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Gaining insights into the responses of individual yeast cells to ethanol fermentation using Raman tweezers and chemometrics. | LitMetric

Gaining insights into the responses of individual yeast cells to ethanol fermentation using Raman tweezers and chemometrics.

Spectrochim Acta A Mol Biomol Spectrosc

Institute of Eco-Environmental Research, Guangxi Academy of Sciences, 98 Daling Road, Nanning, Guangxi 530007, China. Electronic address:

Published: October 2024

AI Article Synopsis

  • Saccharomyces cerevisiae is the primary microbe for bioethanol production, facing various stresses that affect its fermentation process and cell growth.
  • The study utilized Raman spectroscopy and chemometric techniques to observe the metabolic changes in individual yeast cells throughout different stages of high gravity ethanol fermentation.
  • Results indicated three distinct physiological stages in yeast cells, increased cellular heterogeneity during late fermentation, and differing stress responses, highlighting the usefulness of this methodology in studying yeast cell metabolism and resistance mechanisms.

Article Abstract

Saccharomyces cerevisiae is the most common microbe used for the industrial production of bioethanol, and it encounters various stresses that inhibit cell growth and metabolism during fermentation. However, little is currently known about the physiological changes that occur in individual yeast cells during ethanol fermentation. Therefore, in this work, Raman spectroscopy and chemometric techniques were employed to monitor the metabolic changes of individual yeast cells at distinct stages during high gravity ethanol fermentation. Raman tweezers was used to acquire the Raman spectra of individual yeast cells. Multivariate curve resolution-alternating least squares (MCR-ALS) and principal component analysis were employed to analyze the Raman spectra dataset. MCR-ALS extracted the spectra of proteins, phospholipids, and triacylglycerols and their relative contents in individual cells. Changes in intracellular biomolecules showed that yeast cells undergo three distinct physiological stages during fermentation. In addition, heterogeneity among yeast cells significantly increased in the late fermentation period, and different yeast cells may respond to ethanol stress via different mechanisms. Our findings suggest that the combination of Raman tweezers and chemometrics approaches allows for characterizing the dynamics of molecular components within individual cells. This approach can serve as a valuable tool in investigating the resistance mechanism and metabolic heterogeneity of yeast cells during ethanol fermentation.

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Source
http://dx.doi.org/10.1016/j.saa.2024.124584DOI Listing

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