RIKEN researchers have discovered how right-handed molecules in our cells can give rise to cells that are not symmetrical ...

Research teams are analyzing how proteins work together to enable our cells to both stick and move. The marker protein paxillin is at the center of their interest. The tissue in our body can only hold ...

Single-cell sequencing can yield a treasure trove of information on immune cell population characteristics and behavior.

This breakthrough allows researchers to visualize where individual genes are active at the cellular level—information that has long been missing due to technical limitations in tea biology. By ...

There's no doubt that exercise does a body good. Regular activity not only strengthens muscles but can bolster our bones, blood vessels, and immune system. Now, MIT engineers have found that exercise ...

Unlike our organs, cell organelles such as mitochondria are not fixed in place, but when, where, how, and why organelles move ...

Understanding how environmental signals regulate flowering is crucial for crop improvement. This study presents a high-resolution single-cell transcriptomic atlas of the shoot apex in Chinese cabbage ...

This may be about as wildly entertaining, disruptive and philosophically profound as legitimate scientific research gets. Michael Levin's work in cellular intelligence, bioelectrical communication and ...

Jonas Salk quietly built the polio vaccine through rigorous, methodical work in Pittsburgh: treating patients, refinin ...

Your body is made up of trillions of cells, and they are the foundation of everything—from energy levels to digestion, brain function, and movement. When your cells function efficiently, your body ...