Combination of on-line sample preconcentration by large-volume dual preconcentration by isotachophoresis and stacking (LDIS) with field-amplified sample injection (FASI) on Y-channel microchips

IF 1.8 4区 化学 Q3 CHEMISTRY, ANALYTICAL
Fumihiko Kitagawa, Sora Sato, Tomohiro Suzuki, Takayuki Kawai
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引用次数: 0

Abstract

In our previous study, the combination of two on-line sample preconcentration techniques, large-volume sample stacking with an electroosmotic flow (EOF) pump (LVSEP) and transient isotachophoresis (tITP), in microchip electrophoresis (MCE) was developed, which was named large-volume dual preconcentration by isotachophoresis and stacking (LDIS). LDIS was apparently effective for improving the sensitivity and the peak shape. In LDIS, however, there was a limit to the improvement of the sensitivity enhancement factor (SEF) since the amount of analytes to be concentrated was limited to the channel volume. To overcome this issue, in the present article, LDIS was coupled with field-amplified sample injection (FASI) technique on Y-shaped channel microchips. The use of a Y-channel in LDIS-FASI allowed consecutive LVSEP, FASI and tITP enrichments with a simple voltage control. In conventional LVSEP and LDIS analyses of a standard analyte, the SEFs were evaluated to be 2630 and 13,100, respectively, whereas in LDIS-FASI that was increased to 27,900 even at the FASI injection time of 0 s. To achieve higher SEFs, furthermore, the FASI injection time was increased to 150 s, resulting in the best SEF of 58,500. It should be emphasized that the peak width in LDIS-FASI was quite narrow, only 0.3–3.1 s, while in normal LVSEP that was 13 s. Furthermore, the LDIS-FASI technique was applied to the analysis of oligosaccharide mixture. Due to the focusing effect by LDIS-FASI, the resolutions were improved from 0.97–1.57 to 2.08–2.73.

Graphical Abstract

Abstract Image

在 Y 型通道微芯片上将大容量异向电泳和堆积双重预浓缩(LDIS)在线样品预浓缩与现场放大样品进样(FASI)相结合。
我们在之前的研究中开发了微芯片电泳(MCE)中两种在线样品预浓缩技术的组合,即使用电渗流(EOF)泵的大容量样品堆积(LVSEP)和瞬时等渗电泳(tITP),并将其命名为大容量等渗电泳和堆积双重预浓缩(LDIS)。LDIS 在提高灵敏度和改善峰形方面效果明显。然而,在 LDIS 中,灵敏度增强因子(SEF)的提高是有限度的,因为需要浓缩的分析物的量受限于通道体积。为了克服这一问题,本文将 LDIS 与 Y 型通道微芯片上的场放大样品进样(FASI)技术相结合。在 LDIS-FASI 中使用 Y 型通道,只需简单的电压控制就能实现连续的 LVSEP、FASI 和 tITP 富集。在对标准分析物进行传统的 LVSEP 和 LDIS 分析时,SEF 分别为 2630 和 13100,而在 LDIS-FASI 中,即使 FASI 注入时间为 0 秒,SEF 也增至 27900。需要强调的是,LDIS-FASI 的峰宽非常窄,只有 0.3-3.1 秒,而普通 LVSEP 的峰宽为 13 秒。由于 LDIS-FASI 的聚焦效应,分辨率从 0.97-1.57 提高到 2.08-2.73。
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来源期刊
Analytical Sciences
Analytical Sciences 化学-分析化学
CiteScore
2.90
自引率
18.80%
发文量
232
审稿时长
1 months
期刊介绍: Analytical Sciences is an international journal published monthly by The Japan Society for Analytical Chemistry. The journal publishes papers on all aspects of the theory and practice of analytical sciences, including fundamental and applied, inorganic and organic, wet chemical and instrumental methods. This publication is supported in part by the Grant-in-Aid for Publication of Scientific Research Result of the Japanese Ministry of Education, Culture, Sports, Science and Technology.
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