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Direct Observation of Gram Negative Bacterial Membrane Disruption by Supramol...
Cyclic peptides with alternating side chain stereochemistry are capable of self-assembling into long nanotubes. The conjugation of polymers to these peptides renders the... -
New Approaches to Producing Floating Supported Bilayers
The complex sample environment needed for floating supported bilayers has often led to a need to constantly redevelop the system to improve reproducibility. Here we plan to... -
Organization of mitochondrial membranes upon oxidative stress: Impact on apop...
Mitochondria are not only the powerhouse of the cell, but are also involved in cellular suicide via apoptosis (programmed cell death). The mitochondrial apoptotic pathway is a... -
Understanding the interfacial behaviour of bile salts to better engineer lipi...
The current project aims at elucidating how bile salts (BS) structure influences their interfacial behaviour and their impact on fat digestion. Neutron reflectivity (NR) is the... -
The mechanism of lipid transport in Gram-negative bacteria
The bacterial cell envelope is one of the best targets in antimicrobial development. This proposal focuses on understanding how lipids move between the membranes of the... -
Benchmarking improvements in experimental design in neutron reflectometry
This dataset has no description
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Multilayering of Isostearic Methyl Ester Sulphonate at the Air-Aqueous Interf...
Surfactants usually form a single layer of molecules at the surface of water. We have shown that under certain conditions more than one layer may form. in which case the system... -
Floating Bilayer Mimics of the Gram Negative Bacterial Outer Membrane
The gram-negative bacterial membrane is of extreme medical importance. The two main lipid components of the outer membrane are lipopolysaccharides (LPS's) and DOPE. We will... -
The mechanism of lipid transport in Gram-negative bacteria
The bacterial cell envelope is one of the best targets for antimicrobial development. It is this envelope that harbours the instruments of microbial warfare, preventing its... -
The mechanism of lipid transport in Gram-negative bacteria
The bacterial cell envelope is one of the best targets for antimicrobial development. It is this envelope that harbours the instruments of microbial warfare, preventing its... -
Understanding light-induced changes to the miscibility of polymer/fullerene s...
Polymer/fullerene blends represent the most common form of organic solar cell. This proposal forms part of a wider effort in which our motivation is to complement solar cell... -
Structural evidence of lipopolysaccharides functioning as receptors in antimi...
The global increase of bacterial resistance to antibiotics has led to increasing interest in research focusing on the development and characterization of new antimicrobial... -
Antibiotic Interactions with models of the Gram negative bacterial outer memb...
Gram-negative bacteria, which cause a variety of diseases including meningitis, plague, sepsis and food poisoning, are becoming increasingly antibiotic resistant. One reason is... -
Binding behaviour of PAMAMs G5 and G4.5 to zwitterionic and anionic lipid bil...
Polymers are commonly used in drug delivery to create dosage forms that enable delivery of the active ingredient to the site of action within the body. Towards controlled drug... -
Mimicking Pathogens : Floating Gram Negative Bacterial Membranes Containing t...
Recently we have been able to show two advances in the creation of realistic models of the Gram negative bacterial outer surface for use in biophysical and structural studies....