期刊
ISME JOURNAL
卷 14, 期 12, 页码 3136-3148出版社
SPRINGERNATURE
DOI: 10.1038/s41396-020-00745-5
关键词
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资金
- National Natural Science Foundation of China [91851105, 31970105]
- Science and Technology Innovation Committee of Shenzhen [JCYJ20170818091727570]
- Key Project of Department of Education of Guangdong Province [2017KZDXM071]
- Gordon and Betty Moore Foundation [GBMF2609]
- National Science Foundation [OCE 1029242]
Deep-sea hydrothermal plumes are considered natural laboratories for understanding ecological and biogeochemical interactions. Previous studies focused on interactions between microorganisms and inorganic, reduced hydrothermal inputs including sulfur, hydrogen, iron, and manganese. However, little is known about transformations of organic compounds, especially methylated, sulfur-containing compounds, and petroleum hydrocarbons. Here, we reconstructed nine gammaproteobacterial metagenome-assembled genomes, affiliated with Methanococcales,Methylophaga, andCycloclasticus, from three hydrothermal ecosystems. We present evidence that these three groups have high transcriptional activities of genes encoding cycling of C-1-compounds, petroleum hydrocarbons, and organic sulfur in hydrothermal plumes. This includes oxidation of methanethiol, the simplest thermochemically-derived organic sulfur, for energy metabolism in Methanococcales andCycloclasticus. Together with active transcription of genes for thiosulfate and methane oxidation in Methanococcales, these results suggest an adaptive strategy of versatile and simultaneous use of multiple available electron donors. Meanwhile, the first near-complete MAG of hydrothermalMethylophaga aminisulfidivoransand its transcriptional profile point to active chemotaxis targeting small organic compounds. Petroleum hydrocarbon-degradingCycloclasticusare abundant and active in plumes of oil spills as well as deep-sea vents, suggesting that they are indigenous and effectively respond to stimulus of hydrocarbons in the deep sea. These findings suggest that these three groups of Gammaproteobacteria transform organic carbon and sulfur compounds via versatile and opportunistic metabolism and modulate biogeochemistry in plumes of hydrothermal systems as well as oil spills, thus contributing broad ecological impact to the deep ocean globally.
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