Like the human immune system, bacteria learn from past infections. CRISPR sequences—short snippets of DNA from previous viruses—guide destructive enzymes towards invading bacteriophages that express ...

In recent years, the scientific community has made significant strides in the field of gene editing, particularly through the development of the CRISPR (Clustered Regularly Interspaced Short ...

CyDENT represents a revolutionary advancement in genetic modification, facilitating CRISPR-free base editing within mitochondria and chloroplasts. This breakthrough technology heralds a new era in ...

The ambitious idea of using CRISPR to cure genetic diseases before birth is one step closer to reality. Scientists reported on Monday that they used a form of the technology known as “base editing” to ...

The gene editing treatment targets the relatively common 1717-1G>A splicing mutation, which does not respond to many current ...

Scientists at St. Jude Children’s Research Hospital report that they have developed an unbiased, sensitive, and resource-efficient method to identify small, off-target sites that pose a safety risk ...

Genetic editing holds promise to treat incurable diseases, but the most popular method — CRISPR — sometimes does more harm than good. A new study from University of California San Diego and Yale ...

Researchers have found that a new base-editing gene therapy can help treat a rare neurodevelopmental disorder called Snijders Blok–Campeau syndrome caused by mutations in the CHD3 gene. A specialized ...

A powerful form of DNA-editing machinery discovered in bacteria might allow us to make much bigger changes to genomes than is currently possible with CRISPR-based techniques. However, it isn’t yet ...