Add to ORKGThe design of synthetic circuits for controlling molecular-scale processes is an important goal of synthetic biology, with potential applications in future in vitro and in vivo biotechnology. In this paper, we present a computational approach for designing feedback control circuits constructed from nucleic acids. Our approach relies on an existing methodology for expressing signal processing and control circuits as biomolecular reactions. We first extend the methodology so that circuits can be expressed using just two classes of reactions: catalysis and annihilation. We then propose implementations of these reactions in three distinct classes of nucleic acid circuits, which rely on DNA strand displacement, DNA enzyme and RNA enzyme mechanis...
Recent work has shown how chemical reaction network theory may be used to design dynamical systems t...
Information processing using biochemical circuits is essential for survival and reproduction of nat...
The construction of synthetic biochemical circuits is an essential step for developing quantitative ...
The design of synthetic circuits for controlling molecular-scale processes is an important goal of s...
The design of synthetic circuits for controlling molecular-scale processes is an important goal of s...
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...
The idea to use nucleic acid as a substrate for design of programmable biomolecular circuits was fir...
Reliable biochemical implementations of linear controllers can provide a large set of tools for the ...
Biological organisms use complex molecular networks to navigate their environment and regulate their...
Biological organisms use complex molecular networks to navigate their environment and regulate their...
An important goal of synthetic biology is to create biochemical control systems with the desired cha...
Artificial biochemical circuits are likely to play as large a role in biological engineering as el...
The use of abstract chemical reaction networks (CRNs) as a modelling and design framework for the im...
Nucleic acid-based chemistry is a strong candidate framework for the construction of future syntheti...
Recent work has shown how chemical reaction network theory may be used to design dynamical systems t...
Information processing using biochemical circuits is essential for survival and reproduction of nat...
The construction of synthetic biochemical circuits is an essential step for developing quantitative ...
The design of synthetic circuits for controlling molecular-scale processes is an important goal of s...
The design of synthetic circuits for controlling molecular-scale processes is an important goal of s...
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...
The idea to use nucleic acid as a substrate for design of programmable biomolecular circuits was fir...
Reliable biochemical implementations of linear controllers can provide a large set of tools for the ...
Biological organisms use complex molecular networks to navigate their environment and regulate their...
Biological organisms use complex molecular networks to navigate their environment and regulate their...
An important goal of synthetic biology is to create biochemical control systems with the desired cha...
Artificial biochemical circuits are likely to play as large a role in biological engineering as el...
The use of abstract chemical reaction networks (CRNs) as a modelling and design framework for the im...
Nucleic acid-based chemistry is a strong candidate framework for the construction of future syntheti...
Recent work has shown how chemical reaction network theory may be used to design dynamical systems t...
Information processing using biochemical circuits is essential for survival and reproduction of nat...
The construction of synthetic biochemical circuits is an essential step for developing quantitative ...