New solutions include customized reagents that scale from bench to clinical trials, industrialized lentiviral vector ...

New nanoscale platform traps and orients individual membrane proteins inside tiny structures, unlocking advances in drug ...

Lipid nanoparticles address key drug delivery challenges, including immune evasion, toxicity, and regulatory approval.

Researchers at Johns Hopkins Medicine say they have successfully demonstrated that disrupting an eye structure long suspected ...

A system once tied to DNA organization in cyanobacteria has evolved into a structure that shapes the cell itself. This shift ...

Found in complex living organisms, TOR acts as a conductor, integrating signals such as nutrient availability, energy levels, ...

Shifting gears somewhat, in 2008 Agre began a 15-year run as director of the Johns Hopkins Malaria Research Institute, a ...

A detailed analysis of T-cell redirecting therapies in oncology, comparing the mechanisms of bispecific antibodies and CAR T ...

Cell membranes are more than just barriers—they are dynamic, multifunctional structures essential for life. From controlling what enters and exits the cell to enabling communication and repair, they ...

The science of memories has been pursued and studied since the days of ancient Greece and Aristotle. Today, research ...

Researchers at Durham have helped unlock a new understanding of how bacteria import antimicrobial peptides—the molecules that can kill or inhibit microbes. The research sheds new light on SbmA, a key ...

Cells are enveloped by a lipid membrane that gives them structure and provides a barrier between the cell and its environment. However, evidence has recently emerged suggesting that these membranes do ...