Department of Electrical and Biomedical Engineering, University of Nevada Reno, 1604 N Virginia ST, Reno, NV 89557-0260, USA.
Anal Bioanal Chem. 2010 Feb;396(3):1345-53. doi: 10.1007/s00216-009-3291-x. Epub 2009 Nov 28.
In this work, the compatibility of quantum dots (QDs) with immunobuffers was studied by investigating the fluorescence stability of QDs in immunobuffers (in this research immunobuffers were defined as buffers for immunoaffinity binding or separation). Experimentally, the fluorescence signals of QDs with different surface chemistries (amine-terminated, streptavidin-coated, or antibody-conjugated) in commonly used immunobuffers were monitored versus time. The effect of some buffer composition on the compatibility of QDs with these buffers was also explored. Based on experimental data, the QD compatibility with these buffers is summarized, and it is found that a trace amount of bovine serum albumin added to most of these buffers helps QDs to achieve compatibility with them. Moreover, with QD as fluorescence label and C-reactive protein as a model analyte, a magnetic bead-based assay was performed using compatible and incompatible QD-immunobuffer systems. It is shown that compatible QD-immunobuffer systems can be used to achieve a higher assay signal/background ratio.
在这项工作中,通过研究免疫缓冲液中量子点(QDs)的荧光稳定性来研究 QDs 与免疫缓冲液的相容性(在本研究中,免疫缓冲液被定义为用于免疫亲和结合或分离的缓冲液)。实验中,监测了具有不同表面化学性质(氨基末端、链霉亲和素涂层或抗体偶联)的 QDs 在常用免疫缓冲液中的荧光信号随时间的变化。还探索了一些缓冲液成分对 QDs 与这些缓冲液相容性的影响。基于实验数据,总结了 QDs 与这些缓冲液的相容性,发现向大多数这些缓冲液中添加微量牛血清白蛋白有助于 QDs 与它们相兼容。此外,以 QD 作为荧光标记物,以 C-反应蛋白作为模型分析物,使用相容和不相容的 QD-免疫缓冲液系统进行了基于磁珠的测定。结果表明,相容的 QD-免疫缓冲液系统可用于实现更高的测定信号/背景比。