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

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

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

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 ...

Scientists depicted the four-dimensional genome model to reveal how DNA folding regulates genes. The discovery helps ...

This article explores how single-cell multiomics and spatial transcriptomics are illuminating early pregnancy, uncovering ...

In a landmark effort to understand how the physical structure of our DNA influences human biology, Northwestern investigators ...

The genetic heritage is not a simple, static list inside the cell nucleus. It unfolds into a dynamic architecture whose ...

A Cedars-Sinai study has identified a previously unknown role for astrocyte cells in how the brain responds to damage and ...

SickKids researchers discovered that a long non-coding RNA, CISTR-ACT, directly regulates cell size. Using gene-editing tools ...

What keeps our cells the right size? Scientists have long puzzled over this fundamental question, since cells that are too ...