J. P. STEVENSON & F. BIDDLE Nature 212, 619–621 (1966) Cite this article 148 Accesses 5 Citations Metrics details ...

This electron microscope image catches a flu virus in the process of copying itself. Viral nucleoproteins (blue) encapsulate the flu genome (green). The influenza virus polymerase (orange) reads ...

In the background is an image of influenza virus ribonucleoprotein complexes observed using cryo-electron microscopy. Credit: Wilson, Carragher and Potter labs.

Through mathematical models and cryo-electron microscope studies, the team was able to determine that the phage capsid completely encapsulated the virus, and was effective against several flu ...

Using advanced electron microscopy, a team led by Kelly Lee sequenced the stages of membrane fusion—the process in which two separate biological entities merge to become one.

This colorized electron microscope image released by the National Institute of Allergy and Infectious Diseases on March 26 shows avian influenza A H5N1 virus particles (yellow), grown in canine ...

Researchers at Texas Biomedical Research Institute have developed a new, proof-of-concept vaccine to protect people from the ...

Instead, urumin appears to only disrupt the integrity of flu virus, as seen through electron microscopy. It binds the stalk of hemagglutinin, a less variable region of the flu virus that is also ...

It was the surface structure of flu viruses that inspired the researchers to ask the following initial question more than six years ago: Would it not be possible to develop an inhibitor that binds ...