Co-reporter:Fangfang Yang, Dandan Deng, Xiangchao Dong, Shen Lin
Journal of Chromatography A 2017 Volume 1494(Volume 1494) pp:
Publication Date(Web):21 April 2017
DOI:10.1016/j.chroma.2017.03.013
•Epitope-imprinted polymer with selectivity for beta2-microglobulin was synthesized.•Surface-confined binding sites with open-entrance were created.•The imprinted polymer has good selectivity and reversible binding ability.•Online MIPSPE coupled with HPLC for serum sample analysis was established.Molecularly imprinted polymers (MIPs) for protein recognition have great application potential in the biological analysis. However, preparation of protein imprinted polymer is still facing challenge. Beta2-microglobulin (β2m) is a protein biomarker that can be used in diagnosis of different diseases. In this research, a novel MIP with ability of β2m recognition has been developed by epitope and surface-confined imprinting approaches. A peptide with sequence of MIQRTPKIQ was selected as template. A strategy of combination of hierarchical imprinting and template immobilization was employed in the β2m-MIP synthesis. Imprinted binding sites with open-entrance have been created that have good accessibility for β2m and facilitated fast reversible binding kinetics. The experimental results demonstrated that the MIP has good selectivity. It can differentiate the template from peptide with different sequence and distinguish the β2m from other proteins with similar size and pI values. After binding property study of the β2m-MIP, a method of β2m determination in serum was established in which β2m was on-line extracted by MIP and analyzed by HPLC process. The recoveries for spiked serum was ≥83% with RSD <1.1%, indicating that the method has good accuracy and precisions. The LOD and LOQ were 0.058 and 0.195 mg L−1 respectively, which meet the requirements of the β2m analysis. The successful application of the β2m-MIP demonstrated that β2m has reversible binding on the MIP with a kinetics that can meet the requirements of the HPLC analysis. It also indicated that the β2m-MIP has good mechanical strength and reusability that can be applied reliably in the practical analysis. As a synthetic antibody, β2m-MIP is advantageous compared to the biological molecules.
Co-reporter:Xu Yang, Xiangchao Dong, Kai Zhang, Fangfang Yang and Zhenchang Guo
Journal of Materials Chemistry A 2016 vol. 4(Issue 5) pp:920-928
Publication Date(Web):24 Dec 2015
DOI:10.1039/C5TB02620B
Lysine acetylation is a widespread protein post-translational modification (PTM) that plays a central role in diverse physiological processes. The study on the scope and pattern of lysine acetylation is an important subject in the proteomic research. However, identification of lysine acetylation from biological sources is a great challenge due to the low abundance in the massive background of unmodified proteins and the dynamic fashion of the modifications. In this research, a novel molecularly imprinted polymer (MIP) with high affinity for peptides containing acetylated lysine (Kac) has been synthesized by the combination of an epitope and surface-confined imprinting strategy. A dipeptide: KacA, containing acetylated lysine and alanine residues, was used as the template and immobilized on the sacrificial silica support. After hierarchical imprinting and removal of silica, the surface-confined cavities were created on the resulting KacA-MIP material. The equilibrium binding and HPLC experiments demonstrated that the KacA-MIP has good selectivity and epitope affinity. It can differentiate Lys-acetylated peptides (Kac-peptides) from their native structures and has higher affinity for Kac-peptides with different sequences. The selectivity of the MIP was also proved by its ability in the extraction of Kac-peptides from spiked histone digest and by its enrichment performance in the whole cell lysates. The study developed a method of MIP preparation with affinity for PTM peptide based on recognition of peptide side chains. It also indicated that the MIP has potential to be used as an antibody mimic in the PTM analysis.
Co-reporter:Yang Cheng and Xiangchao Dong
Analytical Methods 2016 vol. 8(Issue 29) pp:5838-5842
Publication Date(Web):24 Jun 2016
DOI:10.1039/C6AY00984K
A new molecularly imprinted fluorescent chemosensor with selectivity for spermidine has been developed using quinoline modified vinyl-β-cyclodextrin as a reporter and major functional monomer. Acrylamide that provided synergetic monomer/template interactions was also used in the imprinting. The imprinted receptor of the chemosensor was created by the inclusion and hydrogen-bonding interactions between functional monomers and spermidine. The chemosensor has shown higher sensitivity and imprinting performance than that synthesized using only β-cyclodextrin. The imprinting factor of the imprinted membrane for spermidine is 3.87. This suggests that the imprinted chemosensor has good imprinted binding affinity. The selectivity (α), evaluated by the ratio of sensitivity for spermidine to that for its analogs, was ≧2.0, indicating the suitable recognition properties of the chemosensor. The fluorescence of the imprinted membrane exhibited a “Turn-on” response mode. A linear relationship between the negative logarithm of spermidine concentration and the fluorescence intensity of the chemosensor at Cspermidine of 5 × 10−7 to 1 × 10−4 mol L−1 has been obtained. The results demonstrated that the use of vinyl-β-cyclodextrin and radical polymerization for this chemosensor preparation has obvious advantages. The imprinted fluorescent chemosensor has application potential for spermidine determination in complex samples.
