PLoS Pathogens (Apr 2014)

Concerted spatio-temporal dynamics of imported DNA and ComE DNA uptake protein during gonococcal transformation.

  • Heike Gangel,
  • Christof Hepp,
  • Stephanie Müller,
  • Enno R Oldewurtel,
  • Finn Erik Aas,
  • Michael Koomey,
  • Berenike Maier

DOI
https://doi.org/10.1371/journal.ppat.1004043
Journal volume & issue
Vol. 10, no. 4
p. e1004043

Abstract

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Competence for transformation is widespread among bacterial species. In the case of Gram-negative systems, a key step to transformation is the import of DNA across the outer membrane. Although multiple factors are known to affect DNA transport, little is known about the dynamics of DNA import. Here, we characterized the spatio-temporal dynamics of DNA import into the periplasm of Neisseria gonorrhoeae. DNA was imported into the periplasm at random locations around the cell contour. Subsequently, it was recruited at the septum of diplococci at a time scale that increased with DNA length. We found using fluorescent DNA that the periplasm was saturable within minutes with ∼40 kbp DNA. The DNA-binding protein ComE quantitatively governed the carrying capacity of the periplasm in a gene-dosage-dependent fashion. As seen using a fluorescent-tagged derivative protein, ComE was homogeneously distributed in the periplasm in the absence of external DNA. Upon addition of external DNA, ComE was relocalized to form discrete foci colocalized with imported DNA. We conclude that the periplasm can act as a considerable reservoir for imported DNA with ComE governing the amount of DNA stored potentially for transport through the inner membrane.