四羧基金属酞菁负载纤维素纤维的制备及其消臭性能研究

合成了四羧基铁酞菁(Fe-CPc)和四羧基钴酞菁(Co-CPc),并对其进行了元素分析和红外光谱表征.在酸性条件下,将四羧基金属酞菁负载到改性纤维素纤维上,制备得到消臭纤维.实验结果表明,在室温条件下,四羧基铁酞菁消臭纤维(FePcF)、四羧基钴酞菁消臭纤维(CoPcF)和混合金属酞菁消臭纤维(CoFePcF)3种功能性纤维都能有效去除甲硫醇、硫化氢、氨气和三甲胺,甲硫醇和硫化氢按催化氧化机理除去,而氨气和三甲胺按酸碱中和机理除去;3种消臭纤维对甲硫醇和硫化氢的消臭效果为CoFePcF>CoPcF>FePcF.     

仿生聚合物材料用于糖肽的高选择性富集

蛋白质糖基化分析对深入认识其生物功能和发现生物标志物意义重大。由于生物样品中糖肽的丰度低，糖肽的富集至关重要。该文合成了一种以色氨酸为功能基团的新型仿生聚合物材料（简称Poly-Trp），并用于糖肽的高选择性富集。扫描电子显微镜、热分析仪和红外光谱仪等表征证明Poly-Trp已成功合成。通过考察溶液条件变化对糖肽在Poly-Trp保留的影响，发现糖肽在Poly-Trp上的保留分别随着溶液中乙腈浓度的降低和酸度的升高而变弱。且Poly-Trp对牛胎球蛋白糖肽的富集选择性高于商品化ZIC-HILIC和氨基硅胶，能抵抗物质的量倍数为100的牛血清白蛋白的干扰。该研究中仿生聚合物材料的设计为糖肽富集材料提供了新思路和新方法。     

新型钴酞菁接枝温敏聚合物的制备及性能

采用2,4,6-三氯-1,3,5-三嗪对四氨基钴酞菁进行改性,并以共价键接枝到聚N-异丙基丙烯酰胺上制得一种新型温敏性高分子催化剂——钴酞菁接枝温敏聚合物,并采用UV-Vis、TG等对其进行表征.对钴酞菁接枝温敏聚合物、温敏聚合物和小分子金属酞菁进行溶解性测试,结果表明与四氨基钴酞菁相比,所合成的钴酞菁接枝温敏聚合物能溶解于水和大多数有机溶剂,且该聚合物水溶液具有良好的温敏性,其最低临界溶解温度(LCST)为34.5℃.采用浊度法考察了不同比例的混合溶剂(乙醇/水、DMF/水)对LCST的影响,结果表明随着有机溶剂含量的增加,LCST先下降后升高,而当有机溶剂增加到一定程度时温敏性消失.本文还考察了钴酞菁接枝温敏聚合物对2-巯基乙醇的催化活性,结果表明随着温度升高,催化活性也不断提高,而当温度超过LCST时催化活性急剧下降,聚合物从溶液中析出.基于这些特性,该温敏聚合物负载酞菁作为一种新型的催化剂可实现均相催化、异相分离.     

重组含糖识别结构域的人源半乳糖凝集素-3在糖蛋白/糖肽富集中的应用

植物凝集素是广泛使用的糖蛋白富集和识别材料,动物凝集素则较少被尝试用于糖蛋白富集。基于人源半乳糖凝集素-3的糖识别结构域（CRD）,设计了两种重组凝集素：Gal3C （一个CRD）和Tetra-Gal3C （四重串联CRD）。通过将两种凝集素固定于链霉亲和素琼脂糖小球上,构造了富集糖蛋白的重组凝集素亲和柱。使用凝胶电泳、免疫印迹以及生物质谱技术对重组凝集素的生物特征及其糖蛋白富集能力进行了表征与评价,发现两种类型的重组凝集素对糖蛋白/糖肽都有良好的富集效果,并具有较高的特异性和灵敏度。相对于Gal3C而言,Tetra-Gal3C由于具有四重串联的CRD结构域,表现出更高的糖蛋白/糖肽富集能力。该凝集素亲和柱成功用于人肝癌细胞系HepG2的糖蛋白富集,表明重组凝集素具有从复杂生物样本中选择性识别和富集糖蛋白/糖肽的能力。     

