RNA–protein interactions are fundamental to cellular function, orchestrating gene expression through the regulation of RNA processing, localisation, stability and translation. These interactions, ...

Bioengineers at the University of California San Diego have developed a powerful new technology that can map the entire network of RNA-protein interactions inside human cells — an achievement that ...

This study aims to maximize the performance of our state-of-the-art technology based on biological mass spectrometry for the “ribonucleoproteomic” analysis of RNA-protein interaction and its ...

New findings from Karolinska Institutet reveal how the gene HNRNPU coordinates several fundamental molecular processes during ...

A research group led by Gian Gaetano Tartaglia, Principal Investigator at the Italian Institute of Technology (IIT), developed a machine-learning algorithm to study the behavior of proteins within ...

The interaction between RNA-binding proteins (RBPs) and circular RNAs (circRNAs) has emerged as a key area of interest in understanding cancer biology. As critical regulators of gene expression, RBPs ...

New findings from Karolinska Institutet reveal how the gene HNRNPU coordinates several fundamental molecular processes during ...

Three-dimensional structures of the replication machinery of the dengue virus could lead to new, targeted antiviral drugs A detailed atomic exploration into how the dengue virus replicates its genome ...

An innovative new technique uses a novel DNA barcode system to track hundreds of RNA and protein molecules in single cells within thick biological samples, providing researchers with a full picture of ...

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 ...