In a groundbreaking fusion of artificial intelligence and gene editing, researchers are leveraging machine learning to enhance CRISPR technology’s precision and efficiency. This integration is opening ...

Although existing CRISPR-Cas-based imaging methods can target endogenous genomic sequences, their applications are limited by system complexity and sensitivity, particularly when imaging ...

The real revolution came in 2012, when researchers Jennifer Doudna and Emmanuelle Charpentier harnessed CRISPR, a natural bacterial defense system. In bacteria, CRISPR cuts out invading viruses’ DNA ...

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 ...

The CRISPR gene editing technology has transformed the research lab, and this powerful tool is now making its way into the clinic. So far, three different human diseases have been successfully treated ...

The immune system plays a crucial role in fighting tumors and metastases. Consequently, it is decisive to conduct cancer ...

CRISPR Therapeutics is the first company to secure an FDA approval of a gene-editing drug. That drug's underlying science, however, could be used to create treatments for any number of genetically ...

When a neuron in our body gets damaged, segments of RNA produce proteins that can help repair the injury. But in neurological disorders such as ALS and spinal muscular atrophy, or following spinal ...