Researchers from the Göttingen Cluster of Excellence Multiscale Bioimaging (MBExC) have uncovered the 3D structure of the ...

Scientists routinely create models of proteins using X-ray diffraction, nuclear magnetic resonance, and conventional cryo-electron microscope (cryoEM) imaging. But these models require computer ...

Scientists have developed a new peroxidise-derived tag that can be used to label proteins for visualization by electron microscopy. The tag, called Apex, is a 28 kDa peroxidise that can withstand ...

A recently developed technique called cryo-electron microscopy creates 3D visualizations of biological molecules like proteins, DNA, and RNA, making them visible in ways previously thought impossible.

Until now. Two laboratories recently used cryo-electron microscopy to directly image atoms in a protein molecule with a resolution of about 1.2 x 10-7 millimeters or 1.2 ångströms. The previous ...

Researchers identify key features in the anthrax protein complex that facilitate ... Dr. Robert Liddington and colleagues using a cryo-electron microscopy. The PA, LF, EF complex bind to a ...

They say a picture is worth a thousand words. But it takes millions of pictures to understand the intricate chemistry of an ...

including the discovery of new proteins and therapeutics and contributions made to the electronics revolution. But the field of electron microscopy must incorporate the latest advances in data science ...

Scientists routinely create models of proteins using X-ray diffraction, nuclear magnetic resonance, and conventional cryo-electron microscope (cryoEM) imaging. But these models require computer ...

Scientists routinely create models of proteins using X-ray diffraction, nuclear magnetic resonance, and conventional cryo-electron microscope (cryoEM) imaging. But these models require computer ...