Various methods for the deposition of deoxyribonucleic acid (DNA) molecules on mica are investigated to determine their reproducibility, and to quantify their ability to bind DNA. The use of these deposition methods for sample preparation for biological scanning tunneling microscopy (STM) and atomic force microscopy (AFM) studies is discussed. Auger electron spectroscopy (AES) and electron spectroscopy for chemical analysis (ESCA) were used to investigate the quantity of DNA adsorbed. AFM images of DNA deposited using the methods investigated are presented. The combination of AFM results with AES and ESCA results provides a basic understanding of the deposition techniques studied and illustrates that electron spectroscopy can be a useful ad...
In buffers containing selected transition metal salts, DNA binds to mica tightly enough to be direct...
The availability of a number of methods to controllably adsorb DNA on solid surfaces is useful to re...
DNA is the molecule that can bear the highest possible informational content. The different codes em...
Various methods for the deposition of deoxyribonucleic acid (DNA) molecules on mica are investigated...
To investigate DNA and DNA-protein assembly, nucleic acids were adsorbed to freshly cleaved mica in ...
The conditions for the adsorption onto mica of Tobacco Mosaic Virus (TMV), proteins or double-strand...
Progress towards rapid and simple characterization of biomolecular samples by scanning probe microsc...
A new technique has been developed for electrophoresing DNA molecules from an agarose gel onto a sil...
The deposition of DNA molecules on mica is driven and controlled by the ionic densities around DNA a...
This report explores dry and wet scanning of a surface and DNA pickup using an AFM, as well as fluor...
AbstractThe adsorption of DNA molecules onto a flat mica surface is a necessary step to perform atom...
This paper explores suitable conditions for the imaging of DNA molecules by atomic force microscope ...
The adsorption of DNA molecules on mica surface and the following desorption of DNA molecules at eth...
Atomic force microscopy (AFM) can directly visualize single protein and DNA molecules and protein-DN...
International audienceDNA processing by site-specific proteins on surface remains a challenging issu...
In buffers containing selected transition metal salts, DNA binds to mica tightly enough to be direct...
The availability of a number of methods to controllably adsorb DNA on solid surfaces is useful to re...
DNA is the molecule that can bear the highest possible informational content. The different codes em...
Various methods for the deposition of deoxyribonucleic acid (DNA) molecules on mica are investigated...
To investigate DNA and DNA-protein assembly, nucleic acids were adsorbed to freshly cleaved mica in ...
The conditions for the adsorption onto mica of Tobacco Mosaic Virus (TMV), proteins or double-strand...
Progress towards rapid and simple characterization of biomolecular samples by scanning probe microsc...
A new technique has been developed for electrophoresing DNA molecules from an agarose gel onto a sil...
The deposition of DNA molecules on mica is driven and controlled by the ionic densities around DNA a...
This report explores dry and wet scanning of a surface and DNA pickup using an AFM, as well as fluor...
AbstractThe adsorption of DNA molecules onto a flat mica surface is a necessary step to perform atom...
This paper explores suitable conditions for the imaging of DNA molecules by atomic force microscope ...
The adsorption of DNA molecules on mica surface and the following desorption of DNA molecules at eth...
Atomic force microscopy (AFM) can directly visualize single protein and DNA molecules and protein-DN...
International audienceDNA processing by site-specific proteins on surface remains a challenging issu...
In buffers containing selected transition metal salts, DNA binds to mica tightly enough to be direct...
The availability of a number of methods to controllably adsorb DNA on solid surfaces is useful to re...
DNA is the molecule that can bear the highest possible informational content. The different codes em...