小分子登革病毒共印记及其作为电化学传感器的应用。

Small-Molecule Dengue Virus Co-imprinting and Its Application as an Electrochemical Sensor.

作者信息

Sukjee Wannisa, Tancharoen Chompoonuch, Yenchitsomanus Pa-Thai, Gleeson M Paul, Sangma Chak

机构信息

Department of Chemistry, Faculty of Science Kasetsart University Bangkok 10900 Thailand.

Siriraj Center of Excellence in Biomedical Research, Faculty of Medicine Siriraj Hospital Mahidol University Bangkok 10700 Thailand.

出版信息

ChemistryOpen. 2017 Apr 10;6(3):340-344. doi: 10.1002/open.201700037. eCollection 2017 Jun.

DOI:10.1002/open.201700037

PMID:28638764

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5474651/

Abstract

Polymers can be synthesized to recognize small molecules. This is achieved by introducing the target molecule during monomer self-assembly, where they can be incorporated during cross-linking polymerization. Following additional pre-processing, the material obtained can then be applied as a sensing layer for these molecules in many applications. The sensitivity of the polymers depends on the "active sites" imprinted on the surface. Increasing the number of active sites on the polymers surface can be achieved by using nanoparticles as a platform to support and concentrate the molecules for imprinting. In this work, we report the first use of dengue virus as a supporting nanoparticle to make for a more effective polymer composite sensor for the detection of bisphenol A (BPA), which is an environmental contaminant. The dengue virus has a nanoparticle size of around 100 nm and its surface provides regions where lipids and hydrophobic compounds can bind, making it an ideal support. The mixing of BPA with dengue prior to monomer self-assembly led to imprinted polymer surfaces with much higher density BPA binding sites and a limit of detection of 0.1 pm. We demonstrate that a BPA-dengue co-imprinting polymer composite sensor shows a very high sensitivity for BPA, but with lower production costs and technical requirements than other comparable methods.

摘要

聚合物可以被合成以识别小分子。这是通过在单体自组装过程中引入目标分子来实现的，在该过程中它们可以在交联聚合期间被结合进去。经过额外的预处理后，所获得的材料随后可以在许多应用中用作这些分子的传感层。聚合物的灵敏度取决于印刻在表面的“活性位点”。通过使用纳米颗粒作为支持和浓缩用于印记的分子的平台，可以增加聚合物表面活性位点的数量。在这项工作中，我们报告了首次使用登革热病毒作为支持纳米颗粒来制备用于检测双酚A（BPA）的更有效的聚合物复合传感器，双酚A是一种环境污染物。登革热病毒的纳米颗粒大小约为100纳米，其表面提供了脂质和疏水化合物可以结合的区域，使其成为理想的支持物。在单体自组装之前将双酚A与登革热病毒混合，导致聚合物表面具有密度更高的双酚A结合位点，检测限为0.1皮摩尔。我们证明，双酚A - 登革热共印记聚合物复合传感器对双酚A具有非常高的灵敏度，但与其他可比方法相比，生产成本和技术要求更低。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9e6c/5474651/3891d07b9734/OPEN-6-340-g001.jpg

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小分子登革病毒共印记及其作为电化学传感器的应用。

Small-Molecule Dengue Virus Co-imprinting and Its Application as an Electrochemical Sensor.

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