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Widespread Prion-Based Control of Growth and Differentiation Strategies in Saccharomyces Cerevisiae

76 Pages Posted: 8 Apr 2019 Publication Status: Published

See all articles by Alan K. Itakura

Alan K. Itakura

Stanford University - Department of Biology; Stanford University - Department of Developmental Biology

Anupam K. Chakravarty

Stanford University - Department of Chemical and Systems Biology

Christopher M. Jakobson

Stanford University - Department of Chemical and Systems Biology

Daniel F. Jarosz

Stanford University - Department of Chemical and Systems Biology; Stanford University - Department of Developmental Biology

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Abstract

Theory and experiment suggest that organisms can pre-adapt to future stressors based on reproducible environmental fluctuations experienced by their ancestors. Yet the mechanisms driving such pre-adaptation remain enigmatic. We report that the [SMAUG+] prion allows yeast to anticipate nutrient repletion after periods of starvation, providing a strong selective advantage. By transforming the landscape of post-transcriptional gene expression, [SMAUG+] regulates the decision between two broad growth and survival strategies: mitotic proliferation or meiotic differentiation into a stress-resistant state. [SMAUG+] is common in laboratory yeast strains, where standard propagation practice produces regular cycles of nutrient scarcity followed by repletion. Distinct [SMAUG+] variants are also widespread in wild yeast isolates from multiple niches, establishing that prion polymorphs can be utilized in natural populations. Our data provide a striking example of how protein-based epigenetic switches can be hidden in plain sight and can establish a transgenerational memory that integrates adaptive prediction into developmental decisions.

Keywords: Meiosis/gametogenesis, Adaptive prediction, Phenotypic variation, Transgenerational inheritance

Suggested Citation

Itakura, Alan K. and Chakravarty, Anupam K. and Jakobson, Christopher M. and Jarosz, Daniel F., Widespread Prion-Based Control of Growth and Differentiation Strategies in Saccharomyces Cerevisiae (April 4, 2019). Available at SSRN: https://ssrn.com/abstract=3366300 or http://dx.doi.org/10.2139/ssrn.3366300
This version of the paper has not been formally peer reviewed.

Alan K. Itakura

Stanford University - Department of Biology

Gilbert Building, Rm 109
371 Serra Mall
Stanford, CA 94305
United States

Stanford University - Department of Developmental Biology

Stanford, CA 94305
United States

Anupam K. Chakravarty

Stanford University - Department of Chemical and Systems Biology

Stanford, CA 94305
United States

Christopher M. Jakobson

Stanford University - Department of Chemical and Systems Biology

Stanford, CA 94305
United States

Daniel F. Jarosz (Contact Author)

Stanford University - Department of Chemical and Systems Biology ( email )

Stanford, CA 94305
United States

Stanford University - Department of Developmental Biology ( email )

Stanford, CA 94305
United States

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