金属酞菁催化巯基乙醇氧化的研究

研究了２，９，１６，２３－四羧基铁（Ⅲ），钴（Ⅱ）酞菁及固载在硅胶上的２，９，１６，２３－四甲酰胺基铁（Ⅲ），钴（Ⅱ）酞菁，在水溶液中催化硫醇氧化的反应，比较了几种催化剂的性能，考察了反应条件对硫醇氧化反应的影响，提出了反应机理，结果表明，当硫醇浓度较高地，固载后的酞菁铁，其催化性能优于或接近未固载的酞菁铁；当而硫醇浓度较低时，固载后的金属酞菁显示出更接近实际的优越性，而两种金属酞菁固载后仍具有良     

利用原子转移自由基聚合方法制备一种新型聚合物整体柱固相萃取材料初探

利用两步原子转移自由基聚合(ATRP)方法,初步建立了新型聚合物整体柱固相萃取(SPE)材料制备的新方法。首先利用ATRP方法,以乙二醇二甲基丙烯酸酯（EDMA）为交联剂,在室温条件下,在滤头中原位快速聚合制备得到负载有聚合物整体柱的萃取装置;然后采用表面诱导的电子转移活化再生原子转移自由基聚合(ARGET ATRP)方法进行表面修饰,得到了聚(二甲基氨基乙基甲基丙烯酸酯)(PDMAEMA)修饰的柱体;进一步将此整体柱用作萃取材料,实现了对激素类药物的富集分析。本研究表明:ATRP有望作为一种简单、有效及反应条件温和的聚合方法用于整体柱的制备,且该方法有潜力实现固相萃取材料在不同装置中的制备。     

基于叠氮基-氰基点击化学的苯硼酸亲和硅胶的制备及其在糖蛋白/糖肽选择性富集中的应用

硼亲和色谱法在糖肽/糖蛋白选择性富集中的应用趋于成熟。硼酸亲和材料的选择性，生物相容性，制备过程是否简便均是开发新型苯硼酸功能化材料需要考虑的问题。该研究立足硼酸亲和材料开发的关键问题，设计并开发了一种新型苯硼酸亲和硅胶（TCNBA）。该材料采用基于叠氮基-氰基的无铜催化点击化学方法进行合成，生物相容性好，制备方法简便。红外光谱和X射线光电子能谱图表征结果证明材料合成成功。TCNBA的糖肽富集选择性利用基质辅助激光解吸电离飞行时间质谱（MALDI-TOF MS）进行评价，结果表明，TCNBA能够分别从辣根过氧化物酶（HRP）和免疫球蛋白G（IgG）酶解液中鉴定出13个和11个糖肽；以HRP和牛血清白蛋白（BSA）酶解液混合物（物质的量比1：10）作为研究对象，富集后能够鉴定出5个糖肽。TCNBA的糖蛋白富集选择性利用十二烷基磺酸钠-聚丙烯酰胺凝胶电泳法（SDS-PAGE）进行评价，以HRP、IgG、核糖核酸酶B（RNaseB）作为考察对象，结果表明，TCNBA对糖蛋白具有较好的富集选择性。以实际样品人血清为测试对象验证TCNBA在实际生物样品中的应用价值。结果显示，富集后非糖蛋白得到较大程度去除，糖蛋白得以富集。所制备的材料和方法具有大规模实际蛋白质样品分离处理的应用前景。     

