archaeon species
古菌物种
hyperthermophilic archaeon
超嗜热古菌
methanogenic archaeon
产甲烷古菌
archaeon cell
古菌细胞
extremophile archaeon
极端嗜盐古菌
archaeon genome
古菌基因组
archaeon population
古菌种群
halophilic archaeon
嗜盐古菌
archaeon diversity
古菌多样性
thermophilic archaeon
嗜热古菌
scientists discovered a new archaeon species thriving in the boiling hot springs of yellowstone national park.
科学家们在黄石国家公园的沸腾热泉中发现了一种在极端高温环境中茁壮成长的古菌新物种。
the archaeon population doubles every six hours under optimal laboratory conditions in the research facility.
在研究实验室的最优条件下,古菌种群每六小时就会翻倍增长。
researchers are studying how archaeon cells maintain structural integrity in extreme acidic environments with ph below 2.
研究人员正在古菌细胞如何在ph值低于2的极端酸性环境中维持结构完整性。
this extremophile archaeon can survive without oxygen and in temperatures above the boiling point of water.
这种极端嗜氧古菌可以在无氧环境和超过水沸点的温度下存活。
the methanogenic archaeon produces methane as a natural byproduct of its unique metabolic processes in anaerobic conditions.
产甲烷古菌在厌氧条件下通过其独特的代谢过程自然产生甲烷作为副产物。
archaeon communities have been found living several kilometers beneath the earth's surface in complete darkness.
在地球表面以下数公里、完全黑暗的环境中发现了古菌群落的生存踪迹。
genetic analysis revealed unexpected archaeon diversity among the microbial populations inhabiting deep-sea hydrothermal vents.
基因分析揭示了栖息在深海热泉中的微生物群落中古菌的多样性超出预期。
latest archaeon research focuses on understanding their unique membrane structures composed of ether-linked lipids.
最新的古菌研究集中在理解由醚键脂质组成的独特膜结构。
the archaeon genome contains many genes that are not found in either bacteria or eukaryotic organisms.
古菌基因组包含许多在细菌或真核生物中都找不到的基因。
scientists are investigating archaeon metabolism as a potential source of sustainable biofuel production in the future.
科学家们正在研究古菌的代谢途径,作为未来可持续生物燃料生产的潜在来源。
a new archaeon genus was officially classified last month after extensive phylogenetic analysis by international researchers.
经过国际研究人员广泛的系统发育分析后,上个月正式分类了一个新的古菌属。
the archaeon cell wall completely lacks peptidoglycan, which fundamentally distinguishes it from bacterial cell structures.
古菌细胞壁完全不含肽聚糖,这使其与细菌细胞结构有了根本性的区别。
marine biologists discovered archaeon populations thriving near underwater volcanic vents where temperatures reach 400°c.
海洋生物学家在水下火山喷口附近发现了古菌种群在那里茁壮成长,那里的温度高达400摄氏度。
archaeon species
古菌物种
hyperthermophilic archaeon
超嗜热古菌
methanogenic archaeon
产甲烷古菌
archaeon cell
古菌细胞
extremophile archaeon
极端嗜盐古菌
archaeon genome
古菌基因组
archaeon population
古菌种群
halophilic archaeon
嗜盐古菌
archaeon diversity
古菌多样性
thermophilic archaeon
嗜热古菌
scientists discovered a new archaeon species thriving in the boiling hot springs of yellowstone national park.
科学家们在黄石国家公园的沸腾热泉中发现了一种在极端高温环境中茁壮成长的古菌新物种。
the archaeon population doubles every six hours under optimal laboratory conditions in the research facility.
在研究实验室的最优条件下,古菌种群每六小时就会翻倍增长。
researchers are studying how archaeon cells maintain structural integrity in extreme acidic environments with ph below 2.
研究人员正在古菌细胞如何在ph值低于2的极端酸性环境中维持结构完整性。
this extremophile archaeon can survive without oxygen and in temperatures above the boiling point of water.
这种极端嗜氧古菌可以在无氧环境和超过水沸点的温度下存活。
the methanogenic archaeon produces methane as a natural byproduct of its unique metabolic processes in anaerobic conditions.
产甲烷古菌在厌氧条件下通过其独特的代谢过程自然产生甲烷作为副产物。
archaeon communities have been found living several kilometers beneath the earth's surface in complete darkness.
在地球表面以下数公里、完全黑暗的环境中发现了古菌群落的生存踪迹。
genetic analysis revealed unexpected archaeon diversity among the microbial populations inhabiting deep-sea hydrothermal vents.
基因分析揭示了栖息在深海热泉中的微生物群落中古菌的多样性超出预期。
latest archaeon research focuses on understanding their unique membrane structures composed of ether-linked lipids.
最新的古菌研究集中在理解由醚键脂质组成的独特膜结构。
the archaeon genome contains many genes that are not found in either bacteria or eukaryotic organisms.
古菌基因组包含许多在细菌或真核生物中都找不到的基因。
scientists are investigating archaeon metabolism as a potential source of sustainable biofuel production in the future.
科学家们正在研究古菌的代谢途径,作为未来可持续生物燃料生产的潜在来源。
a new archaeon genus was officially classified last month after extensive phylogenetic analysis by international researchers.
经过国际研究人员广泛的系统发育分析后,上个月正式分类了一个新的古菌属。
the archaeon cell wall completely lacks peptidoglycan, which fundamentally distinguishes it from bacterial cell structures.
古菌细胞壁完全不含肽聚糖,这使其与细菌细胞结构有了根本性的区别。
marine biologists discovered archaeon populations thriving near underwater volcanic vents where temperatures reach 400°c.
海洋生物学家在水下火山喷口附近发现了古菌种群在那里茁壮成长,那里的温度高达400摄氏度。
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