The fluorescence-imaging technology in cells allows study the cellular mechanisms of the organelles with multiple imaging approaches. Different fluorescent proteins work as protein tags in detecting ...

Christophe Leterrier uses advanced microscopy to uncover neurons’ intricate nanostructure and dynamics while creating ...

A mechanosensitive fluorescent probe visualises and quantifies the mechanical stress on bacterial membranes upon contact with a surface. (Nanowerk News) In natural environments, bacteria rarely live ...

a. MRA helps resolve the dense actin filaments with SIM imaging. b. MRA helps resolve the mitochondrial cristae cluster with LiveSR imaging. c. SecMRA helps better section the ER tubule structure. d.

Biologists are very interested in how proteins, lipids and other compounds are organized and interact in systems. Very few organizational details can be gained by using standard transmission-based ...

What is Scanning X-Ray Fluorescence (XRF) Microscopy? Scanning X-Ray Fluorescence (XRF) Microscopy is a powerful analytical technique that enables the visualization and quantification of the elemental ...

A decade ago, the Nobel Prize in Chemistry was awarded to a trio of researchers for the development of super-resolved fluorescence microscopy. The announcement at the time stated that the researchers’ ...

(A–C) Representative images reconstructed by conventional method (left) and new method (right) of microtubules, nuclear pore complexes and F-actin samples. The regions enclosed by the white boxes are ...

Understanding how living cells grow, respond to stimuli, and change over time is central to modern cell biology and drug discovery. Many traditional imaging approaches rely on fluorescent labels, ...

The brain is the most energy-demanding organ in the body, in part due to its complexity. Its components are varied and intricate: comprising different cell types, including neurons designed to ...