Scientists have identified a microbe capable of interpreting a single piece of genetic code in two completely different ways.

Johns Hopkins University geneticists and a small army of researchers across the country, including students, are working to catalog the vast and largely unknown soil microbiome of the United States.

The origin of eukaryotes traced from Asgard archaea, revealing how complex cells evolved and led to animals, plants and ...

Biologists are confronting a problem they thought they had mostly solved: what, exactly, counts as life. A wave of ...

Researchers discover a unique genetic code in Antarctic archaea that encodes a rare amino acid, potentially advancing protein ...

Members of the domain Archaea are diverse and widespread, being found not only in extreme environments, such as hot springs and deep-sea hydrothermal vents, but also in a range of moderate and aerobic ...

Anaerobic methane formation and anaerobic methane oxidation are important microbial processes in the global carbon cycle. Both processes are mediated by syntrophic communities of bacteria and archaea.

Scientists trace an ancient microbe, Asgard archaea, that gave rise to humans, animals, and plants more than 2 billion years ...

Researchers investigate into the various lineages of Asgard archae, and determine one related to Hods as the ancestor of ...

A new study finds that at least one Archaea has surprisingly flexibility when interpreting genetic code, which goes against a ...

A newly discovered promoter element "start" points to a shared regulatory syntax for controlling transcription initiation in bacteria, archaea, and eukaryotes. DNA is often described as the language ...