DNA scaffolds that mirror influenza virus protein geometry boost antiviral binding and reduce infection more effectively than free molecules, enabling a modular antiviral design strategy.
Viruses and their hosts—whether bacteria, animals, or humans—are locked in a constant evolutionary arms race. Cells evolve ...
An international team led by two Université de Montréal researchers has unveiled how a molecule capable of opening the "shell ...
The spike protein on coronavirus acts as a key to enter human cells and cause infection. mRNA vaccines use this protein to ...
An international team led by two Université de Montréal researchers unveiled how a molecule capable of opening the "shell" of HIV, improves the ...
In a groundbreaking study, UC Santa Cruz researchers have shown that developing brain tissue exhibits spontaneous activity ...
From custom gene editing to a discovery that could help stop pancreatic cancer before it starts, these advances offer a ...
A unique vaccine rollout in Wales gave researchers an accidental natural experiment that revealed a striking reduction in ...
We have long struggled to determine how the first living organisms on Earth came together. Now, surprising evidence hints ...
A new nanoparticle vaccine successfully prevented several aggressive cancers in mice, including pancreatic and melanoma. The ...
Researchers found that using mental models—visual, verbal, or animated—helps people understand mRNA vaccination science, ...
Oseltamivir shifted the field by introducing a mechanism that traps the virus inside host cells, preventing release and ...
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