Vaccines that display filovirus surface proteins on engineered, self-assembling protein nanoparticles improve immune system detection of the virus.

Filoviruses get their name from the Latin word "filum," meaning thread—a reference to their long, filamentous shape. This ...

Innovative nanoparticle vaccines show promise in triggering broad immune responses against deadly filoviruses. Rational design of next-generation filovirus vaccines combining glycoprotein ...

A newly identified virus–cell hybrid structure allows viruses to spread faster and more aggressively by hitching a ride on ...

Filoviruses get their name from the Latin word "filum," meaning thread-a reference to their long, filamentous shape. This virus family contains some of the most dangerous pathogens known to science, ...

Filoviruses get their name from the Latin word "filum," meaning thread—a reference to their long, filamentous shape. This virus family ...

The death toll and economic damage associated with flu highlight its role as one of the most harmful viruses in history.

Scientists found that Ebola and Marburg viruses replicate in human gut organoids and interfere with fluid and barrier ...

Ebola (EBOV) and Marburg virus (MARV) are highly lethal viruses that cause severe disease in infected patients by extensively damaging the body.

Organoids with both intestinal and colonic regions are able to better represent the human GI tract with Ebola and Marburg infections.

Boston)—Ebola (EBOV) and Marburg virus (MARV) are highly lethal viruses that cause severe disease in infected patients by extensively damaging the ...

Ebola (EBOV) and Marburg virus (MARV) are highly lethal viruses that cause severe disease in infected patients by extensively ...