Multi-compartment encapsulation of communicating droplets and droplet networks in hydrogel as a model for artificial cells

Mariam Bayoumi; Hagan Bayley; Giovanni Maglia; K. Tanuj Sapra

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Multi-compartment encapsulation of communicating droplets and droplet networks in hydrogel as a model for artificial cells

机译：水凝胶中液滴和液滴网络的多隔室封装作为人造细胞模型

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Constructing a cell mimic is a major challenge posed by synthetic biologists. Efforts to this end have been primarily focused on lipid- and polymer-encapsulated containers, liposomes and polymersomes, respectively. Here, we introduce a multi-compartment, nested system comprising aqueous droplets stabilized in an oil/lipid mixture, all encapsulated in hydrogel. Functional capabilities (electrical and chemical communication) were imparted by protein nanopores spanning the lipid bilayer formed at the interface of the encapsulated aqueous droplets and the encasing hydrogel. Crucially, the compartmentalization enabled the formation of two adjoining lipid bilayers in a controlled manner, a requirement for the realization of a functional protocell or prototissue.

机译：构建细胞模仿是合成生物学家构成的主要挑战。本端的努力主要专注于脂质和聚合物包封的容器，脂质体和聚合物。在这里，我们引入了一种多舱，嵌套系统，包括稳定在油/脂质混合物中的液滴，均包封在水凝胶中。通过跨越在包封的含水液滴和包裹水凝胶的界面处形成的脂质双层的蛋白质纳米孔赋予功能性能力（电气和化学通信）。至关重要的是，局部化使得能够以受控方式形成两个相邻的脂质双层，要求实现功能性原子细胞或原子体。

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《Scientific reports. 》 |2017年第1期| 共11页
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Mariam Bayoumi; Hagan Bayley; Giovanni Maglia; K. Tanuj Sapra;
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1. A Simple Pipetting-based Method for Encapsulating Live Cells into Multi-layered Hydrogel Droplets [J] . Yeon Ju Hun, Chung Sung Hee, Baek Changyoon, BioChip journal . 2018 ,第3期

机译：一个简单的基于移液的方法将活细胞封装到多层水凝胶液滴中
2. Digital microfluidic platform for dielectrophoretic patterning of cells encapsulated in hydrogel droplets [J] . Nestor B. A., Samiei E., Samanipour R., RSC Advances . 2016 ,第62期

机译：水凝胶液滴中封装的细胞介电电泳图案化的数字微流体平台
3. Encapsulation of complex solutions using droplet microfluidics towards the synthesis of artificial cells [J] . Majumder Sagardip, Wubshet Nadab, LiU Allen P. Journal of Micromechanics and Microengineering . 2019 ,第8期

机译：使用液滴微流体对人工细胞合成的复合溶液封装
4. N-cell Droplet Encapsulation Recognition via Weakly Supervised Counting Network [C] . Xiao Zhou, Zhen Cheng, Fei Chang IEEE International Symposium on Biomedical Imaging . 2021

机译：N细胞液滴封装通过弱监督计数网络识别
5. An ER-dependent lipid droplet formation model—A subcellular localization study of multiple proteins involved in lipid droplet biogenesis, and, Lipid droplet association of RDH10 and its functional study [D] . Jiang, Weiya 2008

机译：依赖ER的脂质滴形成模型—涉及脂质滴生物发生的多种蛋白质的亚细胞定位研究以及RDH10的脂质滴缔合及其功能研究
6. Multi-compartment encapsulation of communicating droplets and droplet networks in hydrogel as a model for artificial cells [O] . Mariam Bayoumi, Hagan Bayley, Giovanni Maglia, -1

机译：水凝胶中连通液滴和液滴网络的多室封装作为人造细胞的模型
7. Multi-compartment encapsulation of communicating droplets and droplet networks in hydrogel as a model for artificial cells. [O] . Bayoumi, M, Bayley, JHP, Maglia, G, 2017

机译：在水凝胶中通信小滴和小滴网络的多室封装，作为人工细胞的模型。

Multi-compartment encapsulation of communicating droplets and droplet networks in hydrogel as a model for artificial cells

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