Genome Biology (Oct 2024)

The ribosome profiling landscape of yeast reveals a high diversity in pervasive translation

  • Chris Papadopoulos,
  • Hugo Arbes,
  • David Cornu,
  • Nicolas Chevrollier,
  • Sandra Blanchet,
  • Paul Roginski,
  • Camille Rabier,
  • Safiya Atia,
  • Olivier Lespinet,
  • Olivier Namy,
  • Anne Lopes

DOI
https://doi.org/10.1186/s13059-024-03403-7
Journal volume & issue
Vol. 25, no. 1
pp. 1 – 25

Abstract

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Abstract Background Pervasive translation is a widespread phenomenon that plays a critical role in the emergence of novel microproteins, but the diversity of translation patterns contributing to their generation remains unclear. Based on 54 ribosome profiling (Ribo-Seq) datasets, we investigated the yeast Ribo-Seq landscape using a representation framework that allows the comprehensive inventory and classification of the entire diversity of Ribo-Seq signals, including non-canonical ones. Results We show that if coding regions occupy specific areas of the Ribo-Seq landscape, noncoding regions encompass a wide diversity of Ribo-Seq signals and, conversely, populate the entire landscape. Our results show that pervasive translation can, nevertheless, be associated with high specificity, with 1055 noncoding ORFs exhibiting canonical Ribo-Seq signals. Using mass spectrometry under standard conditions or proteasome inhibition with an in-house analysis protocol, we report 239 microproteins originating from noncoding ORFs that display canonical but also non-canonical Ribo-Seq signals. Each condition yields dozens of additional microprotein candidates with comparable translation properties, suggesting a larger population of volatile microproteins that are challenging to detect. Our findings suggest that non-canonical translation signals may harbor valuable information and underscore the significance of considering them in proteogenomic studies. Finally, we show that the translation outcome of a noncoding ORF is primarily determined by the initiating codon and the codon distribution in its two alternative frames, rather than features indicative of functionality. Conclusion Our results enable us to propose a topology of a species’ Ribo-Seq landscape, opening the way to comparative analyses of this translation landscape under different conditions.

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