A conspicuous nickel protein in microbial mats that oxidize methane anaerobically
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Rudolf Amann | Michael Kube | Richard Reinhardt | Seigo Shima | R. Amann | F. Glöckner | R. Reinhardt | F. Widdel | M. Kube | S. Shima | R. Thauer | M. Krüger | A. Meyerdierks | J. Kahnt | Frank Oliver Glöckner | Friedrich Widdel | Anke Meyerdierks | Martin Krüger | Jörg Kahnt | Rudolf K. Thauer | Reinhard Böcher | R. Böcher | Frank Oliver Glöckner | Rudolf K. Thauer
[1] A. Zehnder,et al. Methane formation and methane oxidation by methanogenic bacteria , 1979, Journal of bacteriology.
[2] E. Delong,et al. Multiple archaeal groups mediate methane oxidation in anoxic cold seep sediments , 2002, Proceedings of the National Academy of Sciences of the United States of America.
[3] S. Kasten,et al. Deep sulfate reduction completely mediated by anaerobic methane oxidation in sediments of the upwelling area off Namibia , 1998 .
[4] E. Delong,et al. Methane-Consuming Archaea Revealed by Directly Coupled Isotopic and Phylogenetic Analysis , 2001, Science.
[5] E. Hopmans,et al. Archaeal lipids in Mediterranean Cold Seeps : Molecular proxies for anaerobic methane oxidation , 2001 .
[6] E. Suess,et al. Anaerobic methane oxidation associated with marine gas hydrates: superlight C-isotopes from saturated and unsaturated C20 and C25 irregular isoprenoids , 1999, Naturwissenschaften.
[7] R. Conrad,et al. Molecular analyses of methyl-coenzyme M reductase alpha-subunit (mcrA) genes in rice field soil and enrichment cultures reveal the methanogenic phenotype of a novel archaeal lineage. , 2001, Environmental microbiology.
[8] Rudolf Amann,et al. Microbial Reefs in the Black Sea Fueled by Anaerobic Oxidation of Methane , 2002, Science.
[9] R. Giegerich,et al. GenDB--an open source genome annotation system for prokaryote genomes. , 2003, Nucleic acids research.
[10] J. Schilling,et al. Olivine from Reykjanes ridge and Iceland tholeiites, and its significance to the two-mantle source model , 1976 .
[11] Sophie Schbath,et al. An Efficient Statistic to Detect Over-and Under-Represented Words in DNA Sequences , 1997, J. Comput. Biol..
[12] Robert A. Berner,et al. Methane Production in the Interstitial Waters of Sulfate-Depleted Marine Sediments , 1974, Science.
[13] M. N. Poglazova,et al. Bacterial mats on coral-like structures at methane seeps in the Black Sea , 1997 .
[14] Bo Barker Jørgensen,et al. Anaerobic methane oxidation rates at the sulfate‐methane transition in marine sediments from Kattegat and Skagerrak (Denmark) , 1985 .
[15] Jens Harder,et al. Anaerobic methane oxidation by bacteria employing 14C-methane uncontaminated with 14C-carbon monoxide , 1997 .
[16] K. Nauhaus,et al. In vitro demonstration of anaerobic oxidation of methane coupled to sulphate reduction in sediment from a marine gas hydrate area. , 2002, Environmental microbiology.
[17] R. Thauer. Biochemistry of methanogenesis: a tribute to Marjory Stephenson. 1998 Marjory Stephenson Prize Lecture. , 1998, Microbiology.
[18] T. Tourova,et al. Phylogenetic Diversity of the Archaeal Component in Microbial Mats on Coral-like Structures Associated with Methane Seeps in the Black Sea , 2002, Microbiology.
[19] Olaf Pfannkuche,et al. A marine microbial consortium apparently mediating anaerobic oxidation of methane , 2000, Nature.
[20] J. Tiedje,et al. DNA recovery from soils of diverse composition , 1996, Applied and environmental microbiology.
[21] D. Lynn,et al. Synonymous codon usage is subject to selection in thermophilic bacteria. , 2002, Nucleic acids research.
[22] D. Valentine,et al. New perspectives on anaerobic methane oxidation. , 2000, Environmental microbiology.
[23] R. Barnes,et al. Methane production and consumption in anoxic marine sediments , 1976 .
[24] E. Delong,et al. Identification of Methyl Coenzyme M Reductase A (mcrA) Genes Associated with Methane-Oxidizing Archaea , 2003, Applied and Environmental Microbiology.
[25] Peter G. Brewer,et al. Methane-consuming archaebacteria in marine sediments , 1999, Nature.
[26] M. Blaser,et al. Evolutionary implications of microbial genome tetranucleotide frequency biases. , 2003, Genome research.
[27] Tori M. Hoehler,et al. Field and laboratory studies of methane oxidation in an anoxic marine sediment: Evidence for a methanogen‐sulfate reducer consortium , 1994 .
[28] K. Finster,et al. ANAEROBIC METHANE OXIDATION IN SULFATE DEPLETED SEDIMENTS : EFFECTS OF SULFATE AND MOLYBDATE ADDITIONS , 1998 .
[29] W. Reeburgh,et al. METHANE CONSUMPTION IN CARIACO TRENCH WATERS AND SEDIMENTS , 1976 .
[30] B. Jørgensen,et al. Algal and archaeal polyisoprenoids in a recent marine sediment: Molecular isotopic evidence for anaerobic oxidation of methane , 2001 .