For decades, scientists believed water was the essential cradle for life. But new research suggests life’s building blocks ...

Every day, your body replaces billions of cells—and yet, your tissues stay perfectly organized. How is that possible?

A team of researchers at ChristianaCare's Helen F. Graham Cancer Center & Research Institute and the University of Delaware ...

New research from Professor Guillermo Ameer’s team shows how a shape change of a cell’s nucleus can trigger regenerative ...

Scientists were able to 3D-print different microstructures inside live cells, including a delightfully tiny micro-elephant.

Scientists have successfully grown over 400 different types of nerve cells from stem cells in the lab—a groundbreaking step toward replicating the complexity of the human brain.

Cellular adhesion is a central element in tissue mechanics, biological cell–cell signaling, and cell motility. In this context, the cell–substrate distance has been investigated in the past by ...

Within the nucleus, the nucleolus and a stainable substance could be seen. Moreover, a number of structures (ribbons, bands and threads) appeared during cell division.

The creation of ordered cellular structures is important for tissue engineering research. Here, we present a novel strategy for the assembly of cells into linear arrangements by negative ...

Scientists have developed a technique that aligns stem cells into a single sheet, resulting in a marked increase in the secretion of signaling proteins which help repair tissue and regulate the immune ...

The UCLA advance opens the door to growing other vascularized organ models, including intestines and colons, providing ...