Stanford Genome Technology Center, Stanford, California, USA.
Anal Chem. 2012 Feb 7;84(3):1432-8. doi: 10.1021/ac202508u. Epub 2012 Jan 20.
In this paper with the aid of negative dielectrophoresis force in conjunction with shear force and at an optimal sodium hydroxide concentration we demonstrated a switchlike functionality to elute specifically bound beads from the surface. At an optimal flow rate and sodium hydroxide concentration, negative dielectrophoresis turned on results in bead detachment, whereas when negative dielectrophoresis is off, the beads remain attached. This platform offers the potential for performing a bead-based multiplexed assay where in a single channel various regions are immobilized with a different antibody, each targeting a different antigen. To develop the proof of concept and to demonstrate the switchlike functionality in eluting specifically bound beads from the surface we looked at two different protein interactions. We chose interactions that were in the same order of magnitude in strength as typical antibody-antigen interactions. The first was protein G-IgG interaction, and the second was the interaction between anti-IgG and IgG.
在本文中,我们借助负介电泳力与剪切力,并在最佳氢氧化钠浓度下,展示了一种开关功能,可以从表面特异性地洗脱结合的珠子。在最佳流速和氢氧化钠浓度下,负介电泳开启导致珠子脱落,而当负介电泳关闭时,珠子则保持附着。该平台具有进行基于珠子的多重分析的潜力,其中在单个通道中,不同区域用不同的抗体固定,每个抗体针对不同的抗原。为了开发概念验证并展示从表面特异性洗脱结合珠子的开关功能,我们研究了两种不同的蛋白质相互作用。我们选择了与典型抗体-抗原相互作用强度相同数量级的相互作用。第一个是蛋白 G-IgG 相互作用,第二个是抗 IgG 与 IgG 之间的相互作用。