A study has traced thousands of conserved regulatory elements back 300 million years, revealing deep principles of plant ...

More than 2.3 million ancient genetic switches discovered in plants reveal how key growth controls endured 300 million years ...

Genome editing-based therapies typically aim to treat disease by correcting underlying genetic mutations in patient's cells.

Most lethal mutations in wild fruit flies are driven by newly transferred jumping genes, not small DNA errors, according to a ...

Scientists have uncovered an enormous hidden archive of plant DNA that has endured for more than 400 million years. By comparing hundreds of plant genomes, researchers identified more than 2.3 million ...

A new method for safely inserting large chunks of DNA into genomes has now measured up in mice, potentially paving the way ...

Researchers uncovered millions of ancient plant DNA switches—some older than flowering plants themselves—revealing a hidden evolutionary blueprint stretching back 400 million years. Most people have ...

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 ...

A recent study examines why Alzheimer's presents and progresses differently in individuals using advanced biological analysis ...

That superhero is a gene called TP53, and for decades scientists have known it as the “guardian of the genome.” In a healthy cell, TP53 acts like both a brake and an emergency stop button. When DNA ...

Drug delivery researchers have vastly improved the potential of genetic therapies by overcoming the challenge of consistently getting genes and gene-editing tools where they need to be within cells.