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.

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

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 ...

Researchers at the Netherlands Institute for Neuroscience become the first to fully characterize cell activity from a little relay station in the centre of the human brain. This aids our understanding ...

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

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

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 ...

The human genome is no longer just a sequence to be read. It’s a dynamic structure that twists, folds, and reshapes itself in ...

A Japanese research team has successfully reproduced the human neural circuit in vitro using multi-region miniature organs ...

The human brain has 86 billion neurons connected by roughly 100 trillion synapses, making it one of the most complex objects ...

What keeps our cells the right size? Scientists have long puzzled over this fundamental question, since cells that are too large or too small are linked to many diseases. Until now, the genetic basis ...