In a recent preprint* uploaded to the bioRxiv server, researchers developed and trained a foundational model to predict tissue-specific RNA expression, splicing, RNA binding protein specificity, and ...

Researchers at Northeastern University in Boston have created a hybrid model to better understand how RNA’s structure and functional dynamics control biological systems. This modeling strategy ...

Raina Biosciences published data from its generative AI platform in a study, “Deep generative models design mRNA sequences with enhanced translational capacity and stability,” recently published in ...

Hebrew University study proposes a new model suggesting that disrupted RNA editing within pancreatic beta cells might initiate an inflammatory response akin to early-stage type 1 diabetes. This new ...

Scientists have created a model to study the role of RNA splicing defects in Alzheimer's disease, revealing degeneration and toxicity caused by neuron hyperexcitability. Researchers have puzzled over ...

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

Scientists provide fresh insights on the origins of life, presenting compelling evidence supporting the 'RNA World' hypothesis. The study unveils an RNA enzyme that can make accurate copies of other ...

In 1965, Cornell biochemist Robert Holley deciphered the 77 nucleotide sequence of transfer RNA. Three years later, Holley was awarded the Nobel Prize for this work, but already the race to determine ...

Creative Biolabs optimizes the mRNA drug development model by integrating sequence design, RNA-protein interaction ...