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Article

A genome-centric view of the role of the Acropora kenti microbiome in coral health and resilience

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Citation

Messer LF, Bourne DG, Robbins SJ, Clay M, Bell SC, McIlroy SJ & Tyson GW (2024) A genome-centric view of the role of the Acropora kenti microbiome in coral health and resilience. Nature Communications, 15, Art. No.: 2902. https://doi.org/10.1038/s41467-024-46905-5

Abstract
Microbial diversity has been extensively explored in reef-building corals. However, the functional roles of coral-associated microorganisms remain poorly elucidated. Here, we recover 191 bacterial and 10 archaeal metagenome-assembled genomes (MAGs) from the coral Acropora kenti (formerly A. tenuis) and adjacent seawater, to identify microbial functions and metabolic interactions within the holobiont. We show that 82 MAGs were specific to the A. kenti holobiont, including members of the Pseudomonadota, Bacteroidota, and Desulfobacterota. A. kenti-specific MAGs displayed significant differences in their genomic features and functional potential relative to seawater-specific MAGs, with a higher prevalence of genes involved in host immune system evasion, nitrogen and carbon fixation, and synthesis of five essential B-vitamins. We find a diversity of A. kenti-specific MAGs encode the biosynthesis of essential amino acids, such as tryptophan, histidine, and lysine, which cannot be de novo synthesised by the host or Symbiodiniaceae. Across a water quality gradient spanning 2° of latitude, A. kenti microbial community composition is correlated to increased temperature and dissolved inorganic nitrogen, with corresponding enrichment in molecular chaperones, nitrate reductases, and a heat-shock protein. We reveal mechanisms of A. kenti-microbiome-symbiosis on the Great Barrier Reef, highlighting the interactions underpinning the health of this keystone holobiont.

Keywords
coral microbiome; holobiont metagenomics; symbiosis

Journal
Nature Communications: Volume 15

StatusPublished
Funders
Publication date04/04/2024
Publication date online04/04/2024
Date accepted by journal13/03/2024
URL
PublisherSpringer Science and Business Media LLC
eISSN2041-1723

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Dr Lauren Messer

Dr Lauren Messer

Post Doctoral Research Fellow, Biological and Environmental Sciences

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