An electronic analog of a synthetic genetic network known as the repressilator is proposed. The repressilator is a synthetic biological clock consisting of a cyclic inhibitory network of three negative regulatory genes which produces oscillations in the expressed protein concentrations. Compared to previous circuit analogs of the repressilator, the circuit here takes into account more accurately the kinetics of gene expression, inhibition, and protein degradation. A good agreement between circuit measurements and numerical prediction is observed. The circuit allows for easy control of the kinetic parameters thereby aiding investigations of large varieties of potential dynamics
The use of in silico simulations as a basis for designing artificial biological systems (and experim...
To perform well in biotechnology applications, synthetic genetic oscillators must be engineered to a...
Abstract-Gene expression is often controlled by natural genetic regulatory networks that govern the ...
An electronic analog of a synthetic genetic network known as the repressilator is proposed. The repr...
Electronic circuits are useful tools for studying potential dynamical behaviors of synthetic genetic...
The control of synthetic genetic regulatory networks is an emerging engineering challenge. In this s...
Synthetic biology aims to engineer biological systems and components, ultimately for applications as...
We investigate the dynamics of a synthetic genetic repressilator with quorum sensing feedback. In a ...
Information processing using biochemical circuits is essential for survival and reproduction of natu...
Synthetic biology is focused on the rational construction of biological systems based on engineering...
Synthetically engineered genetic circuits can perform a wide range of tasks but generally with lower...
We investigate the dynamics of a synthetic genetic repressilator with quorum sensing feedback. In a ...
[[abstract]]In the past decade, the development of synthetic gene networks has attracted much attent...
We investigate the dynamics of a synthetic genetic repressilator with quorum sensing feedback. In a ...
Networks of interacting biomolecules carry out many essential functions in living cells, but the ‘de...
The use of in silico simulations as a basis for designing artificial biological systems (and experim...
To perform well in biotechnology applications, synthetic genetic oscillators must be engineered to a...
Abstract-Gene expression is often controlled by natural genetic regulatory networks that govern the ...
An electronic analog of a synthetic genetic network known as the repressilator is proposed. The repr...
Electronic circuits are useful tools for studying potential dynamical behaviors of synthetic genetic...
The control of synthetic genetic regulatory networks is an emerging engineering challenge. In this s...
Synthetic biology aims to engineer biological systems and components, ultimately for applications as...
We investigate the dynamics of a synthetic genetic repressilator with quorum sensing feedback. In a ...
Information processing using biochemical circuits is essential for survival and reproduction of natu...
Synthetic biology is focused on the rational construction of biological systems based on engineering...
Synthetically engineered genetic circuits can perform a wide range of tasks but generally with lower...
We investigate the dynamics of a synthetic genetic repressilator with quorum sensing feedback. In a ...
[[abstract]]In the past decade, the development of synthetic gene networks has attracted much attent...
We investigate the dynamics of a synthetic genetic repressilator with quorum sensing feedback. In a ...
Networks of interacting biomolecules carry out many essential functions in living cells, but the ‘de...
The use of in silico simulations as a basis for designing artificial biological systems (and experim...
To perform well in biotechnology applications, synthetic genetic oscillators must be engineered to a...
Abstract-Gene expression is often controlled by natural genetic regulatory networks that govern the ...