Co-reporter:Fangfang Yang, Shen Lin and Xiangchao Dong
Chemical Communications 2015 vol. 51(Issue 36) pp:7673-7676
Publication Date(Web):24 Mar 2015
DOI:10.1039/C4CC09787D
A novel artificial receptor has been synthesized using surface-confined imprinting for the recognition of lysine acetylation in histone H4. The material has high recognition fidelity and epitope affinity. It was demonstrated that acetylated Lys plays a role in binding site creation and peptide imprinting can be performed in phosphate buffer.
Co-reporter:Yang Cheng, Ping Jiang and Xiangchao Dong
RSC Advances 2015 vol. 5(Issue 72) pp:58567-58567
Publication Date(Web):06 Jul 2015
DOI:10.1039/C5RA90065D
Correction for ‘Molecularly imprinted fluorescent chemosensor synthesized using quinoline-modified-β-cyclodextrin as monomer for spermidine recognition’ by Yang Cheng et al., RSC Adv., 2015, 5, 55066–55074.
Co-reporter:Fangfang Yang;Dong Hu
Chromatographia 2015 Volume 78( Issue 1-2) pp:45-54
Publication Date(Web):2015 January
DOI:10.1007/s10337-014-2811-9
Ordered mesoporous material has good application potential in solid-phase extractions due to its high surface area and rapid binding kinetics. Molecularly imprinted mesoporous SBA-15 microspheres (MIP-SBA-15) with both advantages of molecularly imprinted polymer (MIP) and mesoporous material have been synthesized in the study. The surface-initiated atom transfer radical polymerization was employed in the imprinting process in order to create more homogeneous polymer layer on the surface of SBA-15. The bisphenol A (BPA) was used as imprinting template to provide selective extraction material with potential application in the BPA determinations. The results demonstrated the spherical MIP-grafted-SBA-15 with ordered mesoporous structure has been synthesized which is good for chromatographic applications. The material has good selectivity, high binding capacity and kinetics. The BPA and its analogs have less peak tailings on the MIP column in HPLC, which is attributed to the thin MIP film and less mass transfer resistance of the material. An online solid-phase extraction/HPLC experiment was established using the MIP-SBA-15 as the extraction material. In the BPA concentration range of 0.04–40 ng mL−1, a linear regression curve with R2 > 0.9999 has been obtained. The LOD and LOQ are 30.84 and 102.79 pg mL−1, respectively. The recoveries were higher than 97 % determined using spiked tap water samples with different concentrations. It demonstrated the MIP-SBA-15 can be used in the BPA extraction from water samples with good efficiency.
Co-reporter:Yingying Zhang, Shen Lin, Ping Jiang, Xudong Zhu, Jing Ling, Wen Zhang, Xiangchao Dong
Journal of Chromatography A 2014 Volume 1337() pp:17-21
Publication Date(Web):11 April 2014
DOI:10.1016/j.chroma.2014.02.038
•A novel strong-cation-exchange restricted access material was synthesized.•Surface-initiated atom transfer radical polymerization was used in the preparation.•The material has both functions of cation extraction and protein exclusion.•Determination of melamine and cyromazine in milk by online SPE/HPLC was established.A novel strong-cation-exchange restricted access material has been synthesized by atom transfer radical polymerization (ATRP). In the synthesis, poly(3-sulfopropyl methacrylate-co-ethylene dimethacrylate), [p(SPM/EDMA)] was grafted on the silica by surface-initiated ATRP first. The poly(glycerol mono-methacrylate) [pGMMA] was then immobilized on the external surface, which created a chemical diffusion barrier for protein exclusion. The resulting Sil-g-p(SPM/EDMA)-g-pGMMA has both functions of protein exclusion and cation exchange, exhibiting the property of cation-exchange restricted access material. The application of Sil-g-p(SPM/EDMA)-g-pGMMA has been studied by the determination of melamine and cyromazine in bovine milk using the online solid-phase extraction/HPLC method. In the process, the Sil-g-p(SPM/EDMA)-g-pGMMA was used for the sample pre-treatment and a HILIC column was employed as the analytical column. The method has shown good accuracy, precision and low limits of detections. The result demonstrated that the Sil-g-p(SPM/EDMA)-g-pGMMA can be used for the cation extraction from biological samples by direct HPLC injection.