一种弱阳离子交换材料的亲水模式糖肽富集新方法

亲水作用色谱(HILIC)材料在糖肽的富集与分离中得到越来越广泛的应用. 针对目前HILIC材料糖肽选择性不足的缺点, 发展新的糖肽富集方法十分必要. 本工作发展了一种商品化的弱阳离子交换材料(WCX)在亲水模式下对糖肽的富集方法. 首先考察了微固相萃取(SPE)模式下WCX上多肽保留的机理. 结果显示, WCX上糖肽的保留同时受乙腈含量和pH的影响. 将WCX用于牛胎球蛋白(fetuin)胰蛋白酶酶解液中糖肽的富集, 获得了39条糖肽信号. 当fetuin与牛血清白蛋白(BSA)酶解液以物质的量比1:5混合时, 富集到26条糖肽信号. 富集人免疫球蛋白(IgG)胰蛋白酶酶解液时获得25条糖肽信号, 1:5时获得23条糖肽信号. 实验说明WCX对唾液酸化和非唾液酸化糖肽的富集均有高选择性. 该方法拓展了WCX的应用范围, 丰富了HILIC材料的种类.     

硼酸功能化介孔纳米材料的制备及其对糖肽的富集研究

制备了一种硼酸功能化介孔纳米材料, 利用硼酸基团可以和糖肽中糖链上的顺式邻位或间位羟基发生反应形成环状二酯对糖肽进行富集, 考察并比较了不同的孵育时间、孵育缓冲液、清洗方式以及洗脱液对糖肽富集的影响, 优化了该材料富集糖肽的条件, 建立了一种硼酸功能化介孔纳米材料用于选择性富集糖肽并用基质辅助激光解吸附电离-四极离子阱-飞行时间质谱(MALDI-QIT-MS)进行糖肽分析的方法.     

聚[2-(丙烯酰氧基)乙基]三甲基氯化铵-乙二醇二甲基丙烯酸酯整体柱固相萃取结合高效液相色谱法测定尿液中3种苯二氮（卄卓）类药物

以[2-（丙烯酰氧基）乙基]三甲基氯化铵（DAC）为单体,乙二醇二甲基丙烯酸酯（EDMA）为交联剂在注射器中制备聚合物整体柱,用其固相萃取尿液中溴西泮（BRZ）、劳拉西泮（LRZ）和地西泮（DZP）3种苯二氮（卄卓）类药物（BZDs）,并采用高效液相色谱法（HPLC）分析。实验考察了整体柱聚合时间及固相萃取条件（淋洗溶液、洗脱溶剂种类和体积）对BZDs萃取效率的影响。结果表明,仅聚合4 h得到的整体柱对BZDs吸附效率为100%。取尿液样品4 mL上样,用4 mL H₂O冲洗,1 mL乙酸乙酯洗脱,采用高效液相色谱分析。在最优条件下,3种BZDs在4.0~1000 ng/mL范围内线性关系良好（r=0.999）,检出限（S/N=3）和定量限（S/N=10）分别为1.0~1.2 ng/mL和3.3~4.0 ng/mL;在10、25和50 ng/mL加标水平下回收率为81.4%~102%,日内（n=3）和日间（n=3）相对标准偏差分别为1.2%~4.5%和2.5%~8.3%。该整体柱可对尿液中3种BZDs有效净化,且富集达12~15倍。方法构筑的聚合物整体柱制备简单,萃取高效,可成功用于尿液中3种BZDs的分析。     

Selective enrichment of glycopeptides based on copper tetra(N‐carbonylacrylic) aminephthalocyanine and iminodiacetic acid functionalized polymer monolith

