Cell-free transcription-translation provides a simplified prototyping environment to rapidly design and study synthetic networks. Despite the presence of a well characterized toolbox of genetic elements, examples of genetic networks that exhibit complex temporal behavior are scarce. Here, we present a genetic oscillator implemented in an E. coli-based cell-free system under steady-state conditions using microfluidic flow reactors. The oscillator has an activator-repressor motif that utilizes the native transcriptional machinery of E. coli: the RNAP and its associated sigma factors. We optimized a kinetic model with experimental data using an evolutionary algorithm to quantify the key regulatory model parameters. The functional modulation of...
Synthetic biology integrates engineering and biology strategies to create artificial pathways, devic...
The construction of synthetic biochemical circuits from simple components illuminates how complex be...
RNA regulators are emerging as powerful tools to engineer synthetic genetic networks or rewire exist...
\u3cp\u3eCell-free transcription-translation provides a simplified prototyping environment to rapidl...
Cell-free transcription-translation provides a simplified prototyping environment to rapidly design ...
Cell-free transcription-translation provides a simplified prototyping environment to rapidly design ...
Cell-free transcription-translation provides a simplified prototyping environment to rapidly design ...
Cell-free transcription-translation provides a simplified prototyping environment to rapidly design ...
The use of in silico simulations as a basis for designing artificial biological systems (and experim...
BACKGROUND: The use of in silico simulations as a basis for designing artificial biological systems ...
BACKGROUND: The use of in silico simulations as a basis for designing artificial biological systems ...
Cell-free protein synthesis is becoming a powerful technique to construct and to study complex infor...
Regulatory pathways inside living cells employ feed-forward architectures to fulfill essential signa...
Regulatory pathways inside living cells employ feed-forward architectures to fulfill essential signa...
Networks of interacting biomolecules carry out many essential functions in living cells, but the ‘de...
Synthetic biology integrates engineering and biology strategies to create artificial pathways, devic...
The construction of synthetic biochemical circuits from simple components illuminates how complex be...
RNA regulators are emerging as powerful tools to engineer synthetic genetic networks or rewire exist...
\u3cp\u3eCell-free transcription-translation provides a simplified prototyping environment to rapidl...
Cell-free transcription-translation provides a simplified prototyping environment to rapidly design ...
Cell-free transcription-translation provides a simplified prototyping environment to rapidly design ...
Cell-free transcription-translation provides a simplified prototyping environment to rapidly design ...
Cell-free transcription-translation provides a simplified prototyping environment to rapidly design ...
The use of in silico simulations as a basis for designing artificial biological systems (and experim...
BACKGROUND: The use of in silico simulations as a basis for designing artificial biological systems ...
BACKGROUND: The use of in silico simulations as a basis for designing artificial biological systems ...
Cell-free protein synthesis is becoming a powerful technique to construct and to study complex infor...
Regulatory pathways inside living cells employ feed-forward architectures to fulfill essential signa...
Regulatory pathways inside living cells employ feed-forward architectures to fulfill essential signa...
Networks of interacting biomolecules carry out many essential functions in living cells, but the ‘de...
Synthetic biology integrates engineering and biology strategies to create artificial pathways, devic...
The construction of synthetic biochemical circuits from simple components illuminates how complex be...
RNA regulators are emerging as powerful tools to engineer synthetic genetic networks or rewire exist...