Archaeal cells share common size control with bacteria despite noisier growth and division - INRAE - Institut national de recherche pour l’agriculture, l’alimentation et l’environnement
Article Dans Une Revue Nature Microbiology Année : 2018

Archaeal cells share common size control with bacteria despite noisier growth and division

Résumé

In nature, microorganisms exhibit different volumes spanning six orders of magnitude(1). Despite their capability to create different sizes, a clonal population in a given environment maintains a uniform size across individual cells. Recent studies in eukaryotic and bacterial organisms showed that this homogeneity in cell size can be accomplished by growing a constant size between two cell cycle events (that is, the adder model(2-6)). Demonstration of the adder model led to the hypothesis that this phenomenon is a consequence of convergent evolution. Given that archaeal cells share characteristics with both bacteria and eukaryotes, we investigated whether and how archaeal cells exhibit control over cell size. To this end, we developed a soft-lithography method of growing the archaeal cells to enable quantitative time-lapse imaging and single-cell analysis, which would be useful for other microorganisms. Using this method, we demonstrated that Halobacterium salinarum, a hypersaline-adapted archaeal organism, grows exponentially at the single-cell level and maintains a narrow-ize distribution by adding a constant length between cell division events. Interestingly, the archaeal cells exhibited greater variability in cell division placement and exponential growth rate across individual cells in a population relative to those observed in Escherichia coli(6-9). Here, we present a theoretical framework that explains how these larger fluctuations in archaeal cell cycle events contribute to cell size variability and control.
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Dates et versions

hal-02625102 , version 1 (26-05-2020)

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Ye-Jin Eun, Po-Yi Ho, Minjeong Kim, Salvatore Larussa, Lydia Robert, et al.. Archaeal cells share common size control with bacteria despite noisier growth and division. Nature Microbiology, 2018, 3 (2), pp.148-154. ⟨10.1038/s41564-017-0082-6⟩. ⟨hal-02625102⟩
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