Cells have evolved careful checks to ensure DNA is copied only once, but how they switch on replication at the right moment ...
Tiny, quivering spheres designed to feed and multiply raise prospect of artificial organisms to make drugs, food and fuel ...
Scientists claim they have developed world’s first man-made cell that can eat and grow - It was built from non-living ...
What can the shape of the nucleolus tell us about a cell’s response to drugs? Researchers use advanced microscopy techniques ...
Researchers developed an AI tool that links cellular structure changes to drug effects by analyzing biomolecular condensates.
A new ultrasensitive thermal sensor can track metabolic heat from small bacterial populations, offering potential ...
Scientists have engineered a nanoscale switch using DNA "origami." Inspired by macroscale mechanical switches, the device achieves long-term functionality without the continuous forcing mechanism that ...
Researchers at the University of Minnesota have developed what they describe as the world’s ...
Newborn mice neurons can snap both DNA strands to migrate, then repair the breaks within a day. The process may be a normal ...
Scientists have created a live-cell DNA sensor that reveals how damage appears and disappears inside living cells, capturing the entire repair sequence as it unfolds. Instead of freezing cells at ...
Researchers have captured the first atomic-level views of human SMUG1, a key enzyme involved in repairing damaged DNA.
DNA doesn’t just sit still inside our cells — it folds, loops, and rearranges in ways that shape how genes behave. Researchers have now mapped this hidden architecture in unprecedented detail, showing ...