Molecular interactions can be detected using single engineered ion channels as stochastic sensors. This approach is used to examine events between a kinase and an inhibitor peptide tethered to an engineered channel [1] showing agreement with macroscopic biochemical data, as well as a tantalizing surprise
This paper deals with the experimental construction, stochastic modeling, and statistical signal pro...
Measuring the kinetics that govern ligand-receptor interactions is fundamental to our understanding ...
A system and method for stochastic sensing in which the analyte covalently bonds to the sensor eleme...
Molecular interactions can be detected using single engineered ion channels as stochastic sensors. T...
In recent years, we have assisted to an ever-increasing capability of electronic systems to detect e...
Stochastic sensing is a powerful approach for the detection of a range of analytes, yielding informa...
In stochastic sensing, the association and dissociation of analyte molecules is observed as the modu...
Membrane protein channels employed as stochastic sensors offer large signal-to-noise ratios and high...
In this work the authors have shown that stable gigaohm seals over micrometer-sized holes can be obt...
Over the last 25 years, researchers have developed exogenously expressed, genetically engineered, se...
Molecular sensing is a technique where Technology cannot compete with Nature. As an example, the acc...
O ver the last 25 years, researchers have developed exog-enously expressed, genetically engineered, ...
Membrane-bound ion channels are promising biological receptors since they allow for the stochastic d...
Electrochemical detection of single molecules is being actively pursued as an enabler of new fundame...
Electrochemical detection of single molecules is being actively pursued as an enabler of new fundame...
This paper deals with the experimental construction, stochastic modeling, and statistical signal pro...
Measuring the kinetics that govern ligand-receptor interactions is fundamental to our understanding ...
A system and method for stochastic sensing in which the analyte covalently bonds to the sensor eleme...
Molecular interactions can be detected using single engineered ion channels as stochastic sensors. T...
In recent years, we have assisted to an ever-increasing capability of electronic systems to detect e...
Stochastic sensing is a powerful approach for the detection of a range of analytes, yielding informa...
In stochastic sensing, the association and dissociation of analyte molecules is observed as the modu...
Membrane protein channels employed as stochastic sensors offer large signal-to-noise ratios and high...
In this work the authors have shown that stable gigaohm seals over micrometer-sized holes can be obt...
Over the last 25 years, researchers have developed exogenously expressed, genetically engineered, se...
Molecular sensing is a technique where Technology cannot compete with Nature. As an example, the acc...
O ver the last 25 years, researchers have developed exog-enously expressed, genetically engineered, ...
Membrane-bound ion channels are promising biological receptors since they allow for the stochastic d...
Electrochemical detection of single molecules is being actively pursued as an enabler of new fundame...
Electrochemical detection of single molecules is being actively pursued as an enabler of new fundame...
This paper deals with the experimental construction, stochastic modeling, and statistical signal pro...
Measuring the kinetics that govern ligand-receptor interactions is fundamental to our understanding ...
A system and method for stochastic sensing in which the analyte covalently bonds to the sensor eleme...
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