SURFACE PLASMON RESONANCE SPECTROSCOPY AND QUARTZ CRYSTAL MICROBALANCE STUDY OF PROTEIN-DNA INTERACTIONS IN HORMONE RECEPTOR BIOLOGY

X. Su
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Abstract

Surface plasmon resonance (SPR) spectroscopy and quartz crystal microbalance (QCM) are surface sensitive analytical techniques capable of real-time monitoring of biomolecular interactions. In this article we review our past work on the use of these two techniques for studying protein–DNA interactions, exemplified with estrogen receptors (ER) and their response elements (ERE). Various assay schemes have been developed for a comprehensive characterization of ER–ERE interactions in terms of sequence specificity, binding affinity, stoichiometry, ligand effects on binding dynamics and conformational changes in the proteins and DNA. These are all important characteristics underlining the mechanism of ER-mediated gene transcription. With these studies we have made the following demonstrations to describe the advantages of these two techniques, namely (i) SPR technique is superior and more versatile than conventional (electrophoretic mobility shift assay) EMSA for studying protein-DNA interactions; (ii) QCM is an alternative tool for studying conformational changes in protein–DNA complexes and (iii) combinational SPR and QCM analysis provides additional characterization of biomolecular films, e.g. film thickness, water content, and conformation rigidity etc.
激素受体生物学中蛋白质- dna相互作用的表面等离子体共振光谱和石英晶体微平衡研究
表面等离子体共振(SPR)光谱和石英晶体微平衡(QCM)是能够实时监测生物分子相互作用的表面敏感分析技术。在这篇文章中,我们回顾了我们过去使用这两种技术研究蛋白质- dna相互作用的工作,例如与雌激素受体(ER)及其反应元件(ERE)。为了全面表征ER-ERE相互作用的序列特异性、结合亲和力、化学计量学、配体对结合动力学的影响以及蛋白质和DNA的构象变化,已经开发了各种分析方案。这些都是强调er介导的基因转录机制的重要特征。通过这些研究,我们已经做了以下演示来描述这两种技术的优势,即(i) SPR技术在研究蛋白质- dna相互作用方面比传统的EMSA(电泳迁移率转移试验)更优越,更通用;(ii) QCM是研究蛋白质- dna复合物构象变化的另一种工具;(iii)结合SPR和QCM分析提供了生物分子膜的额外表征,例如膜厚度、含水量和构象硬度等。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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