hyperthermophilic archaea
嗜極 Archaea
hyperthermophilic bacteria
嗜極細菌
hyperthermophilic organisms
嗜極生物
hyperthermophilic enzymes
嗜極酶
hyperthermophilic proteins
嗜極蛋白質
hyperthermophilic microbes
嗜極微生物
hyperthermophilic species
嗜極物種
hyperthermophilic cultures
嗜極培養
hyperthermophilic strains
嗜極菌株
hyperthermophilic growth
嗜極生長
hyperthermophilic archaea thrive in boiling hot springs where temperatures exceed 80°c.
嗜熱古菌在沸騰的熱泉中繁盛,那裡的溫度超過80°C。
scientists study hyperthermophilic enzymes to develop heat-stable industrial catalysts.
科學家研究嗜熱酶以開發耐熱的工業催化劑。
the hyperthermophilic bacterium was discovered in deep-sea hydrothermal vents.
這種嗜熱細菌是在深海熱液噴口處發現的。
hyperthermophilic microorganisms can survive at temperatures up to 122°c.
嗜熱微生物可以在高達122°C的溫度下生存。
research on hyperthermophilic proteins provides insights into the origins of life.
對嗜熱蛋白的研究提供了對生命起源的見解。
these hyperthermophilic species have adapted to extreme heat through unique cellular mechanisms.
這些嗜熱物種通過獨特的細胞機制適應極端高溫。
biotechnologists use hyperthermophilic dna polymerases for reliable pcr amplification.
生物技術人員使用嗜熱DNA聚合酶進行可靠的PCR擴增。
the hyperthermophilic habitat of yellowstone's geothermal pools harbors diverse microbial communities.
黃石公園地熱池的嗜熱環境中棲息著多樣的微生物群落。
hyperthermophilic cultivation requires specialized equipment capable of maintaining temperatures above 100°c.
嗜熱培養需要專用設備來維持高於100°C的溫度。
ancient hyperthermophilic organisms may represent some of the earliest life forms on earth.
古老的嗜熱生物可能代表地球上最早的生命形式之一。
the stability of hyperthermophilic enzymes makes them valuable for industrial applications.
嗜熱酶的穩定性使其在工業應用中具有價值。
scientists are exploring hyperthermophilic metabolic pathways for biofuel production.
科學家正在探索嗜熱代謝途徑以用於生物燃料生產。
hyperthermophilic archaea play a crucial role in carbon cycling within extreme ecosystems.
嗜熱古菌在極端生態系統中的碳循環中發揮著關鍵作用。
the discovery of new hyperthermophilic species expands our understanding of life's limits.
新發現的嗜熱物種擴展了我們對生命極限的理解。
hyperthermophilic archaea can grow optimally at temperatures approaching the boiling point of water.
嗜熱古菌可以在接近水沸點的溫度下最適宜地生長。
hyperthermophilic archaea
嗜極 Archaea
hyperthermophilic bacteria
嗜極細菌
hyperthermophilic organisms
嗜極生物
hyperthermophilic enzymes
嗜極酶
hyperthermophilic proteins
嗜極蛋白質
hyperthermophilic microbes
嗜極微生物
hyperthermophilic species
嗜極物種
hyperthermophilic cultures
嗜極培養
hyperthermophilic strains
嗜極菌株
hyperthermophilic growth
嗜極生長
hyperthermophilic archaea thrive in boiling hot springs where temperatures exceed 80°c.
嗜熱古菌在沸騰的熱泉中繁盛,那裡的溫度超過80°C。
scientists study hyperthermophilic enzymes to develop heat-stable industrial catalysts.
科學家研究嗜熱酶以開發耐熱的工業催化劑。
the hyperthermophilic bacterium was discovered in deep-sea hydrothermal vents.
這種嗜熱細菌是在深海熱液噴口處發現的。
hyperthermophilic microorganisms can survive at temperatures up to 122°c.
嗜熱微生物可以在高達122°C的溫度下生存。
research on hyperthermophilic proteins provides insights into the origins of life.
對嗜熱蛋白的研究提供了對生命起源的見解。
these hyperthermophilic species have adapted to extreme heat through unique cellular mechanisms.
這些嗜熱物種通過獨特的細胞機制適應極端高溫。
biotechnologists use hyperthermophilic dna polymerases for reliable pcr amplification.
生物技術人員使用嗜熱DNA聚合酶進行可靠的PCR擴增。
the hyperthermophilic habitat of yellowstone's geothermal pools harbors diverse microbial communities.
黃石公園地熱池的嗜熱環境中棲息著多樣的微生物群落。
hyperthermophilic cultivation requires specialized equipment capable of maintaining temperatures above 100°c.
嗜熱培養需要專用設備來維持高於100°C的溫度。
ancient hyperthermophilic organisms may represent some of the earliest life forms on earth.
古老的嗜熱生物可能代表地球上最早的生命形式之一。
the stability of hyperthermophilic enzymes makes them valuable for industrial applications.
嗜熱酶的穩定性使其在工業應用中具有價值。
scientists are exploring hyperthermophilic metabolic pathways for biofuel production.
科學家正在探索嗜熱代謝途徑以用於生物燃料生產。
hyperthermophilic archaea play a crucial role in carbon cycling within extreme ecosystems.
嗜熱古菌在極端生態系統中的碳循環中發揮著關鍵作用。
the discovery of new hyperthermophilic species expands our understanding of life's limits.
新發現的嗜熱物種擴展了我們對生命極限的理解。
hyperthermophilic archaea can grow optimally at temperatures approaching the boiling point of water.
嗜熱古菌可以在接近水沸點的溫度下最適宜地生長。
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