用流式细胞仪荧光各向异性测量检测受体聚类。

Cytometry Pub Date : 2000-08-01
L Bene, M J Fulwyler, S Damjanovich
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引用次数: 0

摘要

背景:Perrin方程提出了一种在传统流式细胞仪中测量极化供体强度以精确测定细胞间能量转移的替代方法。方法:采用流式细胞术在活细胞表面生成荧光抗体标记MHC I类和II类分子的Perrin-lifetime图,研究能量传递与供体荧光各向异性之间的关系。能量转移降低了供体的荧光寿命。结果:Perrin图对标记染料的片段迁移性和不同同型抗体的片段迁移性以及由于多次标记抗体而引起的同源转移敏感。提出了一种通过测量供体的各向异性增强来确定能量转移的方法。供体各向异性和推断的能量传递效率的流式细胞直方图显示,MHC I类和II类分子聚集在人T淋巴细胞表面。在附录中,还提出了一种不需要测量g因子而同时测定能量传递效率和供体荧光各向异性的方法。结论:我们证明了在流式细胞仪中可以同时测量合适选择的供体和受体之间的能量传递效率(即接近度)和供体的旋转松弛度(即供体迁移率)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Detection of receptor clustering by flow cytometric fluorescence anisotropy measurements.

Background: Perrin equation suggests an alternative way for the accurate energy transfer determination on a cell-by-cell basis by measuring polarized donor intensities in a conventional flow cytometer.

Methods: The relationship between energy transfer and fluorescence anisotropy of the donor was investigated by flow cytometric generation of Perrin-lifetime plots of fluorescent antibody-labeled MHC class I and class II molecules on the surface of living cells. The energy transfer reduced the fluorescence lifetime of the donor.

Results: Perrin plots have proven to be sensitive to the segmental mobility of the labeling dye and that of antibodies of different isotypes, and homo-transfer due to the multiple labeling of antibodies. A method demonstrating the feasibility of energy transfer determination by measuring anisotropy enhancement of the donor is presented. Flow cytometric histograms of the donor anisotropy and of the deduced energy transfer efficiency are shown, indicating clustering of MHC class I and class II molecules on the surface of human T lymphoblasts. In the Appendix, a method for the simultaneous determination of both energy transfer efficiency and donor fluorescence anisotropy, without need for G-factor measurement, is also presented.

Conclusions: We demonstrate that energy transfer efficiency, i.e., proximity, between suitably selected donor and acceptor, and the rotational relaxation of the donor, i.e., donor mobility, can be simultaneously measured in a flow cytometer.

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