Results 171 to 180 of about 465,440 (235)
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Engineering semi-permeable giant liposomes
Chemical Communications, 2023Giant unilamellar vesicles (GUVs) with semi-permeable nature are constructed as building blocks for synthetic cells.
Sreelakshmi Radhakrishnan +3 more
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Chemical Engineering Journal, 2019
We demonstrated the microfluidic production of W/O/W double emulsion droplets aiming formation of β-carotene-incorporated giant liposomes for food and/or pharmaceutical applications.
M. Michelon +4 more
semanticscholar +3 more sources
We demonstrated the microfluidic production of W/O/W double emulsion droplets aiming formation of β-carotene-incorporated giant liposomes for food and/or pharmaceutical applications.
M. Michelon +4 more
semanticscholar +3 more sources
Electroformation and collection of giant liposomes on an integrated microchip
Chinese Chemical Letters, 2019Giant liposome is an important lipid structure widely used in biological and medical fields. In its main preparation method, electroformation, many influencing factors must be optimized for good effect.
Zhen-yu Wang +6 more
semanticscholar +3 more sources
Giant liposomes: from membrane dynamics to cell morphogenesis
Current Opinion in Colloid & Interface Science, 1999Although a lipid bilayer is only several nanometers in thickness, giant liposomes (GLs) make it possible to observe the dynamic features of individual membrane vesicles in real time with optical microscopy. Recent progress in GL preparation methods allows one to make reproducible image analyses of essential characteristics of membrane vesicles ...
Hirokazu Hotani +2 more
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Electroformation of giant liposomes from spin-coated films of lipids
Colloids and Surfaces B: Biointerfaces, 2005This paper describes spin-coating of solutions of lipids and using the resulting thin films for electroformation of giant liposomes. Spin-coating made it possible to generate uniform films of lipids with controllable thickness over large surfaces (>25 cm(2)) of indium tin oxide. Establishing a range of thicknesses optimal for electroformation (25-50 nm)
Daniel J, Estes, Michael, Mayer
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In situ precipitation of magnetic fluid encapsulated in giant liposomes
Journal of Colloid and Interface Science, 2010It is well known that adding salt to a colloidal solution stabilized by electrostatic repulsions can induce its destabilization. When this colloidal solution is encapsulated inside liposomes an in situ precipitation can be induced by slightly modification of the environment: application of a magnetic field in the case of magnetic particles or increase ...
Grégory, Beaune, Christine, Ménager
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Microbe Entrapment in Giant Liposomes
Handbook of Nonmedical Applications of Liposomes: From Gene Delivery and Diagnostics to Ecology, 2019Gregory Gregoriadis +2 more
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Langmuir, 2023
Staphylococcus aureus α-hemolysin (αHL) is one of the most popular proteins in nanopore experiments within lipid membranes. Higher concentrations of αHL within the lipid membrane are desirable to enhance the mass transport capacity through nanopores ...
Mizuki Kobayashi +5 more
semanticscholar +1 more source
Staphylococcus aureus α-hemolysin (αHL) is one of the most popular proteins in nanopore experiments within lipid membranes. Higher concentrations of αHL within the lipid membrane are desirable to enhance the mass transport capacity through nanopores ...
Mizuki Kobayashi +5 more
semanticscholar +1 more source
Efficient liposome fusion to phase-separated giant vesicles
Biophysical Journal, 2023Lateral phase heterogeneity in biomembranes can govern cellular functions and may serve as a platform for enrichment or depletion of membrane-anchored molecules. In this work, we address the question of how the process of membrane fusion is affected by the membrane phase state (fluid or gel) and by phase coexistence, as well as the effects of fusion ...
Rafaela R.M. Cavalcanti +4 more
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