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 ...

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

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

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

As CRISPR moves from lab success to real-world medicine, 2026 will test whether these revolutionary gene-editing therapies ...

Urnov is a professor of molecular therapeutics at the University of California, Berkeley, and a director at its Innovative Genomics Institute. In May, news broke of a biomedical first: the on-demand ...

Stanford Medicine researchers have developed an artificial intelligence tool to help scientists better plan gene-editing experiments. The technology, CRISPR-GPT, acts as a gene-editing “copilot” ...

Precision gene editing is crucial for treating genetic diseases, as it enables targeted correction of specific mutations. A Korean research team has become the first in the world to significantly ...

Stanford researchers and their collaborators have revealed a new device that could change the way scientists conduct gene-editing experiments. The device, CRISPR-GPT, is an artificial intelligence lab ...

Stanford Medicine researchers have developed an artificial intelligence tool to help scientists better plan gene-editing experiments. The technology, CRISPR-GPT, acts as a gene-editing "copilot" ...

Gene-editing techniques such as CRISPR-Cas9 have many uses in the area of food and agriculture. They can combat persistent drought and disease, and improve the colour and nutritional content of food ...