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Metagenomic Exploration of the Marine Sponge <i>Mycale hentscheli</i> Uncovers Multiple Polyketide-Producing Bacterial Symbionts

Mathew A. Storey, Sarah K. Andreassend, Joe Bracegirdle, Alistair S. Brown, Robert A. Keyzers, David F. Ackerley, Peter T. Northcote, Jeremy G. Owen

2020mBio63 citationsDOIOpen Access PDF

Abstract

Mycale hentscheli is a marine sponge that is rich in bioactive small molecules. Here, we use direct metagenomic sequencing to elucidate highly complete and contiguous genomes for the major symbiotic bacteria of this sponge. We identify complete biosynthetic pathways for the three potent cytotoxic polyketides which have previously been isolated from M. hentscheli . Remarkably, and in contrast to previous studies of marine sponges, we attribute each of these metabolites to a different producing microbe. We also find that the microbiome of M. hentscheli is stably maintained among individuals, even over long periods of time. Collectively, our data suggest a cooperative mode of defensive symbiosis in which multiple symbiotic bacterial species cooperatively contribute to the defensive chemical arsenal of the holobiont.

Topics & Concepts

SpongeMetagenomicsPolyketideBiologyComputational biologyEvolutionary biologyGeneticsPaleontologyGeneBiosynthesisMarine Sponges and Natural ProductsMicrobial Natural Products and BiosynthesisSynthetic Organic Chemistry Methods
Metagenomic Exploration of the Marine Sponge <i>Mycale hentscheli</i> Uncovers Multiple Polyketide-Producing Bacterial Symbionts | Litcius