Conformational investigation of the asymmetric periplasmic domains of LptBFGC using SDSL CW EPR spectroscopy.

The majority of pathogenic Gram-negative bacteria benefit from intrinsic antibiotic resistance, attributed primarily to the lipopolysaccharide (LPS) coating of the bacterial envelope. To effectively coat the bacterial cell envelope, LPS is transported from the inner membrane by the LPS transport (Lpt) system, which comprises seven distinct Lpt proteins, LptA-G, that form a stable protein bridge spanning the periplasm to connect the inner and outer membranes. The driving force of this process, LptBFG, is an asymmetric ATP binding cassette (ABC) transporter with a novel architecture and function that ejects LPS from the inner membrane and facilitates transfer to the periplasmic bridge.

Residues within the LptC transmembrane helix are critical for Escherichia coli LptB FG ATPase regulation.

Lipopolysaccharide (LPS) synthesis in Gram-negative bacteria is completed at the outer leaflet of the inner membrane (IM). Following synthesis, seven LPS transport (Lpt) proteins facilitate the movement of LPS to the outer membrane (OM), an essential process that if disrupted at any stage has lethal effects on bacterial viability. LptB FG, the IM component of the Lpt bridge system, is a type VI ABC transporter that provides the driving force for LPS extraction from the IM and subsequent transport across a stable protein bridge to the outer leaflet of the OM.

Binding and transport of LPS occurs through the coordinated combination of an array of sites across the entire Escherichia coli LPS transport protein LptA.

The outer leaflet of the outer membrane (OM) of bacteria such as Escherichia coli, Pseudomonas aeruginosa, and other important pathogens is largely composed of lipopolysaccharide (LPS), which is essential to nearly all Gram-negative bacteria. LPS is transported to the outer leaflet of the OM through a yet unknown mechanism by seven proteins that comprise the LPS transport system. LptA, the only entirely periplasmic Lpt protein, bridges the periplasmic space between the IM LptB FGC and the OM LptDE complexes.