Cells aren’t as passive as scientists once thought—they actively create internal currents to move proteins quickly and efficiently. These “cellular winds” push materials to the front of the cell, ...

A new shape-shifting material can change both its texture and color in seconds, inspired by the camouflage abilities of octopuses. By precisely controlling how a polymer swells with water, researchers ...

Cells can be thought of as cities, with factories, a transport system, and lots of building activity. An international team led by scientists at the University of Groningen studied cells growing under ...

Scientists have identified a reason why certain crucial immune cells lose their vigour inside a tumour: their mitochondria become debilitated, according to a study 1 in mice. These immune cells, ...

A mother’s bond is often described as a connection of souls, a relationship that transcends physical borders, time, and the definitions of love. While poets have spent centuries weaving paragraphs ...

Wall Street banks are racing to finance AI data centers, as deals swell into the tens of billions, forcing a rethink of how these projects are funded. "If you can't invest a billion dollars, we don't ...

Britt Hertz attempts to jump and land her body into specific cut-out shapes to win a prize. Automatic registration for US military draft to begin in December US Army veteran charged with leaking ...

An international team, including scientists from Leipzig University, has gained important new insights into the regulation of food intake in mammals. The study, recently published in the journal ...

Nursing student Effua Jordan wasn’t expecting car trouble on her way to clinicals, but a breakdown left her facing a nearly $500 bill. She asked family for help and put the rest on her credit card, ...

Field Medical Training Battalion (FMTB) prepares Navy Corpsmen to serve alongside Marine Corps units in some of the most demanding environments. This video breaks down the training at Camp Pendleton ...

A 3D single-molecule super-resolution microscopy (iPALM) image showing individual actin protein molecules inside a cell, each rendered as a single dot and captured at extraordinary detail — roughly 10 ...