蛋白质分子印迹技术载体形式的研究进展

现代生物技术产品分离成本很高,分子印迹技术以其优良的操作稳定性为蛋白质分离提纯提供了一种新的方法,合成蛋白质分子印迹聚合物具有巨大的应用价值,又极具挑战性,已成为各国科学工作者们研究的热点。本文对蛋白质分子印迹过程中使用的载体形式进行了综述,对不同形式载体的使用特点进行了总结,详细叙述了常见的载体形式如硅胶、合成树脂球、高分子膜、云母、凝胶以及一些新型的载体类似形式如环糊精和壳聚糖等,并探讨了目前蛋白质分子印迹技术存在的问题及其应用前景。     

蛋白质分子印迹

分子印迹技术是一种新型的高效分离技术，具有空间选择性识别特性。本文介绍了分子印迹技术在蛋白质大分子上的应用和发展，包括蛋白质分子印迹选用的单体和交联剂、印迹方法、印迹机理、蛋白质分子印迹技术的应用以及存在的一些问题。     

Molecular imprinting in alcohols: utility of a pre-polymer based strategy for synthesizing stereoselective artificial receptor polymers in hydrophilic media

Molecular imprinting using a linear pre-polymer bearing carboxylic and 4-vinylbenzyl residues was performed in alcohols for synthesizing stereoselective polymer receptors. Chromatographic assessment of the imprinted polymers, which are obtained by cross-linking the pre-polymer in the presence of a model template (−)-cinchonidine, showed the induction of affinity and selectivity to the template species by the imprinting procedure. Comparison with the performance of an imprinted polymer prepared with a monomer mixture instead of the pre-polymer elucidated the efficacy of the linear pre-polymer for molecular imprinting in the protic solvents.     

Molecular imprinting for anion recognition in aqueous media

Molecular imprinting technology is an attractive approach of creating recognition sites in polymeric materials by using the templating approach found in many natural systems. These recognition sites have memory to the target molecule that enables selective recognition of the template species. Molecularly imprinted polymers (MIPs) have been used in a wide range of areas including separation and isolation, catalysis, chemical sensing, and drug delivery. This review aims at highlight the recent advances in the application of molecular imprinting technology for inorganic and small organic anion recognition in aqueous media.

Molecular imprinting using monomers with solid-state polymerization

Molecular imprinting of two diolefinic compounds with solid-state photopolymerization, 2,5-distyrylpyrazine (DSP) and diethyl p-phenylenediacrylate (EPA), was demonstrated. Solid nanoscale particles of the monomer were produced and deposited onto the surface of a surface acoustic wave (SAW) transducer using the technique known as rapid expansion of supercritical solutions (RESS). The particles were polymerized by UV light in the presence of an alkane template vapor. Both imprinted and non-imprinted devices were tested upon exposure to a variety of alkane vapors in the gas phase. The results demonstrate an enhanced sensitivity to vapors at or below the size of the template. A size exclusion mechanism of recognition is proposed.     

Chiral recognition by molecularly imprinted polymers in aqueous media

Summary Molecularly imprinted polymers were prepared using 2-vinylpyridine and/or methacrylic acid as functional monomers in a self-assembly imprinting protocol. The resulting polymers were analyzed in aqueous media, and the effects from the pH of the mobile phase and the degree of added organic solvent were investigated. The results are indicative of the importance of ionic bonds in conjunction with hydrophobic interactions in the formation of the complexes between the analyte and the polymers.     

Core-shell Molecular Imprinted Polymer Colloids

Molecular imprinted core-shell colloidal polymer particles have been prepared in which the shells were formed, in aqueous media, in the presence of organic templates. The most selective system involved the use of an unsaturated alkyl phosphate as the electrostatic binding motif. Systems that were able to selectively differentiate between caffeine and theophylline and the Gly-Gly sequence in tripeptides are described. Radiotracing experiments showed that all of the caffeine template could be removed following extraction.     

