DNA's iconic double helix does more than "just" store genetic information. Under certain conditions, it can temporarily fold ...

Scientists have uncovered an unexpected genetic shift that may explain how animals with backbones first emerged and became so diverse.

Small-molecule mitochondrial transcription factor A modulators stabilize mtDNA, preventing cytosolic escape and suppressing cGAS-STING interferon signaling, while improving bioenergetics and fibrosis ...

A new study in mice hints at the potential to use tiny particles made with RNA molecules to deliver chemotherapy drugs and other therapies directly to tumors, killing cancer cells without generating ...

DNA nanostructures store and encrypt data using physical shape, enabling fast electronic readout and secure molecular ...

Over the past two decades, researchers have learned that DNA inside the cell nucleus naturally folds into a network of ...

In 1869, Swiss scientist Friedrich Miescher isolated a mysterious substance from cell nuclei—an overlooked finding that would ...

Cellular findings show Telomir-Zn modulates intracellular metal balance linked to oxidative stress, mitochondrial dysfunction ...

There’s more to dna than just the double helix we know and love: under some conditions this familiar molecule can take on ...

Scientists have discovered 'berkelocene,' the first organometallic molecule to be characterized containing the heavy element berkelium. The breakthrough disrupts long-held theories about the chemistry ...

Scientists have uncovered a surprising genetic shift that may explain how animals with backbones—from fish and frogs to ...