研究领域
- 暂无内容
论文成果 MORE+
- · Expanding Asgard members in the domain of Archaea sheds new light on the origin of eukaryotes.Science China Life Sciences.2021
- · Proteome-wide 3D structure prediction provides insights into the ancestral metabolism of ancient archaea and bacteria.Nature Communications.2022
- · Potential metabolic and genetic interaction among viruses, methanogen and methanotrophic archaea, and their syntrophic partners.ISME Communications.2022
- · Isolation of a Novel Thermophilic Methanogen and the Evolutionary History of the Class Methanobacteria.Biology.2022
- · Expanding Asgard members in the domain of Archaea sheds new light on the origin of eukaryotes.Science China Life Sciences.2021
- · Draft Genome Sequences of Four Bacterial Strains Isolated from Sediment of the South China Sea.Microbiology Resource Announcements.2022
- · The late Archaean to early Proterozoic origin and evolution of anaerobic methane‐oxidizing archaea.mLife.2022
- · The origin and impeded dissemination of the DNA phosphorothioation system in prokaryotes.Nature Communications.2021
- · Identification of a functional toxin-antitoxin system located in the genomic island PYG1 of piezophilic hyperthermophilic archaeon Pyrococcus yayanosii.Extremophiles.2018
- · 深海嗜冷希瓦氏菌Shewanella psychrophila WP2的基因组学分析.应用海洋学学报.2020
专利
- 暂无内容
科研项目 MORE+
- · 地质微生物-2027/12/01
- · 基于环境基因组的近海生物多样性解析-2026/11/01
- · 典型深海极端环境微生物多尺度演变的特征与机制研究-2024/12/01
- · 甲烷代谢古菌与地球环境协同演化过程年龄框架的构建-2026/12/01
- · 水圈微生物组图谱(MASH)平台开发及在深海微生物群落驱动碳氮硫元素循环机制研究中的应用-2023/12/01
- · 深海微生物科学检测设备需求与前景分析-2021/10/01
- · 全新烷烃代谢古菌的起源演化与“黯淡太阳悖论”-2023/06/01
- · 沉积物中古菌介导短链烷烃厌氧氧化机制及全球分布特征-2020/12/01
- · 病毒驱动的深部生物圈碳循环机制与过程-2023/12/01
- · 深海热液沉积物中短链烃厌氧氧化古菌研究-2018/12/01