Literature DB >> 28375214

The evolution of bacterial cell size: the internal diffusion-constraint hypothesis.

Romain Gallet1,2, Cyrille Violle1, Nathalie Fromin1, Roula Jabbour-Zahab1, Brian J Enquist3,4, Thomas Lenormand1.   

Abstract

Size is one of the most important biological traits influencing organismal ecology and evolution. However, we know little about the drivers of body size evolution in unicellulars. A long-term evolution experiment (Lenski's LTEE) in which Escherichia coli adapts to a simple glucose medium has shown that not only the growth rate and the fitness of the bacterium increase over time but also its cell size. This increase in size contradicts prominent 'external diffusion' theory (EDC) predicting that cell size should have evolved toward smaller cells. Among several scenarios, we propose and test an alternative 'internal diffusion-constraint' (IDC) hypothesis for cell size evolution. A change in cell volume affects metabolite concentrations in the cytoplasm. The IDC states that a higher metabolism can be achieved by a reduction in the molecular traffic time inside of the cell, by increasing its volume. To test this hypothesis, we studied a population from the LTEE. We show that bigger cells with greater growth and CO2 production rates and lower mass-to-volume ratio were selected over time in the LTEE. These results are consistent with the IDC hypothesis. This novel hypothesis offers a promising approach for understanding the evolutionary constraints on cell size.

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Year:  2017        PMID: 28375214      PMCID: PMC5520153          DOI: 10.1038/ismej.2017.35

Source DB:  PubMed          Journal:  ISME J        ISSN: 1751-7362            Impact factor:   10.302


  39 in total

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Journal:  Proc Biol Sci       Date:  2013-06-12       Impact factor: 5.349

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6.  Tracing ancestors and relatives of Escherichia coli B, and the derivation of B strains REL606 and BL21(DE3).

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8.  Genome evolution and adaptation in a long-term experiment with Escherichia coli.

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9.  Phenotypic and genotypic convergences are influenced by historical contingency and environment in yeast.

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  10 in total

1.  On the deformability of an empirical fitness landscape by microbial evolution.

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2.  Long-term experimental evolution decouples size and production costs in Escherichia coli.

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3.  Unconstrained coevolution of bacterial size and the latent period of plastic phage.

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4.  Primordial mimicry induces morphological change in Escherichia coli.

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5.  Evolutionarily Stable Coevolution Between a Plastic Lytic Virus and Its Microbial Host.

Authors:  Melinda Choua; Michael R Heath; Juan A Bonachela
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6.  Biological scaling in green algae: the role of cell size and geometry.

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7.  Evolution of bacteria specialization along an antibiotic dose gradient.

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Journal:  Evol Lett       Date:  2018-05-08

8.  The Effect of the Protein Synthesis Entropy Reduction on the Cell Size Regulation and Division Size of Unicellular Organisms.

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9.  Scaling of joint mass and metabolism fluctuations in in silico cell-laden spheroids.

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  10 in total

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