分子印迹技术的回顾、现状与展望

分子印迹技术是近年来集高分子合成、分子设计、分子识别、仿生生物工程等众多学科优势发展起来的一门边缘学科分支。分子印迹聚合物由于具有与天然抗体同样的识别性能和与高分子同样的抗腐蚀性能的双重优点,因而广泛应用于生物工程、临床医学、环境监测、食品工业等众多领域。本文回顾了分子印迹技术近十多年来的发展过程,总结了目前的研究现状,并展望了分子印迹技术未来的发展趋势。     

A Programmable Signaling Molecular Recognition Nanocavity Prepared by Molecular Imprinting and Post‐Imprinting Modifications

Inspired by biosystems, a process is proposed for preparing next‐generation artificial polymer receptors with molecular recognition abilities capable of programmable site‐directed modification following construction of nanocavities to provide multi‐functionality. The proposed strategy involves strictly regulated multi‐step chemical modifications: 1) fabrication of scaffolds by molecular imprinting for use as molecular recognition fields possessing reactive sites for further modifications at pre‐determined positions, and 2) conjugation of appropriate functional groups with the reactive sites by post‐imprinting modifications to develop programmed functionalizations designed prior to polymerization, allowing independent introduction of multiple functional groups. The proposed strategy holds promise as a reliable, affordable, and versatile approach, facilitating the emergence of polymer‐based artificial antibodies bearing desirable functions that are beyond those of natural antibodies.     

Molecular Imprinting in Sol-Gel Materials: Recent Developments and Applications

Since its inception five decades ago, imprinted sol-gel materials went practically unnoticed, until in the 1970s the conceptual introduction of molecular imprinting in synthetic polymers triggered a new interest in this field. The recent growth in interest in organic–inorganic hybrid materials prepared by sol-gel chemistry and the development of a variety of new strategies for imprinting polymeric matrices have led to a growing activity in what became known as molecularly imprinted sol-gel materials. This paper intends to give an overview of recent progress in molecular imprinting in sol-gel matrices, the potential analytical applications of these tailor-made materials and their limitations, with the aim of drawing attention to useful information and to enhancing interest in this practically unexplored but promising field.     

水相识别分子印迹技术

在各种基于超分子方法的仿生识别体系中,分子印迹聚合物已经证明是一种有潜力的合成受体,受到了广泛的关注。传统的分子印迹技术通常是在有机溶剂中制备对小分子具有选择性的印迹聚合物,而在水相中制备及识别生物大分子的研究仍具有相当的挑战性。从小分子到生物大分子、从有机相到水相,反映了分子印迹技术的发展趋势。本文对最近几年分子印迹在水相制备与识别方面的最新进展进行了总结与评述,探讨了水相识别印迹聚合物的设计策略与制备方法;着重介绍了水相识别技术在固相萃取、色谱固定相、药物控释、中药有效成份提取以及生物分子识别等方面的应用;指出了提高水相识别选择性的途径并对其将来的发展进行了建议与展望。     

分子印迹技术研究进展

分子印迹技术（又称为分子烙印）是结合高分子化学,生物化学等学科发展起来的一门边缘学科,它对于研究酶的结构,认识受体－抗体作用机理及在分析化学等方面有重要的意义,本文就分子印迹技术的基本原理,基本方法,发展趋势,研究成果及应用前景进行了综述。     

A Bait-and-Switch Method for the Construction of Artificial Esterases for Substrate-Selective Hydrolysis

Outcomes of chemical reactions are generally dominated by the intrinsic reactivities of reaction partners, but enzymes frequently override such constraints to transform less reactive molecules in the presence of more reactive ones. Despite the attractiveness of such catalysis, it is difficult to build synthetic catalysts with these features. Micellar imprinting is a powerful method to create template-complementary binding sites inside protein-sized water-soluble nanoparticles. When a photocleavable functional monomer was used to bind two phosphonate/phosphate templates as transition-state analogues, active sites with predetermined size and shape were formed inside doubly cross-linked micelles through molecular imprinting. Postmodification replaced the binding group with a catalytic pyridyl group, forming highly selective artificial esterases. The catalysts displayed enzyme-like kinetics and turnover numbers that were in the hundreds. The selectivity of the catalysts, derived from the substrate-complementary imprinted active sites, enabled transformation of less reactive esters in the presence of more reactive ones.     

