2005
DOI: 10.1073/pnas.0506531102
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Oxygen isotopes indicate most intracellular water in log-phase Escherichia coli is derived from metabolism

Abstract: The transport of water into and out of unicellular organisms is a seemingly simple process in which water diffuses either through pores or directly across the membrane. Because of the rates at which water can theoretically diffuse, it is generally accepted that intracellular water is indistinguishable from extracellular water. Using stable isotope ratio mass spectrometry, we directly tested this assumption. Here we demonstrate that under active growth, up to 70% of the intracellular water in log-phase Escheric… Show more

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Cited by 73 publications
(89 citation statements)
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“…Our findings are consistent with recent results of Kreuzer-Martin et al (27,36) indicating a metabolic…”
supporting
confidence: 83%
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“…Our findings are consistent with recent results of Kreuzer-Martin et al (27,36) indicating a metabolic…”
supporting
confidence: 83%
“…In contrast to previous studies reporting direct measurement of intracellular water from only one microbial strain, E. coli (27,36), we tested several different strains of bacteria to look for species-/strain-specific effects and also used the technique of multilabeled water isotope probing (MLWIP), used in previous studies of metabolic water in rats (30) and further developed in our group to probe organophosphorus and phosphoenzyme reaction mechanisms (23,(42)(43)(44). Using this technique, multiple (three or more) labeled-water probes having different oxygen isotopic composition are used to interrogate reaction mechanisms and trace oxygen transfers between compounds in reactions.…”
Section: Intracellular Water Isotopic Compositioncontrasting
confidence: 41%
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“…Hydrogen and oxygen in follicle and gut water are each derived from multiple sources. The ␦ 2 H values of cells and their surrounding water environment differ because of the noninstantaneous exchange of intracellular and extracellular water (24). Therefore, we consider two water pools in a human, when describing the ways in which the H isotope ratio of tap water (␦ 2 H we ) in the geographic environment influences the H isotope ratio of water in the follicle (␦ 2 H wf ).…”
mentioning
confidence: 99%