The discovery of Hoogsteen base pairs, an alternative pairing mode to the canonical Watson–Crick structure, has significantly broadened our understanding of DNA dynamics. This conformation, in which ...

A new LUMC study has changed our understanding of how cells work. Researchers have discovered that the CFAP20 protein acts as ...

A new LUMC study has changed our understanding of how cells work. Researchers have discovered that the CFAP20 protein acts as ...

Scientists from Oxford's Radcliffe Department of Medicine have achieved the most detailed view yet of how DNA folds and functions inside living cells, revealing the physical structures that control ...

The human genome holds about three billion base pairs within each cell. Although tools like Crispr have revolutionized the editing of single genes and individual nucleic acid bases, researchers have ...

Scientists have for the first time been able to build a organism containing a new, synthetic pair of DNA units, marking a breakthrough in the field of synthetic biology that has major implications for ...

This image illustrates the chemical structures of the five main nucleobases found in DNA and RNA. The pyrimidines, thymine (DNA), uracil (RNA), and cytosine are shown on top while the purines, adenine ...

The completion of a South American lung fish genome sequencing represents one of the most remarkable moments within current genetic research. Because of its 91 billion DNA base pairs, it has now ...