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Parallel Profiling of Fission Yeast Deletion Mutants for Proliferation and for Lifespan During Long-Term Quiescence

Theodora Sideri, Charalampos Rallis, Danny A. Bitton, Bruno M Lages, Fang Suo, Maria Rodríguez‐López, Li‐Lin Du, Jürg Bähler

G3 Genes Genomes Genetics · 2014 · ▲ 57 citations

Abstract

Genetic factors underlying aging are remarkably conserved from yeast to human. The fission yeast Schizosaccharomyces pombe is an emerging genetic model to analyze cellular aging. Chronological lifespan (CLS) has been studied in stationary-phase yeast cells depleted for glucose, which only survive for a few days. Here, we analyzed CLS in quiescent S. pombe cells deprived of nitrogen, which arrest in a differentiated, G0-like state and survive for more than 2 months. We applied parallel mutant phenotyping by barcode sequencing (Bar-seq) to assay pooled haploid deletion mutants as they aged together during long-term quiescence. As expected, mutants with defects in autophagy(definition) or quiescence were under-represented or not detected. Lifespan scores could be calculated for 1199 mutants. We focus the discussion on the 48 most long-lived mutants, including both known aging genes in other model systems and genes not previously implicated in aging. Genes encoding membrane proteins were particularly prominent as pro-aging factors. We independently verified the extended CLS in individual assays for 30 selected mutants, showing the efficacy of the screen. We also applied Bar-seq to profile all pooled deletion mutants for proliferation under a standard growth condition. Unlike for stationary-phase cells, no inverse correlation between growth and CLS of quiescent cells was evident. These screens provide a rich resource for further studies, and they suggest that the quiescence model can provide unique, complementary insights into cellular aging.

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OpenAlex
DOI
10.1534/g3.114.014415
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2026-07-06 MST

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APA
Sideri, T., Rallis, C., Bitton, D.A., Lages, B.M., Suo, F., Rodríguez‐López, M., Du, L., &amp; Bähler, J. (2014). Parallel Profiling of Fission Yeast Deletion Mutants for Proliferation and for Lifespan During Long-Term Quiescence. <em>G3 Genes Genomes Genetics</em>. https://doi.org/10.1534/g3.114.014415
Vancouver
Sideri T, Rallis C, Bitton DA, Lages BM, Suo F, Rodríguez‐López M, et al. Parallel Profiling of Fission Yeast Deletion Mutants for Proliferation and for Lifespan During Long-Term Quiescence. G3 Genes Genomes Genetics. 2014. doi:10.1534/g3.114.014415.
BibTeX
@article{theodora2014Parall, title = {Parallel Profiling of Fission Yeast Deletion Mutants for Proliferation and for Lifespan During Long-Term Quiescence}, author = {Theodora Sideri and Charalampos Rallis and Danny A. Bitton and Bruno M Lages and Fang Suo and Maria Rodríguez‐López and Li‐Lin Du and Jürg Bähler}, journal = {G3 Genes Genomes Genetics}, year = {2014}, doi = {10.1534/g3.114.014415}, }

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