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 ...

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 ...

Researchers show small molecules that alter RNA structure have greater functional impact than those that only bind, offering ...

With AI, it's now possible for researchers to predict the three-dimensional structures of proteins directly from their ...

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 ...

When RNA molecules are synthesized by cells — a critical process in the creation of proteins and other cellular functions — they typically undergo a series of “folding” events that determine their ...

Researchers test state-of-the-art models on diverse RNA structures, opening doors for RNA-based therapies and drug design Ribonucleic acid (RNA) is one of life’s most versatile molecules, with roles ...

Platform combines proprietary AI sequence optimization, novel genetic parts, and lab validation in application-relevant cell models to improve expression and half-life, delivering top candidates in ...

Researchers led by Davide Incarnato at the University of Groningen have demonstrated that the FDA-approved cancer drug ...

RNA molecules are an integral part of the human body: In cells, they ensure the transfer of genetic information and regulate the activity of genes. Some even act as catalysts, allowing chemical ...

Apart from carrying the information to encode proteins in, RNA molecules can adopt intricate 2D and 3D structures. Specifically, the same RNA molecule can switch between ON and OFF structures, ...

Rutgers University–Newark researchers have developed a first-of-its-kind RNA nanotechnology. The development self-assembles inside living human cells and can be programmed to halt the growth of ...