M
Michael Wagner
Researcher at University of Vienna
Publications - 365
Citations - 61050
Michael Wagner is an academic researcher from University of Vienna. The author has contributed to research in topics: Nitrification & Population. The author has an hindex of 124, co-authored 351 publications receiving 54251 citations. Previous affiliations of Michael Wagner include University of Freiburg & Medical University of Vienna.
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The Domain-specific Probe EUB338 is Insufficient for the Detection of all Bacteria: Development and Evaluation of a more Comprehensive Probe Set
TL;DR: Two supplementary versions of probe EUB338 are designed and evaluated for in situ detection of most of those phyla not detected with this probe, which should allow a more accurate quantification of members of the domain Bacteria in future molecular ecological studies.
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Phylogenetic Oligodeoxynucleotide Probes for the Major Subclasses of Proteobacteria: Problems and Solutions
TL;DR: Based on comparative analyses of 16S and 23S ribosomal RNA sequences, sites specific for the alpha-, beta-, and gamma-subclasses of Proteobacteria are located and will be useful for determinative studies and for the in situ monitoring of population distribution and dynamics in microbial communities.
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Complete nitrification by Nitrospira bacteria
Holger Daims,Elena V. Lebedeva,Petra Pjevac,Ping Han,Craig W. Herbold,Mads Albertsen,Nico Jehmlich,Márton Palatinszky,Julia Vierheilig,A. G. Bulaev,Rasmus Hansen Kirkegaard,Martin von Bergen,Thomas Rattei,Bernd Bendinger,Per Halkjær Nielsen,Michael Wagner +15 more
TL;DR: The discovery and cultivation of a completely nitrifying bacterium from the genus Nitrospira, a globally distributed group of nitrite oxidizers, and the genome of this chemolithoautotrophic organism encodes the pathways both for ammonia and nitrite oxidation.
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Sponge-Associated Microorganisms: Evolution, Ecology, and Biotechnological Potential
TL;DR: The ecology of sponge-microbe associations is examined, including the establishment and maintenance of these sometimes intimate partnerships, the varied nature of the interactions (ranging from mutualism to host-pathogen relationships), and the broad-scale patterns of symbiont distribution.
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Deciphering the evolution and metabolism of an anammox bacterium from a community genome
Marc Strous,Eric Pelletier,Sophie Mangenot,Thomas Rattei,Angelika Lehner,Angelika Lehner,Michael W. Taylor,Matthias Horn,Holger Daims,Delphine Bartol-Mavel,Patrick Wincker,Valérie Barbe,Nuria Fonknechten,David Vallenet,Béatrice Ségurens,Chantal Schenowitz-Truong,Claudine Médigue,Astrid Collingro,Berend Snel,Bas E. Dutilh,Huub J. M. Op den Camp,Chris van der Drift,Irina Cirpus,Katinka T. van de Pas-Schoonen,Harry R. Harhangi,Laura van Niftrik,Laura van Niftrik,Markus Schmid,Jan T. Keltjens,Jack van de Vossenberg,Boran Kartal,Harald Meier,Dmitrij Frishman,Martijn A. Huynen,Hans-Werner Mewes,Jean Weissenbach,Mike S. M. Jetten,Mike S. M. Jetten,Michael Wagner,Denis Le Paslier +39 more
TL;DR: This work uses environmental genomics—the reconstruction of genomic data directly from the environment—to assemble the genome of the uncultured anammox bacterium Kuenenia stuttgartiensis from a complex bioreactor community, and identifies candidate genes responsible for ladderane biosynthesis and biological hydrazine metabolism.