In the ongoing fight against viruses, a new scientific approach could bring sweeping change. Instead of targeting the virus ...

A groundbreaking study reveals that human cells initiate self-destruction processes when viruses disrupt RNA production, offering new insights into innate antiviral defenses. Conducted and reported on ...

For billions of years, bacteria have waged an ongoing arms race against viruses, evolving many defense mechanisms against the infectious invaders. Now, these evolutions may offer innovative ways for ...

The rate of HIV infection continues to climb globally. Around 40 million people live with HIV-1, the most common HIV strain.

This article examines key innovations driving scalable, high-yield purification of recombinant AAVs and how they’re helping ...

According to the new study, HIV achieves this with a tissue-specific approach, cloaking itself in a host cell's DNA by ...

Salk Institute researchers determine the structure of HIV protein during a newly discovered function, enabling the ...

Scientists at the University of Glasgow have harnessed a powerful supercomputer, normally used by astronomers and physicists ...

Scientists have already created designer viruses in a lab that can kill dangerous bacteria. The next step is designing and ...

Traditional breeding and genetic modification methods have struggled to keep pace with the rapid evolution of plant viruses. CRISPR/Cas systems, originally derived from bacterial immune responses, ...