Caught in action: A research team has revealed how the molecular copying machine of the influenza virus, termed FluPol, interacts with the human copying machinery inside the infected cell to steal the ...

Ongoing research aims to confirm the mechanism by which ICP4 fluidizes the nucleus, which could indicate specific targets to counter viral replication.

Forget about locating molecules in the blink of an eye, which takes as long as a quarter second—far too long a time to distinguish a sequence of subcellular events. Instead, try doing what Stanford ...

A new, nano-scale look at how the SARS-CoV-2 virus replicates in cells may offer greater precision in drug development, a Stanford University team reports in Nature Communications. Using advanced ...

Virology researchers have found that a specific protein modification to the immune protein MDA5 is key to how our bodies detect and respond to viruses and viral replication. The publication explains ...

A new combination of microscopy methods has revealed exquisite detail of the virus assembly process used by herpes simplex virus during replication. The research, published today as a Reviewed ...

A study reveals how two proteins cooperate in a key early step of antiviral detection, as reported by researchers at Science ...

The avian influenza virus needs to mutate to cross the species barrier and to infect and replicate within mammalian cells. Scientists have now deciphered the structure of the avian influenza virus's ...

Single-cell analysis helps uncover how the BK virus replicates, opening the door to new drug targets. BK polyomavirus (BKPyV) is a major cause of kidney transplant failure. Without a complete ...