Researchers have developed a comprehensive atlas that maps DNA methylation—a critical chemical modification governing gene activity—across 39 human cell types, revealing a complex landscape of ...

DNA's double helix has long stood as the symbol of life’s code. But buried within the genome lies a deeper level of complexity. One of the more intriguing discoveries in recent years is the i-motif—a ...

DNA methylation is an epigenetic modification crucial to normal development, with its dysregulation leading to various diseases including cancer. As interest in epigenomics grows, an innovative ...

Innovative study of DNA's hidden structures may open up new approaches for treatment and diagnosis of diseases, including cancer. DNA is well-known for its double helix shape. But the human genome ...

An illustration of multicolored tangle of threads within a small black sphere. A 3D illustration shows DNA packaged into the nucleus, scientists with the 4D Nucleome project are now building accurate ...

Standard laboratory tests can fail to detect many disease-causing DNA changes. Now, a novel 3D chromosome mapping method can reliably reveal these hidden structural variants and lead to new ...

Researchers have conducted the most comprehensive analysis to date linking plasma proteins to genetic variation in ...

Scientists from Oxford's Radcliffe Department of Medicine have achieved the most detailed view yet of how DNA folds and functions inside living cells, revealing the physical structures that control ...

“Expression tells us what cells do, but regulatory DNA tells us where they come from, how they develop, and which germ layer they originate from,” explained Marta Iglesias, postdoctoral researcher at ...