Ribonucleic acids (RNAs), which decode the genetic code stored in DNA and produce proteins, fold into diverse structures to govern fundamental biological processes in all life forms, including humans.

Small, biologically inert molecules can be converted into bioactive degraders that selectively downregulate disease-causing RNAs. By attaching an RNA molecular recognition element to a second compound ...

KYOTO & FUJISAWA, Japan--(BUSINESS WIRE)--xFOREST Therapeutics Co., Ltd. (“xFOREST”) and Axcelead Drug Discovery Partners, Inc. (“Axcelead DDP”) today announced the launch of a joint research ...

Deep learning is solving biology’s deepest secrets at breathtaking speed. Just a month ago, DeepMind cracked a 50-year-old grand challenge: protein folding. A week later, they produced a totally ...

The structure of a biomolecule can reveal much about its functioning and interaction with the surrounding environment. The double-helical structure of DNA and its implications for the processes of ...

(Nanowerk Spotlight) Nucleic acids are becoming increasingly popular for assembling nanoscale structures, thanks to their programmable dimensionality and direct applications in the biological field.

In biology, getting rid of stuff can be just as important as making it. A buildup of cells, proteins, or other molecules that are no longer needed can cause problems, so living things have evolved ...

Researchers from Carnegie Mellon University have discovered a way to target RNA that could lead to new treatment options for myotonic dystrophy type 1 (DM1), the most common adult-onset form of ...