A practical device for pinpoint delivery of molecules into multiple neurons in culture.

Brain cell biology Pub Date : 2006-12-01 Epub Date: 2008-04-05 DOI:10.1007/s11068-008-9021-z

Chikako Hara, Kiyohiko Tateyama, Naoki Akamatsu, Hiroyuki Imabayashi, Koichi Karaki, Nobuo Nomura, Hideyuki Okano, Atsushi Miyawaki

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引用次数: 16

Abstract

We have developed a device for pinpoint delivery of chemicals, proteins, and nucleic acids into cultured cells. The principle underlying the technique is the flow of molecules from the culture medium into cells through a rupture in the plasma membrane made by a needle puncture. DNA transfection is achieved by stabbing the needle tip into the nucleus. The CellBee device can be attached to any inverted microscope, and molecular delivery can be coupled with conventional live cell imaging. Because the position of the needle relative to the targeted cultured cells is computer-controlled, efficient delivery of molecules such as rhodamine into as many as 100 HeLa cells can be completed in 10 min. Moreover, specific target cells within a single dish can be transfected with multiple DNA constructs by simple changes of culture medium containing different plasmids. In addition, the nano-sized needle tip enables gentle molecular delivery, minimizing cell damage. This method permits DNA transfection into specific hippocampal neurons without disturbing neuronal circuitry established in culture.

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一种实用的装置，可以精确地将分子传递到培养的多个神经元中。

我们已经开发出一种设备，可以精确地将化学物质、蛋白质和核酸输送到培养的细胞中。该技术的基本原理是，分子从培养基中流入细胞，通过针刺在质膜上造成的破裂。DNA转染是通过将针尖插入细胞核来实现的。CellBee装置可以附着在任何倒置显微镜上，分子传递可以与传统的活细胞成像相结合。由于针头相对于目标培养细胞的位置是由计算机控制的，因此可以在10分钟内将罗丹明等分子有效地递送到多达100个HeLa细胞中。此外，通过简单地改变含有不同质粒的培养基，可以将单个培养皿中的特定靶细胞转染多种DNA构建物。此外，纳米大小的针尖能够温和地传递分子，最大限度地减少细胞损伤。这种方法允许将DNA转染到特定的海马神经元中，而不干扰培养中建立的神经元回路。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Brain cell biology

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