酮洛芬分子印迹拆分及分离过程热力学研究

利用非共价分子印迹法,采用4-乙烯基吡啶为功能单体,以二甲基丙烯酸乙二 醇酯为交联剂,在模板分子（S）-酮洛芬的存在下,制备出（S）-酮洛芬的分子印 迹聚合物（MIPs）,并用作HPLC固定相,对其进行了高效液相色谱评价。结果表明 外消旋酮洛芬在制备的印迹柱上得到了有效的分离,（S）-酮洛芬的容量因子 k_s'为9.52,选择性因子α为1.52,分离度R为0.88。此外,HPLC分析表明制备的 MIPs能够分离结构相似的酮洛芬、布洛芬和萘普生。研究了流动相中乙酸浓度、流 速及温度对拆分效果的影响,测定了分离过程中的焓变、熵变和自由能变化,对分 子印迹分离过程作了进一步解释。     

Perspectives in Supramolecular Chemistry—From Molecular Recognition towards Molecular Information Processing and Self-Organization

The selective binding of a substrate by a molecular receptor to form a supramolecular species involves molecular recognition which rests on the molecular information stored in the interacting species. The functions of supermolecules cover recognition, as well as catalysis and transport. In combination with polymolecular organization, they open ways towards molecular and supramolecular devices for information processing and signal generation. The development of such devices requires the design of molecular components performing a given function (e.g., photoactive, electroactive, ionoactive, thermoactive, or chemoactive) and suitable for assembly into an organized array. Light-conversion devices and charge-separation centers have been realized with photoactive cryptates formed by receptors containing photosensitive groups. Eleclroactive and ionoactive devices are required for carrying information via electronic and ionic signals. Redox-active polyolefinic chains, like the “caroviologens”, represent molecular wires for electron transfer through membranes. Push-pull polyolefins possess marked nonlinear optical properties. Tubular mesophases, formed by organized stacking of suitable macro-cyclic components, as well as “chundle”-type structures, based on bundles of chains grafted onto a macrocyclic support, represent approaches to ion channels. Lipophilic macrocyclic units form Langmuir-Blodgett films that may display molecular recognition at the air-water interface. Supramolecular chemistry has relied on more or less preorganized molecular receptors for effecting molecular recognition, catalysis, and transport processes. A step beyond preorganization consists in the design of systems undergoing self-organization, that is, systems capable of spontaneously generating a well-defined supramolecular architecture by self-assembling from their components under a given set of conditions. Several approaches to self-assembling systems have been pursued: the formation of helical metal complexes, the double-stranded helicates, which result from the spontaneous organization of two linear polybipyridine ligands into a double helix by binding of specific metal ions; the generation of mesophases and liquid crystalline polymers of supramolecular nature from complementary components, amounting to macroscopic expression of molecular recognition; the molecular-recognition-directed formation of ordered solid-state structures. Endowing photo-, electro-, and ionoactive components with recognition elements opens perspectives towards the design of programmed molecular and supramolecular systems capable of self-assembly into organized and functional supramolecular devices. Such systems may be able to perform highly selective operations of recognition, reaction, transfer, and structure generation for signal and information processing at the molecular and supramolecular levels.     

药物头孢氨苄分子模板聚合物水中结合性质的研究

采用分子模板技术合成了以头孢氨苄为模板分子以三氟甲基丙烯酸和４－乙烯基吡啶同时为功能单体的分子模板聚合物。将得到的棒状聚合物研磨过筛后,运用平衡结合实验研究了头孢氨苄分子模板聚合物的结合性质,Ｓｃａｔｃｈａｒｄ分析表明,在所研究的浓度范围内,在聚合物中形成了两类不同的结合位点。头孢氨苄分子模板聚合物与其化学组成相同的非模板聚合物相比,有很高的结合容量。底物选择性实验表明,与其它结构相似的药物相比,     

