Cell Reports (Oct 2024)

Protein profiling of zebrafish embryos unmasks regulatory layers during early embryogenesis

  • Gabriel da Silva Pescador,
  • Danielson Baia Amaral,
  • Joseph M. Varberg,
  • Ying Zhang,
  • Yan Hao,
  • Laurence Florens,
  • Ariel A. Bazzini

Journal volume & issue
Vol. 43, no. 10
p. 114769

Abstract

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Summary: The maternal-to-zygotic transition is crucial in embryonic development, marked by the degradation of maternally provided mRNAs and initiation of zygotic gene expression. However, the changes occurring at the protein level during this transition remain unclear. Here, we conducted protein profiling throughout zebrafish embryogenesis using quantitative mass spectrometry, integrating transcriptomics and translatomics datasets. Our data show that, unlike RNA changes, protein changes are less dynamic. Further, increases in protein levels correlate with mRNA translation, whereas declines in protein levels do not, suggesting active protein degradation processes. Interestingly, proteins from pure zygotic genes are present at fertilization, challenging existing mRNA-based gene classifications. As a proof of concept, we utilized CRISPR-Cas13d to target znf281b mRNA, a gene whose protein significantly accumulates within the first 2 h post-fertilization, demonstrating its crucial role in development. Consequently, our protein profiling, coupled with CRISPR-Cas13d, offers a complementary approach to unraveling maternal factor function during embryonic development.

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