Co-reporter:Meijiao Liu;Yongna Li;Jianfang Han
Journal of Separation Science 2014 Volume 37( Issue 9-10) pp:1118-1125
Publication Date(Web):
DOI:10.1002/jssc.201400034
Tetracycline (TC)-imprinted microspheres have been synthesized by reversible addition–fragmentation chain-transfer precipitation polymerization using PEG as a coporogen. In the synthesis, methacrylic acid and ethylene dimethacrylate were used as the functional monomer and cross-linker, respectively. 2,2′-Azobisisobutyronitrile was the initiator, and cumyl dithiobenzoate was the chain-transfer reagent. Although monodispersed microspheres were obtained using acetonitrile as porogen, the particles cannot be used in the column extraction because of the high backpressure. To increase the porosity of the material, PEG was introduced as a coporogen. The influence of the molecular weight and concentration of PEG on the morphology, binding affinity, and porosity of the molecularly imprinted polymers (MIPs) have been studied. The results demonstrated that PEG as a macroporogen increased the porosity of the polymers. Meanwhile, the column backpressure was reduced using the MIPs with higher porosity. The binding affinity of the MIPs was increased when a low concentration of PEG was employed, while it was decreased when the ratio of PEG 12 000/monomers was >0.8%. Under the optimized conditions, TC-imprinted microspheres with good selectivity and size uniformity have been obtained, which facilitates its application in the column extraction for TC determinations.
Co-reporter:Meijiao Liu, Yongna Li, Shen Lin and Xiangchao Dong
Analytical Methods 2014 vol. 6(Issue 23) pp:9446-9452
Publication Date(Web):03 Oct 2014
DOI:10.1039/C4AY02009J
A new method has been developed for the determination of tetracycline residues in water samples by on-line solid-phase extraction-HPLC analysis method. Tetracycline-imprinted microspheres, synthesized by reversible addition–fragmentation chain transfer precipitation polymerization, were applied for the extraction of the tetracyclines. Tetracycline residues were selectively extracted from 10.0 mL lake water using the molecularly imprinted solid-phase extraction (MISPE) method. After the sample clean-up, tetracyclines were back-flushed into a reversed-phase C18 analytical column and oxytetracycline, tetracycline and doxycycline were separated for quantification. The recoveries of three tetracyclines in the spiked lake water were between 83.2% and 111.0% with relative standard deviations (RSDs) <5.3%, demonstrating that the established MISPE-HPLC method has good accuracy and precision. Linearity in the range of 1–200 μg L−1 was obtained. The detection limits and quantification limits for the analytes were 0.08–1.02 μg L−1 and 0.41–3.56 μg L−1, respectively. The enhancement factors, which ranged from 376 to 528, indicated that the MISPE has the ability to enrich trace tetracycline residues. The results demonstrated that this method can be used in the determination of tetracyclines in environmental water samples with good sensitivity and efficiency.
Co-reporter:Xiaobing Li, Man Zhou, Mamat Turson, Shen Lin, Ping Jiang and Xiangchao Dong
Analyst 2013 vol. 138(Issue 10) pp:3066-3074
Publication Date(Web):19 Mar 2013
DOI:10.1039/C3AN36801G
A novel imprinted monolithic material with the ability of protein exclusion was developed for the selective extraction of clenbuterol (CLE) from biological samples by direct injection in the HPLC analysis. The material has an imprinted inner structure and hydrophilic outer layer. The reversible addition–fragmentation chain transfer (RAFT) polymerization was employed in the material preparation by a two-step procedure. In the first step, clenbuterol imprinted monolithic polymer was synthesized by combining the molecular imprinting and the RAFT polymerization techniques. The resulting monolithic polymer has a RAFT chain transfer agent (trithioester groups) in its structure, which was used to graft poly(glycerol mono-methacrylate) [pGMMA] in the second step by post-RAFT polymerization. The hydrophilic pGMMA layers grafted on the surface of the imprinted monolith created barriers for protein diffusion. More than 90% of bovine serum albumin can be excluded from the pGMMA coated monolithic column. Meanwhile the clenbuterol was retained selectively with a large retention factor. The result indicated that the column, denoted as RA-MIM, has both the merits of a molecularly imprinted polymer and restricted access material. By using RA-MIM as the solid-phase extraction pre-column, an on-line column-switching HPLC method for the determination of clenbuterol in human serum has been established and validated. The recoveries of clenbuterol from the serum were 87.3–96.9% in the spiked level 2–1000 ng mL−1. Both good linearity (R = 0.999) and acceptable reproducibility (RSD < 7.0%) were obtained. The limit of detection and the limit of quantitation were 0.7 ng mL−1 and 2.0 ng mL−1 respectively, which is sensitive in terms of UV detection. The results have demonstrated that the RAFT polymerization can be used to synthesize bi-functional monolithic columns by using its living reaction property. The resulting RA-MIM in this research can be used for efficient clenbuterol determination by HPLC from biological samples.
