Membraneless organelles, also called biomolecular condensates, are changing how scientists think about protein chemistry, ...

Visualization of the genome (green) and a single gene (magenta) in a human cell nucleus, with genomic motions mapped by arrows and an example of a gene trajectory highlighted as a colored curve.

Metabolic enzymes, typically associated with energy production, are now discovered to also play essential roles in the nucleus, such as orchestrating cell division and DNA repair. This breakthrough, ...

Researchers at the Center for Genomic Regulation (CRG) reveal that metabolic enzymes known for their roles in energy ...

Visualization of the genome (green) and a single gene (magenta) in a human cell nucleus, with genomic motions mapped by arrows and an example of a gene trajectory highlighted as a colored curve.

Piercing the nucleus of a cell without destroying it seems like a technical feat. Yet, researchers have just found a non-invasive method that could revolutionize gene therapies. A series of ...

There is also evidence that individual nucleotides can spontaneously assemble into chains to make RNA. This is a crucial step ...

(Pictured) Mutant RAS helps release EZH2 from a protein complex transported from the nucleus to the cytoplasm ... In ...

Studies suggest the cell is more interconnected than previously thought, opening up "exciting possibilities for science and medicine." ...

Researchers at the Centre for Genomic Regulation (CRG) reveal that metabolic enzymes known for their roles in energy production and nucleotide synthesis are taking on unexpected "second jobs" within ...

National Institutes of Health (NIH) scientists and collaborators say they have discovered a new way in which RAS genes, ...

The human genome consists of two meters (six and a half feet) of DNA, which is packed inside the cell in a nucleus barely 10 micrometers in diameter—or 100,000 times smaller than the length of ...