The Power of Asymmetry: Architecture and Assembly of the Gram-Negative Outer Membrane Lipid Bilayer

Determining the chemical composition of biological materials is paramount to the study of natural phenomena. Here, we describe the composition of model gram-negative outer membranes, focusing on the predominant assembly, an asymmetrical bilayer of lipid molecules. We also give an overview of lipid b...

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Bibliographic Details
Published in:Annual review of microbiology 2016-09, Vol.70 (1), p.255-278
Main Authors: Henderson, Jeremy C, Zimmerman, Shawn M, Crofts, Alexander A, Boll, Joseph M, Kuhns, Lisa G, Herrera, Carmen M, Trent, M. Stephen
Format: Article
Language:English
Subjects:
Antibiotics
Biotechnology
Cell Membrane - chemistry
Cell Membrane - genetics
Cell Membrane - metabolism
commensals
Gram-negative bacteria
Gram-Negative Bacteria - chemistry
Gram-Negative Bacteria - genetics
Gram-Negative Bacteria - metabolism
lipid A
Lipid Bilayers - chemistry
Lipid Bilayers - metabolism
Lipids
lipopolysaccharide
LPS
Membranes
Molecules
outer membrane vesicles
phospholipids
vaccines
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Summary:Determining the chemical composition of biological materials is paramount to the study of natural phenomena. Here, we describe the composition of model gram-negative outer membranes, focusing on the predominant assembly, an asymmetrical bilayer of lipid molecules. We also give an overview of lipid biosynthetic pathways and molecular mechanisms that organize this material into the outer membrane bilayer. An emphasis is placed on the potential of these pathways as targets for antibiotic development. We discuss deviations in composition, through bacterial cell surface remodeling, and alternative modalities to the asymmetric lipid bilayer. Outer membrane lipid alterations of current microbiological interest, such as lipid structures found in commensal bacteria, are emphasized. Additionally, outer membrane components could potentially be engineered to develop vaccine platforms. Observations related to composition and assembly of gram-negative outer membranes will continue to generate novel discoveries, broaden biotechnologies, and reveal profound mysteries to compel future research.
ISSN:0066-4227
1545-3251
DOI:10.1146/annurev-micro-102215-095308