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Host-Microbe Interactions in the Chemosynthetic Riftia pachyptila Symbiosis (2019)

Hinzke, Tjorven ; Kleiner, Manuel ; Breusing, Corinna ; [et al.]

American Society for Microbiology

In: mBio, 10 (6). e02243-19.

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Publication Date: 2022-01-31

Description: The deep-sea tubeworm Riftia pachyptila lacks a digestive system but completely relies on bacterial endosymbionts for nutrition. Although the symbiont has been studied in detail on the molecular level, such analyses were unavailable for the animal host, because sequence information was lacking. To identify host-symbiont interaction mechanisms, we therefore sequenced the Riftia transcriptome, which served as a basis for comparative metaproteomic analyses of symbiont-containing versus symbiont-free tissues, both under energy-rich and energy-limited conditions. Our results suggest that metabolic interactions include nutrient allocation from symbiont to host by symbiont digestion and substrate transfer to the symbiont by abundant host proteins. We furthermore propose that Riftia maintains its symbiont by protecting the bacteria from oxidative damage while also exerting symbiont population control. Eukaryote-like symbiont proteins might facilitate intracellular symbiont persistence. Energy limitation apparently leads to reduced symbiont biomass and increased symbiont digestion. Our study provides unprecedented insights into host-microbe interactions that shape this highly efficient symbiosis.

Type: Article , PeerReviewed

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The Native Microbiome is Crucial for Offspring Generation and Fitness of Aurelia Aurita (2020)

Weiland-Bräuer, Nancy ; Pinnow, Nicole ; Langfeldt, Daniela ; [et al.]

American Society for Microbiology

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Publication Date: 2023-02-08

Description: All multicellular organisms are associated with microbial communities, ultimately forming a metaorganism. Several studies conducted on well-established model organisms point to immunological, metabolic, and behavioral benefits of the associated microbiota for the host. Consequently, a microbiome can influence the physiology of a host; moreover, microbial community shifts can affect host health and fitness. The present study aimed to evaluate the significance and functional role of the native microbiota for life cycle transitions and fitness of the cnidarian moon jellyfish Aurelia aurita. A comprehensive host fitness experiment was conducted studying the polyp life stage and integrating 12 combinations of treatments with microbiota modification (sterile conditions, foreign food bacteria, and potential pathogens). Asexual reproduction, e.g., generation of daughter polyps, and the formation and release of ephyrae were highly affected in the absence of the native microbiota, ultimately resulting in a halt of strobilation and ephyra release. Assessment of further fitness traits showed that health, growth, and feeding rate were decreased in the absence and upon community changes of the native microbiota, e.g., when challenged with selected bacteria. Moreover, changes in microbial community patterns were detected by 16S rRNA amplicon sequencing during the course of the experiment. This demonstrated that six operational taxonomic units (OTUs) significantly correlated and explained up to 97% of fitness data variability, strongly supporting the association of impaired fitness with the absence/presence of specific bacteria. Conclusively, our study provides new insights into the importance and function of the microbiome for asexual reproduction, health, and fitness of the basal metazoan A. aurita.

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Host-microbe interactions in the chemosynthetic Riftia pachyptila symbiosis (2020)

Hinzke, Tjorven ; Kleiner, Manuel ; Breusing, Corinna ; [et al.]

American Society for Microbiology

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Publication Date: 2022-05-26

Description: © The Author(s), 2019. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Hinzke, T., Kleiner, M., Breusing, C., Felbeck, H., Häsler, R., Sievert, S. M., Schlüter, R., Rosenstiel, P., Reusch, T. B. H., Schweder, T., & Markert, S. Host-microbe interactions in the chemosynthetic Riftia pachyptila symbiosis. Mbio, 10(6), (2019): e02243-19, doi:10.1128/mBio.02243-19.

Description: This work was supported by the German Research Foundation DFG (grant MA 6346/2-1 to S.M., grant BR 5488/1-1 to C.B.), the German Academic Exchange Service DAAD (T.H.), a fellowship of the Institute of Marine Biotechnology Greifswald (T.H.), the Canada Foundation for Innovation, the Government of Alberta and the Natural Sciences and Engineering Research Council of Canada NSERC through a Banting Fellowship (M.K.), the U.S. National Science Foundation (grants OCE-0452333, OCE-1136727, OCE-1131095, and OCE-1559198 to S.M.S.), and the WHOI Investment in Science Fund (S.M.S.). P.R. was supported by a grant from the DFG CCGA Comprehensive Center for Genome Analysis, Kiel, and the DFG CRC1182 “Origin and Function of Metaorganisms.” R.H. and T.B.H.R. were supported by the DFG CRC1182 “Origin and Function of Metaorganisms,” subprojects B2, Z3, and INF.

Keywords: host-microbe interactions ; symbiosis ; holobiont ; chemosynthesis ; hydrothermal vents ; metaproteomics

Repository Name: Woods Hole Open Access Server

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