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

The promise of genome editing to help understand human diseases and create new therapies is vast, but technological limitations have limited advancement of the field. While existing editing ...

Quest to beat the US saw a Chinese team turn to ancient traditions, leading to a new technique 10 times more effective than ...

Discover how prime editing is redefining the future of medicine by offering highly precise, safe, and versatile DNA corrections, bringing hope for more effective treatments for genetic diseases while ...

Researchers have unveiled a way to flip genes back on without slicing into the genome, a shift that could make CRISPR far ...

While researchers have long appreciated the enormous potential of genome editing to treat disease, applications of these technologies in humans have historically been limited by safety concerns. Even ...

This first-in-the-world approach harnesses autophagy to shift DNA repair toward homologous recombination, boosting precision editing efficiency up to threefold. Dr. Hye Jin Nam’s team at the Korea ...

SCD gene therapy approaches using CRISPR, gene therapy, and base editing show different stem cell outcomes in a mouse study.

CS-101 is Shanghai-based CorrectSequence's lead candidate, which it is developing for treating sickle-cell disease and ...

CS-101 is Shanghai-based CorrectSequence's lead candidate, which it is developing for treating sickle-cell disease and ...