This novel hyperthermophilic archaea grows best at 80 to 82 degrees Celsius (176-180 Farenheit), close to the boiling point of water. Skip to main content. Your source for the latest research news.

Hyperthermophilic microorganisms with optimal growth temperatures above 80 °C occur in both prokaryotic domains, the Bacteria and Archaea. In phylogenetic trees based on ss rRNA they represent ...

In the 1980s, Forterre began to analyse the hyperthermophilic archaea isolated by Stetter and Zillig, looking for reverse gyrase. The enzyme causes the DNA double helix to cross over on itself ...

Using genome editing, scientists engineered a metazoan (meaning, of the animal kingdom) ribosome to carry the identical mutation (a single amino acid change) as the hyperthermophilic Archaea, and ...

Archaea Energy Inc. (“Archaea,” “the Company,” or “we”) (NYSE: LFG), an industry-leading renewable natural gas (“RNG”) company, today announced that i ...

Archaea, in contrast, have no such universal chromatin proteins, instead using two or more DNA-binding proteins to package DNA. ... (thermophilic or hyperthermophilic). ...

Archaea Energy Inc. said Monday it has entered an agreement to be acquired by BP PLC for about $4.1 billion in cash including about $800 million of debt. The cash consideration of about $26 per ...

BP reported three new Archaea projects came online in the first quarter, including two at Rumpke landfills. Elsewhere, Opal Fuels reported a strong quarter and a new project with Republic Services ...

Hyperthermophilic Archaea that grow on crystalline cellulose at 90 degrees Celsius yielded EBI-244, the most active high-temperature cellulase ever identified.

BP Plc agreed to acquire biogas producer Archaea Energy Inc. for about $4.1 billion including debt, the latest step in the UK energy giant’s expansion into into lower-carbon fuels.. BP will pay ...

About Archaea Energy LLC. Archaea Energy LLC is an emerging leader in developing renewable natural gas from high-carbon emission processes and industries by capturing recurring emissions from food ...

Deep-sea viruses kill archaea disproportionately more often than bacteria, a killing spree with important impacts on the global carbon cycle. Skip to content. Subscribe or renew today ...