eLife (Oct 2022)

Little skate genome provides insights into genetic programs essential for limb-based locomotion

  • DongAhn Yoo,
  • Junhee Park,
  • Chul Lee,
  • Injun Song,
  • Young Ho Lee,
  • Tery Yun,
  • Hyemin Lee,
  • Adriana Heguy,
  • Jae Yong Han,
  • Jeremy S Dasen,
  • Heebal Kim,
  • Myungin Baek

DOI
https://doi.org/10.7554/eLife.78345
Journal volume & issue
Vol. 11

Abstract

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The little skate Leucoraja erinacea, a cartilaginous fish, displays pelvic fin driven walking-like behavior using genetic programs and neuronal subtypes similar to those of land vertebrates. However, mechanistic studies on little skate motor circuit development have been limited, due to a lack of high-quality reference genome. Here, we generated an assembly of the little skate genome, with precise gene annotation and structures, which allowed post-genome analysis of spinal motor neurons (MNs) essential for locomotion. Through interspecies comparison of mouse, skate and chicken MN transcriptomes, shared and divergent gene expression profiles were identified. Comparison of accessible chromatin regions between mouse and skate MNs predicted shared transcription factor (TF) motifs with divergent ones, which could be used for achieving differential regulation of MN-expressed genes. A greater number of TF motif predictions were observed in MN-expressed genes in mouse than in little skate. These findings suggest conserved and divergent molecular mechanisms controlling MN development of vertebrates during evolution, which might contribute to intricate gene regulatory networks in the emergence of a more sophisticated motor system in tetrapods.

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