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Browsing by Person "Starke, Robert"

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    Untersuchung der Energie- und Nährstoffflüsse mikrobieller Gemeinschaften
    (2017) Starke, Robert; Seifert, Jana
    The activity of microorganisms was heavily investigated using the incorporation of stabile isotopes in the last decade. Here, all biomolecules but predominantly DNA, RNA, proteins and phospholipid derived fatty acids are used to trace the label in the biomass of active microbes. Thereby, the phylogenetic information decreases from DNA and RNA to proteins whereas the latter allow to describe the actual phenotype. In this work, protein stable isotope probing (protein-SIP) was applied to two different microbial systems: (a) the anaerobic mineralization of benzene and (b) the assimilation of plant-derived organic matter in soil. Labeling of the secondary metabolism of the benzene-mineralizing and sulfate-reducing community using 13C2-acetate: The well-described microbial community enriched from the Zeitz aquifer was fed with the postulated and fully 13C-labeled intermediate of syntrophic benzene fermentation, acetate, to unveil detailed secondary utilization processes. Additional acetate amended to the ongoing benzene mineralization showed no influence on sulfide produced by sulfate reduction. Instead, labeled acetate was incorporated by Campylobacterales, Syntrophobacterales, Archaeoglobales, Clostridiales and Desulfobacterales in descending order. The epsilonproteobacterial Campylobacterales featured the fastest and the highest 13C-incorporation to confirm previous metagenome-based studies and to assign a physiological role to this phylotype of the community for the first time. Metagenome based labeling of the secondary metabolism of the benzene-mineralizing and sulfate-reducing community: In this study, the population genome of the primary acetate utilizer was reconstructed from the metagenome of the benzene mineralizing community obtained by whole-genome shotgun sequencing. Genomic DNA originated from a starvation enrichment culture previously metabolizing m-xylen and enriched in the identical epsilonproteobacterial phylotype of this community. The presence of the sulfide quinone oxidoreductase (sqr) and the polysulfide reductase (psr) suggested a key role in sulfur cycling. Hence, the epsilonproteobacterial phylotype is able to oxidize otherwise toxic sulfid produced by sulfate reduction to polysulfide via SQR and its subsequent reduction to sulfide via PSR. Further, the detection of an acetate transporter (actP) and the acetyl-CoA synthetase (acsA) for acetate activation approved direct assimilation as shown in the previous study. Short-term assimilation of plant-derived organic matter in soil: In this protein-SIP study, the short-term assimilation of plant-derived organic matter in soil was demonstrated using 15N-labeled tobacco for the first time. In contrast to the postulated model in which fungi degrade plant-derived complex compounds and secrete low molecular weight compounds which are then degraded by bacteria, our study demonstrated the dominance of bacteria over fungi during the short-term assimilation of plant-derived organic matter. Bacteria outcompete fungi for the easy available plant-derived compounds until complex compounds such as cellulose and lignin are enriched and degraded by slow growing fungi. The use of multiOMIC techniques resulted in a multidimensional scheme to easily group and categorize different behaviours of microorganisms.