Add to ORKGApplying capillary electrophoresis, we separate and detect two sets of fluorescent-labeled DNA molecules in the 150-1000 base-pair range and achieve a sizing accuracy of 4x10^-4, thereby enabling micro-chip analysis of genetic illnesses with single-base-pair deletion/insertion
After electrophoretic separation of dye-labeled DNA molecules of 17 different sizes, integrated-wave...
Capillary electrophoresis has become a powerful analytical tool for the analysis of DNA restriction ...
By applying integrated-waveguide laser excitation to an optofluidic chip, fluorescently labeled DNA ...
Applying capillary electrophoresis, we separate and detect two sets of fluorescent-labeled DNA molec...
Applying capillary electrophoresis, we separate and detect two sets of fluorescent-labeled DNA molec...
Abstract: Applying capillary electrophoresis, we separate and detect two sets of fluorescent-labeled...
Applying capillary electrophoresis, we separate and detect two sets of fluorescent-labeled DNA molec...
DNA sequencing in a lab-on-a-chip aims at providing cheap, high-speed analysis of low reagent volume...
Implementing capillary electrophoresis with high base-pair resolution and integrated multi-wavelengt...
By capillary electrophoresis (CE) in miniaturized lab-on-a-chip devices, integrated DNA sequencing a...
Sorting and sizing of DNA molecules within the human genome project has enabled the genetic mapping ...
Abstract: Sorting and sizing of DNA molecules within the human genome project has enabled the geneti...
Modulation-frequency-encoded fluorescence excitation enables the identification of end-labeled DNA s...
We present a simple approach in electrophoretic DNA separation and fluorescent monitoring that allow...
Microfabrication is a technology initially used by semiconductor manufacturing industries. With this...
After electrophoretic separation of dye-labeled DNA molecules of 17 different sizes, integrated-wave...
Capillary electrophoresis has become a powerful analytical tool for the analysis of DNA restriction ...
By applying integrated-waveguide laser excitation to an optofluidic chip, fluorescently labeled DNA ...
Applying capillary electrophoresis, we separate and detect two sets of fluorescent-labeled DNA molec...
Applying capillary electrophoresis, we separate and detect two sets of fluorescent-labeled DNA molec...
Abstract: Applying capillary electrophoresis, we separate and detect two sets of fluorescent-labeled...
Applying capillary electrophoresis, we separate and detect two sets of fluorescent-labeled DNA molec...
DNA sequencing in a lab-on-a-chip aims at providing cheap, high-speed analysis of low reagent volume...
Implementing capillary electrophoresis with high base-pair resolution and integrated multi-wavelengt...
By capillary electrophoresis (CE) in miniaturized lab-on-a-chip devices, integrated DNA sequencing a...
Sorting and sizing of DNA molecules within the human genome project has enabled the genetic mapping ...
Abstract: Sorting and sizing of DNA molecules within the human genome project has enabled the geneti...
Modulation-frequency-encoded fluorescence excitation enables the identification of end-labeled DNA s...
We present a simple approach in electrophoretic DNA separation and fluorescent monitoring that allow...
Microfabrication is a technology initially used by semiconductor manufacturing industries. With this...
After electrophoretic separation of dye-labeled DNA molecules of 17 different sizes, integrated-wave...
Capillary electrophoresis has become a powerful analytical tool for the analysis of DNA restriction ...
By applying integrated-waveguide laser excitation to an optofluidic chip, fluorescently labeled DNA ...