For the first time ever, researchers from Japan directly visualized protein translocation across membranes using high-speed atomic force microscopy (HS-AFM)—an event that had been biochemically ...

These images captured using high-speed atomic force microscopy, represent the snapshots of the protein substrate getting translocated through the SecYEG-SecA complex. The left image indicates the ...

Kanazawa University, observe the configuration of different dipeptides on graphite electrodes and the subsequent arrangement of catalytic hemin on them to get an idea of the factors affecting its ...

Using high-speed atomic force microscopy, the team observed that the DNA stars with shorter, rigid 'arms' organized into stable hexagonal networks, while those with longer, more flexible arms were ...

Light and electron microscopy each have their distinct limitations – with light it becomes increasingly difficult to resolve ...

A small international team of nanotechnologists, engineers and physicists has developed a way to force laser light into ... Researchers have developed a high-speed electro-optic switch that ...

The metal was designed with tiny grains and even smaller clusters of tantalum, which act as obstacles that prevent ...

Faculty of Pharmacy, Kindai University, 3-4-1 Kowakae, Higashi-osaka, Osaka 577-8502, Japan ...

Lightfield 4D overcomes these challenges by imaging entire 3D data sets at a precise moment in time, eliminating time delays ...