Influenza A virus particle can strategically adapt their shape, becoming either spheres or filaments, to favor their ability ...

Harnessing the ultrasonic vibrations of tiny viral particles is leading researchers down new paths of discovery.

Influenza A virus particles strategically adapt their shape—to become either spheres or larger filaments—to favor their ...

Influenza A virus particles strategically modify their shape becoming either spheres or larger filaments to enhance their ...

Figure 1: Mucus structure and ... 700-fold decrease in particle transport rate, due to charge-facilitated binding to mucin fibres. This approach mimics the properties of virus particles that ...

Influenza A virus particles strategically adapt their shape—to become either spheres or larger filaments—to favor their ...

Scientists used an all-optical method to detect and dynamically track the natural vibrational frequencies of a microorganism ...

As debilitating as the illness it causes can be, the norovirus particle is visually beautiful ... It’s the specific structure of these oligosaccharides that determines whether a given strain of virus ...