Surface imprinting polymers for the recognition of nucleotides.

H Tsunemori, K Araki, K Uezu, M Goto, S Furusaki
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引用次数: 18

Abstract

A highly selective polymer has been prepared for the selective separation of nucleotides by the surface imprinting polymerization. A dialkyl quaternary ammonium chloride was effective as the functional molecule for recognizing the difference in the structure of nucleotides. Adsorptive behavior of the ionic species of the structural analogues, inosine-5'-monophosphoric acid (IMP) and guanosine-5'-monophosphoric acid (GMP), could be controlled by changing the pH condition. Surface imprinting polymers were prepared under different pH conditions; pH 9.0 and pH 8.5. The IMP-imprinted polymers exhibited higher template effect for IMP than for a structural analogue, GMP. A reference polymer prepared without the imprint molecule neither exhibit any selectivity to IMP nor to GMP. The adsorption behavior was quantitatively evaluated by the binding constants for the IMP-imprinted polymer. The imprinting polymer was found to recognize a small structural difference in nucleotides.

用于核苷酸识别的表面印迹聚合物。
采用表面印迹聚合法制备了一种高选择性的核苷酸选择性分离聚合物。二烷基季铵盐作为识别核苷酸结构差异的功能分子是有效的。结构类似物肌苷-5′-单磷酸(IMP)和鸟苷-5′-单磷酸(GMP)的离子种类的吸附行为可以通过改变pH条件来控制。在不同的pH条件下制备表面印迹聚合物;pH 9.0和pH 8.5。与结构类似物GMP相比,IMP印迹聚合物对IMP表现出更高的模板效应。没有印迹分子的参比聚合物对IMP和GMP都没有选择性。通过结合常数对印迹聚合物的吸附行为进行了定量评价。印迹聚合物被发现可以识别核苷酸的微小结构差异。
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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