Efficient separation and enrichment of low‐abundance glycopeptides from complex biological samples is the key to the discovery of disease biomarkers. In this work, a new material was prepared by coating copper tetra(N‐carbonylacrylic) aminephthalocyanine and iminodiacetic acid onto poly(glycidyl methacrylate‐pentaerythritol triacrylate) monolith. The monolith was applied to polymer monolithic microextraction for specific capture of glycopeptides coupled with matrix‐assisted laser desorption/ionization time‐of‐flight mass spectrometry. The developed monolith exhibited satisfactory efficiency for glycopeptide enrichment with high selectivity and detection sensitivity. When the tryptic digest of immunoglobulin G was used as the sample, total 24 glycopeptides were identified and the detection limit was determined as 5 fmol. When the approach was applied to the analysis of glycopeptides in the mixture of bovine serum albumin and immunoglobulin G (100:1, m/m) digests, 16 glycopeptides could still be observed. Moreover, the monolith was successfully applied to the selective enrichment of glycopeptides from human serum digests, exhibiting great practicability in identifying low‐abundance glycopeptides in complex biological samples.     

Effects of Substituents on the Electrocatalytic Activity of Cobalt Phthalocyanines when Conjugated to Graphene Quantum Dots

We report on the π–π interactions between graphene quantum dots (GQDs) and the following cobalt phthalocyanine derivatives: cobalt monocarboxyphenoxy phthalocyanine (complex 1 ), cobalt tetracarboxyphenoxyphthalocyanine (complex 2 ), and cobalt tetraaminophenoxy phthalocyanine (complex 3 ). The conjugates (conj) with GQDs are represented as 1 @GQDs(conj), 2 @GQDs(conj) and 3 @GQDs(conj), respectively. The resulting phthalocyanine/GQDs conjugates were adsorbed on containing a glassy carbon electrode (GCE) using the drop and dry method. We explore the electrochemical properties of phthalocyanines functionalized with both electron withdrawing groups and electron donating groups when non‐covalently linked to the π‐electron rich graphene quantum dots. GCE/ 3, GCE/ 2 @GQDs(conj) and GCE/ 1 @GQDs(conj) had the lowest limits of detection (LOD). Sequentially modified electrodes showed less favourable detection limits compared to the conjugates.     

Facile Synthesis of Boronic Acid‐Functionalized Magnetic Mesoporous Silica Nanocomposites for Highly Specific Enrichment of Glycopeptides

In the work, aminophenylboronic acid (APB)‐functionalized magnetic mesoporous silica, which holds the attractive features of high magnetic responsivity and large surface area, was developed to enrich glycopeptides. At first, magnetic mesoporous silica nanocomposites were prepared. And then, the nanocomposites were functioned with glycidoxypropyltrimethoxysilane (GLYMO) for boronic acid immobilization. Due to that the boronic acid group on the surface of magnetic mesoporous silica nanocomposites can form tight yet reversible covalent bond with glycopeptides containing cis‐1,2‐diols groups, the magnetic mesoporous silica nanocomposites were successfully applied to selective enrichment of glycopeptides. APB functionalized magnetic mesoporous silica was also demonstrated to have high selectivity for the glycopeptides in the presence of a 10‐fold excess bovine serum albumin (BSA) over horseradish peroxidase (HRP) in the tryptic digest. We also find that magnetic mesoporous silica has better sensitivity in HRP digest compared with that of commercial aminophenylboronic acid‐functionalized magnetic nanoparticles beads. The limit of detection for glycopeptides from glycoprotein HRP is about 0.01 ng/µL.     

Facile synthesis of hydrophilic polyamidoxime polymers as a novel solid-phase extraction matrix for sequential characterization of glyco- and phosphoproteomes

Selective enrichment of glycopeptides or phosphopeptides with great biological significance is essential for high-throughput mass spectrometry analysis. However, most previously reported methods only focused on enriching either glycopeptides or phosphopeptides rather than enriching them both. In this work, for the first time, a facile route was developed for the synthesis of polyamidoxime polymers with intrinsic hydrophilic skeletons and attractive long chain structure. The polyamidoxime materials (co-PAN) were synthesized from polyacrylonitrile (PAN) precursor and were successfully used for selective enrichment of glycopeptides. After that, co-PAN as a matrix functionalized with titanium ions (co-PAN@Ti⁴⁺) could efficiently enrich phosphopeptides. The performances of the polymers for sequential selective and effective enrichment of glycopeptides and phosphopeptides were evaluated with standard peptide mixtures and human serum. Moreover, the efficiency of enrichment of the material was still retained after being used repeatedly. These results demonstrated that the polymers showed great potential in the practical application of proteomics.     

