The atomic force microscope (AFM;1) can image DNA and RNA in air and under solutions at resolution comparable to that obtained by electron microscopy (EM) (2–7). We have developed a method for depositing and imaging linear DNA molecules to which 5nm gold spheres have been attached. The gold spheres facilitate orientation of the DNA molecules on the mica surface to which they are adsorbed and are potentially useful as internal height standards and as high resolution gene or sequence specific tags. We show that by modulating their adhesion to the mica surface, the gold spheres can be moved with some degree of control with the scanning tip
Large DNA molecules remain difficult to be imaged by atomic force microscopy (AFM) because of the te...
We describe a procedure for reversible adsorption of DNA onto a gold electrode maintained under pote...
AbstractUsing a cationic lipid bilayer, we show that DNA can be reliably adsorbed to the bilayer sur...
We have imaged gold‐labeled DNA molecules with the atomic force microscope(AFM). Circular plasmid DN...
A chemical procedure for anchoring DNA molecules to gold surfaces was used to facilitate the imaging...
The atomic force microscope (AFM) was used to image supercooled plasmid DMA deposited on a mica surf...
In the last two decades, the development of the atomic force microscope has progressed hand-in-hand ...
A chemical procedure for anchoring DNA molecules to gold surfaces was used to facilitate the imaging...
Tapping mode atomic force microscopy (AFM) of DNA in propanol, dry helium, and aqueous buffer each h...
A new technique has been developed for electrophoresing DNA molecules from an agarose gel onto a sil...
This paper explores suitable conditions for the imaging of DNA molecules by atomic force microscope ...
The dynamics and enzymatic degradation of single DNA molecules can now be observed with the atomic f...
AbstractDNA-cytochrome complexes adsorbed on carbon-coated micasurfaces were directly imaged by atom...
This report explores dry and wet scanning of a surface and DNA pickup using an AFM, as well as fluor...
Recent work in atomic force microscopy (AFM) of deoxyribonucleic acid (DNA) has relied on immobilizi...
Large DNA molecules remain difficult to be imaged by atomic force microscopy (AFM) because of the te...
We describe a procedure for reversible adsorption of DNA onto a gold electrode maintained under pote...
AbstractUsing a cationic lipid bilayer, we show that DNA can be reliably adsorbed to the bilayer sur...
We have imaged gold‐labeled DNA molecules with the atomic force microscope(AFM). Circular plasmid DN...
A chemical procedure for anchoring DNA molecules to gold surfaces was used to facilitate the imaging...
The atomic force microscope (AFM) was used to image supercooled plasmid DMA deposited on a mica surf...
In the last two decades, the development of the atomic force microscope has progressed hand-in-hand ...
A chemical procedure for anchoring DNA molecules to gold surfaces was used to facilitate the imaging...
Tapping mode atomic force microscopy (AFM) of DNA in propanol, dry helium, and aqueous buffer each h...
A new technique has been developed for electrophoresing DNA molecules from an agarose gel onto a sil...
This paper explores suitable conditions for the imaging of DNA molecules by atomic force microscope ...
The dynamics and enzymatic degradation of single DNA molecules can now be observed with the atomic f...
AbstractDNA-cytochrome complexes adsorbed on carbon-coated micasurfaces were directly imaged by atom...
This report explores dry and wet scanning of a surface and DNA pickup using an AFM, as well as fluor...
Recent work in atomic force microscopy (AFM) of deoxyribonucleic acid (DNA) has relied on immobilizi...
Large DNA molecules remain difficult to be imaged by atomic force microscopy (AFM) because of the te...
We describe a procedure for reversible adsorption of DNA onto a gold electrode maintained under pote...
AbstractUsing a cationic lipid bilayer, we show that DNA can be reliably adsorbed to the bilayer sur...