Co-reporter:Meixian Yang, Yingying Zhang, Shen Lin, Xinlin Yang, Zhijin Fan, Lixia Yang, Xiangchao Dong
Talanta 2013 Volume 114() pp:143-151
Publication Date(Web):30 September 2013
DOI:10.1016/j.talanta.2013.03.078
•A pyrazosulfuron-ethyl imprinted polymer with hydrophilic external layers was synthesized.•Reversible addition–fragmentation chain transfer polymerization was used in synthesis.•Polyethylene glycol was used as porogen in the precipitation polymerization.•Online SPE/HPLC for sulfonylurea residue analysis from soil samples was established.A new bifunctional pyrazosulfuron-ethyl imprinted polymer was synthesized by the combination of molecular imprinting technology and living radical polymerization. In the synthesis, the pyrazosulfuron-ethyl imprinted polymer was obtained by the reversible addition–fragmentation chain transfer (RAFT) precipitation polymerization followed by grafting poly(glyceryl monomethacrylate) (pGMMA) by the post-RAFT polymerization. In this research, we used polyethylene glycol (PEG) as the polymeric porogen in order to increase the porosity of the material which is a new porogen application in the precipitation polymerization. The imprinted polymer has selectivity for the template and ability of humic acids exclusion which has shown the merits of molecularly imprinted polymers and restricted access materials. An online solid-phase extraction/HPLC method for the analysis of three sulfonylurea residues in soil samples has been developed and validated. The recovery of 81–99% in the spiked levels of 40–200 μg kg−1 was obtained and the limit of detection (LOD) and limit of quantification (LOQ) were less than 4.8 and 15.9 μg kg−1 respectively. The results demonstrated that this bifunctional material can be used for the efficient pyrazosulfuron-ethyl extraction in the sulfonylurea residue analysis from environmental samples.
Co-reporter:Dan Xu;Haiyan Zhang;Huaisong Wang;Ping Jiang ;Min Zhang
Journal of Separation Science 2012 Volume 35( Issue 13) pp:1573-1581
Publication Date(Web):
DOI:10.1002/jssc.201200141
A novel restricted access material was prepared by surface initiated atom transfer radical polymerization. The bi-layer-polymer structures were created on the surface of silica layer-by-layer. The inner layer was composed of poly(styrene-co-divinylbenzene), which was grafted first for binding small molecules based on hydrophobic and π–π interactions. The poly(styrene-co-divinylbenzene) bonded silica has good selectivity for aromatic hydrocarbons. It also has hydrophobicity and column efficiency similar to a C18 bonded silica. The material has shown good ability of protein exclusion after grafting hydrophilic polymer on the external surface while its hydrophobicity and selectivity do not have obvious change. It demonstrated that the material is still qualified for hydrophobic extraction. In the study, the relations between the polymer structures and chromatographic properties of the materials were investigated. The synthetic conditions were optimized. The results have shown that the material prepared in the study has application potential in the HPLC analysis of hydrophobic molecules from biological samples by direct injection. It demonstrated that atom transfer radical polymerization can be used as a method in the preparation of restricted access material.
Co-reporter:Huaisong Wang, Xiangchao Dong, Meixian Yang
TrAC Trends in Analytical Chemistry 2012 Volume 31() pp:96-108
Publication Date(Web):January 2012
DOI:10.1016/j.trac.2011.07.012
The development of new separation materials to meet growing demands has always been a major concern of separation science and technology. Controlled/living radical polymerization (CRP) is a technique with many advantages for polymer synthesis. Polymers with low polydispersities and desirable architectures can be prepared using this technique. The application of CRP in the development of polymer-related separation materials has dramatically increased in recent years. In this article, we introduce the mechanism and the advantages of CRP for polymer synthesis and material modification. We also review the development of separation materials in different formats via CRP and their applications.Highlights► Development of separation material via controlled radical polymerization is reviewed. ► The advantages of CRP in the polymer synthesis are demonstrated. ► Applications of CRP in the surface modification on different substrates are reviewed. ► CRP has shown advantages in the polymeric and multifunctional material synthesis.