Molecular imprinting: a dynamic technique for diverse applications in analytical chemistry

Continuous advances in analyzing complex matrices, improving reliability and simplicity, and performing multiple simultaneous assays with extreme sensitivity are increasing. Several techniques have been developed for the quantitative assays of analytes at low concentrations (e.g., high-pressure liquid chromatography, gas chromatography, immunoassay and the polymerase chain reaction technique). To achieve highly specific and sensitive analysis, high affinity, stable, and specific recognition agents are needed. Although biological recognition agents are very specific and sensitive they are labile and/or have a low density of binding sites. During the past decade molecular imprinting has emerged as an attractive and highly accepted tool for the development of artificial recognition agents. Molecular imprinting is achieved by the interaction, either noncovalent or covalent, between complementary groups in a template molecule and functional monomer units through polymerization or polycondensation. These molecularly imprinted polymers have been widely employed for diverse applications (e.g., in chromatographic separation, drug screening, chemosensors, catalysis, immunoassays etc.) owing to their specificity towards the target molecules and high stability against physicochemical perturbations. In this review the advantages, applications, and recent developments in molecular imprinting technology are highlighted.     

Molecular imprinting in ultrathin titania gel films via surface sol-gel process

Recent progresses of molecular imprinting in metal oxide matrices were summarized. Application of the surface sol-gel process to mixtures of organic carboxylic acids and titanium alkoxide provides ultrathin layers of titania gel (10-20 nm thick), in which molecule-sized cavities are kept intact upon removal of the organic templates. The imprinted cavity reflects the structural and functional features of the template molecule, and the enantioselective imprinting of dipeptide isomers is observed. Robustness and flexibility of the ultrathin titania layer is demonstrated by the formation of interconnected titania hollow structures. Possible practical applications and unsolved problems of this technique are discussed.     

Direct asymmetric aldol reaction in aqueous media using polymer-supported peptide

PEG-PS resin-supported tripeptide/zinc chloride catalyst system has been developed for use in the direct asymmetric aldol reaction of acetone with aldehydes in aqueous media. The peptide catalyst could be separated from the reaction mixture by filtration, and was reusable at least five times without significant change in its activity and selectivity.     

The chemical significance of the tertiary structures of polypeptides and proteins

A molecular modeling review of the X-ray crystallographically determined structures of some proteins and polypeptides, from the Brookhaven Protein Data Bank, has enabled us to identify chemically reactive, weak, amidic linkages in some of these molecules. This discovery should add new dimensions to the discussion of the significance of the tertiary structures of proteins and polypeptides, and to the chemistry of these polymers.     

Selective recognition of ovalbumin using a molecularly imprinted polymer

Micro-contact imprinting has been used to form thin-film molecular imprints of ovalbumin (OVA) in polymers supported on glass slides. Thermocalorimetric data was used to optimise the choice of functional monomer and cross-linker to maximise selectivity and minimise non-specific recognition.A polymer comprising polyethyleneglycol 400 dimethacrylate (95 vol.%) and methacrylic acid (5 vol.%) showed both maximum recognition for OVA when made as a molecularly imprinted polymer (MIP), and minimal recognition when made as a non-imprinted, i.e. control polymer. OVA rebinding to the molecularly imprinted polymer, from a buffered 2 µM OVA solution, was 1.55 × 10^{− 11} mol cm^{− 2}, while the control polymer showed 10-fold less re-binding, i.e. 0.154 × 10^{− 11} mol cm^{− 2}.Experiments in which human serum albumin (HSA), conalbumin, ovomucoid or lysozyme, were re-bound to the polymers, either as single proteins or in competition with OVA, showed them to have low affinity for the polymer formulation used. Of the competing proteins examined, in non-competitive binding experiments, HSA showed the greatest affinity 0.45 × 10^{− 11} mol cm^{− 2} for the OVA imprinted polymer. In two protein competition experiments, i.e. with OVA and a competing protein present at equal concentrations (2 µM), OVA binding to the OVA imprinted polymer was in all cases significantly greater than that of the competitor.     

