Gitanjali Chimalakonda scite author profile

Lipopolysaccharide (LPS) is the major glycolipid that is present in the outer membranes (OMs) of most Gram-negative bacteria. LPS molecules are assembled with divalent metal cations in the outer leaflet of the OM to form an impervious layer that prevents toxic compounds from entering the cell. For most Gram-negative bacteria, LPS is essential for growth. In Escherichia coli, eight essential proteins have been identified to function in the proper assembly of LPS following its biosynthesis. This assembly process involves release of LPS from the inner membrane (IM), transport across the periplasm, and insertion into the outer leaflet of the OM. Here, we describe the biochemical characterization of the two-protein complex consisting of LptD and LptE that is responsible for the assembly of LPS at the cell surface. We can overexpress and purify LptD and LptE as a stable complex in a 1∶1 stoichiometry. LptD contains a soluble N-terminal domain and a C-terminal transmembrane domain. LptE stabilizes LptD by interacting strongly with the C-terminal domain of LptD. We also demonstrate that LptE binds LPS specifically and may serve as a substrate recognition site at the OM. T he OM of Gram-negative bacteria is a unique asymmetric lipid bilayer in which the outer leaflet is composed almost entirely of LPS and the inner leaflet of phospholipids (PL) (Fig. 1) (1, 2). Building and maintaining this asymmetric bilayer is a challenge for the cell because the OM is located outside the cytoplasm, in an environment that lacks an obvious energy source such as ATP. LPS and PL are synthesized at the cytoplasmic face of the IM whereas lipoproteins and integral membrane proteins are synthesized in the cytoplasm; all these OM components must be transported across the IM and the aqueous periplasmic compartment to be assembled into the OM (3, 4). In the case of LPS assembly, the molecule must ultimately reach the outer leaflet of the OM (Fig.

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Lipoprotein LptE is required for the assembly of LptD by the β-barrel assembly machine in the outer membrane of Escherichia coli

Chimalakonda

Ruiz

Chng

et al. 2011

Proc. Natl. Acad. Sci. U.S.A.

113

114

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Most Gram-negative bacteria contain lipopolysaccharide (LPS), a glucosamine-based phospholipid, in the outer leaflet of the outer membrane (OM). LPS is unique to the bacterial OM and, in most cases, essential for cell viability. Transport of LPS from its site of synthesis to the cell surface requires eight essential proteins, MsbA and LptABCDEFG. Although the key players have been identified, the mechanism of LPS transport and assembly is not clear. The stable LptD/E complex is present at the OM and functions in the final stages of LPS assembly. Here, we have identified the mutant allele lptE6, which causes a two-amino-acid deletion in the lipoprotein LptE that affects its interaction with LptD. Highly specific suppressor mutations were isolated not only in lptD but also in bamA, which encodes the central component of the β-barrel assembly machine. We show that lptE6 and both suppressor mutations affect the assembly of the LptD/E complex and suggest that the lipoprotein LptE interacts with LptD while this protein is being assembled by the β-barrel assembly machine.

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Gitanjali Chimalakonda

Characterization of the two-protein complex in Escherichia coli responsible for lipopolysaccharide assembly at the outer membrane

Lipoprotein LptE is required for the assembly of LptD by the β-barrel assembly machine in the outer membrane of Escherichia coli

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