Co-reporter:Huaisong Wang, Ping Jiang, Min Zhang, Xiangchao Dong
Journal of Chromatography A 2011 Volume 1218(Issue 9) pp:1310-1313
Publication Date(Web):4 March 2011
DOI:10.1016/j.chroma.2011.01.005
A novel chiral restricted access material was synthesized via a combination of atom transfer radical polymerization (ATRP) and click chemistry. Poly(2-methyl-3-butyn-2-ol methacrylate) (pMBMA) was grafted onto porous silica gel by a surface-initiated ATRP in order to synthesize an inner layer for β-cyclodextrin (β-CD) immobilization. The azide-modified β-CD was bound to pMBMA by click chemistry. The results demonstrate that click chemistry provides an effective route for the immobilization of β-CD for chiral discrimination. A second ATRP reaction was then used to graft external poly(glycidyl methacrylate) (pGMA) layer onto the silica gel. The external hydrophilic layer was subsequently created by hydrolysis of the epoxy groups of the pGMA. This bi-layer grafted material exhibited both enantioseparation and protein exclusion. It can be used for the efficient separation of chiral compounds in biological samples with direct injection into an HPLC system.
Co-reporter:Mamat Turson;Man Zhou;Ping Jiang
Journal of Separation Science 2011 Volume 34( Issue 2) pp:127-134
Publication Date(Web):
DOI:10.1002/jssc.201000255
Abstract
The “living”/controlled radical polymerization has provided an opportunity in making a more homogeneous polymer, which is favorable for polymer-based monolithic column fabrication. To study its application in the preparation of separation material, a capillary poly(ethylhexyl methacrylate-co-ethylene dimethacrylate) monolithic column has been synthesized by reversible addition-fragmentation chain transfer (RAFT) polymerization. The correlation between the synthetic conditions and the polymer structures and separation performance was studied. The result indicated RAFT-mediated reaction provides condition for creating polymers with narrower pore size distribution and higher column efficiency compared with traditional polymerization. The “living” property of the RAFT polymerization was further utilized to graft hydrophilic polymer on the surface of poly(ethylhexyl methacrylate-co-ethylene dimethacrylate). The hydrophilic chain modified monolithic column has both abilities of protein exclusion and small hydrophobic compound retention. The result indicated that RAFT polymerization can be used for making multifunctional material. The restricted access monolithic material synthesized by this method can be used in biological sample analysis with HPLC direct injection.
Co-reporter:Wenjuan Xu, Shufang Su, Ping Jiang, Huaisong Wang, Xiangchao Dong, Min Zhang
Journal of Chromatography A 2010 Volume 1217(Issue 46) pp:7198-7207
Publication Date(Web):12 November 2010
DOI:10.1016/j.chroma.2010.09.035
A novel restricted access-molecularly imprinted material (RA-MIP) with selectivity for sulfonamides was synthesized using initiator-transfer agent-terminator (iniferter) method, a “living”/controlled radical polymerization technique. The material was prepared by grafting two layers with different functions on the silica support. To perform a “grafting from” polymerization, iniferter was immobilized on the surface of silica. The internal sulfamethazine imprinted polymer and the external poly(glycidyl methacrylate) [poly(GMA)] were then grafted successively. The hydrophilic structures were formed on the external layer of the material by the hydrolysis of the linear poly(GMA) for protein removal. The result has shown that this restricted access-MIP grafted silica (RA-MIP-SG) not only has the selectivity for the template and its analog, but also has the ability of exclusion for bovine serum albumin (BSA). It indicated that the material possesses both properties of molecularly imprinted polymer (MIP) and restricted access material (RAM). Using RA-MIP-SG as pre-column, a column-switching HPLC method was established for the determination of sulfonamides in bovine milk. Direct sample injection was performed in the analysis, which provides a convenient analytical procedure. Good linearity in the range of 2–400 ng mL−1 (R > 0.998) has been obtained for seven sulfonamides in the study. The recoveries of all the analytes at three concentration levels are between 93% and 107% with the RSD < 8.0%. The limits of quantification and limits of detection are less than or equal to 2.7 ng mL−1 and 0.8 ng mL−1 respectively. It demonstrated this RA-MIP-SG can be applied in sample extraction and clean-up for the determination of sulfonamides in bovine milk by direct injection and column-switching HPLC with good efficiency and reliability.
