Deuterium induces a distinctive Escherichia coli proteome that correlates with the reduction in growth rate.
The Journal of biological chemistry(2018)
摘要
Substitution of protium (H) for deuterium (D) strongly affects biological systems. Whereas higher eukaryotes such as plants and mammals hardly survive a deuterium content of > 30%, many microorganisms can grow on fully deuterated media, albeit at reduced rates. Very little is known about how the H/D replacement influences life at the systems level. Here, we used MS-based analysis to follow the adaptation of a large part of the proteome from growth on a protonated full medium, over a protonated minimal medium, to a completely deuterated minimal medium. We could quantify > 1800 proteins under all conditions, several 100 of which exhibited strong regulation during both adaptation processes. The adaptation to minimal medium strongly up-regulated amino acid synthesis and sugar metabolism and down-regulated translational proteins on average by 9%, concomitant with a reduction in growth rate from 1.8 to 0.67 h In contrast, deuteration caused a very wide proteomic response over many cell functional categories, together with an additional down-regulation of the translational proteins by 5%. The latter coincided with a further reduction in growth rate to 0.37 h, revealing a clear linear correlation between growth rate and abundance of translational proteins. No significant morphological effects are observed under light and electron microscopy. Across all protein categories, about 80% of the proteins up-regulated under deuteration are enzymes with hydrogen transfer functions. Thus, the H/D kinetic isotope effect appears as the major limiting factor of cellular functions under deuteration.
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关键词
cell growth,clusters of orthologous groups database,deuteration,enzyme kinetics,gene ontology database,hydrogen-deuterium exchange,isotope effect,isotope labeling,protein stability,proteomics
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