Absolute concentration robustness: algebra and geometry
DOI10.1016/j.jsc.2024.102398MaRDI QIDQ6650585
Anne Shiu, Elizabeth Gross, Mercedes Pérez Millán, Nicolette Meshkat, Matthew Johnston, Heather A. Harrington, Luis David García-Puente
Publication date: 9 December 2024
Published in: Journal of Symbolic Computation (Search for Journal in Brave)
numerical algebraic geometrycomputational algebraic geometrychemical reaction network theorymass action systemsabsolute concentration robustness
Classical flows, reactions, etc. in chemistry (92E20) Dynamical systems in biology (37N25) Polynomials in real and complex fields: location of zeros (algebraic theorems) (12D10) Fixed points and periodic points of dynamical systems; fixed-point index theory; local dynamics (37C25) Effectivity, complexity and computational aspects of algebraic geometry (14Q20) Numerical algebraic geometry (65H14)
Cites Work
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Algebraic systems biology: a case study for the Wnt pathway
- Complex-linear invariants of biochemical networks
- Chemical reaction systems with toric steady states
- Translated chemical reaction networks
- Toric dynamical systems
- A zero-dimensional approach to compute real radicals
- Computation of real radicals of polynomial ideals. II
- The rational parameterisation theorem for multisite post-translational modification systems
- HomotopyContinuation.jl: a package for homotopy continuation in Julia
- The Gröbner cover
- An alternative approach to comprehensive Gröbner bases
- Variable elimination in post-translational modification reaction networks with mass-action kinetics
- Numerically computing real points on algebraic sets
- Network translation and steady-state properties of chemical reaction systems
- On the relation between reactions and complexes of (bio)chemical reaction networks
- Mixed volume of small reaction networks
- Parameter regions that give rise to \(2\lfloor \frac{n}{2} \rfloor +1\) positive steady states in the \(n\)-site phosphorylation system
- Foundations of static and dynamic absolute concentration robustness
- Absolute concentration robustness in networks with low-dimensional stoichiometric subspace
- Computing real radicals and \(S\)-radicals of polynomial systems
- Oscillations and bistability in a model of ERK regulation
- Numerical algebraic geometry
- Anneaux preordonnes
- A deficiency-based approach to parametrizing positive equilibria of biochemical reaction systems
- Multistationarity in structured reaction networks
- Emergence of oscillations in a mixed-mechanism phosphorylation system
- A nullstellensatz for ordered fields
- A new decision method for elementary algebra
- Dynamics of ERK regulation in the processive limit
- The Structure of MESSI Biological Systems
- Biochemical reaction networks: An invitation for algebraic geometers
- Algorithm 795
- An Elementary Recursive Bound for Effective Positivstellensatz and Hilbert’s 17th problem
- Ideals, Varieties, and Algorithms
- The Numerical Solution of Systems of Polynomials Arising in Engineering and Science
- Finite Time Distributions of Stochastically Modeled Chemical Systems with Absolute Concentration Robustness
- Symbolic Proof of Bistability in Reaction Networks
- Algorithms in real algebraic geometry
- Local and global robustness at steady state
- Reaction Network Motifs for Static and Dynamic Absolute Concentration Robustness
- Prevalence of Multistationarity and Absolute Concentration Robustness in Reaction Networks
- Absolute concentration robustness and multistationarity in reaction networks: conditions for coexistence
This page was built for publication: Absolute concentration robustness: algebra and geometry
