iScience (Apr 2024)

Quantitative proteome dynamics across embryogenesis in a model chordate

  • Alexander N. Frese,
  • Andrea Mariossi,
  • Michael S. Levine,
  • Martin Wühr

Journal volume & issue
Vol. 27, no. 4
p. 109355

Abstract

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Summary: The evolution of gene expression programs underlying the development of vertebrates remains poorly characterized. Here, we present a comprehensive proteome atlas of the model chordate Ciona, covering eight developmental stages and ∼7,000 translated genes, accompanied by a multi-omics analysis of co-evolution with the vertebrate Xenopus. Quantitative proteome comparisons argue against the widely held hourglass model, based solely on transcriptomic profiles, whereby peak conservation is observed during mid-developmental stages. Our analysis reveals maximal divergence at these stages, particularly gastrulation and neurulation. Together, our work provides a valuable resource for evaluating conservation and divergence of multi-omics profiles underlying the diversification of vertebrates.

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