Stem cell-derived endothelial cell differentiation represents a rapidly advancing field that leverages the plasticity of pluripotent cells to generate functional vascular components. Central to the ...

Northeastern University scientists have discovered that a protein in the human brain could potentially be used to grow new neurons in the lab and enhance brain processes affected by aging or ...

Every second, an adult generates around five million new blood cells to replace aging or dying ones, making the blood system a highly regenerative organ. These new blood cells are formed in the bone ...

Plant scientists have identified a protein that plays a previously unknown role in controlling cell differentiation and determining gender in vascular plants, using a fern model. The discovery ...

With a Kobe University-developed procedure, induced pluripotent stem cells can now be frozen directly in their dishes without ...

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 ...

Mouse embryonic stem cells (ESCs) have emerged as ideal tools for developmental biology research due to their characteristics such as unlimited proliferation and pluripotent differentiation potential.

Chimpanzee naive pluripotent stem cells (PSCs) can now be grown in cellular cultures, reveals a recent study. They successfully created chimpanzee early embryo models, called 'blastoids,' and found ...

Orthopedic non-invasive stem cell therapy regenerates damaged tissue rather than just improving symptoms. Autologous stem cell therapy uses cells from your own body, minimizing rejection risks.

WEST LAFAYETTE, Ind. — Purdue University plant scientists have identified a protein that plays a previously unknown role in controlling cell differentiation and determining gender in vascular plants, ...