Fabrication of functional gel-nanotool for intracellular measurement

H. Maruyama, F. Arai
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Abstract

Functional gel-nanotool impregnated with indicators for intracellular measurement in a microfluidic chip was developed. We employed membrane fusion of liposome for invasive injection of the gel-nanotool into a specific cell. The gel-nanotool is made by photo polymerization of the aggregated hydrophilic photo-crosslinkable resin. And it is modified by fluorescent dye for environment measurement. For injection to a cell, the gel-nanotool was included in fusogenic liposome. The gel-nanotool coated by fusogenic liposome was prepared by Bangham method. The gel-nanotool was manipulated by optical tweezers and contacted to the target cell. After contact of the gel-nanotool, the gel-nanotool was injected to the cell autonomously by membrane fusion of the fusogenic liposome. Injected gel-nanotool was manipulated by optical tweezers inside the cell. Detection of intracellular temperature was performed by observing the fluorescence from the gel-nanotool. We demonstrated preparation of the gel-nanotool, injection of the gel-nanotool to the cell by membrane fusion, and measurement of intracellular temperature in the chip.
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细胞内测量功能凝胶-纳米工具的制备
研制了一种微流控芯片细胞内测量功能凝胶-纳米工具。我们采用脂质体膜融合技术将凝胶-纳米工具侵入性注射到特定细胞中。凝胶-纳米工具是由聚集的亲水光交联树脂光聚合制成的。并用荧光染料对其进行修饰,用于环境检测。为了注射到细胞中,凝胶-纳米工具被包含在促聚变脂质体中。采用Bangham法制备了熔融性脂质体包被凝胶纳米工具。利用光镊操纵凝胶纳米工具,使其与靶细胞接触。凝胶-纳米工具与细胞接触后,通过脂质体的膜融合将凝胶-纳米工具自动注入细胞。注入的凝胶-纳米工具由细胞内的光学镊子操纵。通过观察凝胶-纳米工具的荧光来检测细胞内温度。我们演示了凝胶纳米工具的制备,通过膜融合将凝胶纳米工具注射到细胞中,并在芯片中测量细胞内温度。
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