“For many cell-based therapies, progress comes from connecting the right pieces at the right moment,” Klein said. “When ...

Over the past two decades, researchers have learned that DNA inside the cell nucleus naturally folds into a network of ...

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, ...

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 ...

One of the most enduring goals in regenerative medicine is deceptively simple: replace a person's damaged or dying cells with ...

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 ...

The recent discovery of glycoRNAs on the cell surface upended the world of cell biology. These glycoRNAs were found to form ...

Researchers have developed two innovative tools to help us delve deeper into cell communication, offering spatial insight ...

The human cell is a miserable thing to study. Tens of trillions of them exist in the body, forming an enormous and intricate network that governs every disease and metabolic process. Each cell in that ...

While our cells are performing some important, basic functions, they can generate compounds known as reactive oxygen species (ROS). These include stuff like superoxide and hydrogen peroxide (H 2 O 2).