Selective silica‐based sorbent materials synthesized by molecular imprinting for adsorption of pharmaceuticals in aqueous matrices

The presence of pharmaceuticals in aqueous environmental matrices often requires efficient and selective preconcentration procedures. Thus, silicas (SILs) were synthesized by a molecular imprinting technique using an acid‐catalyzed sol‐gel process and the following drugs as templates: fluoxetine, gentamicin, lidocaine, morphine, nifedipine, paracetamol, and tetracycline. The materials were subjected to sorbent extraction assisted by ultrasonic treatment to remove the drugs and the consequent formation of molecular imprinted cavities. The surface area of the resulting materials ranged from 290 to 960 m²/g. Adsorption tests were performed with the molecular imprinting phases. In terms of the potential selectivity, the SILs were subjected to the adsorption of drugs from samples such as potable and surface water. The adsorption capacity remained in the range between 55 and 65% for both matrices, while for the nonimprinted SIL it remained between 15 and 20%.     

Polyacrylamide hydrogels with phenylboronic acid moieties for the imprinting of proteins

<正>In this letter,N-acryloyl-3-aminophenylboronic acid(AAPBA) was synthesized and then examined as a new functional monomer for protein imprinting.It was allowed to be copolymerized with acrylamide to produce hemoglobin- or lysozyme-imprinted hydrogels.In template rebinding tests,the imprinted gels showed significant increase in the specific binding with the increase of the AAPBA amounts in the prepolymerization recipes.These results indicate that AAPBA may be a useful functional monomer for its moderate interactions with protein molecules.     

A high selective anion colorimetric sensor based on salicylaldehyde for fluoride in aqueous media

A new and simple salicylaldehyde-based sensor 1 designed for fluoride sensing has been investigated in DMSO and even in the 9/1 DMSO/H₂O (v/v) mixtures. The affinity constants of receptor 1 for anionic species in the 9/1 DMSO/H₂O (v/v) reveal that it is sensitive to F. Also, the color changes induced by anions can provide a way of detection by ‘naked-eye’. These result can be substantiated by the spectrum changes upon the addition of 25 equiv. anions to 1 in the 9/1 DMSO/H₂O solution. The further insights to the nature of interactions between the sensor 1 and F⁻ were investigated by ¹H NMR titration experiments in 9/1 DMSO-d₆/H₂O (v/v). In addition, the proposed binding mode between 1 and F⁻ was suggested.     

Molecular recognition with micellar and micelle-like aggregates in aqueous media

In this article, attention is directed to molecular recognition by micellar aggregates made with ionic surfactants involving directed interactions of substrates. Particular emphasis is placed on chiral recognition of enantiomers by hydrogen bonding functionalities incorporated in hydrophobic micellar interior. Hydrophobic properties within micelles, the ordering of their polar headgroups containing chiral functionalities essential for the recognition and the cessation of micellar kinetic association-dissociation with polymerization and immobilization of the surfactants on the support are discussed.     

