Add to ORKGCurrently, there is a growing need for methods that can quantify and map the molecular interactions of biological samples, both with high-force sensitivity and high spatial resolution. Force-distance (FD) curve-based atomic force microscopy is a valuable tool to simultaneously contour the surface and map the biophysical properties of biological samples at the nanoscale. This presentation reports the use of advanced FD-based technology combined with chemically functionalized tips to probe the localization of specific sites on single native proteins and on living cells at high-resolution. Using biochemically sensitive tips, we are able to locate specific interaction sites on native protein at unprecedented resolution. We also introduce experi...
Membrane proteins are crucial in cell physiological activities and are the targets for most drugs. T...
During the last three decades, a series of key technological improvements turned atomic force micros...
Over the past five years, atomic force microscopy (AFM)-based approaches have evolved into a powerfu...
Currently, there is a growing need for methods that can quantify and map the molecular interactions ...
Currently, there is a growing need for methods that can quantify and map the molecular interactions ...
Currently, there is a growing need for methods that can quantify and map the molecular interactions ...
Cell surface receptors, often called transmembrane receptors, are key cellular components as they co...
Force-distance curve-based atomic force microscopy has emerged into a sophisticated technique for im...
MasterAtomic force spectroscopy (AFM) is a high resolution imaging tool, and it is suitable to inves...
Ligand binding to receptors is one of the most important regulatory elements in biology as it is the...
There is a need in biochemical research for new tools that can image and manipulate biomolecular and...
Understanding biological interactions at a molecular level grants valuable information relevant to i...
A current challenge in the life sciences is to understand how biological systems change their struct...
Imaging the nanoscale distribution of specific chemical and biological sites on live cells is an imp...
The goal of this article is to review the state-of-art techniques for characterizing specific single...
Membrane proteins are crucial in cell physiological activities and are the targets for most drugs. T...
During the last three decades, a series of key technological improvements turned atomic force micros...
Over the past five years, atomic force microscopy (AFM)-based approaches have evolved into a powerfu...
Currently, there is a growing need for methods that can quantify and map the molecular interactions ...
Currently, there is a growing need for methods that can quantify and map the molecular interactions ...
Currently, there is a growing need for methods that can quantify and map the molecular interactions ...
Cell surface receptors, often called transmembrane receptors, are key cellular components as they co...
Force-distance curve-based atomic force microscopy has emerged into a sophisticated technique for im...
MasterAtomic force spectroscopy (AFM) is a high resolution imaging tool, and it is suitable to inves...
Ligand binding to receptors is one of the most important regulatory elements in biology as it is the...
There is a need in biochemical research for new tools that can image and manipulate biomolecular and...
Understanding biological interactions at a molecular level grants valuable information relevant to i...
A current challenge in the life sciences is to understand how biological systems change their struct...
Imaging the nanoscale distribution of specific chemical and biological sites on live cells is an imp...
The goal of this article is to review the state-of-art techniques for characterizing specific single...
Membrane proteins are crucial in cell physiological activities and are the targets for most drugs. T...
During the last three decades, a series of key technological improvements turned atomic force micros...
Over the past five years, atomic force microscopy (AFM)-based approaches have evolved into a powerfu...