%0 Figure %A Panova, Natalya %A Zborníková, Eva %A Šimák, Ondřej %A Pohl, Radek %A Kolar, Milan %A Bogdanova, Katerina %A Vecerova, Renata %A Seydlová, Gabriela %A Fiser, Radovan %A Hadravová, Romana %A Šanderová, Hana %A Vítovská, Dragana %A Šiková, Michaela %A Látal, Tomáš %A Lovecká, Petra %A Barvík, Ivan %A Krásný, Libor %A Rejman, Dominik %D 2016 %T A model of the interaction of DR5026 with a bacterial membrane. %U https://plos.figshare.com/articles/figure/_A_model_of_the_interaction_of_DR5026_with_a_bacterial_membrane_/1630221 %R 10.1371/journal.pone.0145918.g009 %2 https://ndownloader.figshare.com/files/2616744 %K strain %K transepithelial transport %K Bactericidal Lipophosphonoxins %K cell disintegration %K Ames test %K bactericidal concentrations LPPOs %K compound %K plasmatic membrane %K acidic environment %X

The final state of MD simulation after 55 ns shows DR5026 molecules penetrated into the phospholipid bilayer. The nitrogen atoms from the iminosugar modules of DR5026 are highlighted as blue spheres. Phosphorus atoms of the phospholipid bilayer (PB) are depicted as yellow/red spheres. For clarity, almost all atoms of the PB are hidden.

%I PLOS ONE