A remarkably small bacterium containing fewer than 500 genes serves as the basis for one of the most detailed digital life reconstructions ever created. Using computer technology, scientists have ...

Scientists discovered hundreds of energy-making enzymes secretly working on human DNA—revealing a hidden “mini-metabolism” ...

Researchers show how LGP2 binds viral RNA ends, moves along the strand, and helps MDA5 form filaments that amplify antiviral ...

Every second, hundreds to thousands of molecules move through thousands of nuclear pores in each of your cells. A new high-definition view reveals the machine in action.

Mammalian oocytes utilize a conserved combination of cell cycle control, cytoskeletal organization, and polarity pathways that are fundamentally shared with other vertebrates and invertebrates.

Treating brain diseases like tumors and Alzheimer's is notoriously difficult due to the blood-brain barrier (BBB), which blocks most drugs. While nanomedicine offers a promising solution, its path to ...

Hydration energetics may become a central tool in engineering safer, longer-circulating, and more effective nanoparticle therapies.

At first glance, it’s just an ordinary brown seaweed. Yet, when submerged in water, its ends begin to glow with a sparkling display of blues ...

In A Nutshell Researchers at Tokyo University of Science developed a method to create fluorescent, irregularly shaped ...

A stone wall deep inside a Greek cave stands as the oldest known human made structure. Dated to 23,000 years ago, it predates Egypt's Great Pyramid by over 18,000 years. In 2025, after nearly a decade ...

It’s a familiar image, reprinted in countless biology textbooks: an illustration of a typical cell, halved like a grapefruit to reveal its innards. Strands of endoplasmic reticulum encircle a nucleus ...

This study presents valuable findings implicating nuclear export in the regulation of protein condensate behaviour and TDP-43 phase behaviour, suggesting a link to pathogenic aggregation in ALS/FTD.