In this valuable study, the authors develop new approaches to investigate mRNA imprinting, a phenomenon in which RNA-protein complexes form in the nucleus to influence the fate of transcripts in the ...

Artificial intelligence is already proving it can accelerate drug development and improve our understanding of disease. But ...

Rarely, some nanoparticles that enter a cell undergo an unexpected transformation, acquiring a coating known as a “condensate ...

Researchers at University College Dublin have discovered a previously unknown "courier system" that cells use to deliver ...

On the far right side of the periodic table, just beneath oxygen, sits a lesser-known group of elements called the chalcogens ...

Extracellular vesicles (EVs) are nanoscale lipid bilayer particles secreted by cells that mediate intercellular communication ...

Extracellular vesicles (EVs) are nanoscale lipid bilayer particles secreted by cells that mediate intercellular communication by transporting ...

This whitepaper introduces a metal ion complex-based surface activation technology that addresses these challenges head-on, ...

It’s not often that a Nobel laureate visits a UC Davis undergraduate classroom, but this year, a biochemistry class in Kleiber Hall struck “gold” — twice.

A physics-based model that accounts for membrane surface folds predicts cell adhesion on nanopillar arrays with 97% accuracy, enabling optimized biosensor design.