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 ...

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

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" ...

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

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 ...

Illustration showing how autophagy induction increases the efficiency of precise gene editing. In normal cells, DNA breaks caused by CRISPR–Cas9 are frequently repaired through non-homologous end ...

In a significant leap forward for neuroscience, researchers at the University of California, Santa Barbara, have successfully created a transparent squid. This feat, accomplished in 2023 through ...

Advancements in genome editing technologies the growing emphasis on safe and accurate gene correction, and strong biotechnology R&D investment drive the base editing market.Austin, Texas, Jan. 21, ...

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” ...