Chromosome-level genome assembly of a benthic associated Syngnathiformes species: the common dragonet,Callionymus lyra

  1. Sven Winter
  2. Stefan Prost
  3. Jordi de Raad
  4. Raphael T. F. Coimbra
  5. Magnus Wolf
  6. Marcel Nebenführ
  7. Annika Held
  8. Melina Kurzawe
  9. Ramona Papapostolou
  10. Jade Tessien
  11. Julian Bludau
  12. Andreas Kelch
  13. Sarah Gronefeld
  14. Yannis Schöneberg
  15. Christian Zeitz
  16. Konstantin Zapf
  17. David Prochotta
  18. Maximilian Murphy
  19. Monica M. Sheffer
  20. Moritz Sonnewald
  21. Maria A. Nilsson
  22. Axel Janke
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Abstract

Background

The common dragonet,Callionymus lyra, is one of threeCallionymusspecies inhabiting the North Sea. All three species show strong sexual dimorphism. The males show strong morphological differentiation, e.g., species-specific colouration and size relations, while the females of different species have few distinguishing characters.Callionymusbelongs to the ‘benthic associated clade’ of the order Syngnathiformes. The ‘benthic associated clade’ so far is not represented by genome data and serves as an important outgroup to understand the morphological transformation in ‘long-snouted’ syngnatiforms such as seahorses and pipefishes.

Findings

Here, we present the chromosome-level genome assembly ofC. lyra. We applied Oxford Nanopore Technologies’ long-read sequencing, short-read DNBseq, and proximity-ligation-based scaffolding to generate a high-quality genome assembly. The resulting assembly has a contig N50 of 2.2 Mbp, a scaffold N50 of 26.7 Mbp. The total assembly length is 568.7 Mbp, of which over 538 Mbp were scaffolded into 19 chromosome-length scaffolds. The identification of 94.5% of complete BUSCO genes indicates high assembly completeness. Additionally, we sequenced and assembled a multi-tissue transcriptome with a total length of 255.5 Mbp that was used to aid the annotation of the genome assembly. The annotation resulted in 19,849 annotated transcripts and identified a repeat content of 27.66%.

Conclusions

The chromosome-level assembly ofC. lyraprovides a high-quality reference genome for future population genomic, phylogenomic, and phylogeographic analyses.

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