纸张上光油关键物质的成分分析

利用色相色谱／质谱联用技术，傅立叶红外及裂解－气相色谱／质谱联用技术，对印刷用上光油的关键成分进行了分析，共鉴定出７种挥发性组分，２种高分子聚合物。     

中药方剂化学成分液质联用分析中标准质谱库的建立和应用

利用电喷雾离子化四级杆飞行时间串联质谱(ESI-Q-TOF)技术,以四物汤类方为例,建立了类方成分的液质联用分析质谱库。利用Masslynx工作站的Chromalynx模块的检索和与质谱库比较的功能,可以快速鉴定色谱图中各个色谱峰。此方法可应用于液质联用检测系统的谱库检测,提高了对类方成分鉴定的效率和可靠性。本质谱库共收录了液质联用条件下57个四物汤类方标准品的质谱信息,包括正负离子模式下各成分的保留时间、准分子离子峰及其碎片离子的精确质量数。该质谱库支持标准NIST谱图检索及比对方法,可自动完成总离子流色谱图中各色谱峰的识别、质谱图提取及鉴定。     

分子烙印技术在分析化学中的应用

分子烙印技术是一种制备具有特定选择性和亲合性的分子识别材料的技术。它在烙印分子存在的情况下,功能性单体与交联剂共聚制得高交联的聚合物网络,移去烙印分子后就得到了对烙印分子记忆效应的分子烙印聚合物。它在分析化学,催化和有机合成等领域都具有应用价值。该文主要介绍了烙印聚合物在分析化学中的应用研究,着重于它在色谱技术中的应用,尤其是在毛细管电色谱中的应用。最后对该技术的发展前景进行了讨论。     

用高表达EGFR细胞膜色谱-HPLC/MS联用快速筛选独活中抗EGFR活性成分

报道了用高表达表皮生长因子受体细胞膜色谱与高效液相色谱/质谱在线联用方法(EGFR/CMC-online-HPLC/MS)快速筛选发现中药独活中的活性成分.实验中,采用高表达EGFR的细胞膜制备色谱固定相,建立EGFR/细胞膜色谱(EGFR/CMC)模型,利用柱切换和固相萃取技术,将EGFR/CMC模型与高效液相色谱/质谱(HPLC/MS)在线联用,构成一种新的可同时"识别-鉴定"目标成分的二维色谱系统,并应用于快速筛选独活中具有抗EGFR活性的目标成分.结果发现独活中的蛇床子素具有与对照药物达沙替尼类似的色谱保留特性,能够作用于EGFR;同时MTT及Elisa分析实验证实蛇床子素对HEK293EGFR细胞增殖及EGFR表达均有抑制作用.本文建立的EGFR/CMC-online-HPLC/MS二维色谱方法,可以选择性地从中药复杂体系中快速"识别-鉴定"目标组分,且筛选结果与特定生物效应显著相关.     

高效液相色谱-质谱联用快速筛选并鉴定黄芩甲醇提取物中抗氧化活性成分

建立了高效液相色谱-质谱联用技术快速筛选和鉴定黄芩甲醇提取物中抗氧化活性成分的方法.在黄芩甲醇提物中加入适量的二苯基三硝基苯肼( DPPH)作为实验组,避光室温反应30 min后直接经液相色谱分析,并与不加入DPPH的空白组进行比较.有抗氧化活性的成分因会与DPPH反应而使峰面积减少,而不具有抗氧化活性的成分峰面积则不变.基于色谱数据可以获得有抗氧化活性组分的相对活性强度,基于质谱数据可获得活性组分的结构信息用于结构鉴定.本方法成功地从黄芩甲醇提取物中筛选并鉴定出了黄芩苷、千层纸素A-7-O-B-D-葡萄糖醛酸苷、汉黄芩苷和千层纸素A4种较强的抗氧化活性成分.本方法利用HPLC-MS技术对复杂体系(如中药提取物)中小分子的分离和鉴定优势,可以直接筛选出黄芩甲醇提取物中的抗氧化活性成分,而不需要繁琐的前期分离和纯化,并且不需要仪器改装工作,有利于实现复杂体系中抗氧化活性成分的高通量筛选.     

