A new study shows, for the first time, how the human genome folds and moves in 3D over time to control when genes turn on and ...

One of the most detailed 3D maps of how the human chromosomes are organized and folded within a cell's nucleus is published ...

A team of researchers has generated one of the most detailed 3D maps of human chromosomes, cataloging over 140,000 DNA looping interactions.

New 3D genome maps reveal how DNA folding controls gene activity, offering fresh clues into disease and cell function.

A new study published in Science Translational Medicine by researchers at The University of Texas MD Anderson Cancer Center ...

A new study published today in Science Translational Medicine by researchers at The University of Texas MD Anderson Cancer Center details a therapeutic vulnerability in  patients with an aggressive ...

In a landmark effort to understand how the physical structure of our DNA influences human biology, Northwestern investigators and the 4D Nucleome Project have unveiled the most detailed maps to date ...

Global blockbuster immune-oncology products now face major patent expirations before 2030 pharmaceutical companies are either actively developing or acquiring next-generation assets that are highly ...

AI maps fleeting DNA quadruplexes, revealing paired structures that control genes in healthy cells and cancer.

These are the LLMs that caught our attention in 2025—from autonomous coding assistants to vision models processing entire codebases.

CpG density and epigenetic modification state modulate DNA mechanics, altering its intrinsic compatibility with nucleosome formation.

A game-changining achievement in genome science has identified over 140,000 distinct DNA loops in our cells, providing chromosome fold resolution that is among the best ever created. In this ongoing ...