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Molecular evidence of anteroposterior patterning in adult echinoderms

L. Formery (), P. Peluso, I. Kohnle, J. Malnick, J. R. Thompson, M. Pitel, K. R. Uhlinger, D. S. Rokhsar, D. R. Rank and C. J. Lowe ()
Additional contact information
L. Formery: Stanford University
P. Peluso: Pacific Biosciences
I. Kohnle: Stanford University
J. Malnick: Stanford University
J. R. Thompson: University of Southampton
M. Pitel: Columbia Equine Hospital
K. R. Uhlinger: Stanford University
D. S. Rokhsar: University of California Berkeley
D. R. Rank: Pacific Biosciences
C. J. Lowe: Stanford University

Nature, 2023, vol. 623, issue 7987, 555-561

Abstract: Abstract The origin of the pentaradial body plan of echinoderms from a bilateral ancestor is one of the most enduring zoological puzzles1,2. Because echinoderms are defined by morphological novelty, even the most basic axial comparisons with their bilaterian relatives are problematic. To revisit this classical question, we used conserved anteroposterior axial molecular markers to determine whether the highly derived adult body plan of echinoderms masks underlying patterning similarities with other deuterostomes. We investigated the expression of a suite of conserved transcription factors with well-established roles in the establishment of anteroposterior polarity in deuterostomes3–5 and other bilaterians6–8 using RNA tomography and in situ hybridization in the sea star Patiria miniata. The relative spatial expression of these markers in P. miniata ambulacral ectoderm shows similarity with other deuterostomes, with the midline of each ray representing the most anterior territory and the most lateral parts exhibiting a more posterior identity. Strikingly, there is no ectodermal territory in the sea star that expresses the characteristic bilaterian trunk genetic patterning programme. This finding suggests that from the perspective of ectoderm patterning, echinoderms are mostly head-like animals and provides a developmental rationale for the re-evaluation of the events that led to the evolution of the derived adult body plan of echinoderms.

Date: 2023
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DOI: 10.1038/s41586-023-06669-2

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