A new USC Leonard Davis School-led study highlights how transposons—commonly called "jumping genes" because of their ability to move to different parts of the genome—are associated with age-related ...

Scientists have known for decades that genes can be transferred from one species to another, both in animals and plants. However, the mechanism of how such an unlikely event occurs remained unknown.

Transposons are critical drivers of bacterial evolution that have been studied for many decades and have been the subject of Nobel Prize winning research. Now, researchers from Cornell University have ...

Transposons, or "jumping genes" – DNA segments that can move from one part of the genome to another – are key to bacterial evolution and the development of antibiotic resistance. Cornell University ...

A critical transition in early human development is regulated not by our own genes, but by DNA elements called transposons that can move around the genome, Sinai Health researchers have found. This ...

Our genome, any geneticist will tell you, can be a chaotic place. In addition to holding the necessary instructions for life, our DNA also houses droves of mobile genetic snippets that can ...

Cornell (NY, USA) researchers have found that a new DNA sequencing technology can be used to study how transposons move within and bind to the genome. Transposons play critical roles in immune ...

Loop formation in a simulated section of the genome. From left to right, more transposons in the shape of spheres have been inserted into the area. From top to bottom, simulations are shown, in which ...

CU Boulder researcher Edward Chuong recently received an international award for his lab’s work studying transposons in the human genome Our genome, it turns out, is full of freeloaders—selfish ...

Around 2015, Katherine Chiappinelli was investigating the mechanism behind a group of drugs approved to treat blood cancers—and showing promise against other cancers—when she made a puzzling discovery ...