DNA doesn’t just sit still inside our cells — it folds, loops, and rearranges in ways that shape how genes behave.

Researchers have unveiled a way to flip genes back on without slicing into the genome, a shift that could make CRISPR far ...

A large team of researchers led by Wouter Karthaus, head of the Endocrine Therapy Resistance and Molecular Genetics Lab at ...

This valuable study identifies a novel regulator of stress-induced gene quiescence in C. elegans: the multi-Zinc-finger protein ZNF-236. The work provides evidence for an active mechanism that ...

Restricted access to genome-editing technologies poses serious challenges for countries like India that urgently need such ...

A new CRISPR breakthrough shows scientists can turn genes back on without cutting DNA, by removing chemical tags that act ...

Researchers are investigating the role of non-coding DNA, or junk DNA, in regulating astrocytes, brain cells involved in ...

The researchers used a genetic tool called CRISPRi that can mute DNA sections without permanently cutting them. The tool was ...

Extra chromosomes, found in some fish, contain copied genes that don’t work but can still impact the organism. Research shows ...

Scientists extracted RNA from a 130-year-old specimen, uncovering which genes were active before the animal went extinct.

It has been claimed that because most of our DNA is active, it must be important, but now human-plant hybrid cells have been ...