Add to ORKGNetworks with absolute concentration robustness (ACR) have the property that a translation of a coordinate hyperplane either contains all steady states (static ACR) or attracts all trajectories (dynamic ACR). The implication for the underlying biological system is robustness in the concentration of one of the species independent of the initial conditions as well as independent of the concentration of all other species. Identifying network conditions for dynamic ACR is a challenging problem. We lay the groundwork in this paper by studying small reaction networks, those with 2 reactions and 2 species. We give a complete classification by ACR properties of these minimal reaction networks. The dynamics is rich even within this simple setting. I...
Many reaction networks arising in applications are multistationary, that is, they have the capacity ...
One of the main goals of systems biology is to understand the behaviour of (bio)chemical reaction ne...
In analyzing and mathematical modeling of complex (bio)chemical reaction networks, formal methods th...
Absolute concentration robustness (ACR) is a condition wherein a species in a chemical kinetic syste...
The steady state property of absolute concentration robustness (ACR) has recently gained attention i...
A reaction system exhibits "absolute concentration robustness" (ACR) in some species if the positive...
In this work, we design a type of controller that consists of adding a specific set of reactions to ...
Absolute Concentration Robustness (ACR) was introduced by Shinar and Feinberg as robustness of equil...
Deterministic reaction networks equipped with a kinetics are termed absolute concentration robust (A...
Many recent studies on Chemical Reaction Network Theory indicate that there is a renewed interest in...
We study the robustness of the steady states of a class of systems of autonomous ordinary differenti...
Robustness is an observable property for which a chemical reaction network (CRN) can maintain its fu...
A treatment of chemical reaction network theory is given from the perspective of nonlinear network d...
Cells are very complex to analyze because they consist of many components that interact with each ot...
The main goal of systems biology is to understand the dynamical properties of biological systems by ...
Many reaction networks arising in applications are multistationary, that is, they have the capacity ...
One of the main goals of systems biology is to understand the behaviour of (bio)chemical reaction ne...
In analyzing and mathematical modeling of complex (bio)chemical reaction networks, formal methods th...
Absolute concentration robustness (ACR) is a condition wherein a species in a chemical kinetic syste...
The steady state property of absolute concentration robustness (ACR) has recently gained attention i...
A reaction system exhibits "absolute concentration robustness" (ACR) in some species if the positive...
In this work, we design a type of controller that consists of adding a specific set of reactions to ...
Absolute Concentration Robustness (ACR) was introduced by Shinar and Feinberg as robustness of equil...
Deterministic reaction networks equipped with a kinetics are termed absolute concentration robust (A...
Many recent studies on Chemical Reaction Network Theory indicate that there is a renewed interest in...
We study the robustness of the steady states of a class of systems of autonomous ordinary differenti...
Robustness is an observable property for which a chemical reaction network (CRN) can maintain its fu...
A treatment of chemical reaction network theory is given from the perspective of nonlinear network d...
Cells are very complex to analyze because they consist of many components that interact with each ot...
The main goal of systems biology is to understand the dynamical properties of biological systems by ...
Many reaction networks arising in applications are multistationary, that is, they have the capacity ...
One of the main goals of systems biology is to understand the behaviour of (bio)chemical reaction ne...
In analyzing and mathematical modeling of complex (bio)chemical reaction networks, formal methods th...