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Single cell atlas of Xenoturbella bocki highlights limited cell-type complexity.

Helen E RobertsonArnau Sebé-PedrósBaptiste SaudemontYann Loe-MieAnne-C ZakrzewskiXavier Grau-BovéMarie-Pierre MailhePhilipp H SchifferMaximilian J TelfordHeather Marlow
Published in: Nature communications (2024)
Phylogenetic analyses over the last two decades have united a few small, and previously orphan clades, the nematodermatids, acoels and xenoturbelids, into the phylum Xenacoelomorpha. Some phylogenetic analyses support a sister relationship between Xenacoelomorpha and Ambulacraria (Xenambulacraria), while others suggest that Xenacoelomorpha may be sister to the rest of the Bilateria (Nephrozoa). An understanding of the cell type complements of Xenacoelomorphs is essential to assessing these alternatives as well as to our broader understanding of bilaterian cell type evolution. Employing whole organism single-cell RNA-seq in the marine xenacoelomorph worm Xenoturbella bocki, we show that Xenambulacrarian nerve nets share regulatory features and a peptidergic identity with those found in cnidarians and protostomes and more broadly share muscle and gland cell similarities with other metazoans. Taken together, these data are consistent with broad homologies of animal gland, muscle, and neurons as well as more specific affinities between Xenoturbella and acoel gut and epidermal tissues, consistent with the monophyly of Xenacoelomorpha.
Keyphrases
  • single cell
  • rna seq
  • skeletal muscle
  • high throughput
  • gene expression
  • transcription factor
  • spinal cord
  • electronic health record
  • big data
  • mesenchymal stem cells
  • data analysis
  • peripheral nerve
  • artificial intelligence