Journal
NANOSCALE
Volume 9, Issue 3, Pages 1040-1048Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/c6nr05853a
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Funding
- Reference Framework (NSRF), National Action Cooperation, under grant entitled Magnetic Nanoparticles for targeted MRI therapy (NANOTHER) [11SYN-1-1799]
- European Regional Development Fund
- PRACE
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Ligand-functionalized nanoparticles (NPs) are a promising platform for imaging and drug delivery appli-cations. A number of recent molecular simulation and theoretical studies explored how these NPs interact with model lipid mem-branes. However, interactions between ligand-coated NPs leading to possible cooperative effects and association have not been investigated. In this coarse-grained molecular dynamics study, we focus on a specific case of several anionic, ligand-coated NPs embedded in a lipid membrane. Several new effects are observed. Specifically, in the presence of cholesterol in the membrane, NPs tend to form linear clusters, or chains. Analysis of the driving forces for this association reveals an important role of the recently discovered orderphobic effect, although we acknowledge that a combination of factors must be at play. At the same time, we argue that the specific linear shape of the clusters is a result of a subtle balance between the forces that stabilize a NP in the membrane and the forces that drive the NP-NP association processes. These effects, observed for the first time in the NP-membrane systems, have also direct correspondence to similar effects in protein-membrane systems and these links between the two realms should be explored further.
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