Results 211 to 220 of about 16,164 (249)
Methanotrophs assisted bentazone degradation
, 2014 Papadopoulou, Aikaterini +4 more
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Methane-Dependent Mineral Reduction by Aerobic Methanotrophs under Hypoxia
, 2020Methanotrophs play an important role in controlling methane balance in the biosphere. For over 100 years, methanotrophs of the Proteobacteria phylum have been studied under oxic conditions, with mo...
Yue Zheng +10 more
semanticscholar +1 more source
1984
Methanotrophs have interesting properties concerning the oxidation and dehalogenation of both straight-chain and aromatic hydrocarbons. However, the potential of these bacteria in the degradation of these compounds cannot be assessed until more experiments are carried out.
M E, Lidstrom +3 more
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Methanotrophs have interesting properties concerning the oxidation and dehalogenation of both straight-chain and aromatic hydrocarbons. However, the potential of these bacteria in the degradation of these compounds cannot be assessed until more experiments are carried out.
M E, Lidstrom +3 more
openaire +2 more sources
Verbreitung methanotropher Bakterien
Zeitschrift für allgemeine Mikrobiologie, 1984AbstractThis paper reports on the investigations of the distribution of the methanotrophic bacteria in various environments and geographic zones. In the most of about 1000 samples investigated by us obligately methanotrophic bacteria were found. More than 300 pure cultures were isolated, among them strains of all five groups of methanotrophs described ...
J. Heyer +3 more
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Methanotrophic symbioses in marine invertebrates
Environmental Microbiology Reports, 2009Summary Symbioses between marine animals and aerobic methane‐oxidizing bacteria are found at hydrothermal vents and cold seeps in the deep sea where reduced, methane‐rich fluids mix with the surrounding oxidized seawater.
Petersen, J., Dubilier, N.
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Nature Geoscience, 2010
Peat bogs release large quantities of methane to the atmosphere. A global survey of peat mosses reveals a ubiquitous symbiotic relationship with methane-oxidizing bacteria.
Chen, Yin, Murrell, J. Colin
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Peat bogs release large quantities of methane to the atmosphere. A global survey of peat mosses reveals a ubiquitous symbiotic relationship with methane-oxidizing bacteria.
Chen, Yin, Murrell, J. Colin
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Surface layers of methanotrophic bacteria
Microbiology, 2013Structural and functional characteristics of the regular glycoprotein layers in prokaryotes are analyzed with a special emphasis on aerobic methanotrophic bacteria. S-layers are present at the surfaces of Methylococcus, Methylothermus, and Methylomicrobium cells.
V N, Khmelenina +2 more
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Methanotroph Outer Membrane Preparation
2011All presently known methanotrophs are gram-negative bacteria suggesting that they are surrounded by a two-layered membrane: an inner or cytoplasmic membrane and an outer membrane. In the methanotroph Methylococcus capsulatus (Bath), separation of the two membranes has allowed studies on protein and lipid composition of the outer membrane.
Odd A, Karlsen +3 more
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Biogeography of wetland rice methanotrophs
Environmental Microbiology, 2010Summary We focused on the functional guild of methane oxidizing bacteria (MOB) as model organisms to get deeper insights into microbial biogeography. The pmoA gene was used as a functional and phylogenetic marker for MOB in two approaches: (i) a pmoA
Lüke, C. +5 more
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Methylocella: a gourmand among methanotrophs
Trends in Microbiology, 2014A recent article in Nature describes the ability of Methylocella silvestris to grow simultaneously on methane and longer chain alkanes, something never before observed in the microbial world. It adds to a growing list of unique metabolic traits that distinguish Methylocella from any other bacterium.
Peter F, Dunfield, Svetlana N, Dedysh
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