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Higher-Order Interactions Dampen Pairwise Competition in the Zebrafish Gut Microbiome

Deepika Sundarraman, Edouard A. Hay, Dylan M. Martins, Drew S. Shields, Noah L. Pettinari, R. Parthasarathy

2020mBio64 citationsDOIOpen Access PDF

Abstract

Understanding the rules governing the composition of the diverse microbial communities that reside in the vertebrate gut environment will enhance our ability to manipulate such communities for therapeutic ends. Synthetic microbial communities, assembled from specific combinations of microbial species in germfree animals, allow investigation of the fundamental question of whether multispecies community composition can be predicted solely based on the combined effects of interactions between pairs of species. If so, such predictability would enable the construction of communities with desired species from the bottom up. If not, the apparent higher-order interactions imply that emergent community-level characteristics are crucial. Our findings using up to five coexisting native bacterial species in larval zebrafish, a model vertebrate, provide experimental evidence for higher-order interactions and, moreover, show that these interactions promote the coexistence of microbial species in the gut.

Topics & Concepts

Gut microbiomeCompetition (biology)ZebrafishMicrobiomeOrder (exchange)BiologyPairwise comparisonComputational biologyComputer scienceBioinformaticsEcologyBusinessArtificial intelligenceGeneticsGeneFinanceGut microbiota and healthNeuroendocrine regulation and behaviorMental Health Research Topics
Higher-Order Interactions Dampen Pairwise Competition in the Zebrafish Gut Microbiome | Litcius