High Hydrostatic Pressure Inducible Trimethylamine N-Oxide Reductase Improves the Pressure Tolerance of Piezosensitive Bacteria Vibrio fluvialis | |
Zhang, Wei-Jia1,3,4; Yin, Qun-Jian1,2,3; Chou, I-Ming4,5; Zhang, Wei-Jia(Chinese Acad Sci, Inst Deep Sea Sci & Engn, Lab Deep Sea Microbial Cell Biol, Sanya, Peoples R China); Wu, Long-Fei3,6; Zhang, Sheng-Da1; Qi, Xiao-Qing1,3; Jiang, Ting1,2; Li, Xue-Gong1,3,4; Chen, Ying5 | |
刊名 | FRONTIERS IN MICROBIOLOGY |
2018-01-09 | |
卷号 | 8 |
关键词 | High Hydrostatic Pressure (Hhp) Trimethylamine N-oxide (Tmao) Pressure Tolerance Vibrio Fluvialis Raman Spectrometry Crispri |
DOI | 10.3389/fmicb.2017.02646 |
产权排序 | 第1完成单位 ; 第2完成单位 ; 第3完成单位 ; 第4完成单位 ; 第5完成单位 ; 第6完成单位 ; 第7完成单位 |
文献子类 | Article |
英文摘要 | High hydrostatic pressure (HHP) exerts severe effects on cellular processes including impaired cell division, abolished motility and affected enzymatic activities. Transcriptomic and proteomic analyses showed that bacteria switch the expression of genes involved in multiple energy metabolism pathways to cope with HHP. We sought evidence of a changing bacterial metabolism by supplying appropriate substrates that might have beneficial effects on the bacterial lifestyle at elevated pressure. We isolated a piezosensitive marine bacterium Vibrio fluvialis strain QY27 from the South China Sea. When trimethylamine N-oxide (TMAO) was used as an electron acceptor for energy metabolism, QY27 exhibited a piezophilic-like phenotype with an optimal growth at 30 MPa. Raman spectrometry and biochemistry analyses revealed that both the efficiency of the TMAO metabolism and the activity of the TMAO reductase increased under high pressure conditions. Among the two genes coding for TMAO reductase catalytic subunits, the expression level and enzymatic activity of TorA was up-regulated by elevated pressure. Furthermore, a genetic interference assay with the CRISPR-dCas9 system demonstrated that TorA is essential for underpinning the improved pressure tolerance of QY27. We extended the study to Vibrio fluvialis type strain ATCC33809 and observed the same phenotype of TMAO-metabolism improved the pressure tolerance. These results provide compelling evidence for the determinant role of metabolism in the adaption of bacteria to the deep-sea ecosystems with HHP. |
URL标识 | 查看原文 |
WOS关键词 | ESCHERICHIA-COLI ; SHEWANELLA-VIOLACEA ; RESPIRATORY SYSTEM ; RESPONSE REGULATOR ; OPERON EXPRESSION ; GENE-EXPRESSION ; SEA ; TORR ; BINDING ; TMAO |
语种 | 英语 |
WOS记录号 | WOS:000419566800001 |
内容类型 | 期刊论文 |
源URL | [http://ir.idsse.ac.cn/handle/183446/5280] |
专题 | 深海科学研究部_深海生物学研究室_深海微生物细胞生物学研究组 深海工程技术部_工程实验室 |
通讯作者 | Zhang, Wei-Jia; Zhang, Wei-Jia(Chinese Acad Sci, Inst Deep Sea Sci & Engn, Lab Deep Sea Microbial Cell Biol, Sanya, Peoples R China) |
作者单位 | 1.Chinese Acad Sci, Inst Deep Sea Sci & Engn, Lab Deep Sea Microbial Cell Biol, Sanya, Peoples R China 2.Univ Chinese Acad Sci, Beijing, Peoples R China 3.Chinese Acad Sci, CNRS Marseille, Int Associated Lab Evolut & Dev Magnetotact Multi, Beijing, Peoples R China 4.Chinese Acad Sci, Inst Deep Sea Sci & Engn, CAS Key Lab Expt Study Deep Sea Extreme Condit, Sanya, Peoples R China 5.Chinese Acad Sci, Inst Deep Sea Sci & Engn, Lab Expt Study Deep Sea Extreme Condit, Sanya, Peoples R China 6.Aix Marseille Univ, CNRS Marseille, UMR 7283, LCB, Marseille, France 7.Chinese Acad Sci, Inst Deep Sea Sci & Engn, Engn Dept, Engn Lab, Sanya, Peoples R China |
推荐引用方式 GB/T 7714 | Zhang, Wei-Jia,Yin, Qun-Jian,Chou, I-Ming,et al. High Hydrostatic Pressure Inducible Trimethylamine N-Oxide Reductase Improves the Pressure Tolerance of Piezosensitive Bacteria Vibrio fluvialis[J]. FRONTIERS IN MICROBIOLOGY,2018,8. |
APA | Zhang, Wei-Jia.,Yin, Qun-Jian.,Chou, I-Ming.,Zhang, Wei-Jia.,Wu, Long-Fei.,...&Zhou, Hao.(2018).High Hydrostatic Pressure Inducible Trimethylamine N-Oxide Reductase Improves the Pressure Tolerance of Piezosensitive Bacteria Vibrio fluvialis.FRONTIERS IN MICROBIOLOGY,8. |
MLA | Zhang, Wei-Jia,et al."High Hydrostatic Pressure Inducible Trimethylamine N-Oxide Reductase Improves the Pressure Tolerance of Piezosensitive Bacteria Vibrio fluvialis".FRONTIERS IN MICROBIOLOGY 8(2018). |
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