Over the last decade, several coral genomes have been sequenced allowing a better understanding of these symbiotic organisms threatened by climate change. Scleractinian corals are reef builders and are central to these ecosystems, providing habitat and food to a great diversity of species. In the frame of the Tara Pacific expedition, we generated two coral genomes, Porites lobata and Pocillopora meandrina with vastly improved contiguity that allowed us to study the functional organisation of these genomes. We annotated their gene catalog and reported a relatively higher gene number than that found in other public coral genome sequences. This finding is explained by a high number of tandemly duplicated genes, which are generally difficult to assemble and annotate using short-read sequencing technologies. These duplicated genes, which we show to originate from multiple and distinct duplication events in the coral lineage, belong to gene-families linked to the immune system and disease-resistance that we suggest to be functionally linked to coral host resilience. At large, we show the importance of previously missed duplicated genes to inform the biology of reef-building corals and provide novel avenues to understand and screen for differences in stress resilience.
Background Over the last decade, several coral genomes have been sequenced allowing a better understanding of these symbiotic organisms threatened by climate change. Scleractinian corals are reef builders and are central to coral reef ecosystems, providing habitat to a great diversity of species. Results In the frame of the Tara Pacific expedition, we assemble two coral genomes, Porites lobata and Pocillopora cf. effusa, with vastly improved contiguity that allows us to study the functional organization of these genomes. We annotate their gene catalog and report a relatively higher gene number than that found in other public coral genome sequences, 43,000 and 32,000 genes, respectively. This finding is explained by a high number of tandemly duplicated genes, accounting for almost a third of the predicted genes. We show that these duplicated genes originate from multiple and distinct duplication events throughout the coral lineage. They contribute to the amplification of gene families, mostly related to the immune system and disease resistance, which we suggest to be functionally linked to coral host resilience. Conclusions At large, we show the importance of duplicated genes to inform the biology of reef-building corals and provide novel avenues to understand and screen for differences in stress resilience.
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