Search results for "Methanothermus"

showing 3 items of 3 documents

A novel ether core lipid with H-shaped C80-isoprenoid hydrocarbon chain from the hyperthermophilic methanogen Methanothermus fervidus.

1998

Abstract A new ether lipid core (designated as FU) was found in Methanothermus fervidus total lipid. Comparison with caldarchaeol showed lower mobility of FU on TLC and smaller molecular weight (m/z 1298) by 2 mass units on FAB-MS. Treatment of FU with HI followed by displacement with silver acetate afforded long chain alcohol acetate (ROAc), which was further saponified with mild alkali to its free alcohol (ROH). ROH is the long chain alcohol prepared from FU. The molecular weights of ROAc and ROH were shown by MS to be 1354 and 1186, respectively. These results suggested that the molecular formula of ROH was C80H162O4, and ROH had four hydroxyl groups, and one molecule of ROH was bound wi…

GlycerolbiologyStereochemistryTerpenesBiophysicsSilver acetateAlcoholEtherGlyceryl EthersEuryarchaeotabiology.organism_classificationBiochemistryEtherLipidsMolecular Weightchemistry.chemical_compoundEndocrinologyCaldarchaeolEther lipidchemistryCovalent bondMethanothermus fervidusMoietyBiochimica et biophysica acta
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Proteinaceous Surface Layers ofArchaea: Ultrastructure and Biochemistry

2014

The cell walls of the Archaea are composed of different polymers such as glutaminylglycan, heterosaccharide, methanochondroitin, pseudomurein, protein, glycoprotein, or glycocalyx. The S-layer glycoprotein of Halobacterium salinarum was the first glycoprotein discovered in bacteria and archaea. Initially, the novel cell wall structures were viewed as curiosities, and their taxonomic significance was not realized until the concept of the Archaea was published. At this time, the results of cell wall studies supported the new view of the phylogeny of the Bacteria and Archaea. Many archaea possess proteinaceous surface layers (S layers), which form two-dimensional regular arrays. The chemical s…

Cell wallbiologyBiochemistryMethanothermus fervidusHaloferax volcaniiUltrastructureHalobacterium salinarumMethanosaeta conciliibiology.organism_classificationBacteriaArchaea
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The first successful crystallization of a prokaryotic extremely thermophilic outer surface layer glycoprotein

1999

AbstractMethanoihermus fervidusbelongs to the group of hyperthermophilic Archaea. The Archaea comprise organisms that live under environmental extremes, like high temperature, lowpH value or high salt concentration. The outer surface of the pseudomurein sacculi of the cells ofMethanothermus fervidusis covered by glycoprotein subunits (S-layer) directly exposed to the extreme environment. The elucidation of the crystal structure of this surface glycoprotein may provide important information on the survival strategies of these unusual micro-organisms. Before our investigations neither three-dimensional crystals have been obtained nor X-ray analyses were performed. Only electron microscopic an…

chemistry.chemical_classificationbiologyThermophileCondensed Matter Physicsbiology.organism_classificationlaw.inventionInorganic ChemistryMethanothermuschemistryBiochemistrylawMethanothermus fervidusExtreme environmentGeneral Materials ScienceCrystallizationGlycoproteinBacteriaArchaeaZeitschrift für Kristallographie - Crystalline Materials
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