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

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 ...

The genome is more than a linear code; it is a dynamic structure whose three-dimensional folding dictates how genes are regulated. Traditional sequencing technologies capture base-level variation but ...

DNA nanostructures can perform some of the complex robotic fabrication process for manufacturing and self-replication. Building things and performing work with nanorobots has been a major technical ...

Standard genetic sequencing approaches can tell you a lot about the genetic makeup and activity in a sample, like a piece of tissue or drop of blood. But they don’t tell you where specific genetic ...

Newly developed artificial intelligence (AI) programs accurately predicted the role of DNA's regulatory elements and three-dimensional (3D) structure based solely on its raw sequence, according to ...

Artificial intelligence has just redrawn the map of our genome’s control room, revealing hundreds of thousands of tiny DNA ...

University of Queensland researchers have developed an affordable, open-source DNA measurement tool that can be built using a home 3D printer. The Do-It-Yourself Nucleic Acid Fluorometer—DIYNAFLUOR—is ...