Learn how the herpes virus hijacks immune pathways to trigger reactivation and what this means for potential new treatments.
Herpes has long been known to lie dormant in the body, waiting for the right moment to strike. But new research has revealed ...
They tested the antiviral activity of the TATT nanoparticles against two types of virus: swine transmissible gastroenteritis virus (TGEV) – an enveloped coronavirus that’s surrounded by a phospholipid ...
Scientists have a new target to prevent cold sores -- and genital herpes flare-ups caused by the same virus -- after ...
To become infectious, HIV has to undergo a maturation process, which involves a rearrangement of the matrix proteins (red).
To make monoclonal antibodies, scientists expose a specific type of cell from the immune system to a particular viral protein -- in this case, SARS-CoV-2, the virus that causes COVID-19.
Supercomputer simulations have revealed how changes in the shape of the HIV-1 capsid protein may help the virus squeeze its ...
translation of viral proteins, viral genome replication, and the assembly and release of virions. All these events occur outside the nucleus of the host cell. After translation of the viral ...