Portfolios have building blocks that determine whether family capital survives market shocks, tax‑code changes and ...

In vivo base editing enables precise, single-nucleotide changes to DNA without double-strand breaks. A recent application in ...

The G League franchise's leader credits his staff, fans, community, and strategic partnership for the latest honor.

Scientists are warning that a project aiming to build human DNA from scratch could lead to new types of warfare and is a ...

These knots often form in regions with many guanine (G) bases. They help regulate important processes like transcription, where DNA is copied into RNA. But G4s are double-edged swords.

Not all DNA looks like the familiar double helix. Sometimes, parts of our genetic code fold into unusual shapes under certain conditions. One such structure known as a G-quadruplex (G4) looks like ...

Our genomic DNA is comprised of four bases—cytosine (C), thymine (T), guanine (G) and adenosine (A). These bases join together into approximately 3 billion different base pairs, arranged in a ...

A recent study by researchers from Peking University demonstrates the potential of nuclear electric resonance to control the nuclear spins of nitrogen atoms in DNA using electric field gradients ...

To date, people have encoded information into DNA the same way nature has, by linking the four nucleotide bases comprising DNA—A, T, C, and G—into a particular genetic sequence.

These four DNA bases – adenine (A), cytosine (C), guanine (G) and thymine (T) – form specific pairs that are always supposed to be matched with each other: A with T, and G with C.