New findings by UB researchers reveal that RNA editing may play a larger role in human biology and in the development of human disease than has generally been understood. Published in Nature ...

Many writers grouse when an editor makes a change in a story, but the consequences of changing a single word usually aren’t that dire. Not so with genetic instructions for making proteins. Even a ...

Researchers have catalogued thousands of sites in the brain where RNA is modified throughout the human lifespan in a process known as adenosine-to-inosine (A-to-I) editing, offering important new ...

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 ...

A recently patented genome editing tool called PASTE holds genuine promise for expanding the universe of treatable genetic diseases. The approach combines elements of CRISPR and prime editing with a ...

All starting from the same DNA, neurons ultimately take on individual characteristics in the brain and body. Differences in which genes they transcribe into RNA help determine which type of neuron ...

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 ...