Energy Metabolism during Anaerobic Methane Oxidation in ANME Archaea-Reference-Cited by-同舟云学术

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Energy Metabolism during Anaerobic Methane Oxidation in ANME Archaea

Published:2017 Issue:1 Volume:32 Page:5-13
ISSN:1342-6311
Container-title:Microbes and Environments
language:en
Short-container-title:Microb. Environ.

Author:

McGlynn Shawn E.¹²³

Affiliation:

1. Earth-Life Science Institute, Tokyo Institute of Technology

2. Biofunctional Catalyst Research Team, RIKEN Center for Sustainable Resource Science

3. Blue Marble Space Institute of Science

Publisher

Japanese Society of Microbial Ecology

Subject

Plant Science,Soil Science,General Medicine,Ecology, Evolution, Behavior and Systematics

Link

https://www.jstage.jst.go.jp/article/jsme2/32/1/32_ME16166/_pdf

Reference116 articles.

1. 1. Albracht, S.. 1994. Nickel hydrogenases: in search of the active site. Biochim Biophys Acta. 1188 (3):167-204.

2. 2. Alex, L.A., J.N. Reeve, W.H. Orme-Johnson, and C.T. Walsh. 1990. Cloning, sequence determination, and expression of the genes encoding the subunits of the nickel-containing 8-hydroxy-5-deazaflavin reducing hydrogenase from Methanobacterium thermoautotrophicum delta h. Biochemistry. 29 (31):7237-7244.

3. 3. Alperin, M.J., and T.M. Hoehler. 2009. Anaerobic methane oxidation by archaea/sulfate-reducing bacteria aggregates: 1. Thermodynamic and physical constraints. Am J Sci. 309 (10):869-957.

4. 4. Arshad, A., D.R. Speth, R.M. de Graaf, H.J.M. Op den Camp, M.S.M. Jetten, and C.U. Welte. 2015. A metagenomics-based metabolic model of nitrate-dependent anaerobic oxidation of methane by Methanoperedens-like archaea. Front Microbiol. 6:1423.

5. 5. Astumian, R.D. 2010. Thermodynamics and kinetics of molecular motors. Biophys J. 98 (11):2401-2409.

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