Protein translocation is an essential, nano-scale dynamic process that facilitates the movement of proteins across cellular ...

Using high-speed atomic force microscopy (HS-AFM), the Kanazawa University team led by Mikihiro Shibata filmed the dynamic movements of CaMKII at the single-molecule level. The images revealed that a ...

New imaging reveals cancer-linked ADAR1 enzyme structure, potentially enabling targeted therapies by combining HS-AFM and 3D modeling techniques. (Nanowerk News) An enzyme type noted in several ...

Nuclear pore complexes are more dynamic than previously thought, reshaping our understanding of a vital transport process in cells. An international study led by the University of Basel (Switzerland) ...

The predicted orientation of the Cas9 protein on the AFM substrate is shown, and a simulated AFM image calculated in the scanning view perspective shows remarkable agreement with previous HS-AFM ...

The DNA of prokaryotes — single-cell organisms, for example bacteria — is known to contain sequences that are derived from DNA fragments of viruses that infected the prokaryote earlier. These ...

Atomic force microscopy (AFM) is a technique originally developed to assess the physical and mechanical properties of materials at extremely high resolutions, but the imaging speeds aren't fast enough ...

Current optical and electron microscopy imaging techniques are not suited for measuring the dynamic characteristics of living microorganisms at tiny scales due to complex sample preparation methods or ...

insights from industryDr. André KörnigApplication ScientistBruker BioAFM In this interview, Dr. André Körnig, Application Scientist at Bruker BioAFM discusses the applications of BioAFM in the life ...