University of Wisconsin researchers Sushmita Roy and Erika Da-Inn Lee have developed a new computational tool that maps changes in the genome, ultimately helping researchers see DNA’s 3D organization ...

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 ...

The human genome is no longer just a sequence to be read. It’s a dynamic structure that twists, folds, and reshapes itself in ways that help determine how life functions at the cellular level. In a ...

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 ...

A research team led by Zhiping Weng, Ph.D., and Jill Moore, Ph.D."18, at UMass Chan Medical School, has nearly tripled the ...

The genetic heritage is not a simple, static list inside the cell nucleus. It unfolds into a dynamic architecture whose intimate folds govern the destiny of cells. A mapping of unprecedented precision ...

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 ...

The innovation was made by researchers from Northwestern University, and the study was published in Nature. Researchers are now using AI and 4D genome to see how DNA folds and moves in genetic ...

Life sciences-focused technology company MGI Tech announced a commercial partnership with Human Cell Atlas, a global consortium working to map every cell type in the human body, to advance worldwide ...

Bionano Genomics and Greenwood Genetic Center have announced a study published in Genome Research, marking the first use of optical genome mapping (OGM) to explore the genetic factors behind neural ...