同时用于胞吐和荧光显微镜安培检测的透明电极材料。

Kassandra Kisler, Brian N Kim, Xin Liu, Khajak Berberian, Qinghua Fang, Cherian J Mathai, Shubhra Gangopadhyay, Kevin D Gillis, Manfred Lindau
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引用次数: 41

摘要

我们已经开发并测试了透明微电极阵列,能够同时对氧化分子进行安培测量,并通过电极进行荧光成像。表面图案微电极由三种不同的导电材料制成:氧化铟锡(ITO),沉积在ITO上的氮掺杂类金刚石(DLC),或玻璃衬底上的非常薄(12-17 nm)金薄膜。将装载溶酶追踪器绿色或吖啶橙染料的染色质细胞置于电极顶部,用全内反射荧光(TIRF)显微镜对囊泡进行荧光成像,同时用表面图案电极测量单个囊泡释放的儿茶酚胺的安培峰值。由这三种材料制成的电极能够以高分辨率检测安培信号。出乎意料的是,ITO电极记录的电流峰值只有DLC或金电极检测到的振幅的一半左右,电荷的一半左右,这表明ITO电极在测量量子儿茶酚胺释放方面不如金电极或DLC电极敏感。在不同的分析物和不同的电极材料存在的情况下,通过计时电流测量证实了ITO电极的低灵敏度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Transparent Electrode Materials for Simultaneous Amperometric Detection of Exocytosis and Fluorescence Microscopy.

We have developed and tested transparent microelectrode arrays capable of simultaneous amperometric measurement of oxidizable molecules and fluorescence imaging through the electrodes. Surface patterned microelectrodes were fabricated from three different conducting materials: Indium-tin-oxide (ITO), nitrogen-doped diamond-like carbon (DLC) deposited on top of ITO, or very thin (12-17 nm) gold films on glass substrates. Chromaffin cells loaded with lysotracker green or acridine orange dye were placed atop the electrodes and vesicle fluorescence imaged with total internal reflection fluorescence (TIRF) microscopy while catecholamine release from single vesicles was measured as amperometric spikes with the surface patterned electrodes. Electrodes fabricated from all three materials were capable of detecting amperometric signals with high resolution. Unexpectedly, amperometric spikes recorded with ITO electrodes had only about half the amplitude and about half as much charge as those detected with DLC or gold electrodes, indicating that the ITO electrodes are not as sensitive as gold or DLC electrodes for measurement of quantal catecholamine release. The lower sensitivity of ITO electrodes was confirmed by chronoamperometry measurements comparing the currents in the presence of different analytes with the different electrode materials.

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