Development of protein-recognition SPR devices by combination of SI-ATRP with biomolecular imprinting using protein ligands

Molecular Imprinting Pub Date : 2016-03-16 DOI:10.1515/molim-2016-0003

R. Naraprawatphong, Genta Kawanaka, M. Hayashi, Akifumi Kawamura, T. Miyata

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引用次数: 6

Abstract

Abstract Molecularly imprinted polymer brush layers and gel layers with both a lectin (ConA) and an antibody-IgG as biomolecular ligands for a target protein were formed on surface plasmon resonance (SPR) sensor chips via surface-initiated atom transfer radical polymerization (SIATRP) without and with a crosslinker, respectively. While the IgG-imprinted brush layers chip had almost the same affinity constant for target IgG as the nonimprinted brush layer chip, the affinity constant of the IgG-imprinted gel layer chip was approximately twice than that of the nonimprinted gel layer chip. These indicate that chemical crosslinks are very important factor to create distinct molecular recognition sites by molecular imprinting. Thus, biomolecular imprinting that uses biomolecular ligands and crosslinkers enables us to design polymer layer chips with distinct molecular recognition sites with a strong affinity for a target biomolecule. The molecularly imprinted gel layers chips with lectin and antibody ligands are promising candidates for fabricating SPR sensor systems to monitor target biomolecules such as proteins.

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利用蛋白质配体将 SI-ATRP 与生物分子印迹技术相结合，开发蛋白质识别 SPR 设备

摘要通过表面引发原子转移自由基聚合（SIATRP）技术，在无交联剂和有交联剂的情况下，在表面等离子体共振（SPR）传感器芯片上分别形成了以凝集素（ConA）和抗体-IgG为生物分子配体的分子印迹聚合物刷层和凝胶体层。IgG-压印刷层芯片与非压印刷层芯片对目标 IgG 的亲和力常数几乎相同，而 IgG-压印凝胶层芯片的亲和力常数约为非压印凝胶层芯片的两倍。这表明化学交联是分子印迹技术产生独特分子识别位点的重要因素。因此，使用生物分子配体和交联剂的生物分子印迹技术可以设计出具有独特分子识别位点的聚合物层芯片，这些位点对目标生物大分子具有很强的亲和力。带有凝集素和抗体配体的分子印迹凝胶层芯片有望用于制造 SPR 传感器系统，以监测蛋白质等目标生物分子。

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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Molecular Imprinting

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