模板分子中作用基团的数目及位置对印迹聚合物印迹效应的影响

为了研究模板分子中作用基团的数目和位置对印迹聚合物印迹效应的影响, 分别以含有羟基数目和位置不同的羟基苯甲酸化合物3,4,5-三羟基苯甲酸(3,4,5-THBA), 3,4-二羟基苯甲酸(3,4-DHBA), 2,4-二羟基苯甲酸(2,4-DHBA)和3-羟基苯甲酸(3-HBA)为模板分子, 以丙烯酰胺为功能单体, 乙二醇二甲基丙烯酸酯为交联剂和乙腈(MeCN)为致孔剂, 采用非共价本体聚合方法制备了对应的印迹聚合物, 用色谱法评价了其分子识别性能. 结果表明, 制备的印迹聚合物对相应的模板分子均具有印迹效应, 在流动相H₂O/MeCN(体积比1/99)中, 各印迹聚合物对相应的模板分子3,4,5-THBA, 3,4-DHBA, 2,4-DHBA和3-HBA的印迹因子分别为5.51, 5.55, 2.60和2.03. 通过与同样条件下制备的龙胆酸(GA)、水杨酸(SA)和对-羟基苯甲酸(4-HBA)印迹聚合物对其模板分子印迹效应的比较发现, 模板分子中作用基团数目越多, 印迹效率越高; 模板分子中作用基团-COOH和-OH的相对位置对印迹效率影响很大, 当-COOH和-OH在苯环上处于对位时的印迹效率, 高于其处于间位的印迹效率; 当-COOH和-OH在苯环上处于邻位时, 由于形成分子内氢键会降低其印迹效率. 实验还发现, 3,4-DHBA的印迹聚合物可以实现其结构类似物3,4,5-THBA和2,4-DHBA的基线分离, 为生物活性组分3,4,5-THBA的分离和测定提供了依据.     

分子印迹技术在生化分离分析中的应用

分子印迹聚合物具有高选择性、稳定及实用的特点,在复杂基体中痕量分析物的高选择性分离富集中有着良好的应用前景,近年来在生物样品中的应用尤其引起人们关注.该文分别介绍了分子印迹技术的原理及生物分子印迹聚合物的制备方法,综述了分子印迹技术在氨基酸、生物碱、多肽、蛋白质等生物分离分析中的应用进展.     

Boronate‐Affinity Glycan‐Oriented Surface Imprinting: A New Strategy to Mimic Lectins for the Recognition of an Intact Glycoprotein and Its Characteristic Fragments

Lectins possess unique binding properties and are of particular value in molecular recognition. However, lectins suffer from several disadvantages, such as being hard to prepare and showing poor storage stability. Boronate‐affinity glycan‐oriented surface imprinting was developed as a new strategy for the preparation of lectin‐like molecularly imprinted polymers (MIPs). The prepared MIPs could specifically recognize an intact glycoprotein and its characteristic fragments, even within a complex sample matrix. Glycan‐imprinted MIPs could thus prove to be powerful tools for important applications such as proteomics, glycomics, and diagnostics.     

分子印迹技术在环境领域中的应用研究进展

分子印迹技术(MIT)是近年来集高分子合成、分子设计、分子识别、仿生生物工程等众多学科优势发展起来的一种新型技术,它的产生与发展为环境监测和环境治理开辟了一条新的途径.本文综述了分子印迹技术的产生与发展及基本原理,着重介绍了MIT在痕量污染物分析及废水处理中的应用和发展前景,并对目前存在的问题进行了探讨.     

