DNA doesn’t just sit still inside our cells — it folds, loops, and rearranges in ways that shape how genes behave.

Members of a new class of antivirals are being tested in U.S. clinical trials, and one has gained approval in Japan, but how ...

New Mexico State Police announced that DNA evidence has resulted in charges being recently filed against a man accused of ...

Inspired by biological systems, materials scientists have long sought to harness self-assembly to build nanomaterials. The ...

Giant DNA viruses that infect eukaryotic cells are thought to have played a role in the evolution of life, according to the ...

DNA reveals burials inside one of Europe’s largest Neolithic monuments, showing Spain’s Menga dolmen stayed sacred for ...

Franklin’s experience was far from unusual. Scientific discovery is shaped by patriarchy and colonialism as the story of ...

Researchers have identified the specific structural loops in G-quadruplex DNA that allow it to act as a chaperone, preventing ...

For decades, biology textbooks taught that DNA’s story could be told with a single image: two elegant strands twisting in a ...

What scientists long believed were knots in DNA may actually be persistent twists formed during nanopore analysis, revealing ...

Harvard Medical School researchers have uncovered crucial insights into how an emerging class of antiviral drugs works.

Study uncovers key insights about how a new class of antiviral drugs works. Cryo-EM images showed the drugs bound to herpes simplex virus (HSV) protein at nearly atomic detail, while optical tweezers ...