用水动力聚焦法连续制备小囊体,使小囊体向囊泡过渡

IF 4.7 Q2 NANOSCIENCE & NANOTECHNOLOGY
SungHak Choi, BongSu Kang, Toshinori Shimanouchi, Keesung Kim, HoSup Jung
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引用次数: 0

摘要

Bicelle是最稳定的磷脂组合之一,由于其具有生物膜模拟特性和较高的热稳定性,在药物传递和膜蛋白结构研究领域有着巨大的应用。然而,传统的单晶硅制备方法制造工艺复杂,耗时长,因此利用微流控芯片连续合成单晶硅的方法在扩大其可行性方面发挥着重要作用。我们用微流控芯片验证了流体动力聚焦法合成双胞体的普遍有效性,该方法使用的各种脂质的相变温度范围为- 2至41°C。只有当微流控芯片内部温度超过相变温度时,才能形成双胞体。此外,脂质不同,单细胞形成的浓度条件也不同。并从有效q值、混合时间、稀释条件等方面分析了从单胞到囊泡的转化过程特征。我们验证了根据有效q值、混合时间和温度来控制过渡囊泡的大小。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Continuous preparation of bicelles using hydrodynamic focusing method for bicelle to vesicle transition

Bicelle is one of the most stable phospholipid assemblies, which has tremendous applications in the research areas for drug delivery or structural studies of membrane proteins owing to its bio-membrane mimicking characteristics and high thermal stability. However, the conventional preparation method for bicelle demands complicated manufacturing processes and a long time so that the continuous synthesis method of bicelle using microfluidic chip has been playing an important role to expand its feasibility. We verified the general availability of hydrodynamic focusing method with microfluidic chip for bicelle synthesis using various kinds of lipids which have a phase transition temperature ranged from − 2 to 41 °C. Bicelle can be formed only when the inside temperature of microfluidic chip was over the phase transition temperature. Moreover, the concentration condition for bicelle formation varied depending on the lipids. Furthermore, the transition process characteristics from bicelle to vesicle were analyzed by effective q-value, mixing time and dilution condition. We verified that the size of transition vesicles was controlled according to the effective q-value, mixing time, and temperature.

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来源期刊
Micro and Nano Systems Letters
Micro and Nano Systems Letters Engineering-Biomedical Engineering
CiteScore
10.60
自引率
5.60%
发文量
16
审稿时长
13 weeks
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