In an international collaboration, researchers have made an important breakthrough in the therapeutic delivery of microRNAs ...

Scientists used nanoparticles to introduce genetic material into plants, enabling faster and temporary crop modifications.

Titania nanoparticles damage enveloped viruses by directly binding with membrane phospholipids – a previously unknown mode of antiviral action ...

Furthermore, the protein coating or 'corona' on the surface of the nanoparticles may assist in the nanoparticle–cell interaction 6. However, it is worth taking a step back and recognizing just ...

Nanoparticle characterization is vital for mRNA vaccine efficacy, ensuring safety and regulatory compliance in the ...

The concept of using vaccines to treat cancers has been around for several decades. A vaccine was first approved for prostate ...

There is consensus that the surface structure of nanoparticles plays a crucial role in the interaction with cells and should therefore ... but also lead to changes on gene and protein levels of the ...

Here, anionic phospholipids were used to help load proteins into encapsulated protein lipid nanoparticles due to ion-ion interactions.

Imagine if antibodies, proteins such as insulin, or even COVID-19 and flu vaccines could be consumed orally instead of via ...

To uncover the sites of protein-DNA interactions at genome scale, Bing Ren, a former postdoctoral researcher in Young’s lab and now a gene regulation researcher at the University of California, San ...

The strong interactions trigger ... hallmark of viral infection. Other protein receptors bind to lipids, which may indicate ...

The research team has developed a novel solution by designing peptides—short strings of amino acids—to bind with specific drugs and create therapeutic nanoparticles. These nanoparticles are ...