This isn't necessarily new info, but experts hadn't observed this specific shape-shifting in the flu before. Viruses generally tend to mutate to become more infectious, explains infectious disease ...

It’s the same when doctors, researchers and epidemiologists fight any virus: The physical structure of its molecules dictate how a virus infects people and moves through their bodies as well as how to ...

The labs of two of these researchers, Takeshi Noda and Takao Hashiguchi, are revealing the detailed shapes of viruses at the atomic level, with a focus on filoviruses, such as Ebola, as well as ...

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 to a ...

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 ...

Influenza A virus particles strategically adapt their shape—to become either spheres or larger filaments—to favour their ability to infect cells depending on environmental conditions, according to a ...

This isn't necessarily new info, but experts hadn't observed this specific shape-shifting in the flu before. Viruses generally tend to mutate to become more infectious, explains infectious disease ...

This isn't necessarily new info, but experts hadn't observed this specific shape-shifting in the flu before. Viruses generally tend to mutate to become more infectious, explains infectious disease ...

In this case, flu A viruses have learned to mutate to stay alive longer, which in turn makes it more likely that you (and everyone around you) gets infected. “With a change in genome, it can rapidly ...