Pages that link to "Item:Q1935132"
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The following pages link to Concordant chemical reaction networks and the species-reaction graph (Q1935132):
Displaying 25 items.
- Graph-theoretic characterizations of monotonicity of chemical networks in reaction coordinates (Q604535) (← links)
- Some consequences of thermodynamic feasibility for chemical reaction networks. Considering thermodynamic feasibility in current CRN research (Q830885) (← links)
- Chemical reaction network approaches to biochemical systems theory (Q900732) (← links)
- Multistability and sustained oscillations in a model for protein complex formation (Q1619091) (← links)
- Graph surfing by reaction systems (Q1663978) (← links)
- Chemical reaction-diffusion networks: convergence of the method of lines (Q1703393) (← links)
- Positive equilibria of a class of power-law kinetics (Q1708492) (← links)
- Concordant chemical reaction networks (Q1926505) (← links)
- Good and bad children in metabolic networks (Q1979615) (← links)
- Multistationarity in the space of total concentrations for systems that admit a monomial parametrization (Q2008268) (← links)
- Reaction network analysis of metabolic insulin signaling (Q2080806) (← links)
- Graphical conditions for rate independence in chemical reaction networks (Q2110654) (← links)
- On the complexity of reconstructing chemical reaction networks (Q2254073) (← links)
- Exponential time decay of solutions to reaction-cross-diffusion systems of Maxwell-Stefan type (Q2296924) (← links)
- Sharper graph-theoretical conditions for the stabilization of complex reaction networks (Q2344587) (← links)
- Sensitivity of chemical reaction networks: a structural approach. 1. Examples and the carbon metabolic network (Q2415783) (← links)
- Gröbner bases of reaction networks with intermediate species (Q2423401) (← links)
- Positive equilibria of power law kinetics on networks with independent linkage classes (Q2696362) (← links)
- Sensitivity of chemical reaction networks: a structural approach. 2. Regular monomolecular systems (Q2793950) (← links)
- Some results on injectivity and multistationarity in chemical reaction networks (Q2808177) (← links)
- Reaction Network Models as a Tool to Study Gene Regulation and Cell Signaling in Development and Diseases (Q5013988) (← links)
- A compositional framework for reaction networks (Q5370837) (← links)
- Sign conditions for injectivity of generalized polynomial maps with applications to chemical reaction networks and real algebraic geometry (Q5963080) (← links)
- Global renormalised solutions and equilibration of reaction-diffusion systems with nonlinear diffusion (Q6174597) (← links)
- Comparative analysis of kinetic realizations of insulin signaling (Q6177294) (← links)
