Discovery of extremely halophilic, methyl-reducing euryarchaea provides insights into the evolutionary origin of methanogenesis. - Wikidata - thesis-toulmin - TriplyDB

Discovery of extremely halophilic, methyl-reducing euryarchaea provides insights into the evolutionary origin of methanogenesis.

Discovery of extremely halophilic, methyl-reducing euryarchaea provides insights into the evolutionary origin of methanogenesis.

http://www.wikidata.org/entity/Q36384329

about

Genomic exploration of the diversity, ecology, and evolution of the archaeal domain of life.Genomic analysis of methanogenic archaea reveals a shift towards energy conservation Metabolic shift at the class level sheds light on adaptation of methanogens to oxidative environments.Microbial community structure and diversity within hypersaline Keke Salt Lake environments.Methanogens: biochemical background and biotechnological applications.Crystal structures reveal an elusive functional domain of pyrrolysyl-tRNA synthetase.Proteomic Analysis of Methanonatronarchaeum thermophilum AMET1, a Representative of a Putative New Class of Euryarchaeota, "Methanonatronarchaeia".Revival of Archaeal Methane Microbiology.Archaeal evolution: The methanogenic roots of Archaea.High-Quality Draft Single-Cell Genome Sequence Belonging to the Archaeal Candidate Division SA1, Isolated from Nereus Deep in the Red Sea.Identification of a unique Radical SAM methyltransferase required for the sp3-C-methylation of an arginine residue of methyl-coenzyme M reductase.The hunt for the most-wanted chemolithoautotrophic spookmicrobes.Insights into the ecology, evolution, and metabolism of the widespread Woesearchaeotal lineages.A metagenomics roadmap to the uncultured genome diversity in hypersaline soda lake sediments Sulfur Respiration in a Group of Facultatively Anaerobic Natronoarchaea Ubiquitous in Hypersaline Soda Lakes Physical foundations of biological complexity Metabolic marker gene mining provides insight in global diversity and, coupled with targeted genome reconstruction, sheds further light on metabolic potential of the Origin and Evolution of Flavin-Based Electron Bifurcating Enzymes

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Discovery of extremely halophilic, methyl-reducing euryarchaea provides insights into the evolutionary origin of methanogenesis.

http://www.wikidata.org/entity/Q36384329

description

2017 nî lūn-bûn

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Discovery of extremely halophi ...... nary origin of methanogenesis.

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Discovery of extremely halophi ...... nary origin of methanogenesis.

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Discovery of extremely halophi ...... nary origin of methanogenesis.

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Discovery of extremely halophi ...... nary origin of methanogenesis.

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Discovery of extremely halophi ...... nary origin of methanogenesis.

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Discovery of extremely halophi ...... nary origin of methanogenesis.

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NMICROBIOL.2017.81

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Nature Microbiology

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Discovery of extremely halophi ...... nary origin of methanogenesis.

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Alexander Y Merkel

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Ben Abbas

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Dimitry Y Sorokin

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Erwin A Galinski

http://www.w3.org/2001/XMLSchema#string

Manuel Ferrer

http://www.w3.org/2001/XMLSchema#string

Mark C M van Loosdrecht

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María Carmen Mena

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Sergio Ciordia

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The genome sequence of Methanosphaera stadtmanae reveals why this human intestinal archaeon is restricted to methanol and H2 for methane formation and ATP synthesis.

Isolation and characterization of methanophenazine and function of phenazines in membrane-bound electron transport of Methanosarcina mazei Gö1

The HHpred interactive server for protein homology detection and structure prediction

Gapped BLAST and PSI-BLAST: a new generation of protein database search programs

MUSCLE: multiple sequence alignment with high accuracy and high throughput

Methanogenesis and the Wood-Ljungdahl Pathway: An Ancient, Versatile, and Fragile Association

New algorithms and methods to estimate maximum-likelihood phylogenies: assessing the performance of PhyML 3.0

EMBOSS: the European Molecular Biology Open Software Suite

FastTree 2--approximately maximum-likelihood trees for large alignments

On Estimation of a Probability Density Function and Mode

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nmicrobiol.2017.81

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10.1038/NMICROBIOL.2017.81

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