Nature Communications (Oct 2023)

Low mutation rate in epaulette sharks is consistent with a slow rate of evolution in sharks

  • Ashley T. Sendell-Price,
  • Frank J. Tulenko,
  • Mats Pettersson,
  • Du Kang,
  • Margo Montandon,
  • Sylke Winkler,
  • Kathleen Kulb,
  • Gavin P. Naylor,
  • Adam Phillippy,
  • Olivier Fedrigo,
  • Jacquelyn Mountcastle,
  • Jennifer R. Balacco,
  • Amalia Dutra,
  • Rebecca E. Dale,
  • Bettina Haase,
  • Erich D. Jarvis,
  • Gene Myers,
  • Shawn M. Burgess,
  • Peter D. Currie,
  • Leif Andersson,
  • Manfred Schartl

DOI
https://doi.org/10.1038/s41467-023-42238-x
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 13

Abstract

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Abstract Sharks occupy diverse ecological niches and play critical roles in marine ecosystems, often acting as apex predators. They are considered a slow-evolving lineage and have been suggested to exhibit exceptionally low cancer rates. These two features could be explained by a low nuclear mutation rate. Here, we provide a direct estimate of the nuclear mutation rate in the epaulette shark (Hemiscyllium ocellatum). We generate a high-quality reference genome, and resequence the whole genomes of parents and nine offspring to detect de novo mutations. Using stringent criteria, we estimate a mutation rate of 7×10−10 per base pair, per generation. This represents one of the lowest directly estimated mutation rates for any vertebrate clade, indicating that this basal vertebrate group is indeed a slowly evolving lineage whose ability to restore genetic diversity following a sustained population bottleneck may be hampered by a low mutation rate.