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Buffering the pH of the culture medium does not extend yeast replicative lifespan
Brian M. Wasko, Daniel Carr, Herman Tung, Ha Doan, Nathan Schurman, Jillian R. Neault, Joey Feng, Janet Lee, Ben Zipkin, Jacob Mouser, Edward Oudanonh, Tina Nguyen, Torin F. Stetina, Anna Shemorry, Mekedes Lemma
F1000Research · 2013 · ▲ 25 citations
Abstract
During chronological aging of budding yeast cells, the culture medium can become acidified, and this acidification limits cell survival. As a consequence, buffering the culture medium to pH 6 significantly extends chronological life span under standard conditions in synthetic medium. In this study, we assessed whether a similar process occurs during replicative aging of yeast cells. We find no evidence that buffering the pH of the culture medium to pH levels either higher or lower than the initial pH of the medium is able to significantly extend replicative lifespan. Thus, we conclude that, unlike chronological life span, replicative life span is not limited by acidification of the culture medium or by changes in the pH of the environment.
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- 10.12688/f1000research.2-216.v1
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- 2026-07-06 MST
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APA
Wasko, B.M., Carr, D., Tung, H., Doan, H., Schurman, N., Neault, J.R., Feng, J., Lee, J., Zipkin, B., Mouser, J., Oudanonh, E., Nguyen, T., Stetina, T.F., Shemorry, A., Lemma, M., & Kaeberlein, M. (2013). Buffering the pH of the culture medium does not extend yeast replicative lifespan. <em>F1000Research</em>. https://doi.org/10.12688/f1000research.2-216.v1
Vancouver
Wasko BM, Carr D, Tung H, Doan H, Schurman N, Neault JR, et al. Buffering the pH of the culture medium does not extend yeast replicative lifespan. F1000Research. 2013. doi:10.12688/f1000research.2-216.v1.
BibTeX
@unpublished{brian2013Buffer,
title = {Buffering the pH of the culture medium does not extend yeast replicative lifespan},
author = {Brian M. Wasko and Daniel Carr and Herman Tung and Ha Doan and Nathan Schurman and Jillian R. Neault and Joey Feng and Janet Lee and Ben Zipkin and Jacob Mouser and Edward Oudanonh and Tina Nguyen and Torin F. Stetina and Anna Shemorry and Mekedes Lemma and Matt Kaeberlein},
journal = {F1000Research},
year = {2013},
doi = {10.12688/f1000research.2-216.v1},
}
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