Researchers have created a way to guide and control the development of stem cells into specific tissues and organs, opening the door to developing a means of one day tackling complex diseases like ...

University of Rochester Assistant Professor Marisol Herrera-Perez received a $2 million NIH MIRA grant to investigate the mechanical signals that guide how a single cell becomes a complex organism.

Scientists in Melbourne have discovered how tiny electrical pulses can steer stem cells as they grow, opening the door to new improved ways of creating new tissues, organs, nerves and bones. Subscribe ...

This is a top-down cross-section of one of the 3D hollow spheres (lumenoids) that our cells can create. The different colors are for different proteins, which allows you to see some striking ...

A new study by scientists at the University of North Carolina at Chapel Hill reveals that the cells shaping our organs may be far more mobile and coordinated than once believed. The study is published ...

Your organs are constantly talking to each other in ways we’re only beginning to understand. Tapping into these communication ...

A rapid and efficient method developed to create stem-cell-based 3D mini-organs derived from the cells of patients offers a way to evaluate personalized treatments using RNA therapies for rare genetic ...

Profiling the proteins that cells are making is a staple of studies in biology, neuroscience and related fields because the proteins a cell is expressing at a given moment can reflect the functions ...