A mature cell of one type can be turned into a mature cell of another type without the cell having to pass through an earlier stage of development. This is called direct reprogramming, a reliable but ...

Advances in iPSC technology and in vivo reprogramming are expanding the possibilities for cell therapy. Explore the science ...

HexemBio emerges with a breakthrough blood stem cell rejuvenation technology led by Draper Associates and an advisory ...

A burgeoning field is launching its first clinical trial to find out whether dialling back cell development can safely ...

A team led by researchers has discovered that a group of cells located in the skin and other areas of the body, called neural crest stem cells, are the source of reprogrammed neurons found by other ...

Why pluripotent stem cells are worth the race The urgency around faster reprogramming is not just about lab convenience, it is about unlocking what pluripotent stem cells can actually do. Human ...

Add Yahoo as a preferred source to see more of our stories on Google. A Nature Immunology study suggests PARP inhibitors can reprogram CD8 T cells into longer-lasting “superior memory” cancer fighters ...

St. Jude Children's Research Hospital scientists have discovered how tumors disable immune "gatekeeper" cells that alert the ...

As cell therapy advances toward clinical reality, iPSC-derived cellular products, in vivo reprogramming strategies, and ...

HexemBio has launched with a seed round led by Draper Associates to advance a blood stem cell rejuvenation therapy backed by Robert Langer.

Parvalbumin (PV) interneurons act as the brain’s rhythm keepers. By regulating local circuit activity and maintaining excitation–inhibition balance, they help stabilize cortical network function. When ...