WebArchaea of the genus Sulfolobus (Figure 1) are thermophiles that prefer temperatures around 70–80°C and acidophiles that prefer a pH of 2–3. [9] Sulfolobus can live in aerobic or anaerobic environments. In the presence of oxygen, Sulfolobus spp. use metabolic processes similar to those of heterotrophs. In anaerobic environments, they oxidize … WebApr 7, 2024 · Archaea are microorganisms that define the limits of life on Earth. They …
Secret to How Microbes Survive in Extreme Conditions
WebAnswer (1 of 3): To add to some great answers so far, “extremophiles” are organisms that … WebOct 14, 2016 · Archaea seem particularly suitable for development under the most extreme conditions known on Earth. For this reason, they were initially considered to be poorly diversified and only associated with … tsx new years eve hours
How do Archaea survive extreme environments? - KnowledgeBurrow
WebMay 29, 2024 · Such modifications are currently being studied to better understand what … WebCorrect option is C) Archaebacteria are able to survive in harsh habitats such as extreme salty areas (halophiles), hot springs (thermoacidphiles), etc. because they have thermostable proteins that protect and stabilise the structure of archaebacteria. Therefore, the assertion is true but the reason given for this assertion is false. WebApr 9, 2024 · Archaebacteria are believed to be some of the earliest forms of life on Earth. Studying them can provide insights into the conditions that existed on the planet billions of years ago and the origins of life itself. Archaebacteria’s Potential for New Antibiotics. Archaebacteria have been found to produce compounds with antibiotic properties. phoebeandmichaelwedding.minted.us