As CRISPR moves from lab success to real-world medicine, 2026 will test whether these revolutionary gene-editing therapies can reach the patients who need them most or remain costly, complex ...

A new gene-editing technique enables the correction of multiple genetic mutations simultaneously, transforming the prospects for millions living with complex inherited diseases, such as cystic ...

The world watched on in awe as teams successfully administered a personalized gene therapy to infant KJ Muldoon ("Baby KJ"). This extraordinary achievement reignited public and scientific excitement ...

Human cells that have been edited with the new retron-based gene editing technology. Orange dots mark successful gene edits. Green dots show a fluorescent protein tag on the surface of mitochondria.

MIT scientists have found a way to make gene editing far safer and more accurate — a breakthrough that could reshape how we treat hundreds of genetic diseases. By fine-tuning the tiny molecular “tools ...

Scientists at The University of Texas at Austin have developed a revolutionary gene-editing method using bacterial retrons that can correct multiple disease-causing mutations at once. Unlike ...

Instead of requiring personalized gene edits for each patient, the new approach could create a standardized method to use for many diseases. By Pam Belluck and Carl Zimmer Gene-editing therapies offer ...

A gene-editing delivery system developed by UT Southwestern Medical Center researchers simultaneously targeted the liver and lungs of a preclinical model of a rare genetic disease known as alpha-1 ...

A generation ago, writing a piece like this about using artificial intelligence to develop genome-editing medicines would have sounded like a Star Trek plotline. But both fields have matured to the ...

Gene-editing techniques such as CRISPR-Cas9 have many uses in the area of food and agriculture. They can combat persistent drought and disease, and improve the colour and nutritional content of food ...