Zygotic genome activation is timed by the egg DNA-to-cytoplasm ratio across animals

  1. Israel Campo-Bes
  2. Federica Mantica
  3. Jon Permanyer
  4. Cristina Rodriguez-Marin
  5. Kero Guynes
  6. Tot Senar-Serra
  7. Gonzalo Quiroga-Artigas
  8. Yan Liang
  9. Allan M. Carrillo-Baltodano
  10. Josefa Cruz
  11. Rossella Annunziata
  12. Sandra Chevalier
  13. Marta Iglesias
  14. Fumiaki Sugahara
  15. Yi-Jyun Luo
  16. Anna Schoenauer
  17. Jorge Corbacho
  18. Periklis Paganos
  19. Filomena Caccavale
  20. Rosa Maria Sepe
  21. Luis P. Iniguez
  22. Mette Handberg-Thorsager
  23. Christina Zakas
  24. Ralf J. Sommer
  25. Maria Ina Arnone
  26. Alistair P. McGregor
  27. Juan R. Martinez-Morales
  28. Noriyuki Satoh
  29. Hector Escriva
  30. Stephanie Bertrand
  31. Arnau Sebe-Pedros
  32. Enrico D'Aniello
  33. Juan Pascual-Anaya
  34. Evelyn Houliston
  35. Xavier Franch-Marro
  36. David Martin
  37. Ildiko M.L. Somorjai
  38. Isabel Almudi
  39. Jose M. Martin-Duran
  40. Yi-Hsien Su
  41. Alejandro Burga
  42. Salvatore D'Aniello
  43. Manuel Irimia
1 evaluations Published on
Read the full article Related papers
This article on Sciety

Abstract

During early animal embryogenesis, gene expression control shifts from maternally deposited products to newly transcribed RNA through zygotic genome activation (ZGA). Although essential and universal, ZGA remains poorly understood outside a few model species. Here, we generated a transcriptomic atlas of early embryogenesis across 61 animal species from 13 phyla and used a unified computational framework to infer ZGA timing systematically. We find extensive variation in ZGA onset across animals, but show that the ratio between genome size and egg cytoplasmic volume, a proxy for the nuclear-to-cytoplasmic ratio, robustly predicts when genome activation begins. We also reveal that zygotic genes also differ from maternal transcripts in genomic architecture, function and evolutionary conservation, suggesting that ZGA follows a conserved molecular logic despite flexible transcriptomic outputs.

Related articles

Related articles are currently not available for this article.