Picture CRISPR-Cas9, a gene editing technology, as a GPS-guided scalpel: gRNA directs the Cas9 enzyme, a protein that cuts ...

“Through CRISPR RNA optimization, we achieved around 59% editing at the TTR locus in our in vitro experiments. In the mouse ...

CRISPR–Cas9-based therapies are widely investigated for their clinical applications. However, there are limitations ...

Researchers say discoveries could expand the CRISPR toolbox and lead to more efficient, rapid diagnostic tools for detecting COVID-19, influenza, and RSV.

Researchers have unveiled a way to flip genes back on without slicing into the genome, a shift that could make CRISPR far safer and more flexible. Instead of cutting DNA, the new approach scrubs away ...

Discover how scientists are harnessing the power of CRISPR to precisely edit DNA, revolutionizing medicine and ethics as they rewrite the very code of life. Pixabay, PublicDomainPictures CRISPR ...

Genetic disorders occur due to alterations in the primary genetic material—deoxyribonucleic acid (DNA)—of an organism.

A bacterial defense system called SPARDA employs kamikaze-like tactics to protect cells and could be useful in future ...

The baby's disease prevented the liver from removing ammonia Half of babies with the disease die in their first week of life The baby has already shown signs of improvement The baby's disease ...

A new CRISPR breakthrough shows scientists can turn genes back on without cutting DNA, by removing chemical tags that act like molecular anchors. The work confirms these tags actively silence genes, ...