Chemical reaction networks can be utilised as basic components for nucleic acid feedback control systems’ design for Synthetic Biology application. DNA hybridisation and programmed strand-displacement reactions are effective primitives for implementation. However, the experimental validation and scale-up of nucleic acid control systems are still considerably falling behind their theoretical designs. To aid with the progress heading into experimental implementations, we provide here chemical reaction networks that represent two fundamental classes of linear controllers: integral and static negative state feedback. We reduced the complexity of the networks by finding designs with fewer reactions and chemical species, to take account of the li...
Reliable biochemical implementations of linear controllers can provide a large set of tools for the ...
The design of synthetic circuits for controlling molecular-scale processes is an important goal of s...
We show how an important class of nonlinear feedback controllers can be designed using idealized abs...
Chemical reaction networks can be utilised as basic components for nucleic acid feedback control sys...
Chemical reaction networks can be utilised as basic components for nucleic acid feedback control sys...
Chemical reaction networks can be utilised as basic components for nucleic acid feedback control sys...
Chemical reaction networks based on catalysis, degradation, and annihilation may be used as building...
Recent work has shown how chemical reaction network theory may be used to design dynamical systems t...
The design of synthetic circuits for controlling molecular-scale processes is an important goal of s...
Chemical reaction networks based on catalysis, degradation, and annihilation may be used as building...
Chemical reaction networks based on catalysis, degradation, and annihilation may be used as building...
The design of synthetic circuits for controlling molecular-scale processes is an important goal of s...
The use of abstract chemical reaction networks (CRNs) as a modelling and design framework for the im...
The design of synthetic circuits for controlling molecular-scale processes is an important goal of s...
Nucleic acid-based chemistry is a strong candidate framework for the construction of future syntheti...
Reliable biochemical implementations of linear controllers can provide a large set of tools for the ...
The design of synthetic circuits for controlling molecular-scale processes is an important goal of s...
We show how an important class of nonlinear feedback controllers can be designed using idealized abs...
Chemical reaction networks can be utilised as basic components for nucleic acid feedback control sys...
Chemical reaction networks can be utilised as basic components for nucleic acid feedback control sys...
Chemical reaction networks can be utilised as basic components for nucleic acid feedback control sys...
Chemical reaction networks based on catalysis, degradation, and annihilation may be used as building...
Recent work has shown how chemical reaction network theory may be used to design dynamical systems t...
The design of synthetic circuits for controlling molecular-scale processes is an important goal of s...
Chemical reaction networks based on catalysis, degradation, and annihilation may be used as building...
Chemical reaction networks based on catalysis, degradation, and annihilation may be used as building...
The design of synthetic circuits for controlling molecular-scale processes is an important goal of s...
The use of abstract chemical reaction networks (CRNs) as a modelling and design framework for the im...
The design of synthetic circuits for controlling molecular-scale processes is an important goal of s...
Nucleic acid-based chemistry is a strong candidate framework for the construction of future syntheti...
Reliable biochemical implementations of linear controllers can provide a large set of tools for the ...
The design of synthetic circuits for controlling molecular-scale processes is an important goal of s...
We show how an important class of nonlinear feedback controllers can be designed using idealized abs...