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喻航

职称:研究员、助理教授

研究方向:环境微生物学

通讯地址:金沙2004线路检测

Email: hyu@urban.pku.edu.cn

个人简历 人才培养 科学研究 教研成果

English Website

教育经历

2011.09-2017.06,美国加州理工学院(California Institute of Technology),环境科学与工程,硕士/博士

2006.09-2010.05,加拿大英属哥伦比亚大学(University of British Columbia),微生物学与免疫学,荣誉学士

科研经历

2022.12-,学院(Peking University),研究员、助理教授

2020.07-2022.06,美国南加州大学(University of Southern California),博士后

2017.08-2020.02,美国加州理工学院(California Institute of Technology),博士后

2010.06-2010.12,美国蒙特利湾水族馆研究所(Monterey Bay Aquarium Research Institute),科研助理

2009.01-2009.08,国际遗传工程的机器设计竞赛(International Genetically Engineered Machines iGEM Team, UBC),校队核心队员

博士生导师/方向

环境微生物学、生物地球化学、微生物生态学、地质微生物学

硕士生导师/方向

环境微生物学、生物地球化学、微生物生态学、地质微生物学


目前招收

・ 本科生:欢迎科研实习或拔尖计划的本科生加入

・ 硕士/博士研究生:欢迎硕士/博士研究生联系和申请(目前2024年博士名额已满)

・ 博士后:https://postdocs.pku.edu.cn/bshzp/zwxx/36533186f8b64bc69f144cc298401d1a.htm

・ 技术员(科研助理、微生物技术员、生物信息学技术员):学院劳动合同制,提供五险一金,待遇面议

期待对环境微生物学、生物地球化学、微生物生态学、地质微生物学、合成生物学、生物信息学等研究内容感兴趣和有相关背景的同学以及科研工作者加入我们!


研究目标

微生物在地球生态系统中发挥着至关重要的作用。我们实验组致力于解析地球生物化学循环中微生物组群的动态和功能,了解气候变化与微生物之间的相互作用,探索并利用微生物的生化反应潜能。

研究方向

1. 温室气体甲烷的生物氧化

2. 金属元素的微生物代谢

3. 微生物之间的相互作用和共生方式

研究方法

结合传统与尖端的微生物实验技术,如菌种培养、代谢产物分析、同位素示踪、遗传与进化分析、高通量测序、合成生物学、电化学、矿物结构分析、荧光与纳米二次离子质谱成像等。

Publications

Full publication list: https://scholar.google.com/citations?hl=en&user=3no8Uy8AAAAJ

Yu, H., Speth, D.R., Connon, S.A., Goudeau, D., Malmstrom, R.R., Woyke, T., and Orphan V.J. (2022) Community structure and microbial associations in sediment-free methanotrophic enrichment cultures from a marine methane seep. Applied and Environmental Microbiology. e02109-21.

Heryakusuma, C., Susanti, D., Yu, H., Li, Z., Purwantini, E., Hettich, R.L., Orphan, V.J., and Mukhopadhyay, B. (2022) A reduced F420-dependent nitrite reductase (FNiR) in an anaerobic methanotrophic archaeon. Journal of Bacteriology. e00078-22.

Yu, H., Chadwick, G.L., Lingappa, U.F., and Leadbetter J.R. (2022) Comparative genomics on cultivated and uncultivated, freshwater and marine “Candidatus Manganitrophaceae” species implies their worldwide reach in manganese chemolithoautotrophy. mBio. 13 (2), e03421-21.

Chadwick, G. L., Skennerton, C. T., Laso-Pérez, R., Leu, A. O., Speth, D. R., Yu, H., Morgan-Lang, C., Hatzenpichler, R., Goudeau, D., & Malmstrom, R. (2022). Comparative genomics reveals electron transfer and syntrophic mechanisms differentiating methanotrophic and methanogenic archaea. Plos Biology 20 (1): e3001508.

Yu, H., Skennerton, C.T., Chadwick, G.L., Leu, A.O., Aoki, M., Tyson, G.W., and Orphan V.J. (2022) Sulfate differentially stimulates but is not respired by diverse anaerobic methanotrophic archaea. The ISME Journal 16, 168–177.

Yu, H., Leadbetter, J.R. (2020) Bacterial chemolithoautotrophy via manganese oxidation. Nature 583, 453–458. (Cover)
Yu, H., Susanti, D., McGlynn, S.E., Skennerton, C.T., Chourey, K., Iyer, R., Scheller, S., Tavormina, P., Hettich, R.L., Mukhopadhyay, B., and Orphan, V.J. (2018) Comparative genomics and proteomic analysis of assimilatory sulfate reduction pathways in anaerobic methanotrophic archaea. Frontiers in Microbiology. 9. https://doi.org/10.3389/fmicb.2018.02917

Scheller, S., Yu, H., Chadwick, G.L., McGlynn, S.E., and Orphan, V.J. (2016) Artificial electron acceptors decouple archaeal methane oxidation from sulfate reduction. Science 351: 703–707.

van Baren, M.J., Bachy, C., Reistetter, E.N., Purvine, S.O., Grimwood, J., Sudek, S., Yu, H., Poirier, C., Deerinck, T.J., Kuo, A.,

Grigoriev, I.V., Wong, C., Smith, R.D., Callister, S.J., Wei, C., Schmutz, J., and Worden, A.Z. (2016) Evidence-based green algal genomics reveals marine diversity and ancestral characteristics of land plants. BMC Genomics 17: 267.

Glass, J.B., Yu, H., Steele, J.A., Dawson, K.S., Sun, S., Chourey, K., Pan, C., Hettich, R.L., Orphan, V.J. (2014) Geochemical, metagenomic and metaproteomic insights into trace metal utilization by methane-oxidizing microbial consortia in sulphidic marine sediments. Environmental Microbiology 6, 1592-1611.

Hartmann, M., Howes, C.G., VanInsberghe, D., Yu, H., Bachar, D., Christen, R., Nilsson, R.H., Hallam, S.J. and Mohn, W.W. (2012) Significant and persistent impact of timber harvesting on soil microbial communities in Northern coniferous forests. The ISME Journal 6, 2199–2218.


Patents

Scheller, S., Orphan, V. J. and Yu, H. (2017). Methane oxidation methods and compositions. United States Patent No. US20170107479A1.


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