Scanning probe microscopes can be used to image and chemically characterize surfaces down to the atomic scale. However, the localized tip-sample interactions in scanning probe microscopes limit high-resolution images to the topmost atomic layer of surfaces, and characterizing the inner structures of materials and biomolecules is a challenge for such instruments. Here, we show that an atomic force microscope can be used to image and three-dimensionally reconstruct chemical groups inside a protein complex. We use short single-stranded DNAs as imaging labels that are linked to target regions inside a protein complex, and T-shaped atomic force microscope cantilevers functionalized with complementary probe DNAs allow the labels to be located wit...
Atomic force microscopy (AFM) is a powerful imaging technique that allows for structural characteriz...
International audienceThe elasticity of double-stranded DNA (dsDNA), as described by its persistence...
Although most in vivo biomolecular recognition occurs in solution, in many practical situations (e.g...
AbstractAtomic force microscopy can potentially provide information on protein volumes, shapes, and ...
Protein-DNA interactions are pivotal for many essential biological processes. Atomic force microscop...
In the last two decades, the development of the atomic force microscope has progressed hand-in-hand ...
Carbon nanotubes represent ideal probes for high-resolution structural and chemical imaging of biomo...
One of the key innovations in biomolecular science over the past 50 years has been the ability to di...
Atomic force microscopy (AFM) is a scanning probe technique that allows visualization of single biom...
DNA nanotechnology is an emerging field that provides tools to design and create programmable, spati...
AbstractPhotolyase DNA interactions and the annealing of restriction fragment ends are directly visu...
Abstract Imaging biomolecules in real space is crucial for gaining a comprehensive understanding of ...
Imaging the nanoscale distribution of specific chemical and biological sites on live cells is an imp...
Simultaneous high-resolution imaging and localization of chemical interaction sites on single native...
Many biologists have dreamt of physically touching and manipulating the biomolecules they were inves...
Atomic force microscopy (AFM) is a powerful imaging technique that allows for structural characteriz...
International audienceThe elasticity of double-stranded DNA (dsDNA), as described by its persistence...
Although most in vivo biomolecular recognition occurs in solution, in many practical situations (e.g...
AbstractAtomic force microscopy can potentially provide information on protein volumes, shapes, and ...
Protein-DNA interactions are pivotal for many essential biological processes. Atomic force microscop...
In the last two decades, the development of the atomic force microscope has progressed hand-in-hand ...
Carbon nanotubes represent ideal probes for high-resolution structural and chemical imaging of biomo...
One of the key innovations in biomolecular science over the past 50 years has been the ability to di...
Atomic force microscopy (AFM) is a scanning probe technique that allows visualization of single biom...
DNA nanotechnology is an emerging field that provides tools to design and create programmable, spati...
AbstractPhotolyase DNA interactions and the annealing of restriction fragment ends are directly visu...
Abstract Imaging biomolecules in real space is crucial for gaining a comprehensive understanding of ...
Imaging the nanoscale distribution of specific chemical and biological sites on live cells is an imp...
Simultaneous high-resolution imaging and localization of chemical interaction sites on single native...
Many biologists have dreamt of physically touching and manipulating the biomolecules they were inves...
Atomic force microscopy (AFM) is a powerful imaging technique that allows for structural characteriz...
International audienceThe elasticity of double-stranded DNA (dsDNA), as described by its persistence...
Although most in vivo biomolecular recognition occurs in solution, in many practical situations (e.g...