用于合成细胞的隔室：在微流控芯片中通过渗透压辅助从双乳液中分离油。

Compartments for Synthetic Cells: Osmotically Assisted Separation of Oil from Double Emulsions in a Microfluidic Chip.

机构信息

Process Systems Engineering, Max Planck Institute for Dynamics of Complex Technical Systems, Sandtorstrasse 1, 39106, Magdeburg, Germany.

Theory and Bio-Systems, Max Planck Institute of Colloids and Interfaces, Science Park Golm, 14424, Potsdam, Germany.

出版信息

Chembiochem. 2019 Oct 15;20(20):2604-2608. doi: 10.1002/cbic.201900152. Epub 2019 Jul 30.

DOI:10.1002/cbic.201900152

PMID:31090995

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6852271/

Abstract

Liposomes are used in synthetic biology as cell-like compartments and their microfluidic production through double emulsions allows for efficient encapsulation of various components. However, residual oil in the membrane remains a critical bottleneck for creating pristine phospholipid bilayers. It has been discovered that osmotically driven shrinking leads to detachment of the oil drop. Separation inside a microfluidic chip has been realized to automate the procedure, which allows for controlled continuous production of monodisperse liposomes.

摘要

脂质体在合成生物学中被用作类细胞隔室，通过双乳液的微流体制备可以有效地封装各种成分。然而，在膜中残留的油仍然是形成原始磷脂双层的关键瓶颈。人们发现渗透压驱动的收缩会导致油滴脱落。在微流控芯片内实现了分离，从而实现了该过程的自动化，这使得单分散脂质体的可控连续生产成为可能。

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用于合成细胞的隔室：在微流控芯片中通过渗透压辅助从双乳液中分离油。

Compartments for Synthetic Cells: Osmotically Assisted Separation of Oil from Double Emulsions in a Microfluidic Chip.

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