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Rapid and reversible cell volume changes in response to osmotic stress in yeast.

Carlos Saldaña GutierrezCasandra VillavaJimena Ramírez-VillarrealVerónica Morales-TlalpanJuan Campos-GuillenJorge Chávez-ServínTeresa García-Gasca
Published in: Brazilian journal of microbiology : [publication of the Brazilian Society for Microbiology] (2021)
Saccharomyces cerevisiae has evolved diverse mechanisms to osmotic changes: the cell wall, ion and water transport systems, and signaling cascades. At the present time, little is known about the mechanisms involved in short-term responses of osmotic stress in yeast or their physiological state during this process. We conducted studies of flow cytometry, wet weight measurements, and electron microscopy to evaluate the modifications in cell volume and the cell wall induced by osmotic stress. In response to osmotic challenges, we show very fast and drastic changes in cell volume (up to 60%), which were completed in less than eight seconds. This dramatic change was completely reversible approximately 16 s after returning to an isosmotic solution. Cell volume changes were also accompanied by adaptations in yeast metabolism observed as a reduction by 50% in the respiratory rate, measured as oxygen consumption. This effect was also fully reversible upon returning to an isosmotic solution. It is noteworthy that we observed a significant recovery in oxygen consumption during the first 10 min of the osmotic shock. The rapid adjustment of the cellular volume may represent an evolutionary advantage, allowing greater flexibility for survival.
Keyphrases
  • cell wall
  • saccharomyces cerevisiae
  • single cell
  • cell therapy
  • flow cytometry
  • stem cells
  • body mass index
  • mesenchymal stem cells
  • weight loss
  • stress induced
  • dna methylation
  • electron microscopy
  • genome wide
  • solid state