Low throughput is an inherent problem associated with most single-molecule biophysical techniques. We have developed a versatile tool for high-throughput analysis of DNA and DNA-binding molecules by combining microfluidic and dense DNA arrays. We use an easy-to-process microfluidic flow channel system in which dense DNA arrays are prepared for simultaneous imaging of large amounts of DNA molecules with single-molecule resolution. The Y-shaped microfluidic design, where the two inlet channels can be controlled separately and precisely, enables the creation of a concentration gradient across the microfluidic channel as well as rapid and repeated addition and removal of substances from the measurement region. A DNA array stained with the fluor...
DNA-protein interactions are at the core of the cellular machinery and single molecule methods have ...
ABSTRACT: Single-molecule imaging of biological macro-molecules has dramatically impacted our unders...
A new format for microfluidic based DNA biosensors is presented in which the biorecognition element ...
Low throughput is an inherent problem associated with most single-molecule biophysical techniques. W...
DNA curtain is a high-throughput system, integrating a lipid bilayer, fluorescence imaging, and micr...
Single-molecule (SM) techniques have been contributing to unraveling the detailed mechanisms underly...
Microscopic visualization of DNA molecules is a simple, intuitive, and powerful method. Nonetheless,...
DNA combing is a widely used method for stretching and immobilising DNA molecules on a surface. Fluo...
Hollars CW, Puls J, Bakajin O, et al. Bio-assay based on single molecule fluorescence detection in m...
Improved methods are needed to interrogate the genome and the proteome. Methods with high selectivit...
Nucleoprotein filament formation by recombinases is central to homologous recombination. To follow t...
International audienceSpeeding up and enhancing the performances of nucleic acid biosensing technolo...
The commonly used fluorescent dye YOYO-1 (YOYO) has, using bulk techniques, been demonstrated to sta...
The sensing and characterisation of biomolecules is crucial for medical diagnostics and an understan...
We describe a simple, robust and high throughput single molecule flow-stretching assay for studying ...
DNA-protein interactions are at the core of the cellular machinery and single molecule methods have ...
ABSTRACT: Single-molecule imaging of biological macro-molecules has dramatically impacted our unders...
A new format for microfluidic based DNA biosensors is presented in which the biorecognition element ...
Low throughput is an inherent problem associated with most single-molecule biophysical techniques. W...
DNA curtain is a high-throughput system, integrating a lipid bilayer, fluorescence imaging, and micr...
Single-molecule (SM) techniques have been contributing to unraveling the detailed mechanisms underly...
Microscopic visualization of DNA molecules is a simple, intuitive, and powerful method. Nonetheless,...
DNA combing is a widely used method for stretching and immobilising DNA molecules on a surface. Fluo...
Hollars CW, Puls J, Bakajin O, et al. Bio-assay based on single molecule fluorescence detection in m...
Improved methods are needed to interrogate the genome and the proteome. Methods with high selectivit...
Nucleoprotein filament formation by recombinases is central to homologous recombination. To follow t...
International audienceSpeeding up and enhancing the performances of nucleic acid biosensing technolo...
The commonly used fluorescent dye YOYO-1 (YOYO) has, using bulk techniques, been demonstrated to sta...
The sensing and characterisation of biomolecules is crucial for medical diagnostics and an understan...
We describe a simple, robust and high throughput single molecule flow-stretching assay for studying ...
DNA-protein interactions are at the core of the cellular machinery and single molecule methods have ...
ABSTRACT: Single-molecule imaging of biological macro-molecules has dramatically impacted our unders...
A new format for microfluidic based DNA biosensors is presented in which the biorecognition element ...