Co-reporter:Huaisong Wang, Dan Xu, Ping Jiang, Min Zhang and Xiangchao Dong
Analyst 2010 vol. 135(Issue 7) pp:1785-1792
Publication Date(Web):25 May 2010
DOI:10.1039/C0AN00050G
A new restricted access chiral stationary phase was designed and synthesized via atom transfer radical polymerization (ATRP). Surface modified bi-functional silica with chiral selector in the inner layer and hydrophilic external layer was prepared by taking advantage of the controlled/living property of the ATRP method. ATRP initiator bound porous silica was synthesized to perform surface initiated polymerization. The chiral stationary phase was then synthesized by grafting poly(glycidyl methacrylate) (pGMA) on the surface of the silica through “grafting from” polymerization followed by β-cyclodextrin (β-CD) immobilization. On the surface of this β-CD immobilized material, the external pGMA layer was synthesized via second round ATRP using the initiator on the material. The hydrophilic structure was formed after the hydrolysis, which created a diffusion barrier for proteins. The new chiral restricted access material (chiral-CD-RAM) was characterized and its abilities for chiral separation and protein exclusion were evaluated. The result demonstrates that enantio-separations can be achieved for several drugs in HPLC using chiral-CD-RAM as stationary phase. Meanwhile, good protein recovery has been obtained. It indicated that this chiral-CD-RAM can be used for determination of certain chiral drugs in biological samples with direct injection in the HPLC analysis.
Co-reporter:Mamat Turson, Xiao Lei Zhuang, Hui Na Liu, Ping Jiang, Xiang Chao Dong
Chinese Chemical Letters 2009 Volume 20(Issue 9) pp:1136-1140
Publication Date(Web):September 2009
DOI:10.1016/j.cclet.2009.04.012
To make more homogenous organic monolithic structure, reversible addition-fragmentation chain transfer (RAFT) process was employed in the synthesis of the clenbuterol imprinted polymer. In the synthesis, the influence of synthetic conditions on the polymer structure and separation efficiency was studied. The result demonstrated that the imprinted columns prepared with RAFT process have higher column efficiency and selectivity than the columns prepared with conventional polymerization in the present study, which may result from the higher surface area, smaller pore size and the narrower globule size distribution in their structures. The result indicated that RAFT polymerization provided better conditions for the clenbuterol imprinted monolithic polymer preparation.
Co-reporter:Huina Liu;Xiaolei Zhuang;Mamat Turson;Min Zhang
Journal of Separation Science 2008 Volume 31( Issue 10) pp:1694-1701
Publication Date(Web):
DOI:10.1002/jssc.200700602
Abstract
Molecularly imprinted monolithic columns for selective separation of enrofloxacin were prepared by Reversible Addition-Fragmentation Chain Transfer (RAFT)-mediated radical polymerization. Different ratios of initiation system were used in the synthesis. The structures of the monoliths were characterized to study the relationship between the synthetic conditions and morphology of the monolithic material. The separation performance of the monoliths was evaluated by liquid chromatography. Under optimized synthetic conditions, a monolithic molecularly imprinted polymer (MIP) with high selectivity and improved column efficiency was obtained. The research has shown that RAFT polymerization provides more adjustable conditions for making monolithic materials with different morphologies. The results also demonstrated that homogeneous macro-pore size distribution and large specific surface area are the key factors providing good separation ability and column efficiency for MIP monolithic structures.
Co-reporter:Shufang Su, Min Zhang, Baoli Li, Haiyan Zhang, Xiangchao Dong
Talanta 2008 Volume 76(Issue 5) pp:1141-1146
Publication Date(Web):15 September 2008
DOI:10.1016/j.talanta.2008.05.015
A new method for the synthesis of sulfamethazine-imprinted polymer on the surface of silica via quasi-living radical polymerization and the application of the resulting polymer in determination of the SMZ in milk is developed. In the synthesis, initiator-transfer agent-terminator (iniferter) was immobilized on the silica surface using chemical reagents with good availability. The imprinting polymerization was initialized by the silica-supported iniferter under the UV radiation. The molecularly imprinted polymer (MIP) layer grafted on the silica surface was constructed by using sulfamethazine (SMZ) as the template, methacrylic acid (MAA) as the functional monomer and ethylene dimethacrylate (EDMA) as cross-linker. The resulting MIP-silica has good selectivity for SMZ and high column efficiency in the HPLC analysis. The result demonstrated that the SMZ-imprinted polymer was grafted on the silica surface successfully. Under the optimized HPLC condition, the MIP-silica has been used for the determination of SMZ in milk. The method was linear over the concentration range of 0.1–50 μg mL−1 with correlation coefficient R > 0.999. The detection limit for SMZ was 25 ng mL−1. The recoveries were above 78% at the spiked concentration of 0.024, 0.24 and 0.48 μg mL−1.
