International Journal of Nanomedicine (Jun 2015)

Cellular entry of nanoparticles via serum sensitive clathrin-mediated endocytosis, and plasma membrane permeabilization [Corrigendum]

  • Smith PJ,
  • Giroud M,
  • Wiggins HL,
  • Gower F,
  • Thorley JA,
  • Stolpe B,
  • Mazzolini J,
  • Dyson RJ,
  • Rappoport JZ

Journal volume & issue
Vol. 2015, no. default
pp. 3987 – 3988

Abstract

Read online

Corrigendum  Smith PJ, Giroud M, Wiggins HL, et al. Int J Nanomedicine. 2012;7:2045–2055.Page 2054, Figure 11, the text “Average no of NPs in lumen: Nf =2.1×10-3” should read “Average no of NPs in lumen:Nf =2.1×10-2”. Page 2054, Figure 11, the figure legend “Figure 11 A series of calculations to estimate the number of nanoparticles that could enter a vesicle under the incubation conditions described in materials and methods. It is estimated that nanoparticles are nearly 25,000 times more likely to enter cells when they are bound to the membrane than in the fluid phase.” should read “Figure 11 A series of calculations to estimate the number of nanoparticles that could enter a vesicle under the incubation conditions described in materials and methods. It is estimated that nanoparticles are nearly 2,500 times more likely to enter cells when they are bound to the membrane than in the fluid phase.” Page 2054, first column, line 13, the sentence “Even though the latter might be an overestimation, the current analyses suggest that under these conditions nanoparticles are nearly 25,000 times more likely to enter cells bound to the inner membrane of a vesicle than through the fluid phase.” should read “Even though the latter might be an overestimation, the current analyses suggest that under these conditions nanoparticles are nearly 2,500 times more likely to enter cells bound to the inner membrane of a vesicle than through the fluid phase”.Read the original article