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

A team of researchers from the Keck School of Medicine of USC has unlocked the details of a cellular pathway that triggers ...

The study explores molecular mechanisms underlying synaptic plasticity - the strengthening or weakening of neuronal connections that enable learning and memory.

New research shows that a network of subcellular structures similar to those responsible for propagating molecular signals that make muscles contract are also responsible for transmitting signals in ...

Megakaryocytes form a three-dimensional (3D) cage composed of laminin and collagen IV connected to the basement membrane surrounding them. This microarchitecture stabilizes megakaryocytes within their ...

The new research reveals a novel mechanism for signal transmission in brain cells and helps answer an open question in neuroscience about how intracellular signals travel over long distances in ...

Scientists have identified nanoparticles that latch onto and destroy virus membranes, opening new possibilities for antiviral ...