通过正交多价连接子将蛋白质附着于分子印刷板。

Attachment of proteins to molecular printboards through orthogonal multivalent linkers.

作者信息

Ludden M J W, Huskens J

机构信息

Laboratory of Molecular Nanofabrication, MESA+ Institute for Nanotechnology, University of Twente, PO Box 217, 7500 AE Enschede, The Netherlands.

出版信息

Biochem Soc Trans. 2007 Jun;35(Pt 3):492-4. doi: 10.1042/BST0350492.

DOI:10.1042/BST0350492

PMID:17511636

Abstract

The attachment of proteins to a surface in such a way that the protein remains functional, is a key issue in many biotechnological processes. Here, we describe the controlled attachment with respect to kinetics, thermodynamics and orientation of SAv (streptavidin) through an orthogonal linker to beta-cyclodextrin selfassembled monolayers. Both a univalent and a bivalent linker are used for this process. The immobilization strategy with the bivalent linker allows the stepwise adsorption of SAv on to the surface, allowing heterofunctionalization of SAv and thus the build-up of more complex bionanostructures at the surface.

摘要

蛋白质以保持功能的方式附着于表面，这是许多生物技术过程中的关键问题。在此，我们描述了通过与β-环糊精自组装单分子层的正交连接体，在动力学、热力学和链霉亲和素（SAv）方向方面进行的可控附着。一价和二价连接体均用于此过程。使用二价连接体的固定策略允许SAv逐步吸附到表面，实现SAv的异功能化，从而在表面构建更复杂的生物纳米结构。

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Attachment of proteins to molecular printboards through orthogonal multivalent linkers.通过正交多价连接子将蛋白质附着于分子印刷板。

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通过正交多价连接子将蛋白质附着于分子印刷板。

Attachment of proteins to molecular printboards through orthogonal multivalent linkers.

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