Fluorescent sensing of homocysteine by molecular imprinting

The feasibility of biomimetic molecular sensing of homocysteine, an independent risk factor for cardiovascular diseases, was studied. The sensing approach coupled fluorescent derivatization of dl-homocysteine by a thiol-specific fluoro-tagging agent, N-(1-pyrenyl)maleimide, with molecular recognition by a molecularly imprinted polymer (MIP) matrix. The non-covalent MIP was fabricated using the N-(1-pyrenyl)maleimide-dl-homocysteine (PM-H) adduct as template. The PM-H-MIP was found to possess outstanding analyte-specific affinity for PM-H with binding constant, K_B, of 9.28±1.6×10⁵ M⁻¹ and density of recognition sites, B_max, of 11.9±0.8 nmol/g dried MIP. Following in situ fluorescent derivatization, luminescent response of the MIP was found to correlate linearly with concentration of dl-homocysteine in the range corresponding to realistic total homocysteine concentration in blood plasma. Besides being a passive recognition matrix for the binding of the fluoro-tagged analyte, the PM-H-MIP material was found to be able to specifically enhance the rate of derivatization reaction between dl-homocysteine and N-(1-pyrenyl)maleimide. In a sense, the MIP transformed a fluoro-tagging agent, which is generally reactive towards a broad spectrum of thiol-containing species, into a dl-homocysteine-specific derivatizing agent. The mechanism of such analyte-specific enhancement of derivatization rate and its advantages to the biomimetic molecular sensing are discussed.     

Peptide affinity chromatography media that bind N fusion proteins under chaotropic conditions

To design a generic purification platform and to combine the advantages of fusion protein technology and matrix-assisted refolding, a peptide affinity medium was developed that binds inclusion body-derived N^pro fusion proteins under chaotropic conditions. Proteins were expressed in Escherichia coli using an expression system comprising the autoprotease N^pro from Pestivirus, or its engineered mutant called EDDIE, with C-terminally linked target proteins. Upon refolding, the autoprotease became active and cleaved off its fusion partner, forming an authentic N-terminus. Peptide ligands binding to the autoprotease at 4 M urea were screened from a combinatorial peptide library. A group of positive peptides were identified and further refined by mutational analysis. The best binders represent a common motif comprising positively charged and aromatic amino acids, which can be distributed in a random disposition. Mutational analysis showed that exchange of a single amino acid within the peptide ligand caused a total loss of binding activity. Functional affinity media comprising hexa- or octapeptides were synthesized using a 15-atom spacer with terminal sulfhydryl function and site-directed immobilization of peptides derivatized with iodoacetic anhydride. The peptide size was further reduced to dipeptides comprising only one positively charged and one aromatic amino acid. Based on this, affinity media were prepared by immobilization of a poly amino acid comprising lysine or arginine, and tryptophan, phenylalanine, or tyrosine, respectively, in certain ratios. Binding capacities were in the range of 7–15 mg protein mL⁻¹ of medium, as could be shown for several EDDIE fusion proteins. An efficient protocol for autoproteolytic cleavage using an on-column refolding method was implemented.     

Evaluation of octadecyl-bonded alumina for separations of proteins and peptides by reversed-phase high-performance liquid chromatography

Summary A recently-developed octadecyl-bonded alumina (ODA) stationary phase was evaluated for the separation of peptides and proteins by reversed phase high performance liquid chromatography. Using standard water-acetonitrile mobile phase gradients containing 0.1 % trifluoroacetic acid, the average peak capacity obtained for the separation of a mixture of ribonuclease a, cytochrome c, lysozyme and carbonic anhydrase on an ODA column are similar to that obtained on a widely used octadecylsilane (ODS) column. However, overall chromatographic resolution of the components of this mixture on ODA is inferior to that obtained on ODS. Cytochrome c peak areas were found to be 50% smaller on the ODA column than on ODS. On the other hand, both peak capacities and resolutions of octapeptide mixtures were found to be generally superior on the ODA column, and peak areas for a representative octapeptide were found to be virtually identical for both ODA and ODS columns. The differences in the results obtained on the ODA and ODS columns for these separations are attributed to the smaller pore size and unique fused-microplatelet shape of the ODA particles. Comparisons of the separations of the tryptic digest of cytochrome c on the ODS and ODA columns demonstrate that the ODA phase is potentially as useful as ODS for peptide mapping applications.     

在水介质中进行的Barbier-Grignard反应

综述了铟、锌、锡等金属(试剂)诱导的,在水介质中进行的Barbier-Grignard反应,并讨论了该反应的化学选择性、区域选择性和立体选择性。