When UC Berkeley biochemist Jennifer Doudna first began studying how bacteria fight virus infections, she had no idea it ...

The big biotech, which has made genetic medicine a focus in recent years, is paying Tessera $150 million for rights to a ...

After releasing two gene-edited rice varieties in May this year, scientists are now focusing on developing GE varieties of ...

Gene expression analysis is undergoing a profound transformation, driven by the rapid evolution of advanced omics technologies. From single-cell ...

Evo’s success wasn’t limited to proteins. When they tested a different toxin that had an RNA-based inhibitor, the system ...

Rodolphe Barrangou, a genomic-editing expert at North Carolina State University who was not involved in the research, said the method has “tremendous tangible potential for scalability” and could move ...

In this work, the gene-editing of Fusarium venenatum — a common mycoprotein source — was achieved without introducing any foreign DNA. The result is a super-fungus strain, dubbed FCPD, that’s easier ...

A major medical milestone took place in May 2025, when doctors at the Children’s Hospital of Philadelphia used CRISPR-based gene editing to treat a child ...

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 ...

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 ...

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.

Advanced biotechnology repurposes two bacterial immune systems to correct large stretches of DNA. Human cells that have been edited with the new retron-based gene editing technology. Orange dots mark ...