Structure, biosynthesis, and physicochemical properties of archaebacterial lipids
about
The origin of a derived superkingdom: how a gram-positive bacterium crossed the desert to become an archaeonPhylogenomic investigation of phospholipid synthesis in archaeaPhospholipid Fatty Acid Composition of the Syntrophic Anaerobic Bacterium Syntrophomonas wolfeiBacterial evolutionBiosynthesis of ether-type polar lipids in archaea and evolutionary considerationsLipids as a common interest of microorganisms and geochemistsRumen methanogens and mitigation of methane emission by anti-methanogenic compounds and substancesStructural adaptations of proteins to different biological membranes.CREST--a large and diverse superfamily of putative transmembrane hydrolases.A phylogenomic census of molecular functions identifies modern thermophilic archaea as the most ancient form of cellular life.Molecular evolution of the hyperthermophilic archaea of the Pyrococcus genus: analysis of adaptation to different environmental conditions.Dibiphytanyl ether lipids in nonthermophilic crenarchaeotesPosttranslational protein modification in Archaea.Effect of physical constraints on the mechanisms of membrane fusion: bolaform lipid vesicles as model systemsMicrobial communities from methane hydrate-bearing deep marine sediments in a forearc basin.Studies of archaebacterial bipolar tetraether liposomes by perylene fluorescenceTwo-photon fluorescence microscopy studies of bipolar tetraether giant liposomes from thermoacidophilic archaebacteria Sulfolobus acidocaldarius.Biogeochemical evidence that thermophilic archaea mediate the anaerobic oxidation of methane.Intracellular localization of a group II chaperonin indicates a membrane-related function.3-Hydroxy-3-methylglutaryl-coenzyme A reductase from Haloferax volcanii: purification, characterization, and expression in Escherichia coliThe efficacy of mitochondrial targeting antiresistant epirubicin liposomes in treating resistant leukemia in animals3-hydroxy-3-methylglutaryl coenzyme A reductase of Sulfolobus solfataricus: DNA sequence, phylogeny, expression in Escherichia coli of the hmgA gene, and purification and kinetic characterization of the gene product.N-Linked Glycans Are Assembled on Highly Reduced Dolichol Phosphate Carriers in the Hyperthermophilic Archaea Pyrococcus furiosus.Widespread occurrence of structurally diverse tetraether membrane lipids: evidence for the ubiquitous presence of low-temperature relatives of hyperthermophiles.Practical considerations for conducting ecotoxicity test methods with manufactured nanomaterials: what have we learnt so far?Freeze-fracture planes of methanogen membranes correlate with the content of tetraether lipidsThe Effect of Dietary Replacement of Ordinary Rice with Red Yeast Rice on Nutrient Utilization, Enteric Methane Emission and Rumen Archaeal Diversity in GoatsArchaeal and bacterial glycerol dialkyl glycerol tetraether lipids in hot springs of yellowstone national park.Proportions of diether, macrocyclic diether, and tetraether lipids in Methanococcus jannaschii grown at different temperatures.Effects of antimicrobial peptides on methanogenic archaea.Dual coenzyme specificity of Archaeoglobus fulgidus HMG-CoA reductase.Factors controlling the distribution of archaeal tetraethers in terrestrial hot springs.The role of tetraether lipid composition in the adaptation of thermophilic archaea to acidity.Methanogens and the diversity of archaebacteria.A study of archaeal enzymes involved in polar lipid synthesis linking amino acid sequence information, genomic contexts and lipid compositionInfluence of Growth Phase, pH, and Temperature on the Abundance and Composition of Tetraether Lipids in the Thermoacidophile Picrophilus torridusNonmarine crenarchaeol in Nevada hot springs.Fatty acid biosynthesis in actinomycetes.Molecular biology of archaebacteria.Identification in Haloferax volcanii of phosphomevalonate decarboxylase and isopentenyl phosphate kinase as catalysts of the terminal enzyme reactions in an archaeal alternate mevalonate pathway.
P2860
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P2860
Structure, biosynthesis, and physicochemical properties of archaebacterial lipids
description
1986 nî lūn-bûn
@nan
1986 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
1986 թվականի մարտին հրատարակված գիտական հոդված
@hy
1986年の論文
@ja
1986年論文
@yue
1986年論文
@zh-hant
1986年論文
@zh-hk
1986年論文
@zh-mo
1986年論文
@zh-tw
1986年论文
@wuu
name
Structure, biosynthesis, and physicochemical properties of archaebacterial lipids
@ast
Structure, biosynthesis, and physicochemical properties of archaebacterial lipids
@en
Structure, biosynthesis, and physicochemical properties of archaebacterial lipids
@nl
type
label
Structure, biosynthesis, and physicochemical properties of archaebacterial lipids
@ast
Structure, biosynthesis, and physicochemical properties of archaebacterial lipids
@en
Structure, biosynthesis, and physicochemical properties of archaebacterial lipids
@nl
prefLabel
Structure, biosynthesis, and physicochemical properties of archaebacterial lipids
@ast
Structure, biosynthesis, and physicochemical properties of archaebacterial lipids
@en
Structure, biosynthesis, and physicochemical properties of archaebacterial lipids
@nl
P2093
P2860
P3181
P1476
Structure, biosynthesis, and physicochemical properties of archaebacterial lipids
@en
P2093
A Gambacorta
P2860
P3181
P407
P577
1986-03-01T00:00:00Z