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" ...

CRISPR-based genome editing technologies, including nuclease-based editing, base editing and prime editing, have revolutionized biological research and modern medicine by enabling precise, ...

Computational methods have long had a pivotal role in advancing biophysics and structural biology 1,2. Genome-editing systems, such as CRISPR–Cas9 (ref. 3) and other CRISPR effector proteins 4, are ...

CRISPR screens generate actionable insights for drug discovery—explore how to optimize a screen, how to avoid pitfalls, and ...

Stanford Medicine researchers have built CRISPR-GPT, a large language model designed to automate the full arc of gene-editing experiments, from selecting the right CRISPR system to designing guide ...