Researchers profile the molecular structure and features of a key part of the deadly Nipah virus. Experiments in cells show how changes in the viral polymerase — a protein involved in viral ...
Influenza A virus particle can strategically adapt their shape, becoming either spheres or filaments, to favor their ability ...
Influenza A virus particles strategically adapt their shape—to become either spheres or larger filaments—to favor their ...
Now, researchers used cryoelectron microscopy (cryo-EM) to elucidate the structure of the Nipah virus polymerase complex (the large protein and phosphoprotein). Not only that, but they also ...
Scientists uncover structure of critical component in deadly Nipah virus. ScienceDaily . Retrieved February 16, 2025 from www.sciencedaily.com / releases / 2025 / 01 / 250120113803.htm ...
Influenza A virus particles strategically modify their shape becoming either spheres or larger filaments to enhance their ...
Influenza A virus particles strategically adapt their shape -- to become either spheres or larger filaments -- to favor their ability to infect cells depending on environmental conditions, according ...
Influenza A Viruses Adapt Shape in Response to Environmental Pressures - NIH Study Identifies Previously Unknown Adaptation ...
The work provides a detailed three-dimensional picture of the virus's polymerase and its key features. Understanding the structure and behavior of this critical piece of the viral machinery ...
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