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Intron-mediated induction of phenotypic heterogeneity

Author

Listed:
  • Martin Lukačišin

    (University of Cologne
    IST Austria
    Technion – Israel Institute of Technology)

  • Adriana Espinosa-Cantú

    (University of Cologne)

  • Tobias Bollenbach

    (University of Cologne
    University of Cologne)

Abstract

Intragenic regions that are removed during maturation of the RNA transcript—introns—are universally present in the nuclear genomes of eukaryotes1. The budding yeast, an otherwise intron-poor species, preserves two sets of ribosomal protein genes that differ primarily in their introns2,3. Although studies have shed light on the role of ribosomal protein introns under stress and starvation4–6, understanding the contribution of introns to ribosome regulation remains challenging. Here, by combining isogrowth profiling7 with single-cell protein measurements8, we show that introns can mediate inducible phenotypic heterogeneity that confers a clear fitness advantage. Osmotic stress leads to bimodal expression of the small ribosomal subunit protein Rps22B, which is mediated by an intron in the 5′ untranslated region of its transcript. The two resulting yeast subpopulations differ in their ability to cope with starvation. Low levels of Rps22B protein result in prolonged survival under sustained starvation, whereas high levels of Rps22B enable cells to grow faster after transient starvation. Furthermore, yeasts growing at high concentrations of sugar, similar to those in ripe grapes, exhibit bimodal expression of Rps22B when approaching the stationary phase. Differential intron-mediated regulation of ribosomal protein genes thus provides a way to diversify the population when starvation threatens in natural environments. Our findings reveal a role for introns in inducing phenotypic heterogeneity in changing environments, and suggest that duplicated ribosomal protein genes in yeast contribute to resolving the evolutionary conflict between precise expression control and environmental responsiveness9.

Suggested Citation

  • Martin Lukačišin & Adriana Espinosa-Cantú & Tobias Bollenbach, 2022. "Intron-mediated induction of phenotypic heterogeneity," Nature, Nature, vol. 605(7908), pages 113-118, May.
  • Handle: RePEc:nat:nature:v:605:y:2022:i:7908:d:10.1038_s41586-022-04633-0
    DOI: 10.1038/s41586-022-04633-0
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    Cited by:

    1. Kiyan Shabestary & Cinzia Klemm & Benedict Carling & James Marshall & Juline Savigny & Marko Storch & Rodrigo Ledesma-Amaro, 2024. "Phenotypic heterogeneity follows a growth-viability tradeoff in response to amino acid identity," Nature Communications, Nature, vol. 15(1), pages 1-16, December.

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