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Studying the surfaces of bacteria using neutron scattering: finding new openings for antibiotics

Nicoló Paracini, Luke A. Clifton, Jeremy H. Lakey

2020Biochemical Society Transactions11 citationsDOIOpen Access PDF

Abstract

The use of neutrons as a scattering probe to investigate biological membranes has steadily grown in the past three decades, shedding light on the structure and behaviour of this ubiquitous and fundamental biological barrier. Meanwhile, the rise of antibiotic resistance has catalysed a renewed interest in understanding the mechanisms underlying the dynamics of antibiotics interaction with the bacterial cell envelope. It is widely recognised that the key reason behind the remarkable success of Gram-negative pathogens in developing antibiotic resistance lies in the effectiveness of their outer membrane (OM) in defending the cell from antibacterial compounds. Critical to its function, the highly asymmetric lipid distribution between the inner and outer bilayer leaflets of the OM, adds an extra level of complexity to the study of this crucial defence barrier. Here we review the opportunities offered by neutron scattering techniques, in particular reflectometry, to provide structural information on the interactions of antimicrobials with in vitro models of the OM. The differential sensitivity of neutrons towards hydrogen and deuterium makes them a unique probe to study the structure and behaviour of asymmetric membranes. Molecular-level understanding of the interactions between antimicrobials and the Gram-negative OM provides valuable insights that can aid drug development and broaden our knowledge of this critically important biological barrier.

Topics & Concepts

Neutron reflectometryAntibioticsLipid bilayerNeutron scatteringAntibiotic resistanceAntimicrobialMembraneBiophysicsScatteringBiologyChemistryNanotechnologyComputational biologyMicrobiologyPhysicsSmall-angle neutron scatteringMaterials scienceBiochemistryOpticsAntibiotic Resistance in BacteriaBacteriophages and microbial interactionsClostridium difficile and Clostridium perfringens research
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