In a statement to Business Insider, a former worker described the experience as like being a “lab rat under a microscope.” The goal of these "data collection operators" is to teach Optimus how to move ...

Hitachi High-Tech Corporation ("Hitachi High-Tech"), has launched the Ultrahigh-Resolution Scanning Electron Microscope SU9600, which allows for highly accurate and precise observation of substances ...

This isn’t welding or grinding—this is cutting at the atomic level. Under the electron beam, metal behaves like nothing ...

A pandemic-era breakthrough has allowed scientists to literally expand our view of plankton. By using ultrastructure expansion microscopy, researchers visualized the inner workings of hundreds of ...

Within a modest engineering laboratory at Duke University, a new type of researcher is quietly at work next to an optical ...

Mitochondria are the small organelles that generate the energy our bodies need to grow, move, and stay healthy. As ...

This paper describes Unbend - a new method for measuring and correcting motions in cryo-EM images, with a particular emphasis on more challenging in situ samples such as lamella and whole cells. The ...

BEIJING -- A team of Chinese scientists crafted a super intravital microscope that is capable of seeing clearly the entire three-dimensional (3D) interactions of a large-scale cell's network at the ...

The human body relies on precise genetic instructions to function, and cancer begins when these instructions get scrambled.

The human body relies on precise genetic instructions to function, and cancer begins when these instructions get scrambled.

Liver cells are indispensable for research—for drug testing, to better understand diseases such as hepatitis, fatty liver, cirrhosis, or liver cancer and for development of future cell therapies.

An RNAi based genetic screen and subsequent analyses reveal how dyneins and small GTPases coordinate autophagosome positioning at the ncMTOC in fat cells, advancing understanding of autophagic vesicle ...