Molecular Imprinting Technology for Biomimetic Assemblies

Hacettepe Journal of Biology and Chemistry Pub Date : 2020-10-16 DOI:10.15671/hjbc.801427

Nilay Bereli, Semra Akgönüllü, Sevgi Aslıyüce, Duygu Çimen, Ilgım Göktürk, Deniz Türkmen, H. Yavuz, A. Denizli

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引用次数: 4

Abstract

The term biomimetic can be simply defined as the examination of nature. The scientists inspired by the enormous diversity of nature to solve human problems or facilitate daily life by mimicking natural models, systems, and elements especially in the biomedical and therapeutic applications to make better drugs, artificial organs, sensing instruments, etc. Biological recognition elements like proteins, antibodies, enzymes, DNA, lectins, aptamers, cells, and viruses have been heavily used to ensure specificity in such applications in spite of their lack of stability and reusability. However, in the last two decades molecularly imprinted polymers, MIPs, have been synthesized as an alternative to mimic natural biological interactions for a broad spectrum of templates by means of coordinating functional monomers around template in the presence of cross-linker. This review will outline the broad contours of biomimetics prepared by molecular imprinting techniques and their practical applications in the separation techniques, tissue engineering applications, biomimetic surfaces, sensors, artificial membranes, and drug delivery systems.

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仿生装配的分子印迹技术

仿生学这个术语可以简单地定义为对自然的考察。科学家们受到自然界巨大多样性的启发，通过模仿自然模型、系统和元素来解决人类问题或促进日常生活，特别是在生物医学和治疗应用中，以制造更好的药物、人造器官、传感仪器等。生物识别元素，如蛋白质、抗体、酶、DNA、凝集素、适体、细胞和病毒，尽管缺乏稳定性和可重用性，但已大量用于确保此类应用的特异性。然而，在过去的二十年中，通过在交联剂的存在下在模板周围配位功能单体，分子印迹聚合物(MIPs)已经被合成为一种模拟广泛模板的自然生物相互作用的替代方法。本文将概述分子印迹技术制备的仿生学及其在分离技术、组织工程、仿生表面、传感器、人工膜和药物输送系统等方面的实际应用。

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Hacettepe Journal of Biology and Chemistry

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