The identification of specific binding molecules is of increasing interest in the context of drug development based on combinatorial libraries. Scanning Probe Microscopy (SPM) is the method of choice to image and probe individual biomolecules on a surface. Functional identification of biomolecules is a first step towards screening on a single molecule level. As a model system we use recombinant single-chain Fv fragment (scFv) antibody molecules directed against the antigen fluorescein. The scFv's are covalently immobilized on a flat gold surface via the C-terminal cysteine, resulting in a high accessibility of the binding site. The antigen is immobilized covalently via a long hydrophilic spacer to the silicon nitride SPM-tip. This arra...
Scanning probe microscopy (SPM), a key invention in nanoscience, has by now been extended to a wide ...
MasterAtomic force spectroscopy (AFM) is a high resolution imaging tool, and it is suitable to inves...
The combination of organic thin film transistors and biological molecules could open new approaches ...
The identification of specific binding molecules is of increasing interest in the context of drug de...
We used atomic force microscopy (AFM) to explore the antigen binding forces of individual Fv fragmen...
Scanning probe microscopies (SPM) are a relatively new family of imaging techniques whose capabiliti...
We present herein an original approach, consisting to lead in parallel a global analysis (SPR) and n...
Recent advances in the immunodiagnostics and pharmaceutical industries have demanded an improved und...
Membrane proteins are crucial in cell physiological activities and are the targets for most drugs. T...
The family of scanning probe microscopes (SPMs) have revolutionary imaging capabilities on a range o...
We report the scanning probe microscope (SPM)-based single-molecule recognition of biomolecular inte...
We report the scanning probe microscope (SPM)-based single-molecule recognition of biomolecular inte...
International audienceIn the past few years, protein and peptide microarrays have shown a great pote...
Atomic force microscopy is a powerful and widely used imaging technique that can visualize single mo...
During the past year, scanning probe microscopy, especially atomic force microscopy (AFM), has taken...
Scanning probe microscopy (SPM), a key invention in nanoscience, has by now been extended to a wide ...
MasterAtomic force spectroscopy (AFM) is a high resolution imaging tool, and it is suitable to inves...
The combination of organic thin film transistors and biological molecules could open new approaches ...
The identification of specific binding molecules is of increasing interest in the context of drug de...
We used atomic force microscopy (AFM) to explore the antigen binding forces of individual Fv fragmen...
Scanning probe microscopies (SPM) are a relatively new family of imaging techniques whose capabiliti...
We present herein an original approach, consisting to lead in parallel a global analysis (SPR) and n...
Recent advances in the immunodiagnostics and pharmaceutical industries have demanded an improved und...
Membrane proteins are crucial in cell physiological activities and are the targets for most drugs. T...
The family of scanning probe microscopes (SPMs) have revolutionary imaging capabilities on a range o...
We report the scanning probe microscope (SPM)-based single-molecule recognition of biomolecular inte...
We report the scanning probe microscope (SPM)-based single-molecule recognition of biomolecular inte...
International audienceIn the past few years, protein and peptide microarrays have shown a great pote...
Atomic force microscopy is a powerful and widely used imaging technique that can visualize single mo...
During the past year, scanning probe microscopy, especially atomic force microscopy (AFM), has taken...
Scanning probe microscopy (SPM), a key invention in nanoscience, has by now been extended to a wide ...
MasterAtomic force spectroscopy (AFM) is a high resolution imaging tool, and it is suitable to inves...
The combination of organic thin film transistors and biological molecules could open new approaches ...
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