Computational chemists at the University of Amsterdam's Van 't Hoff Institute for Molecular Sciences have developed a ...
Morning Overview on MSN
A new AI method revealed most of the DNA spools inside our cells sit partly unwound, not locked away, sorting into 14 distinct states tied to gene activity
Researchers have found that the DNA spools inside human cells are far less tightly wound than textbooks have long suggested.
A new technology allows scientists to map, in single cells, the DNA binding sites of transcription factors and other ...
Morning Overview on MSN
The newly found genetic clock orchestrates whole bursts of gene activity at fixed moments in development, a timer scientists had long suspected but never pinned d…
A developmental timer that fires thousands of genes in precise, phase-locked bursts has been mapped in detail for the first ...
Higher TAGLN2 gene activity may contribute to the development of pulmonary arterial hypertension (PAH), according to a new ...
DNA nanostructures can mimic molecular organization of living systems without chemical cross-linking
Newly developed DNA nanostructures can form flexible, fluid, and stimuli-responsive condensates without relying on chemical cross-linking, report researchers from the Institute of Science Tokyo and ...
The investigations of KIT researchers have shown that biomolecular condensates enable fast yet reliable activation of the right genes. “Biomolecular condensates are tiny drops that form in specific ...
Our DNA is made of millions of combinations of the genomes that create the human body. Even the smallest changes in these sequences, or in how they act, can change the functioning of the whole body ...
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