[1] 研究方向为微生物代谢与地球环境的协同演化,即是指微生物通过自身新陈代谢与周围环境进行物质和能量交换的过程。该过程体量巨大,能够显著影响地球大气、海洋湖泊及土壤等环境。同时,该过程的失衡也会导致生态系统的破坏甚至崩溃,如地质历史时期的全球性生物灭绝事件,有证据显示其与微生物介导的元素循环失衡有关。因此,对微生物适应地球环境的机制及协同演化过程的研究,对于反演、评估和预测微生物对地球环境的影响和改造具有非常重大的意义。
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[1] Expanding Asgard members in the domain of Archaea sheds new light on the origin of eukaryotes, Science China Life S
2021/08/01
- [2] Proteome-wide 3D structure prediction provides insights into the ancestral metabolism of ancient archaea and bacteria, Nature Communication 2022/12/01
- [3] Potential metabolic and genetic interaction among viruses, methanogen and methanotrophic archaea, and their syntrophic partners, ISME Communications 2022/06/01
- [4] Isolation of a Novel Thermophilic Methanogen and the Evolutionary History of the Class Methanobacteria, Biology 2022/10/01
- [2] Proteome-wide 3D structure prediction provides insights into the ancestral metabolism of ancient archaea and bacteria, Nature Communication 2022/12/01
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