The Gene-Rich Genome of the ScallopPecten maximus

  1. Nathan J Kenny
  2. Shane A McCarthy
  3. Olga Dudchenko
  4. Katherine James
  5. Emma Betteridge
  6. Craig Corton
  7. Jale Dolucan
  8. Dan Mead
  9. Karen Oliver
  10. Arina D Omer
  11. Sarah Pelan
  12. Yan Ryan
  13. Ying Sims
  14. Jason Skelton
  15. Michelle Smith
  16. James Torrance
  17. David Weisz
  18. Anil Wipat
  19. Erez L Aiden
  20. Kerstin Howe
  21. Suzanne T Williams
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Abstract

Background

The King Scallop,Pecten maximus, is distributed in shallow waters along the Atlantic coast of Europe. It forms the basis of a valuable commercial fishery and its ubiquity means that it plays a key role in coastal ecosystems and food webs. Like other filter feeding bivalves it can accumulate potent phytotoxins, to which it has evolved some immunity. The molecular origins of this immunity are of interest to evolutionary biologists, pharmaceutical companies and fisheries management.

Findings

Here we report the genome sequencing of this species, conducted as part of the Wellcome Sanger 25 Genomes Project. This genome was assembled from PacBio reads and scaffolded with 10x Chromium and Hi-C data, and its 3,983 scaffolds have an N50 of 44.8 Mb (longest scaffold 60.1 Mb), with 92% of the assembly sequence contained in 19 scaffolds, corresponding to the 19 chromosomes found in this species. The total assembly spans 918.3 Mb, and is the best-scaffolded marine bivalve genome published to date, exhibiting 95.5% recovery of the metazoan BUSCO set. Gene annotation resulted in 67,741 gene models. Analysis of gene content revealed large numbers of gene duplicates, as previously seen in bivalves, with little gene loss, in comparison with the sequenced genomes of other marine bivalve species.

Conclusions

The genome assembly ofPecten maximusand its annotated gene set provide a high-quality platform for a wide range of investigations, including studies on such disparate topics as shell biomineralization, pigmentation, vision and resistance to algal toxins. As a result of our findings we highlight the sodium channel geneNav1, known as a gene conferring resistance to saxitoxin and tetrodotoxin, as a candidate for further studies investigating immunity to domoic acid.

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