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Mechanism of Electromethanogenic Reduction of CO2 by a Thermophilic Methanogen [PDF]

open access: yesEnergy Procedia, 2013
To establish a biotechnological system to convert CO2 into methane, we are trying to develop a new CO2 bio-conversion technology based on “electromethanogenesis”, a new bio-electrolysis reaction using microbially-catalyzed electrode.
Masahiro Hara   +2 more
exaly   +2 more sources
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Methanogens

1991
Abstract Methanogenic bacteria are a morphologically diverse group of bacteria unified by their ability to produce methane. This property has been used to distinguish these bacteria from the other groups of anaerobic bacteria.
Mahendra K Jain   +2 more
openaire   +1 more source

Metabolism of methanogens

Antonie van Leeuwenhoek, 1994
Methanogenic archaea convert a few simple compounds such as H2 + CO2, formate, methanol, methylamines, and acetate to methane. Methanogenesis from all these substrates requires a number of unique coenzymes, some of which are exclusively found in methanogens.
openaire   +2 more sources

Methanogenic Fermentation of Benzoate

Journal of Bacteriology, 1969
A methanogenic enrichment culture decomposed small concentrations of 14 C-benzoate to 14 C 4 and 14 CO 2 under stringently anaerobic conditions with or without preceding exposure to benzoate.
P M, Nottingham, R E, Hungate
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Molecular Biology of Methanogens

Annual Review of Microbiology, 1992
Methanogens are a very diverse group of the Archaea (Archaebacteria). Their genomic DNAs range from 26 to 68 mol% G+C; they exhibit all known prokaryotic morphologies and inhabit anaerobic environments as varied as the human gut and deep-sea volcanic vents.
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Methanotrophs and Methanogens in Masonry

Applied and Environmental Microbiology, 1998
ABSTRACT Methanotrophs were present in 48 of 225 stone samples which were removed from 19 historical buildings in Germany and Italy. The average cell number of methanotrophs was 20 CFU per g of stone, and their activities ranged between 11 and 42 pmol of CH 4 g of stone −1 day
, Kussmaul, , Wilimzig, , Bock
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Beginning Genetics with Methanogens

1982
There have been two meetings*, convened during the past year, specifically to determine how microbial genetics could be productively applied to obligately anaerobic microorganisms and to methanogenic species in particular. One of us (JNR) attended both of these meetings.
J N, Reeve, N J, Trun, P T, Hamilton
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Proton Translocation in Methanogens

2011
Methanogenic archaea of the genus Methanosarcina possess a unique type of metabolism because they use H(2)+CO(2), methylated C(1)-compounds, or acetate as energy and carbon source for growth. The process of methanogenesis is fundamental for the global carbon cycle and represents the terminal step in the anaerobic breakdown of organic matter in ...
Cornelia, Welte, Uwe, Deppenmeier
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Methanogens and Methylotrophs

2004
The Italian physicist Volta must be credited for observation that the bubbles arising at the surface of Lago Maggiore were inflammable (1776). Thirty years later, this combustible air was identified as methane (CH4), whose microbial origin was established only in 1868.
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Biosynthesis of the methanogenic cofactors

2001
Our current knowledge of the pathways and genes involved in the biosynthesis of the methanogenic coenzymes methanopterin, coenzyme B, methanofuran, coenzyme F420, and coenzyme M is presented. Proposed reaction mechanisms for several of the novel reactions involved in the pathways are presented.
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