高效液相色谱/电喷雾飞行时间质谱分析太子参中环肽类化合物

采用高效液相色谱/电喷雾飞行时间质谱联用方法(HPLC/ESI-TOFMS)分析太子参中的环肽类化合物。实验采用反相C18色谱柱,二元线性梯度洗脱,分离并检测了太子参中6种环肽类化合物;通过与电喷雾飞行时间质谱联用获得了这几种化合物的准确分子量信息,由于ESI-TOFMS具有高分辨率,能够测定化合物精确的分子质量而不降低灵敏度,对6种环肽类化合物成分进行了定性鉴定。该方法简便、快速、准确。     

高效液相色谱/质谱联用技术在天然来源生物活性成分快速识别中的应用

天然来源生物活性成分是药物先导分子的重要源泉之一,它们种类繁多,结构复杂多样,逐一分离提取纯化然后进行结构分析鉴定的这一传统植物化学(天然药物化学)研究模式尽管已沿袭多年,但往往费时费力,目标性不强,且常常忽略含量甚少的微量成分.高效液相色谱及多级质谱联用技术(HPLC/MSn)兼顾了色谱的高效分离能力和质谱的强大定性功能,为天然生物活性成分的分析研究提供了新途径.本文总结了我们课题组近年来对糖苷、植物酚类以及酰胺类生物碱等几类天然有效成分的分析研究进展:应用HPLC/MSn联用技术在线分析鉴定多种天然来源的已知成分,快速筛选出多种未知成分,并运用多级质谱技术获得未知成分的结构信息,为快速准确发现新的目标结构提供靶向指导.这一研究方法的应用,突破了传统分离分析的束缚,为现代植物化学或天然药物化学研究提供了新思路.     

食用油甘油三酯质谱分析方法的研究进展

该文对质谱鉴定技术及其与色谱联用的分析方法(包括直接进样质谱分析、气相色谱质谱联用技术、超临界流体与质谱联用技术和液相色谱质谱联用技术)在甘油三酯分析方面的应用进行了综述,评述了各类分析方法的优缺点,对常用的脂质分析数据库进行了介绍,并对甘油三酯分析方法的发展及应用作了展望。     

分子烙印聚合物为固定相分离和识别磺胺类药物

以磺胺甲噁唑为模板分子,采用原位聚合法制备了具有特定识别性能的棒状分子烙印聚合物。作为高效液相色谱的固定相实现了磺胺甲噁唑与其结构类似物的分离。磺胺甲噁唑烙印聚合物和目标分子之间的相互作用除了特异性的氢键作用外,也存在着疏水作用。同时考察含水量、流速对分离的影响,论证了分子烙印聚合物选择性专一的作用原理。结果表明,这种棒状聚合物对模板分子及其类似物有很好的分离能力。     

高效液相色谱-电喷雾飞行时间质谱分析娑罗子中皂苷类成分

采用高效液相色谱/电喷雾飞行时间质谱联用技术(HPLC/ESI-TOF/MS),研究4种七叶皂苷的分子结构与裂解规律间的关系,并对娑罗子中的七叶皂苷类化合物进行鉴定。实验采用反相C18色谱柱,以乙腈-0.2%乙酸溶液为流动相,二元线性梯度洗脱,通过与电喷雾飞行时间质谱联用获得娑罗子中各皂苷成分的精确分子量和分子式;采用质谱碰撞诱导解离技术获得各化合物碎片裂解信息,结合文献对娑罗子中的14种皂苷类化合物进行了初步鉴定。研究表明,高效液相色谱-电喷雾飞行时间质谱联用技术是娑罗子中皂苷类化合物鉴别的有效工具。     

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.     

Determination of donepezil in serum samples using molecularly imprinted polymer nanoparticles followed by high‐performance liquid chromatography with ultraviolet detection

A molecularly imprinted polymer designed for the selective extraction of donepezil from serum samples was synthesized using a noncovalent molecular imprinting approach. The molecularly imprinted polymer was evaluated chromatographically and then its affinity for donepezil was confirmed by solid‐phase extraction. The optimal conditions for solid‐phase extraction were provided by cartridge conditioning using acidified water purified from a Milli‐Q system, sample loading under basic aqueous conditions, clean‐up using acetonitrile, and elution with methanol/tetrahydrofuran. Desirable molecular recognition properties of the molecularly imprinted polymer led to good donepezil recoveries (90–102%). The data indicated that the imprinted polymer has a perfect selectivity and affinity for donepezil and could be used for selective extraction and analysis of donepezil in human serum.     

Enantiomeric Resolution on L—Carnitine Selective Polymers Prepared by Molecular Imprinting

L-carnitine selective polymers were prepared by molecular imprinting using methacrylic acid as the functional monomer. The acid function of the monomer is expected to form hydrogen bond and ionic interactions with the amine function of the target molecule L-carnitine.The imprinted polymers were used as stationary phases in high-performance liquid chromatography (HPLC). It was shown that L-carnitine imprinted polymer exhibited a higher affinity to its template molecule,while the non-imprinted polymer had no affinity to the compounds tested. Racemic carnitine hydrochloride was efficiently resolved on the L-carnitine imprinted polymer, and the separation factor is 1.9.     

