Chromosome-level genome assembly and annotation of Corallium rubrum : a Mediterranean coral threatened by overharvesting and climate change

  1. Jean-Baptiste Ledoux
  2. Jessica Gomez-Garrido
  3. Fernando Cruz
  4. Francisco Camara Ferreira
  5. Ana Matos
  6. Xenia Sarropoulou
  7. Sandra Ramirez-Calero
  8. Didier Aurelle
  9. Paula Lopez-Sendino
  10. Natalie Grayson
  11. Bradley Moore
  12. Agostinho Antunes
  13. Laura Aguilera
  14. Marta Gut
  15. Judit Salces-Ortiz
  16. Rosa Fernández
  17. Cristina Linares
  18. Joaquim Garrabou
  19. Tyler Alioto
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Abstract

Reference genomes are key resources in biodiversity conservation. Yet, sequencing efforts are not evenly distributed in the tree of life questioning our true ability to enlighten conservation with genomic data. Good quality reference genomes remain scarce in octocorals while these species are highly relevant target for conservation. Here, we present the first annotated reference genome in the red coral, Corallium rubrum (Linnaeus, 1758), a habitat-forming octocoral from the Mediterranean and neighboring Atlantic, impacted by overharvesting and anthropogenic warming-induced mass mortality events. Combining long reads from Oxford Nanopore Technologies (ONT), Illumina paired-end reads for improving the base accuracy of the ONT-based genome assembly and Arima Hi-C contact data to place the sequences into chromosomes, we assembled a genome of 475 Mb (21 chromosomes, 326 scaffolds) with contig and scaffold N50 of 1.6 Mb and 16.2 Mb, respectively. Fifty percent of the sequence (L50) was contained in eight superscaffolds. The consensus quality (QV) of the final assembly was 42 and the gene completeness reported by BUSCO was 74% (metazoa_odb10 database). We annotated 39,114 protein-coding genes and 32,678 non-coding transcripts. This annotated chromosome-level genome assembly, one of the first in octocorals, is currently used in a project based on whole genome re-sequencing dedicated to the conservation and management of C. rubrum .

Significance Statement

The Mediterranean red coral, Corallium rubrum , is critically impacted by overharvesting and by mass mortality events linked to marine heat waves. Accordingly, C. rubrum is increasingly receiving conservation efforts. Previous population genetics studies based on microsatellites contributed to improving our knowledge of the species ecology. Yet, crucial questions regarding, admixture among lineages, demographic history, effective population sizes and local adaptation, are still open owing to a lack of genomic resources. Here, we present the first chromosome-level genome assembly for the species with high contiguity, good completeness and protein-coding genes and repeat sequence annotations. This genome, one of the first in octocorals, will pave the way for the integration of population genomics data into ongoing interdisciplinary conservation efforts dedicated to C. rubrum .

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  1. Version published to 10.1101/2024.07.13.603384v1 on bioRxiv