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    • Project Groups
      • Evolution and Ecology
        • A1 | Molecular basis and evolutionary dynamics of C. elegans-microbiota interactions
        • A2 | Host-microbiota coevolution in the mammalian intestine
        • A3 | Domestication-driven metaorganism evolution of wheat
        • A4 | Mathematical modeling of interactions in evolving metaorganisms
      • Recognition and Communication
        • B1 | Host-microbe cross talk in the early metazoan taxa Porifera and anthozoan Cnidaria
        • B2 | Microbiota-host interactions at the base of the metazoan tree
      • Function and Life History
        • C1 | Towards understanding an ultimately simple metaorganism: impact of symbiotic microbes and algae on developmental processes of Hydra and their adaptation within the host
        • C2 | Effects of malnutrition on epithelia-microbe interactions in the intestinal tract of flies and mice
        • C3 | The life cycle of the deep-sea Bathymodiolus metaorganism: symbiont transmission and colonization of the host gill epithelium
      • Science Support
        • Z1 | Administration and coordination of the CRC 1182
        • Z2 | Microorganism: Culture and single cell analysis
        • Z3 | Next generation sequencing applications for studying metaorganisms
        • INF | Data management and integrated analyses
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    • CRC 1182 Talks
    • CRC 1182 Metaorganism Seminar
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    • CRC 1182 Young Investigator Research Day (YIRD)
    • CRC 1182 Retreat
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      • CRC 1182 Young Investigator Award
      • CRC 1182 Lynn Margulis Fund
      • CRC 1182 Karl August Möbius Fellowship
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Research Results

Recent CRC 1182 Publications

Cultivable microbiota associated with Aurelia aurita and Mnemiopsis leidyi

Weiland-Bräuer N, Prasse D, Brauer A, Jaspers C, Reusch TBH, Schmitz RA (2020) MicrobiologyOpen, accepted

Differences in the microbiota of native and non-indigenous gelatinous zooplankton organisms in a low saline environment

Jaspers C, Weiland-Bräuer N, Rühlemann MC, Baines JF, Schmitz RA, Reusch TBH (2020) Science of the Total Environment, accepted

A high-fat diet induces a microbiota-dependent increase in stem cell activity in the Drosophila intestine.

von Frieling J, Faisal MN, Sporn F, Pfefferkorn R, Nolte SS, Sommer F, Rosenstiel P, Roeder T (2020) PLoS Genetics. published 26 May, doi: 10.1371/journal.pgen.1008789

Furbellow (brown algae) extract increases lifespan Drosophila by interfering with TOR-signalling.

Li Y, Romey-Glüsing R, Tahan Zadeh T, von Frieling J, Hoffmann J, Huebbe P, Bruchhaus I, Rimbach G, Fink C, Roeder T (2020) Nutrients. 12:1172, doi:10.3390/nu12041172

FeaturedA fungal pathogen induces systemic susceptibility and systemic shifts in wheat metabolome and microbiome composition

Seybold H, Demetrowitsch TJ, Hassani M A, Szymczak S, Reim E, Haueisen J, Lübbers L, Rühlemann M, Franke A, Schwarz k, H. Stukenbrock E (2020) Nature Communications. 11(1):1910. doi: 10.1038/s41467-020-15633-x

Dynamic interactions within the host-associated microbiota cause tumor formation in the basal metazoan Hydra.

Rathje K, Mortzfeld B, Hoeppner MP, Taubenheim J, Bosch TCG, Klimovich A (2020) PLOS Pathogen. 16(3):e1008375. doi: 10.1371/journal.ppat.1008375

All Publications
Kiel Life Science
Precision Medicine in Chronic Inflammation
Christian-Albrechts-Universität zu Kiel
GEOMAR - Helmholtz Centre for Ocean Research Kiel
Max Planck Institute for Marine Microbiology
Max Planck Institute for Evolutionary Biology
Deutsche Forschungsgemeinschaft
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