reaction network theory and application to persistence ⋮
Complex and detailed balancing of chemical reaction networks revisited ⋮
Global stability of a class of futile cycles ⋮
A stratum approach to global stability of complex balanced systems ⋮
The entropy method for reaction-diffusion systems without detailed balance: first order chemical reaction networks ⋮
Stability of mass action reaction-diffusion systems ⋮
Polynomial Dynamical Systems, Reaction Networks, and Toric Differential Inclusions ⋮
Siphons in chemical reaction networks ⋮
Bernstein's second theorem and Viro's method for sparse polynomial systems in chemistry ⋮
Convergence to equilibrium of renormalised solutions to nonlinear chemical reaction-diffusion systems ⋮
Convergence to the complex balanced equilibrium for some chemical reaction-diffusion systems with boundary equilibria ⋮
State-estimators for chemical reaction networks of Feinberg-Horn-Jackson zero deficiency type ⋮
A network dynamics approach to chemical reaction networks ⋮
Some Results on Injectivity and Multistationarity in Chemical Reaction Networks ⋮
Endotactic Networks and Toric Differential Inclusions ⋮
Lyapunov Function Partial Differential Equations for Chemical Reaction Networks: Some Special Cases ⋮
Minimal invariant regions and minimal globally attracting regions for variable-k reaction systems
