2014
DOI: 10.1111/mmi.12568
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The antibacterial toxin colicin N binds to the inner core of lipopolysaccharide and close to its translocator protein

Abstract: SummaryColicins are a diverse family of large antibacterial protein toxins, secreted by and active against Escherichia coli and must cross their target cell's outer membrane barrier to kill. To achieve this, most colicins require an abundant porin (e.g. OmpF) plus a low‐copy‐number, high‐affinity, outer membrane protein receptor (e.g. BtuB). Recently, genetic screens have suggested that colicin N (ColN), which has no high‐affinity receptor, targets highly abundant lipopolysaccharide (LPS) instead. Here we reve… Show more

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Cited by 39 publications
(35 citation statements)
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“…This less dense environment of O-antigen polysaccharides above OmpF pores may be exploited by the antibacterial toxin colicin-N. Such situations provide support for the hypothetical model of colicin-N binding to core sugars envisaged by Johnson et al (19), because the gap in the FIGURE 5 Interaction patterns of OmpF protein residues with their surrounding environments in K12-lps0. The graph shows, for each residue, the frequency of interactions with another monomer (gray), water molecules (blue), a phospholipid headgroup (yellow), a phospholipid carbon tail (green), a lipid A tail (dark green), a lipid A headgroup (orange), the LPS inner core (cyan), or the LPS outer core (red).…”
Section: Biophysical Journal 110(4) 930-938mentioning
confidence: 59%
See 1 more Smart Citation
“…This less dense environment of O-antigen polysaccharides above OmpF pores may be exploited by the antibacterial toxin colicin-N. Such situations provide support for the hypothetical model of colicin-N binding to core sugars envisaged by Johnson et al (19), because the gap in the FIGURE 5 Interaction patterns of OmpF protein residues with their surrounding environments in K12-lps0. The graph shows, for each residue, the frequency of interactions with another monomer (gray), water molecules (blue), a phospholipid headgroup (yellow), a phospholipid carbon tail (green), a lipid A tail (dark green), a lipid A headgroup (orange), the LPS inner core (cyan), or the LPS outer core (red).…”
Section: Biophysical Journal 110(4) 930-938mentioning
confidence: 59%
“…2 A) (14,15). Similarly, the permeability of the OM to antibiotics (18) and the binding and translocation of colicins (17,19) are influenced by bacterial surface determinants. The heterogeneity of O-antigen polysaccharide unit length and the dynamics of their constituent sugars may complicate the accessibility of mAbs to epitopes located either on the cell surface or deep within the LPS leaflet (14,20).…”
Section: Introductionmentioning
confidence: 99%
“…Polymyxins are strongly cationic lipopeptides that are likely able to replace the divalent cations bound to LPS, thus gaining access to the core of the membrane. The large antibacterial protein colicin N was recently shown to use the inner core region of LPS as its specific OM receptor, and thus must be able to access the regions of the LPS molecule close to the hydrophobic core (43). In fact, colicin N is the only molecule known to displace tightly bound LPS from the outside of the OmpF trimer (18).…”
Section: Discussionmentioning
confidence: 99%
“…For example, liposaccharides have been reported to play ar ole in both OM protein insertion and colicin translocation. [41,42] Our discoveryw ill allow us to determinew hether protein components of these more realistic PLBs are in their natural orientations.…”
Section: Discussionmentioning
confidence: 99%