UCLA researchers have created miniature stem cell-based organoid models of human lungs, hearts and brains to study how ...

Scientists at Kumamoto University have made a major breakthrough in regenerative medicine by successfully creating functional ...

Cellular differentiation of stem cells into specialized cells requires many steps, including division, to create more cells; fate determination, which is a commitment to a specific lineage or ...

Stem cell wellness products do not actually contain stem cells, but rather, support the body’s natural regenerative processes.

Scientists at Kumamoto University have made a major breakthrough in regenerative medicine by successfully creating functional ureter tissue—organoids resembling the urinary tract—from pluripotent stem ...

Scientists at Kyoto University have uncovered a hidden protein complex that organizes DNA in sperm stem cells, a discovery ...

Scientists at Kumamoto University have made a major breakthrough in regenerative medicine by successfully creating functional ureter tissue—organoids ...

Scientists have uncovered how stem cells in the olfactory system continually regenerate neurons responsible for our sense of smell.

Scientists have made a breakthrough in regenerative medicine by successfully creating functional ureter tissue – organoids resembling the urinary tract – from pluripotent stem cells.

As a central part of the circulatory system, the heart is primarily responsible for pumping blood and distributing oxygen and nutrients throughout the body.

New model extracts stiffness and fluidity from AFM data in minutes, enabling fast, accurate mechanical characterization of ...

A research team at Kyoto University has discovered STAG3-cohesin, a new mitotic cohesin complex that helps establish the unique DNA architecture of spermaotogonial stem cells (SSCs), the stem cells ...