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The Fission Yeast Mating-Type Switching Motto: One-for-Two and Two-for-One

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Publisher

AMER SOC MICROBIOLOGY
DOI: 10.1128/mmbr.00008-21

Keywords

DNA recombination; DNA replication; fission yeast; heterochromatin

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This article describes how Schizosaccharomyces pombe, a variant of the budding yeast, relies on efficient genetic sex determination and alternating haploid/diploid phases to achieve high reproductive efficiency in response to environmental conditions. By exploring the mating-type switching process and the interaction between genetics and epigenetics, it underscores the significance of basic research in gaining a better understanding of chromatin biology.
Schizosaccharomyces pombe is an ascomycete fungus that divides by medial fission; it is thus commonly referred to as fission yeast, as opposed to the distantly related budding yeast Saccharomyces cerevisiae. The reproductive lifestyle of S. pombe relies on an efficient genetic sex determination system generating a 1:1 sex ratio and using alternating haploid/diploid phases in response to environmental conditions. Schizosaccharomyces pombe is an ascomycete fungus that divides by medial fission; it is thus commonly referred to as fission yeast, as opposed to the distantly related budding yeast Saccharomyces cerevisiae. The reproductive lifestyle of S. pombe relies on an efficient genetic sex determination system generating a 1:1 sex ratio and using alternating haploid/diploid phases in response to environmental conditions. In this review, we address how one haploid cell manages to generate two sister cells with opposite mating types, a prerequisite to conjugation and meiosis. This mating-type switching process depends on two highly efficient consecutive asymmetric cell divisions that rely on DNA replication, repair, and recombination as well as the structure and components of heterochromatin. We pay special attention to the intimate interplay between the genetic and epigenetic partners involved in this process to underscore the importance of basic research and its profound implication for a better understanding of chromatin biology.

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