Researchers identify a shared RNA-protein interaction that could lead to broad-spectrum antiviral treatments for ...

Discover how AI is revolutionizing RNA drug development in a new article published in Engineering. Learn about the potential ...

Artificial intelligence (AI) and machine learning are increasingly being applied in the field of RNA biology. These methods are used to predict RNA structures, interactions with proteins and small ...

In the realm of modern medicine, RNA-based therapies have emerged as a promising avenue, with significant advancements in metabolic diseases, oncology, and preventive vaccines. A recent article ...

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 ...

Certain guanine-rich regions of the transcriptome can fold up into four-stranded structures called RNA G-quadruplexes that are thought to have harmful effects in living cells. Both eukaryotes and ...

Using a novel method, Weizmann Institute of Science researchers map 16 types of simultaneous changes in dozens of samples; ...

RNA is usually portrayed as a molecule that works deep inside the cell, helping to turn genetic information into proteins.

Discover how a tiny RNA molecule serves as a molecular switch in viral infections, providing insights into phage biology.

The chemical structure of uracil, showing its single-ring pyrimidine structure. Uracil forms hydrogen bonds with adenine in RNA, contributing to the molecule's structure and function. (Image: Public ...