Supramolecular architectures for the functionalization of solid surfaces

Advances in Biophysics Pub Date : 1997-01-01 DOI:10.1016/S0065-227X(97)89642-6
Wolfgang Knoll , Martha Liley , Darko Piscevic , Jürgen Spinke , Michael J. Tarlov
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引用次数: 44

Abstract

Surface plasmon optical techniques are described as sensitive tools that allow for the on-line characterization of supramolecular biofunctional architectures at solid/solution interfaces. After a short introduction into the fundamentals of surface plasmon optics the observation of the build up of a functional bio-interface by the self-assembly process of long chain thiolates at an Au surface is described. Criteria are developed for tailoring the SAM architectures optimized for maximum protein binding from solution by specific bio-recognition reactions. SPM is employed to image the selective binding of streptavidin to a functionalized SAM laterally patterned by UV-photolithographic techniques.

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固体表面功能化的超分子结构
表面等离子体光学技术被描述为一种敏感的工具,可以在线表征固体/溶液界面上的超分子生物功能结构。在简要介绍了表面等离子体光学的基本原理之后,描述了通过长链硫代酸盐在金表面的自组装过程建立功能性生物界面的观察。开发了用于定制SAM结构的标准,优化了通过特定生物识别反应从溶液中最大限度地结合蛋白质。SPM被用来成像链霉亲和素选择性结合到一个功能化的SAM上,通过紫外光刻技术横向图案。
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Advances in Biophysics
Advances in Biophysics
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Preface Illegitimate recombination mediated by double-strand break and end-joining in Escherichia coli. Genetic and physiological regulation of non-homologous end-joining in mammalian cells. The function of RecQ helicase gene family (especially BLM) in DNA recombination and joining. Nijmegen breakage syndrome and DNA double strand break repair by NBS1 complex.
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