Gold nanoparticles immobilized hydrophilic monoliths with variable functional modification for highly selective enrichment and on-line deglycosylation of glycopeptides

The poly (glycidyl methacrylate-co-poly (ethylene glycol) diacrylate) monoliths modified with gold nanoparticles, with advantages of enhanced reactive sites, good hydrophilicity and facile modification, were prepared as the matrix, followed by variable functionalization with cysteine and PNGase F for glycopeptide enrichment and on-line deglycosylation respectively. By the cysteine functionalized monolithic column, glycopeptides could be efficiently and selectively enriched with good reproducibility based on hydrophilic interaction chromatography (HILIC). Furthermore, the enrichment was specially achieved in weak alkaline environment, with 10 mM NH₄HCO₃ as the elution buffer, compatible with deglycosylation conditions. Therefore, the glycopeptides could be on-line deglycosylated with high efficiency and throughput by directly coupling the PNGase F functionalized monolithic column with the enrichment column during elution without the requirement of buffer exchange and pH adjustment. By such a method, within only 70-min pretreatment, 196 N-linked glycopeptides, corresponding to 122 glycoproteins, could be identified from 5 μg of human plasma with 14 high-abundant proteins removed, and the N-linked glycopeptides occupied 81% of all identified peptides, achieving to the best of our knowledge, the highest selectivity of HILIC-based methods. All the results demonstrated the high efficiency, selectivity and throughput of our proposed strategy for the large scale glycoproteome analysis.     

4-Mercaptophenylboronic acid functionalized graphene oxide composites: Preparation,characterization and selective enrichment of glycopeptides

Selective enrichment and isolation of glycopeptides from complex biological samples was indispensable for mass spectrometry (MS)-based glycoproteomics, however, it remained a great challenge due to the low abundance of glycoproteins and the ion suppression of non-glycopeptides. In this work, 4-mercaptophenylboronic acid functionalized graphene oxide composites were synthesized via loading gold nanoparticles on polyethylenimine modified graphene oxide surface, followed by 4-mercaptophenylboronic acid immobilization by the formation of Au–S bonding (denoted as GO/PEI/Au/4-MPB composites). The composites showed highly specific and efficient capture of glycopeptides due to their excellent hydrophilicity and abundant boronic acid groups. The composites could selectively capture the glycopeptides from the mixture of glycopeptides and nonglycopeptides, even when the amounts of non-glycopeptides were 100 times more than glycopeptides. Compared with commercial meta-amino phenylboronic acid agarose, the composites showed better selectivity when the sample was decreased to 10 ng. These results clearly verified that the GO/PEI/Au/4-MPB composites might be a promising material for glycoproteomics analysis.     

Novel functionalized poly(glycidyl methacrylate‐co‐ethylene dimethacrylate) microspheres for the solid‐phase extraction of glycopeptides/glycoproteins

Novel 3‐aminophenylboronic acid functionalized poly(glycidyl methacrylate‐co‐ethylene dimethacrylate) microspheres were prepared for the solid‐phase extraction of glycopeptides/glycoproteins. The adsorption efficiency, maximum adsorption capacity, and specific recognition of the microspheres to glycoprotein were investigated. The results indicated excellent adsorption of glycoproteins by the microspheres, which are attributed to the well‐defined boronic acid brushes on the microsphere surfaces. Furthermore, a solid‐phase extraction microcolumn filled with the microspheres was used to efficiently enrich glycopeptides from enzymatic hydrolysates from human serum samples. The mass spectrometry results demonstrated that the method is suitable for the separation and enrichment of glycopeptides/glycoproteins from complex biological samples.     