Applications of Molecular Imprinting Technology in the Study of Traditional Chinese Medicine

Traditional Chinese medicine (TCM) is one of the most internationally competitive industries. In the context of TCM modernization and internationalization, TCM-related research studies have entered a fast track of development. At the same time, research of TCM is also faced with challenges, such as matrix complexity, component diversity and low level of active components. As an interdisciplinary technology, molecular imprinting technology (MIT) has gained popularity in TCM study, owing to the produced molecularly imprinted polymers (MIPs) possessing the unique features of structure predictability, recognition specificity and application universality, as well as physical robustness, thermal stability, low cost and easy preparation. Herein, we comprehensively review the recent advances of MIT for TCM studies since 2017, focusing on two main aspects including extraction/separation and purification and detection of active components, and identification analysis of hazardous components. The fundamentals of MIT are briefly outlined and emerging preparation techniques for MIPs applied in TCM are highlighted, such as surface imprinting, nanoimprinting and multitemplate and multifunctional monomer imprinting. Then, applications of MIPs in common active components research including flavonoids, alkaloids, terpenoids, glycosides and polyphenols, etc. are respectively summarized, followed by screening and enantioseparation. Related identification detection of hazardous components from TCM itself, illegal addition, or pollution residues (e.g., heavy metals, pesticides) are discussed. Moreover, the applications of MIT in new formulation of TCM, chiral drug resolution and detection of growing environment are summarized. Finally, we propose some issues still to be solved and future research directions to be expected of MIT for TCM studies.     

分子印迹-固相萃取-高效液相色谱法测定鱼肉中的孔雀石绿

以本体聚合法制备孔雀石绿(MG)分子印迹聚合物,并以此为填料,制作针对孔雀石绿的分子印迹固相萃取小柱。鱼肉样品经乙腈超声提取,提取液过分子印迹固相萃取小柱,用甲醇-乙酸(9+1)混合液洗脱,洗脱液采用Eclipse Plus C18色谱柱分离,以50mmol·L-1乙酸盐缓冲溶液-乙腈(4+6)混合液为流动相进行洗脱,检测波长为620nm。孔雀石绿的线性范围为1.00~50.0μg·L-1,检出限(3S/N)为0.62μg·kg-1。对空白鱼肉样品进行加标回收试验,回收率在86.6%~95.4%之间,测定值的相对标准偏差(n=5)在3.6%~6.8%之间。     

Self‐Healing Supramolecular Materials Constructed by Copolymerization via Molecular Recognition of Cavitand‐Based Coordination Capsules

The repeating guest units of poly‐(R)‐ 2 were selectively encapsulated by the self‐assembled capsule poly‐ 1 possessing eight polymer side chains to form the supramolecular graft polymer (poly‐ 1 )_n?poly‐(R)‐ 2 . The encapsulation of the guest units was confirmed by ¹H NMR spectroscopy and the DOSY technique. The hydrodynamic radius of the graft polymer structure was greatly increased upon the complexation of poly‐ 1 . The supramolecular graft polymer (poly‐ 1 )_n?poly‐(R)‐ 2 was stably formed in the 1:1 host–guest ratio, which increased the glass transition temperature by more than 10 °C compared to that of poly‐ 1 . AFM visualized that (poly‐ 1 )_n?poly‐(R)‐ 2 formed the networked structure on mica. The (poly‐ 1 )_n?poly‐(R)‐ 2 gelled in 1,1,2,2‐tetrachloroethane, which led to fabrication of distinct viscoelastic materials that demonstrated self‐healing behavior in a tensile test.     

A novel ion‐imprinted hydrogel for recognition of potassium ions with rapid response

A novel ion‐imprinted strategy is developed for synthesizing responsive hydrogels with rapid response to potassium ions. With potassium ions as templates, ion‐imprinted poly(N‐isopropylacrylamide‐co‐benzo‐15‐crown‐5‐acrylamide) (P(NIPAM‐co‐B15C5Am)) hydrogels are synthesized with 15‐crown‐5 crown ethers mounted on the polymer networks in pairs; therefore, it is very easy and fast for the crown ethers to capture potassium ions again by their Venus flytrap action and form stable 2:1 “host–guest” complexes with potassium ions in the ion‐recognition process. As a result, the response rate of the ion‐imprinted hydrogels to potassium ions is significantly faster than that of normal P(NIPAM‐co‐B15C5Am) hydrogels in which 15‐crown‐5 crown ethers are randomly pendent on the polymeric networks. Copyright © 2010 John Wiley & Sons, Ltd.