Single DNA molecule techniques have revolutionized our understanding of DNA-protein interactions. Traditional techniques for such studies have the major drawback that the DNA molecule studied is attached to a bead or a surface. Stretching of DNA molecules in nanofluidic channels has enabled single-molecule studies of DNA-protein interactions without the need of tethering the molecule to a foreign entity. This in turn allows for studying reactions along the whole extension of the molecule, including the free DNA ends. However, existing studies either rely on measurements where all components are mixed before introduction into the nanochannels or where passive diffusion brings the reagents to the confined DNA molecule. We here present a new g...
This thesis describes methods for constructing nanopatterned surfaces to array DNA. These surfaces e...
Stretching DNA in nanochannels is a useful tool for direct, visual studies of genomic DNA at the sin...
At its inception DNA nanotechnology was conceived as a tool for spatially arranging biological molec...
DNA-protein interactions are at the core of the cellular machinery and single molecule methods have ...
We report an approach to study the in situ conformational response of single biomolecules such as DN...
Single-molecule detection schemes offer powerful means to overcome static and dynamic heterogeneity ...
ABSTRACT: Single-molecule imaging of biological macro-molecules has dramatically impacted our unders...
AbstractA method is presented to rapidly and precisely measure the conformation, length, speed, and ...
As biological physics develops at the level of single-molecule studies, new tools are required to ma...
In this study we describe a new methodology to physically probe individual complexes formed between ...
Protein-DNA interactions are the core of the cell’s molecular machinery. For a long time, convention...
The effect of a cationic-neutral diblock polypeptide on the conformation of single DNA molecules con...
DNA has become a powerful platform to design functional nanodevices. DNA nanodevices are often compo...
Understanding biomolecular information at the single-molecule level requires tools for manipulating ...
We demonstrate how a recently developed nanofluidic device can be used to study protein-induced comp...
This thesis describes methods for constructing nanopatterned surfaces to array DNA. These surfaces e...
Stretching DNA in nanochannels is a useful tool for direct, visual studies of genomic DNA at the sin...
At its inception DNA nanotechnology was conceived as a tool for spatially arranging biological molec...
DNA-protein interactions are at the core of the cellular machinery and single molecule methods have ...
We report an approach to study the in situ conformational response of single biomolecules such as DN...
Single-molecule detection schemes offer powerful means to overcome static and dynamic heterogeneity ...
ABSTRACT: Single-molecule imaging of biological macro-molecules has dramatically impacted our unders...
AbstractA method is presented to rapidly and precisely measure the conformation, length, speed, and ...
As biological physics develops at the level of single-molecule studies, new tools are required to ma...
In this study we describe a new methodology to physically probe individual complexes formed between ...
Protein-DNA interactions are the core of the cell’s molecular machinery. For a long time, convention...
The effect of a cationic-neutral diblock polypeptide on the conformation of single DNA molecules con...
DNA has become a powerful platform to design functional nanodevices. DNA nanodevices are often compo...
Understanding biomolecular information at the single-molecule level requires tools for manipulating ...
We demonstrate how a recently developed nanofluidic device can be used to study protein-induced comp...
This thesis describes methods for constructing nanopatterned surfaces to array DNA. These surfaces e...
Stretching DNA in nanochannels is a useful tool for direct, visual studies of genomic DNA at the sin...
At its inception DNA nanotechnology was conceived as a tool for spatially arranging biological molec...