Stelzle M, Dürr M, Cieplik M, Nisch W
Naturwissenschaftliches und Medizinisches Institut, Reutlingen, Germany.
Fresenius J Anal Chem. 2001 Sep;371(2):112-9. doi: 10.1007/s002160100959.
A micro-chamber for electrophoretic accumulation of charged biomolecules has been designed and evaluated. The system is based on a chip with an array of planar focusing electrodes. Particular attention was devoted to a design which enables penetration of a large sample volume by the electric field of the focusing electrodes. General design principles for a cylindrically symmetrical arrangement of the focusing electrodes were derived. Accumulation of DNA oligomers and streptavidin in aqueous solution was demonstrated. The concentration of biomolecules in the centre of the chip was enhanced by up to a factor of 200. The major fraction of the total charge delivered during electrophoretic accumulation results from Faradaic processes. The maximum charge density deliverable without visible gas formation was determined. By careful control of the voltage and current density applied to the electrodes, evolution of gas bubbles could be avoided for the time required to accumulate analyte molecules in the centre of the micro-chamber. On-chip electrophoretic accumulation of biomolecules can be applied to sample pre-conditioning in lab-on-a-chip devices for analysis of DNA and protein samples.
一种用于带电生物分子电泳富集的微腔已被设计并评估。该系统基于带有平面聚焦电极阵列的芯片。特别关注了一种能使聚焦电极的电场穿透大量样品体积的设计。推导了聚焦电极圆柱对称排列的一般设计原则。证明了DNA寡聚物和链霉亲和素在水溶液中的富集。芯片中心生物分子的浓度提高了200倍。电泳富集过程中传递的总电荷的主要部分来自法拉第过程。确定了在不形成可见气体的情况下可输送的最大电荷密度。通过仔细控制施加到电极上的电压和电流密度,在微腔中心积累分析物分子所需的时间内可以避免气泡的产生。生物分子的芯片上电泳富集可应用于芯片实验室设备中用于DNA和蛋白质样品分析的样品预处理。