Add to ORKGWe present a novel method that covalently and sequence-specifically attaches long DNA molecules to a surface that is compatible with high-resolution atomic force microscopy (AFM) imaging. Surfaces prepared with this approach are ideally suited for performing biophysical experiments on single DNA molecules
Photolyase DNA interactions and the annealing of restriction fragment ends are directly visualized w...
Large DNA molecules remain difficult to be imaged by atomic force microscopy (AFM) because of the te...
AbstractUsing a cationic lipid bilayer, we show that DNA can be reliably adsorbed to the bilayer sur...
One of the key innovations in biomolecular science over the past 50 years has been the ability to di...
The importance of DNA sequencing in the life sciences and personalized medicine is continually incre...
AbstractAtomic force microscopy (AFM) can be used to probe the mechanics of molecular recognition be...
This paper explores suitable conditions for the imaging of DNA molecules by atomic force microscope ...
Here we describe a novel surface that enables direct visualization of the hybridization of single DN...
A chemical procedure for anchoring DNA molecules to gold surfaces was used to facilitate the imaging...
AbstractPhotolyase DNA interactions and the annealing of restriction fragment ends are directly visu...
In this letter, we report on spatially selecting and grafting a DNA-tethered bead to an atomic force...
A proper surface treatment of the substrate and the AFM tip with a structured molecule provided a ne...
The DNA Curtains assay is a recently developed experimental platform for protein-DNA interaction stu...
Although most in vivo biomolecular recognition occurs in solution, in many practical situations (e.g...
We demonstrate a simple method of stretching DNA to its full length, suitable for optical imaging an...
Photolyase DNA interactions and the annealing of restriction fragment ends are directly visualized w...
Large DNA molecules remain difficult to be imaged by atomic force microscopy (AFM) because of the te...
AbstractUsing a cationic lipid bilayer, we show that DNA can be reliably adsorbed to the bilayer sur...
One of the key innovations in biomolecular science over the past 50 years has been the ability to di...
The importance of DNA sequencing in the life sciences and personalized medicine is continually incre...
AbstractAtomic force microscopy (AFM) can be used to probe the mechanics of molecular recognition be...
This paper explores suitable conditions for the imaging of DNA molecules by atomic force microscope ...
Here we describe a novel surface that enables direct visualization of the hybridization of single DN...
A chemical procedure for anchoring DNA molecules to gold surfaces was used to facilitate the imaging...
AbstractPhotolyase DNA interactions and the annealing of restriction fragment ends are directly visu...
In this letter, we report on spatially selecting and grafting a DNA-tethered bead to an atomic force...
A proper surface treatment of the substrate and the AFM tip with a structured molecule provided a ne...
The DNA Curtains assay is a recently developed experimental platform for protein-DNA interaction stu...
Although most in vivo biomolecular recognition occurs in solution, in many practical situations (e.g...
We demonstrate a simple method of stretching DNA to its full length, suitable for optical imaging an...
Photolyase DNA interactions and the annealing of restriction fragment ends are directly visualized w...
Large DNA molecules remain difficult to be imaged by atomic force microscopy (AFM) because of the te...
AbstractUsing a cationic lipid bilayer, we show that DNA can be reliably adsorbed to the bilayer sur...