Astrocytes shed their supportive role and unlock hidden neurogenic potential, offering new hope for brain injury recovery through cutting-edge epigenetic reprogramming. Study: DNA methylation controls ...

Resting brain stem cells hardly differ from normal astrocytes, which support the nerve cells in the brain. How can almost identical cells perform such different functions? The key lies in the ...

A new study reveals that reprogramming specialized cells to become different types of cells, a key process in regenerative medicine, faces a major hurdle. The challenge lies in the DNA methylation ...

Resting brain stem cells hardly differ from normal astrocytes, which support the nerve cells in the brain. How can almost identical cells perform such different functions? The key lies in the ...

Paper in Cloning and Stem Cells shows that animal eggs do not support specific reprogramming toward the normal human embryonic state. Investigators at Advanced Cell Technology (ACTC) have found that ...

For decades, aging has looked like a one-way street, a slow accumulation of damage written into our cells. Now a wave of experiments is suggesting that some of that cellular wear and tear can be ...

Life Biosciences is pushing cellular rejuvenation into the clinic with ER-100, an experimental gene ...