Co-reporter:Xiangchao Dong, Ning Wang, Shengli Wang, Xuewei Zhang, Zhijin Fan
Journal of Chromatography A 2004 Volume 1057(1–2) pp:13-19
Publication Date(Web):19 November 2004
DOI:10.1016/j.chroma.2004.09.036
A novel sample clean-up procedure using molecularly imprinted polymer as the solid-phase extraction material for the determination of monosulfuron residue in soil samples has been developed. The molecularly imprinted polymer (MIP) was synthesized by non-covalent method with monosulfuron as the template. The selectivity and affinity of the MIP was evaluated by equilibrium adsorption and HPLC experiments, which demonstrated that the MIP has specific affinity for the template. The template-MIP interaction was studied by investigating the influence of different mobile phases on the retention of the template, which provided basic knowledge for the selection of the washing and elution solutions in the molecularly imprinted solid-phase extraction (MISPE) process. The study indicated that polar organic solvents with hydrogen bonding abilities have stronger eluting strength for the monosulfuron. After the MISPE procedure, a clean baseline was obtained in the HPLC quantification analysis. The recoveries of the method using the combination of MISPE and HPLC were above 93% and the R.S.D. was less than 3.2% in the soil sample determinations. Low detection limit (0.08 μg g−1, when defined as 3 times of the noise) was also obtained in the method evaluation study.
Co-reporter:Xiangchao Dong, Hui Sun, Xianyu Lü, Haibo Wang, Shuxia Liu and Ning Wang
Analyst 2002 vol. 127(Issue 11) pp:1427-1432
Publication Date(Web):23 Sep 2002
DOI:10.1039/B202295H
Separation of ephedrine stereoisomers by molecularly imprinted polymers was performed to study the factors that affect the selectivity and column efficiency. The polymer synthesized with pentaerythritol triacrylate as the cross-linker and chloroform as the porogen was found to have the best overall separation performance. Investigation of the recognition mechanism by NMR and chromatographic analysis revealed that the major binding forces between the polymer stationary phase and ephedrine are the ionic and hydrogen bonding interactions. Studies of the influence of mobile phase compositions on the HPLC analysis have shown that a methanol–aqueous buffer was the suitable mobile phase for the separation in which pH, ionic strength and water content can be adjusted to optimize the chromatographic analysis.
Co-reporter:Xu Yang, Xiangchao Dong, Kai Zhang, Fangfang Yang and Zhenchang Guo
Journal of Materials Chemistry A 2016 - vol. 4(Issue 5) pp:NaN928-928
Publication Date(Web):2015/12/24
DOI:10.1039/C5TB02620B
Lysine acetylation is a widespread protein post-translational modification (PTM) that plays a central role in diverse physiological processes. The study on the scope and pattern of lysine acetylation is an important subject in the proteomic research. However, identification of lysine acetylation from biological sources is a great challenge due to the low abundance in the massive background of unmodified proteins and the dynamic fashion of the modifications. In this research, a novel molecularly imprinted polymer (MIP) with high affinity for peptides containing acetylated lysine (Kac) has been synthesized by the combination of an epitope and surface-confined imprinting strategy. A dipeptide: KacA, containing acetylated lysine and alanine residues, was used as the template and immobilized on the sacrificial silica support. After hierarchical imprinting and removal of silica, the surface-confined cavities were created on the resulting KacA-MIP material. The equilibrium binding and HPLC experiments demonstrated that the KacA-MIP has good selectivity and epitope affinity. It can differentiate Lys-acetylated peptides (Kac-peptides) from their native structures and has higher affinity for Kac-peptides with different sequences. The selectivity of the MIP was also proved by its ability in the extraction of Kac-peptides from spiked histone digest and by its enrichment performance in the whole cell lysates. The study developed a method of MIP preparation with affinity for PTM peptide based on recognition of peptide side chains. It also indicated that the MIP has potential to be used as an antibody mimic in the PTM analysis.
