Abstract
Accumulating evidence suggests that molecular motors contribute to the apparent diffusion of molecules in cells. However, current literature lacks evidence for an active process that drives diffusive-like motion in the bacterial membrane. One possible mechanism is cell wall synthesis, which involves the movement of protein complexes in the cell membrane circumferentially around the cell envelope and may generate currents in the lipid bilayer that advectively transport other transmembrane proteins. We test this hypothesis in Escherichia coli using drug treatments that slow cell wall synthesis and measure their effect on the diffusion of the transmembrane protein mannitol permease using fluorescence recovery after photobleaching. We found no clear decrease in diffusion in response to vancomycin and no decrease in response to mecillinam treatment. These results suggest that cell wall synthesis is not an active contributor to mobility in the cytoplasmic membrane.
Highlights
Intracellular transport is critical in cellular physiology
carbonyl cyanide m-chlorophenylhydrazone (CCCP) reduces the apparent diffusion of transmembrane protein mannitol permease (MtlA) in the E. coli cytoplasmic membrane
We investigated whether treatment of E. coli with antibiotics could reduce the apparent diffusion of transmembrane protein MtlA in the cytoplasmic membrane
Summary
In eukaryotic and prokaryotic cells, motor and cytoskeletal proteins can enhance the active motion of particles. Active motion can influence the diffusion of nearby passive particles through hydrodynamics or elastic interactions. Such “active diffusion” involves greater motion than can be explained by ordinary Brownian motion (i.e. passive diffusion), and has been observed in chromosomes in bacteria and yeast [1] and actin networks in eukaryotic cells [2,3,4,5]. Active diffusion has been implicated in a broad range of cellular processes including regulation of the fluidic state of the cytoplasm [6], transcription of DNA [1,7], distribution of organelles [8], and metabolic alterations in malignancy [9]. Active diffusion may be a general phenomenon with wide-ranging consequences for cellular homeostasis
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