Global proteomics and functional analyses reveal that p53-induced ZMAT3 suppresses mitochondrial respiration by inhibiting transcription of a hexokinase, uncovering a role for ZMAT3 in transcription.

Immunologists from the Babraham Institute have been the first to uncover a role for a family of RNA-binding proteins in the function of regulatory T cells in the immune system. As their name suggests, ...

CRISPR-Cas13, a powerful RNA-targeting technology is gaining increasing attention as a next-generation gene therapy platform due to its precision and reduced side effects. Utilizing this system, ...

Researchers engineered the first RNA-based NAND gate in living cells using deep learning and Bayesian optimization, testing ...

Cells in our bodies produce RNA based on genetic information stored in DNA, and RNA serves as a blueprint for making proteins ...

An interdisciplinary research team from two working groups at the Center for Synthetic Biology at TU Darmstadt has developed ...

Contrary to historic understanding of RNA’s longevity in cells, some RNAs can persist in cells throughout the life of an organism. Lead authors, Martin Hetzer, PhD, president of the Institute of ...

RNA transcription is the genomic process in which a cell produces a duplicate of a gene's DNA sequence. In a study published in Nucleic Acids Research, University of Alabama at Birmingham Department ...

RNA in cells performs an astounding number of functions. Messenger RNA carries the sequences of active genes to cellular machinery that turns it into proteins. And transfer RNA molecules are an ...

New research identifies a critical RNA recycling system that prevents cellular "clogging," offering a new path for anti-aging therapies.