International audienceCell-free systems have great potential for delivering robust, cheap, and field-deployable biosensors. Many cell-free biosensors rely on transcription factors responding to small molecules, but their discovery and implementation still remain challenging. Here we report the engineering of PeroxiHUB, an optimized H 2 O 2-centered sensing platform supporting cellfree detection of different metabolites. H 2 O 2 is a central metabolite and a by-product of numerous enzymatic reactions. PeroxiHUB uses enzymatic transducers to convert metabolites of interest into H 2 O 2 , enabling rapid reprogramming of sensor specificity using alternative transducers. We first screen several transcription factors and optimize OxyR for the tra...
Significance: Genetically encoded hydrogen peroxide (H2O2) sensors, based on fusions between thiol p...
Hydrogen peroxide (H2O2) is commonly known as a toxic reactive oxidative species (ROS) for cells. Re...
Activity-based sensing (ABS) offers a general approach that exploits chemical reactivity as a method...
Biocatalysis is increasingly used for synthetic purposes in the chemical and especially the pharmace...
There is increasing demand for direct in situ metabolite monitoring from cell cultures and in vivo u...
There is increasing demand for direct in situ metabolite monitoring from cell cultures and in vivo u...
International audienceCell-free transcription–translation systems have great potential for biosensin...
Funder: ANR‐TFunder: IONOSENSEAbstract: There is increasing demand for direct in situ metabolite mon...
As one of the toxic by-product of aerobic metabolism, hydrogen peroxide (H2O2), at uncontrolled leve...
Hydrogen peroxide (H2O2) is a key member of the reactive oxygen species family of transient small mo...
Hydrogen peroxide (H2O2) is known to play a multifaceted role in cell physiology mechanisms involvin...
Hydrogen peroxide is traditionally associated with cellular damage; however, recent studies show tha...
Hydrogen peroxide (H2O2) is a central reactive oxygen species (ROS) that contributes to diseases fro...
The accurate and sensitive determination of H2O2 is very important in many cases because it is a pro...
Hydrogen peroxide is an unavoidable by-product of cell metabolism, but when it is not properly manag...
Significance: Genetically encoded hydrogen peroxide (H2O2) sensors, based on fusions between thiol p...
Hydrogen peroxide (H2O2) is commonly known as a toxic reactive oxidative species (ROS) for cells. Re...
Activity-based sensing (ABS) offers a general approach that exploits chemical reactivity as a method...
Biocatalysis is increasingly used for synthetic purposes in the chemical and especially the pharmace...
There is increasing demand for direct in situ metabolite monitoring from cell cultures and in vivo u...
There is increasing demand for direct in situ metabolite monitoring from cell cultures and in vivo u...
International audienceCell-free transcription–translation systems have great potential for biosensin...
Funder: ANR‐TFunder: IONOSENSEAbstract: There is increasing demand for direct in situ metabolite mon...
As one of the toxic by-product of aerobic metabolism, hydrogen peroxide (H2O2), at uncontrolled leve...
Hydrogen peroxide (H2O2) is a key member of the reactive oxygen species family of transient small mo...
Hydrogen peroxide (H2O2) is known to play a multifaceted role in cell physiology mechanisms involvin...
Hydrogen peroxide is traditionally associated with cellular damage; however, recent studies show tha...
Hydrogen peroxide (H2O2) is a central reactive oxygen species (ROS) that contributes to diseases fro...
The accurate and sensitive determination of H2O2 is very important in many cases because it is a pro...
Hydrogen peroxide is an unavoidable by-product of cell metabolism, but when it is not properly manag...
Significance: Genetically encoded hydrogen peroxide (H2O2) sensors, based on fusions between thiol p...
Hydrogen peroxide (H2O2) is commonly known as a toxic reactive oxidative species (ROS) for cells. Re...
Activity-based sensing (ABS) offers a general approach that exploits chemical reactivity as a method...