Human DNA constantly refolds in 3D space, and these looping dynamics regulate gene expression and cell identity.

How does our DNA store the massive amount of information needed to build a human being? And what happens when it's stored ...

Alan Herbert, Founder and President of InsideOutBio, discusses the evolution of biological concepts related to DNA and protein structures ...

USC Dornsife researchers discover that “condensates” formed by the protein Nup98 help cells avoid catastrophic errors when repairing breaks in tightly packed DNA, a finding with implications for ...

Scientists have identified how specific genetic changes function in cells to influence disease risk and other human health ...

Although there are striking differences between the cells that make up your eyes, kidneys, brain and toes, the DNA blueprint for these cells is essentially the same. Where do those differences come ...

Long Interspersed Nuclear Element-1 (LINE-1 or L1) is the only active, self-copying genetic element in the human genome—comprising about 17% of the genome. It is commonly called a "jumping gene" or ...

Not all DNA looks like the familiar twisted ladder. Sometimes, parts of our genetic code fold into unusual shapes. One such structure, the G-quadruplex (G4), looks like a knot. These knots can play ...

Epigenome editing has followed a similar path, in that more recent technological breakthroughs have enabled scientists to apply the discoveries made in previous decades. Epigenome editing performs a ...