International audienceCell-free transcription–translation systems have great potential for biosensing, yet the range of detectable chemicals is limited. Here we provide a workflow to expand the range of molecules detectable by cell-free biosensors through combining synthetic metabolic cascades with transcription factor-based networks. These hybrid cell-free biosensors have a fast response time, strong signal response, and a high dynamic range. In addition, they are capable of functioning in a variety of complex media, including commercial beverages and human urine, in which they can be used to detect clinically relevant concentrations of small molecules. This work provides a foundation to engineer modular cell-free biosensors tailored for m...
The development of synthetic biology and metabolic engineering has painted a great future for the bi...
Characterization and standardization of inducible transcriptional regulators has transformed how sci...
Over the recent years, we have entered a true bio-revolution. By employing micro-organisms or enzyme...
International audienceCell-free transcription–translation systems have great potential for biosensin...
International audienceTranscriptional biosensors allow screening, selection, or dynamic regulation o...
Detection of chemical signals is critical for cells in nature as well as in synthetic biology, where...
Detection of chemical signals is critical for cells in nature as well as in synthetic biology, where...
Biosensors use biological elements to detect or quantify an analyte of interest. In bioprocessing, b...
International audienceFluorescent biosensors are powerful tools with which to detect biochemical eve...
In a sustainable bioeconomy, many commodities and high value chemicals, including pharmaceuticals, w...
Abstract Nature has evolved exquisite sensing mechanisms to detect cellular and environmental signal...
Living organisms have evolved a plethora of sensing systems for the intra- and extracellular detecti...
Biosensors have emerged as a valuable tool with high specificity and sensitivity for fast and reliab...
International audienceCell-free systems have great potential for delivering robust, cheap, and field...
International audienceCell-free systems are promising platforms for rapid and high-throughput protot...
The development of synthetic biology and metabolic engineering has painted a great future for the bi...
Characterization and standardization of inducible transcriptional regulators has transformed how sci...
Over the recent years, we have entered a true bio-revolution. By employing micro-organisms or enzyme...
International audienceCell-free transcription–translation systems have great potential for biosensin...
International audienceTranscriptional biosensors allow screening, selection, or dynamic regulation o...
Detection of chemical signals is critical for cells in nature as well as in synthetic biology, where...
Detection of chemical signals is critical for cells in nature as well as in synthetic biology, where...
Biosensors use biological elements to detect or quantify an analyte of interest. In bioprocessing, b...
International audienceFluorescent biosensors are powerful tools with which to detect biochemical eve...
In a sustainable bioeconomy, many commodities and high value chemicals, including pharmaceuticals, w...
Abstract Nature has evolved exquisite sensing mechanisms to detect cellular and environmental signal...
Living organisms have evolved a plethora of sensing systems for the intra- and extracellular detecti...
Biosensors have emerged as a valuable tool with high specificity and sensitivity for fast and reliab...
International audienceCell-free systems have great potential for delivering robust, cheap, and field...
International audienceCell-free systems are promising platforms for rapid and high-throughput protot...
The development of synthetic biology and metabolic engineering has painted a great future for the bi...
Characterization and standardization of inducible transcriptional regulators has transformed how sci...
Over the recent years, we have entered a true bio-revolution. By employing micro-organisms or enzyme...