Growing tissues can crack, break, and dissociate to form structures that can later withstand immense forces.

Researchers at The University of Osaka use a nanoreactor to produce pores that mimic biological ion channelsIon channels are ...

The human body is a dynamic place. Blood pumps, spinal fluid flows, oxygen comes in and carbon dioxide goes out. Deeper still, charged molecules pass through cell walls, quietly keeping the body's ...

Researchers discover that hearing-essential proteins (TMC1/TMC2) also regulate cell membranes, and their malfunction is a primary cause of permanent hearing loss.

There’s a mysterious energy quietly influencing your brain. Could it explain where your consciousness originates?

Carfilzomib prevented BCMA degradation, increased target density, and improved CAR T susceptibility by ~26%–28% in vitro, while enhancing xenograft antitumor activity without worsening T-cell ...

Ion channels are narrow passageways that play a pivotal role in many biological processes. To model how ions move through these tight spaces, pores need to be fabricated at very small length scales.

Experiments reveal that unsaturated lipid membranes promote vesicle fusion and DNA retention during freeze–thaw cycles, highlighting icy environments as potential drivers of protocell evolution. Today ...

Mitochondrial diseases are severe, often untreatable, and they leave human cells unable to grow normally without outside help. A new study published in Nature Metabolism now shows that a single gene ...

Researchers shrink solid-state nanopores to sub-nm size via voltage-driven precipitation/dissolution, creating tunable pores that mimic ion channels for studying confined ion transport.

Most bacteria, including many bacterial pathogens, are surrounded by an outer protective layer of sugar molecules, known as a ...

Now, new research by Penn State scientists has revealed this vital process may be governed by a previously unknown molecular gatekeeper: a lattice‑like structure just beneath the surface of brain ...