Development of Toroidal Nanostructures by Self-Assembly: Rational Designs and Applications

Kim, Yongju; Li, Wen; Shin, Suyong; Lee, Myongsoo

doi:10.1021/ar400027c

Cited by 151 publications

(128 citation statements)

References 57 publications

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“…Many other interactions might be involved during this process,s uch as hydrogen bonding, electrostatic interactions, and van der Waals forces, reducing the free energy of the system.B ased on thesei nteractions,a mphiphiles can self-assemble into variousm orphologies such as:s phere micelles, [4] cylindrical micelles, [5] tubes, [6] and vesicles. [7] Unique topologies have also been achieved such as toroid, [8] branched threadlike micelles [9] and helical nanotubes. [10] The morphologies and properties of these assemblies are closely related to both the properties of the amphiphiles andt heir solvent environments; some predictive theoretical models have been proposed including the packingp arameter theory.…”

Section: Introductionmentioning

confidence: 99%

Frame‐Guided Assembly of Amphiphiles

Dong

2015

Chemistry A European J

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Frame-guided assembly, a recently discovered strategy for amphiphilic assembly, is discussed as a strategy for constructing vesicle assemblies with programmed geometries and dimensions under identical surrounding conditions. The strategy is inspired by the cytoskeletal-membrane protein-lipid bilayer structure and shows great potential in the understanding and controlling of the amphiphilic assembly process. Both the principles and basic requirements are discussed, along with recently reported examples. The prospects and potential investigations of frame-guided assembly are also proposed.

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Section: Introductionmentioning

confidence: 99%

Frame‐Guided Assembly of Amphiphiles

Dong

2015

Chemistry A European J

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“…The pore inducing peptides are amphipathic because the peptides are located at the water-lipid interface in the polar headgroups throughout the channel. The toroid with hydrophilic exterior functions as proton channels across a lipid bilayer (Kim et al, 2013).…”

Section: Resultsmentioning

confidence: 99%

Computational simulation of palm kernel oil-based esters nano-emulsions aggregation as a potential parenteral drug delivery system

Faujan

Karjiban

Kashaban

et al. 2019

Arabian Journal of Chemistry

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The self-assembled structure of palm kernel oil-based esters (PKOEs) nano-emulsions has shown a great potential used for parenteral drug delivery applications. Here, all-atom level molecular dynamics (MD) was applied to investigate the aggregation process of PKOEs nano-emulsion system. The system consisted of palm kernel oil-based esters (PKOEs) and dipalmitoylphosphatidylcholine (DPPC) in water. The ratio of all constituents was taken from the homogenous region of a ternary phase diagram determined experimentally. The molecules started to aggregate very rapidly from random configurations. A doughnut-like toroidal assembled structure formed at 50 ns with PKOEs surrounded by DPPC molecules. The structural and dynamical properties of the self-assembled doughnut-like toroidal aggregate were analyzed using the principle moment of inertia, eccentricity and radius of gyration. The aggregation structures were compact with the average radius of gyration of 4.10 (±0.02) nm over the last 5 ns. Additionally, both hydrophobic

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“…Although various responsive side/main chain SDPs responding to external temperature, solvents, and anions have been developed for functional materials, there are only few reports referring to photoresponsive SDPs . Specifically, main chain SDPs are usually constructed by non‐covalent forces such as multiple hydrogen bonding, metal coordination, and π–π interaction . Nevertheless, little attention has been paid to main chain SDP by host–guest interaction .…”

Section: Methodsmentioning

confidence: 99%

Photoresponsive, Water‐Soluble Supramolecular Dendronized Polymer with Specific Lysosome‐Targetable Bioimaging Application in Living Cells

Yin

et al. 2018

Macromol. Rapid Commun.

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A novel photoresponsive, water‐soluble supramolecular dendronized polymer (SDP) is prepared through a γ ‐cyclodextrin (γ ‐CD)‐coumarin host–guest interaction. The supramolecular formation, photoresponsive process, and fluorescence properties are investigated by nuclear magnetic resonance (NMR) techniques and spectrometric measurements. Upon different‐wavelength light irradiation, this supramolecular polymer undergoes noncovalent polymer and covalent polymer conversion due to coumarin cycloaddition and cleavage reactions. In addition, SDP for bioimaging in Michigan Cancer Foundation‐7 (MCF‐7) cells is performed and results show that the obtained SDP has good biocompatibility and is lysosome‐targetable. This research enriches the field of supramolecular dendrimers and the photo‐stimulation response material may have application prospects in organelle‐targeting applications.

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Development of Toroidal Nanostructures by Self-Assembly: Rational Designs and Applications

Cited by 151 publications

References 57 publications

Frame‐Guided Assembly of Amphiphiles

Frame‐Guided Assembly of Amphiphiles

Computational simulation of palm kernel oil-based esters nano-emulsions aggregation as a potential parenteral drug delivery system

Photoresponsive, Water‐Soluble Supramolecular Dendronized Polymer with Specific Lysosome‐Targetable Bioimaging Application in Living Cells

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