Biomedical research typically follows a familiar path: developing treatments that block, enhance or mutate certain signaling pathways, genes or proteins to change the function of different cells in ...

A research team from the University of Osaka, in collaboration with the Massachusetts Institute of Technology, has uncovered ...

MIT researchers discovered that the genome’s 3D structure doesn’t vanish during cell division as previously thought. Instead, tiny loops called microcompartments remain (and even strengthen) while ...

According to “Global Cancer Statistics- 2022”, colorectal cancer (CRC) ranks third in incidence and second in cancer-related ...

Scientists have reached a milestone in an ambitious initiative to chart how the many types of brain cells emerge and mature ...

A recent review published in Engineering explores the construction and potential applications of spinal cord and peripheral ...

Some cells, such as immune cells, are highly mobile—they constantly remodel their shape, migrate toward a wound that needs to be closed or chase down bacteria in the bloodstream. This mobility is ...

It's no coincidence that our bodies feel a little creakier as we age. The trillions of cells that make up our skeleton age too, and some change in ways that weaken the very structure of our bones.

USC researchers built artificial neurons that replicate real brain processes using ion-based diffusive memristors. These ...

Encroachment of public spaces and alterations in lake boundaries dominated the grievance session conducted by the Hyderabad ...

For the first time, scientists have mapped the genetic architecture of the brain’s communication bridge—the corpus callosum—using AI and MRI data from over 50,000 people.

Scientists have uncovered a key role for the protein “Frazzled” in building and maintaining the rapid neural connections that allow fruit flies to react in milliseconds.