RNA molecules exhibit an astonishing diversity in structure, which is integral to their myriad cellular functions ranging from gene regulation to catalysis. Advances in experimental techniques and ...

Studying a trio of non-coding RNA molecules produced abundantly in bacterial cells, a SLAC/Stanford-led research team discovered extravagant, multistrand complexes made entirely of RNA—structures they ...

Despite being made from a relatively simple set of building blocks, ribonucleic acid (RNA) has a broad array of complex responsibilities. From providing structure to carrying the instructions for ...

They disable our defenses and hijack the cellular machinery in order to multiply successfully. For example, the herpes ...

In a quest to develop new antiviral drugs for COVID-19 and other diseases, a collaboration led by scientists at The Wertheim UF Scripps Institute has identified a potential new drug against the virus ...

Torino is a computational workflow that uses biobank-scale RNA-seq data to decode transcript structures and expression levels from read coverage alone.

Wiring up the brain's trillions of circuit connections is an enormous job performed by a huge crew of molecules. Among the less understood members are circular RNAs, transcripts from DNA that assume a ...

Researchers discovered that a circular RNA is crucial for synapse development and plasticity in the mouse visual system.

Discover the biological significance of hidden RNAs and learn how to detect them in RNA-Seq data using advanced techniques.

With support from the National Institutes of Health, the COBRE Center for RNA Biology in Health and Disease will create a ...

The field of RNA structure prediction and modeling has undergone substantial transformation in recent years, reflecting a confluence of innovative computational strategies and expanding experimental ...