Scientists have created a live-cell DNA sensor that reveals how damage appears and disappears inside living cells, capturing ...

The sensor lets researchers watch DNA damage and repair as it happens in living cells and organisms, making studies possible.

Mitochondrial DNA has long been treated as a workhorse record of cellular history, but new research suggests it also hides a subtle and previously overlooked form of damage. By uncovering this cryptic ...

Learn about the innovative fluorescent sensor technology that visualizes DNA damage and repair in real time, enhancing ...

New live-cell DNA damage sensor lets scientists watch repair unfold in real time, potentially opening doors for cancer and aging research.

Scientists searching for new ways to combat cancer think they may have uncovered a promising new lead in the DNA of the ...

The findings may have important implications for diseases linked to mitochondrial dysfunction. A newly identified form of DNA damage inside mitochondria, the small structures that supply energy to our ...

Cancer research, drug safety testing and ageing biology may all gain a major boost from a new fluorescent sensor developed at ...

Boston startup Bystro AI believes the mail-in genetic tests used by millions to trace their ancestry could also help people ...

MC1R is best known for something quite different from wound healing: the gene is responsible for red hair and very fair skin.

Researchers at the Icahn School of Medicine at Mount Sinai have discovered how to reverse aging in blood-forming stem cells in mice by correcting defects in the stem cell's lysosomes.