Scientists at Rutgers University–Newark have developed a first-of-its-kind RNA-based nanotechnology that assembles itself inside living human cells and can be programmed to stop propagation of harmful ...

In a recent study published in the journal Nature Methods, a group of researchers developed a novel method called Ribonucleic Acid (RNA) High-Order Folding Prediction Plus (RhoFold+). This deep ...

Molecular geneticists describe ways to develop the -- as yet largely untapped -- potential of RNA structures. The human genome has just over 20,000 genes coding for proteins. Yet, it produces at least ...

Predicting RNA (ribonucleic acid) structures may help accelerate the discovery and development of new drugs to treat diseases and disorders. A new Stanford study published in Science uses artificial ...

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.

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 ...

IPA, a non-coding RNA from the CUL1 gene that stabilizes the nucleolus and supports ribosome production. Removing it ...

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 ...

IOCB Prague researchers showed that dinucleoside polyphosphates, known as alarmones, can initiate RNA transcription and form ...

In a recent study, researchers at the Texas A&M University Health Science Center (Texas A&M Health) identify a novel RNA ...