Gong Maojun, Nikcevic Irena, Wehmeyer Kenneth R, Limbach Patrick A, Heineman William R
Department of Chemistry, University of Cincinnati, Cincinnati, OH 45221-0172, USA.
Electrophoresis. 2008 Apr;29(7):1415-22. doi: 10.1002/elps.200700777.
The use of traditional CE to detect weak binding complexes is problematic due to the fast-off rate resulting in the dissociation of the complex during the separation process. Additionally, proteins involved in binding interactions often nonspecifically stick to the bare-silica capillary walls, which further complicates the binding analysis. Microchip CE allows flexibly positioning the detector along the separation channel and conveniently adjusting the separation length. A short separation length plus a high electric field enables rapid separations thus reducing both the dissociation of the complex and the amount of protein loss due to nonspecific adsorption during the separation process. Thrombin and a selective thrombin-binding aptamer were used to demonstrate the capability of microchip CE for the study of relatively weak binding systems that have inherent limitations when using the migration shift method or other CE methods. The rapid separation of the thrombin-aptamer complex from the free aptamer was achieved in less than 10 s on a single-cross glass microchip with a relatively short detection length (1.0 cm) and a high electric field (670 V/cm). The dissociation constant was determined to be 43 nM, consistent with reported results. In addition, aptamer probes were used for the quantitation of standard thrombin samples by constructing a calibration curve, which showed good linearity over two orders of magnitude with an LOD for thrombin of 5 nM at a three-fold S/N.
使用传统毛细管电泳(CE)检测弱结合复合物存在问题,因为解离速率快,会导致复合物在分离过程中解离。此外,参与结合相互作用的蛋白质常常非特异性地粘附在裸硅毛细管管壁上,这进一步使结合分析复杂化。微芯片CE允许沿着分离通道灵活定位检测器,并方便地调整分离长度。短的分离长度加上高电场能够实现快速分离,从而减少复合物的解离以及分离过程中由于非特异性吸附导致的蛋白质损失量。凝血酶和一种选择性凝血酶结合适体被用于证明微芯片CE研究相对较弱结合系统的能力,而使用迁移率变动法或其他CE方法研究这些系统存在固有局限性。在具有相对较短检测长度(1.0厘米)和高电场(670伏/厘米)的单交叉玻璃微芯片上,不到10秒就实现了凝血酶 - 适体复合物与游离适体的快速分离。解离常数测定为43纳摩尔,与报道结果一致。此外,通过构建校准曲线,适体探针用于定量标准凝血酶样品,该校准曲线在两个数量级上显示出良好的线性,凝血酶的检测限在三倍信噪比下为5纳摩尔。