Facile synthesis of 4‐mercaptophenylboronic acid functionalized gold nanoparticles for selective enrichment of glycopeptides

In the work, 4‐mercaptophenylboronic acid (4‐MPBA)‐functionalized gold nanoparticles were synthesized via a facile approach. At first, gold nanoparticles (about 50 nm) were prepared by a simple and convenient hydrothermal method based on a polyol process. Then, gold nanoparticles were modified with 4‐MPBA by the well‐known reaction of Au with the thiol groups. The MPBA‐functionalized gold nanoparticles were characterized by Fourier transform infrared spectra and UV/Vis adsorption spectra. Due to the fact that the boronic acid group on the surface of 4‐MPBA‐modified gold particles can form tight yet reversible covalent bonds with glycopeptides containing cis‐1,2‐diols groups, the MPBA‐modified gold nanoparticles were successfully applied to selective enrichment of glycopeptides. Isolation and enrichment of glycopeptides in a standard protein (asialofetuin and horseradish peroxidase) digestion and a complex sample were performed using MPBA‐modified gold nanoparticles, followed by matrix‐assisted laser desorption/ionization quadruple ion trap time‐of‐flight (MALDI‐QIT‐TOF) mass spectrometric analysis. The experimental results demonstrated that MPBA‐modified gold nanoparticles synthesized by the facile approach have the powerful potential for selective enrichment of glyciopeptides, and can be an alternative tool in glycoproteomics. Copyright © 2009 John Wiley & Sons, Ltd.     

Nanoparticle-modified monolithic pipette tips for phosphopeptide enrichment

We have developed nanoparticle-modified monoliths in pipette tips for selective and efficient enrichment of phosphopeptides. The 5 μL monolithic beds were prepared by UV-initiated polymerization in 200 μL polypropylene pipette tips and either iron oxide or hydroxyapatite nanoparticles were used for monolith modification. Iron oxide nanoparticles were prepared by a co-precipitation method and stabilized by citrate ions. A stable coating of iron oxide nanoparticles on the pore surface of the monolith was obtained via multivalent electrostatic interactions of citrate ions on the surface of nanoparticles with a quaternary amine functionalized poly(2-hydroxyethyl methacrylate-co-ethylene dimethacrylate) monolith. Hydroxyapatite nanoparticles were incorporated into the poly(2-hydroxyethyl methacrylate-co-ethylene dimethacrylate) monolith by simply admixing them in the polymerization mixture followed by in situ polymerization. The nanoparticle-modified monoliths were compared with commercially available titanium dioxide pipette tips. Performance of the developed and commercially available sorbents was demonstrated with the efficient and selective enrichment of phosphopeptides from peptide mixtures of α-casein and β-casein digests followed by off-line MALDI/MS analysis.     

双核钴锰酞菁对SOCl2还原反应的电催化性能

为了确定双核金属酞菁化合物对亚硫酰氯还原反应是否具有比单核金属酞菁更强的电催化性能, 通过循环伏安测试方法, 用酞菁钴和酞菁铁作为对比, 研究了双核钴锰酞菁在1.5 mol·L-1 LiAlCl4/SOCl2电解液中的电催化行为, 并计算出动力学参数, 由此来评估具有平面结构的双核金属酞菁化合物对亚硫酰氯还原的催化活性的影响. 通过比较循环伏安曲线发现, 与单核酞菁钴(II)和酞菁铁(II)相比, 双核钴锰酞菁对SOCl2还原反应具有更好的催化活性, 能提高SOCl2还原反应的交换速率常数和SOCl2在玻碳电极上的扩散系数, 从而提高SOCl2还原电位和电流.通过ER14250型实体电池10 mA放电性能测试验证表明, 与单核酞菁钴和酞菁铁催化剂的电池相比, 双核钴锰酞菁在低温(-30 ℃)下可提高放电中点电压0.3 V, 在常温(25 ℃)下可以提高放电容量约100 mAh, 催化效果比单核酞菁钴和酞菁铁显著.