Taxonomic and functional analyses of intact microbial communities thriving in extreme, astrobiology-relevant, anoxic sites

MASE was supported by European Community’s Seventh Framework Program (FP7/2007-2013) under Grant Agreement n° 607297. A. Riedo acknowledges the financial support from the Swiss National Science Foundation (SNSF). The authors acknowledge the support of the ZMF Galaxy Team: Core Facility Comutational...

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Bibliographic Details
Published in:Microbiome
Main Authors: Bashir, Alexandra Kristin, Wink, Lisa, Duller, Stefanie, Schwendner, Petra, Cockell, Charles, Rettberg, Petra, Mahnert, Alexander, Beblo-Vranesevic, Kristina, Bohmeier, Maria, Rabbow, Elke, Gaboyer, Frederic, Westall, Frances, Walter, Nicolas, Cabezas, Patricia, Garcia-Descalzo, Laura, Gomez, Felipe, Malki, Mustapha, Amils, Ricardo, Ehrenfreund, Pascale, Monaghan, Euan, Vannier, Pauline, Marteinsson, Viggó Þór, Erlacher, Armin, Tanski, George, Strauss, Jens, Bashir, Mina, Riedo, Andreas, Moissl-Eichinger, Christine
Other Authors: Faculty of Food Science and Nutrition
Format: Article in Journal/Newspaper
Language:English
Published: 2021
Subjects:
Geimurinn
Stjörnulíffræði
Örverur
Rannsóknir
Gerlar
Fornbakteríur
Archaea
Astrobiology
Bacteria
Extraterrestrial life
Extreme environments
Extremophiles
Metagenomics
Microbiomes
Propidium monoazide
Space-analogue
Anaerobiosis
Exobiology
Bacteria/classification
Microbiota/genetics
Metagenome
Microbiology (medical)
Microbiology
607297
permafrost
Online Access:https://hdl.handle.net/20.500.11815/2812
https://doi.org/10.1186/s40168-020-00989-5
Description
Summary:MASE was supported by European Community’s Seventh Framework Program (FP7/2007-2013) under Grant Agreement n° 607297. A. Riedo acknowledges the financial support from the Swiss National Science Foundation (SNSF). The authors acknowledge the support of the ZMF Galaxy Team: Core Facility Comutational Bioanalytics, Medical University of Graz, funded by the Austrian Federal Ministry of Education, Science and Research, Hochschulraum-Strukturmittel 2016 grant as part of BioTechMed Graz. Publisher Copyright: © 2021, The Author(s). BACKGROUND: Extreme terrestrial, analogue environments are widely used models to study the limits of life and to infer habitability of extraterrestrial settings. In contrast to Earth's ecosystems, potential extraterrestrial biotopes are usually characterized by a lack of oxygen. METHODS: In the MASE project (Mars Analogues for Space Exploration), we selected representative anoxic analogue environments (permafrost, salt-mine, acidic lake and river, sulfur springs) for the comprehensive analysis of their microbial communities. We assessed the microbiome profile of intact cells by propidium monoazide-based amplicon and shotgun metagenome sequencing, supplemented with an extensive cultivation effort. RESULTS: The information retrieved from microbiome analyses on the intact microbial community thriving in the MASE sites, together with the isolation of 31 model microorganisms and successful binning of 15 high-quality genomes allowed us to observe principle pathways, which pinpoint specific microbial functions in the MASE sites compared to moderate environments. The microorganisms were characterized by an impressive machinery to withstand physical and chemical pressures. All levels of our analyses revealed the strong and omnipresent dependency of the microbial communities on complex organic matter. Moreover, we identified an extremotolerant cosmopolitan group of 34 poly-extremophiles thriving in all sites. CONCLUSIONS: Our results reveal the presence of a core microbiome and microbial taxonomic ...

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