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Biophys J. 2011 Jan 5;100(1):22-31. doi: 10.1016/j.bpj.2010.11.044.

Protein diffusion in the periplasm of E. coli under osmotic stress.

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1
Department of Chemistry, University of Wisconsin-Madison, Madison, Wisconsin, USA.

Abstract

The physical and mechanical properties of the cell envelope of Escherichia coli are poorly understood. We use fluorescence recovery after photobleaching to measure diffusion of periplasmic green fluorescent protein and probe the fluidity of the periplasm as a function of external osmotic conditions. For cells adapted to growth in complete medium at 0.14-1.02 Osm, the mean diffusion coefficient <D(peri)> increases from 3.4 μm² s⁻¹ to 6.6 μm² s⁻¹ and the distribution of D(peri) broadens as growth osmolality increases. This is consistent with a net gain of water by the periplasm, decreasing its biopolymer volume fraction. This supports a model in which the turgor pressure drops primarily across the thin peptidoglycan layer while the cell actively maintains osmotic balance between periplasm and cytoplasm, thus avoiding a substantial pressure differential across the cytoplasmic membrane. After sudden hyperosmotic shock (plasmolysis), the cytoplasm loses water as the periplasm gains water. Accordingly, <D(peri)> increases threefold. The fluorescence recovery after photobleaching is complete and homogeneous in all cases, but in minimal medium, the periplasm is evidently thicker at the cell tips. For the relevant geometries, Brownian dynamics simulations in model cytoplasmic and periplasmic volumes provide analytical formulae for extraction of accurate diffusion coefficients from readily measurable quantities.

PMID:
21190653
PMCID:
PMC3010016
DOI:
10.1016/j.bpj.2010.11.044
[Indexed for MEDLINE]
Free PMC Article
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