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Programmed magnetic manipulation of vesicles into spatially coded prototissue architectures arrays

Qingchuan Li, Shubin Li, Xiangxiang Zhang, Weili Xu, Xiaojun Han

2020Nature Communications109 citationsDOIOpen Access PDF

Abstract

In nature, cells self-assemble into spatially coded tissular configurations to execute higher-order biological functions as a collective. This mechanism has stimulated the recent trend in synthetic biology to construct tissue-like assemblies from protocell entities, with the aim to understand the evolution mechanism of multicellular mechanisms, create smart materials or devices, and engineer tissue-like biomedical implant. However, the formation of spatially coded and communicating micro-architectures from large quantity of protocell entities, especially for lipid vesicle-based systems that mostly resemble cells, is still challenging. Herein, we magnetically assemble giant unilamellar vesicles (GUVs) or cells into various microstructures with spatially coded configurations and spatialized cascade biochemical reactions using a stainless steel mesh. GUVs in these tissue-like aggregates exhibit uncustomary osmotic stability that cannot be achieved by individual GUVs suspensions. This work provides a versatile and cost-effective strategy to form robust tissue-mimics and indicates a possible superiority of protocell colonies to individual protocells.

Topics & Concepts

ProtocellVesicleBiomineralizationMulticellular organismNanotechnologyBiomimetic materialsArtificial cellBiophysicsMaterials scienceComputer scienceBiological systemChemistryBiologyAstrobiologyMembraneGeneBiochemistrySupramolecular Self-Assembly in MaterialsPhotoreceptor and optogenetics researchLipid Membrane Structure and Behavior
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