Add to ORKGThe use of microfluidic tools to develop two novel approaches to surface-based oligonucleotide hybridization assays has been explored. In one of these approaches, immobilized oligonucleotide probes on a glass surface of a microfluidic channel were able to quantitatively hybridize with oligonucleotide targets that were electrokinetically injected into the channel. Quantitative oligonucleotide analysis was achieved in seconds, with nM detection limits and a dynamic range of 3 orders of magnitude. Hybridization was detected by the use of fluorescently labeled target. The fluorescence intensity profile evolved as a gradient that could be related to concentration, and was a function of many factors including hybridization reaction rate, convect...
This work describes a novel and simple modification of the current microarray format. It reduces the...
We describe a microfluidic concentration device to accelerate the surface hybridization reaction bet...
Speeding up and enhancing the performances of nucleic acid biosensing technologies have remained dri...
The use of microfluidic tools to develop two novel approaches to surface-based oligonucleotide hybri...
The research that is presented herein explores the development of a solid-phase DNA hybridization as...
The work described herein has explored solid-phase transduction of nucleic acid hybridization on pla...
The potential for an electrokinetically driven, FRET-based microfluidic biosensor for SNP discrimina...
Quantum dot-DNA oligonucleotide (QD-DNA) conjugates have been used in many fields such as nucleic ac...
A new format for microfluidic based DNA biosensors is presented in which the biorecognition element ...
Abstract. Molecular beacons, oligonucleotide probes that fluoresce upon hybridization to a target nu...
Our goal is to test simple strategies to attain high signals from DNA hybridization events. These st...
The work described herein explored solution-phase and solid-phase transduction of nucleic acid hybri...
In this investigation we report on the influence of volumetric flow rate, flow velocity, complementa...
A paper-based platform was investigated in which the selective detection of oligonucleotide targets ...
A dynamic DNA hybridization microfluidic system was developed for a compact disc (CD) platform. The ...
This work describes a novel and simple modification of the current microarray format. It reduces the...
We describe a microfluidic concentration device to accelerate the surface hybridization reaction bet...
Speeding up and enhancing the performances of nucleic acid biosensing technologies have remained dri...
The use of microfluidic tools to develop two novel approaches to surface-based oligonucleotide hybri...
The research that is presented herein explores the development of a solid-phase DNA hybridization as...
The work described herein has explored solid-phase transduction of nucleic acid hybridization on pla...
The potential for an electrokinetically driven, FRET-based microfluidic biosensor for SNP discrimina...
Quantum dot-DNA oligonucleotide (QD-DNA) conjugates have been used in many fields such as nucleic ac...
A new format for microfluidic based DNA biosensors is presented in which the biorecognition element ...
Abstract. Molecular beacons, oligonucleotide probes that fluoresce upon hybridization to a target nu...
Our goal is to test simple strategies to attain high signals from DNA hybridization events. These st...
The work described herein explored solution-phase and solid-phase transduction of nucleic acid hybri...
In this investigation we report on the influence of volumetric flow rate, flow velocity, complementa...
A paper-based platform was investigated in which the selective detection of oligonucleotide targets ...
A dynamic DNA hybridization microfluidic system was developed for a compact disc (CD) platform. The ...
This work describes a novel and simple modification of the current microarray format. It reduces the...
We describe a microfluidic concentration device to accelerate the surface hybridization reaction bet...
Speeding up and enhancing the performances of nucleic acid biosensing technologies have remained dri...