Inside every living cell, proteins and membranes are in constant motion, reshaping, colliding, and flexing as they keep an organism alive. That restless activity has long been treated as biological ...

Think back to that basic biology class you took in high school. You probably learned about organelles, those little “organs” inside cells that form compartments with individual functions. For example, ...

Key market opportunities in the global competent cells market include rising demands in genetic engineering and synthetic ...

Scientists have transformed enigmatic cell structures, called vaults, into storage units for messenger-RNA molecules made in ...

An international group of researchers led by Pompeu Fabra University has discovered the nanomachine that controls ...

Scientists have found that blocking microglia (specialist immune cells in the brain) prevents infant forgetting ("infantile ...

A giant functional atlas of immune cells in a Chinese cohort reveals crucial differences with European and Japanese data sets ...

Piezoelectric nanoparticles deployed inside immune cells and stimulated remotely by ultrasound can trigger the body's disease ...

This past year, we explored a lot of new cell biology research—from cancer to plants to microbes, and more! It’s hard to believe what can fit in a year. Yet as we say goodbye to 2025, we want to take ...

Scientists have long known that cellular membranes vary in thickness, but measuring those differences inside actual cells has ...

The constant, energy-driven motion inside living cells may generate electricity in a way no one fully recognized before.

Spatial proteomics is the study of the spatial distribution of the proteins within cells and tissues. The subcellular localization of proteins is intrinsic to cellular function, making spatial ...