Separation of large DNA molecules by applying pulsed electric field to size exclusion chromatography-based microchip

Azuma Naoki; Itoh Shintaro; Fukuzawa Kenji; Zhang Hedong

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Separation of large DNA molecules by applying pulsed electric field to size exclusion chromatography-based microchip

机译：通过将脉冲电场应用于基于尺寸排阻色谱的微芯片来分离大型DNA分子

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Through electrophoresis driven by a pulsed electric field, we succeeded in separating large DNA molecules with an electrophoretic microchip based on size exclusion chromatography (SEC), which was proposed in our previous study. The conditions of the pulsed electric field required to achieve the separation were determined by numerical analyses using our originally proposed separation model. From the numerical results, we succeeded in separating large DNA molecules (lambda DNA and T4 DNA) within 1600 s, which was approximately half of that achieved under a direct electric field in our previous study. Our SEC-based electrophoresis microchip will be one of the effective tools to meet the growing demand of faster and more convenient separation of large DNA molecules, especially in the field of epidemiological research of infectious diseases. (c) 2018 The Japan Society of Applied Physics

机译：通过脉冲电场驱动的电泳，我们成功地使用了基于我们先前研究提出的基于尺寸排阻色谱（SEC）的电泳微芯片分离大的DNA分子。使用我们最初提出的分离模型，通过数值分析来确定实现分离所需的脉冲电场的条件。根据数值结果，我们成功地在1600 s内分离出了大的DNA分子（λDNA和T4 DNA），这大约是我们先前研究中在直接电场下获得的一半。我们基于SEC的电泳微芯片将成为满足快速，便捷地分离大型DNA分子的日益增长的需求的有效工具之一，特别是在传染病的流行病学研究领域。（c）2018年日本应用物理学会

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《Japanese journal of applied physics》 |2018年第2期|027002.1-027002.8|共8页
作者
Azuma Naoki; Itoh Shintaro; Fukuzawa Kenji; Zhang Hedong;
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Nagoya Univ, Dept Micronano Mech Sci & Engn, Nagoya, Aichi 4648603, Japan;

Nagoya Univ, Dept Micronano Mech Sci & Engn, Nagoya, Aichi 4648603, Japan;

Nagoya Univ, Dept Micronano Mech Sci & Engn, Nagoya, Aichi 4648603, Japan;

Nagoya Univ, Dept Complex Syst Sci, Nagoya, Aichi 4648601, Japan;

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1. Separation of large DNA molecules by size exclusion chromatography-based microchip with on-chip concentration structure [J] . Azuma Naoki, Itoh Shintaro, Fukuzawa Kenji, Japanese journal of applied physics . 2016,第6s1期

机译：通过基于尺寸排阻色谱的芯片上浓度结构的微芯片分离大DNA分子
2. Improving the separation efficiency of DNA biosamples in capillary electrophoresis microchips using high-voltage pulsed DC electric fields [J] . Che-Hsin Lin, Jing-Hui Wang, Lung-Ming Fu Microfluidics and nanofluidics . 2008,第3期

机译：利用高压脉冲直流电场提高毛细管电泳微芯片中DNA生物样品的分离效率
3. High EDTA concentrations cause entrapment of small DNA molecules in the compression zone of pulsed field gels, resulting in smaller than expected insert sizes in YACs prepared from size selected DNA [J] . Nucleic acids research . 1994,第13期

机译：较高的EDTA浓度会导致小分子DNA截留在脉冲场凝胶的压缩区内，从而导致由选定大小的DNA制备的YAC中插入片段的大小小于预期
4. In-line DNA preconcentration, size separation, and single molecule detection without applied electric fields [C] . Sarah M. Friedrich, Jeffrey M. Burke, Kelvin J. Liu, IEEE International Conference on Micro Electro Mechanical Systems . 2016

机译：在线DNA预浓缩，大小分离和单分子检测而无需施加电场
5. Fundamental and practical studies of polymer separations by HPLC: I. Thermal gradients; II. Interparticle size exclusion; III. Ion-exchange separations of DNA oligomers. [D] . Liu, Qicai. 1998

机译：HPLC分离聚合物的基础和实践研究：I.热梯度；二。颗粒间尺寸排阻；三， DNA低聚物的离子交换分离。
6. Free-solution electrophoretic separations of DNA–drag-tag conjugates on glass microchips with no polymer network and no loss of resolution at increased electric field strength [O] . Jennifer Coyne Albrecht, Matthew B. Kerby, Thomas P. Niedringhaus, -1

机译：在玻璃微芯片上的DNA-拖拉标签缀合物的自由溶液电泳分离没有聚合物网络并且在增加电场强度下没有损失
7. High EDTA concentrations cause entrapment of small DNA molecules in the compression zone of pulsed field gels, resulting in smaller than expected insert sizes in YACs prepared from size selected DNA. [O] . Funke, R P, Kolchinsky, A, Gresshoff, P M 1994

机译：较高的EDTA浓度会导致小分子DNA截留在脉冲场凝胶的压缩区内，从而导致由选定大小的DNA制备的YAC中插入片段的大小小于预期。
8. Separation of DNA by pulsed field capillary electrophoresis. Progress report, August 1, 1992--December 31, 1993. [R] . Karger, B. L. 1994

机译：脉冲场毛细管电泳分离DNa。进展报告，1992年8月1日 - 1993年12月31日。

Separation of large DNA molecules by applying pulsed electric field to size exclusion chromatography-based microchip

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