Co-reporter:Fangfang Yang, Shen Lin and Xiangchao Dong
Chemical Communications 2015 - vol. 51(Issue 36) pp:NaN7676-7676
Publication Date(Web):2015/03/24
DOI:10.1039/C4CC09787D
A novel artificial receptor has been synthesized using surface-confined imprinting for the recognition of lysine acetylation in histone H4. The material has high recognition fidelity and epitope affinity. It was demonstrated that acetylated Lys plays a role in binding site creation and peptide imprinting can be performed in phosphate buffer.
Co-reporter:
Analytical Methods (2009-Present) 2014 - vol. 6(Issue 23) pp:NaN9452-9452
Publication Date(Web):2014/10/03
DOI:10.1039/C4AY02009J
A new method has been developed for the determination of tetracycline residues in water samples by on-line solid-phase extraction-HPLC analysis method. Tetracycline-imprinted microspheres, synthesized by reversible addition–fragmentation chain transfer precipitation polymerization, were applied for the extraction of the tetracyclines. Tetracycline residues were selectively extracted from 10.0 mL lake water using the molecularly imprinted solid-phase extraction (MISPE) method. After the sample clean-up, tetracyclines were back-flushed into a reversed-phase C18 analytical column and oxytetracycline, tetracycline and doxycycline were separated for quantification. The recoveries of three tetracyclines in the spiked lake water were between 83.2% and 111.0% with relative standard deviations (RSDs) <5.3%, demonstrating that the established MISPE-HPLC method has good accuracy and precision. Linearity in the range of 1–200 μg L−1 was obtained. The detection limits and quantification limits for the analytes were 0.08–1.02 μg L−1 and 0.41–3.56 μg L−1, respectively. The enhancement factors, which ranged from 376 to 528, indicated that the MISPE has the ability to enrich trace tetracycline residues. The results demonstrated that this method can be used in the determination of tetracyclines in environmental water samples with good sensitivity and efficiency.
Co-reporter:An-na Tang, Lanping Duan, Meijiao Liu and Xiangchao Dong
Journal of Materials Chemistry A 2016 - vol. 4(Issue 46) pp:NaN7471-7471
Publication Date(Web):2016/10/27
DOI:10.1039/C6TB02215D
Development of synthetic antibodies for early-stage cancer diagnosis is a pursued goal in materials research. Molecular imprinting has shown advantages for this purpose, whereas preparation of molecularly imprinted polymer (MIP) for peptide/protein recognition is still a challenge. In the present study, a new MIP as an artificial antibody for biomarker analysis was synthesized by epitope and surface-confined imprinting approaches. The target peptides (K-1944 and K-2209) were the amino acids 440–456 and 438–456 fragments of high molecular weight kininogen that have sensitivity and specificity for the diagnosis of gastric, colorectal and liver cancers. For molecular imprinting, a heptapeptide, as an epitope for recognition, was selected as a template and immobilized on silica. Metal coordination between Cu(II) and template residues (His and Asp) was employed to create the binding sites. 4-Vinylpyridine was used as both the monomer and coordinating ligand. After imprinting polymerization and silica removal, spherical MIP (DQGHGHQ-MIP) with recognition ability was obtained successfully. The MIP could distinguish the template from one amino acid mismatched peptide. It also has surface-confined binding sites with good affinity for epitope-containing larger molecules. The MALDI-TOF analysis demonstrated that K-1944 and K-2209 could be selectively extracted from spiked human serum by the MIP. The solid phase extraction by DQGHGHQ-MIP coupled with HPLC was performed and 71–88% recoveries for K-1944 and K-2209 in spiked serum were obtained. The results demonstrated that DQGHGHQ-MIP could be used as an artificial antibody in the target peptide analysis with good extraction and sample clean-up performance.
![2-Propanol, 1-[(1-methylethyl)amino]-3-(1-naphthalenyloxy)-](/data/chemimg/935900/525-66-6.png)
![2-Propanol, 1-[(1-methylethyl)amino]-3-(1-naphthalenyloxy)-](/data/chemimg/935900/525-66-6_b.png)
![Benzenesulfonamide, N-[[(4-methyl-2-pyrimidinyl)amino]carbonyl]-2-nitro-](/data/chemimg/102700/155860-63-2.png)
![Benzenesulfonamide, N-[[(4-methyl-2-pyrimidinyl)amino]carbonyl]-2-nitro-](/data/chemimg/102700/155860-63-2_b.png)
![Benzenemethanol, 4-amino-3,5-dichloro-α-[[(1,1-dimethylethyl)amino]methyl]-](/data/chemimg/568900/37148-27-9.png)
![Benzenemethanol, 4-amino-3,5-dichloro-α-[[(1,1-dimethylethyl)amino]methyl]-](/data/chemimg/568900/37148-27-9_b.png)