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

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 ...

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

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 ...

Researchers created the most detailed maps yet of the genome’s three-dimensional organization using human stem cells and ...

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

Researchers at Duke University used CRISPR technologies to discover previously unannotated stretches of DNA in the ‘dark genome’ that are responsible for controlling how cells sense and respond to the ...

Cornell researchers have found that a new DNA sequencing technology can be used to study how transposons move within and bind to the genome. Transposons play critical roles in immune response, ...

As tough as medieval chainmail armor and as soft as a contact lens. This material is not taken from science fiction, it is a ...