环丙沙星分子印迹聚合物的合成及识别性能研究

采用分子印迹技术合成了以环丙沙星为印迹分子,以甲基丙烯酸和4-乙烯基吡啶同时为功能单体的分子印迹聚合物。运用平衡结合实验研究了印迹聚合物的吸附特性和选择识别能力。Scatchard分析表明,在所研究的浓度范围内,分子印迹聚合物中形成了两类不同的结合位点。底物选择实验表明,这种聚合物对环丙沙星呈现高的选择结合能力。     

Preparation of sterol-imprinted polymers with the use of 2-(methacryloyloxy)ethyl phosphate.

Steroid-selective polymers were prepared by the molecular imprinting technique, using 2-(methacryloyloxy)ethyl phosphate as functional monomer. The retentivity and selectivity of the obtained imprinted polymers were evaluated by liquid chromatography. The cholesterol-imprinted polymer showed higher affinity for cholesterol than that for cholesterol derivatives. The selectivity of the imprinted polymer was superior to the imprinted polymer prepared with the conventional functional monomer, 2-(trifluoromethyl)acrylic acid. Estradiol was also imprinted and gave similar results, demonstrating that 2-(methacryloyloxy)ethyl phosphate would be suitable for imprinted polymers of cholesterol and related compounds.     

Separation and purification of harmine and harmaline from Peganum harmala using pH-zone-refining counter-current chromatography

pH-zone-refining counter-current chromatography was successfully applied to the separation of alkaloids from a crude extract of Peganum harmala L. using a multilayer coil planet centrifuge. The experiment was performed with a two-phase solvent system composed of methyl tert-butyl ether/THF/water (2:2:3 by volume) where triethylamine (10 mM) was added to the upper organic stationary phase as a retainer and hydrochloric acid (5 mM) to the aqueous mobile phase as an eluter. From 1.2 g of the crude extract, 554 mg harmine and 325 mg harmaline were obtained each with a purity of over 96% as determined by HPLC. The structures of the isolated compounds were identified by electron ionization MS (EI-MS), (1)H NMR, and (13)C NMR.     

沉淀聚合法制备三聚氰胺分子印迹聚合物微球

以三聚氰胺为模板分子,以甲基丙烯酸为功能单体,乙二醇二甲基丙烯酸酯为交联剂,在乙腈-乙二醇(20∶1,V/V)混合溶剂中沉淀聚合制备了分子印迹聚合物微球.利用1H-NMR和紫外光谱方法研究了模板与功能单体相互作用情况.结果表明,三聚氰胺与甲基丙烯酸(MAA)分子通过协同氢键作用形成1∶2型氢键配合物.利用扫描电镜和红外光谱对聚合物微球的结构进行了表征.结果表明,印迹聚合物近似圆球形,粒径约为400～500 nm,且大于非印迹聚合物微球,表面存在大量的结合位点.通过静态平衡吸附实验研究了聚合物微球对模板分子的结合能力,印迹聚合物微球在4 h后逐渐达到吸附平衡,Scatchard分析表明,印迹聚合物微球主要存在两类不同的结合位点,最大表观结合量(Qmax)和平衡离解常数(Kd)分别为Qmax1=22.97μmol/g,Kd1=0.14×10-3 mol/L;Qmax2=157.65μmol/g,Kd2=2.55×10-3 mol/L,计算得出表观印迹效率和有效印迹效率分别为68%和58%.此方法合成的印迹聚合物微球对三聚氰胺有较好的结合性能,可应用于三聚氰胺的分离检测.     

Halloysite‐based dopamine‐imprinted polymer for selective protein capture

We describe a facile, general, and highly efficient approach to obtain polydopamine‐coated molecularly imprinted polymer based on halloysite nanotubes for bovine serum albumin. The method combined surface molecular imprinting and one‐step immobilized template technique. Hierarchically structured polymer was prepared in physiological conditions adopting dopamine as functional monomer. A thin layer of polydopamine can be coated on the surface of amino‐modified halloysite nanotubes by self‐polymerization, and the thickness of the imprinted shells can be controlled by the mass ratio of matrix and dopamine. The polymer was characterized by Fourier transform infrared spectrometry, transmission electron microscopy, and thermogravimetric analysis. The prepared material showed high binding capacity (45.4 mg/g) and specific recognition behavior toward the template protein. In addition, stability and regeneration analyses indicated that the imprinted polymer exhibited excellent reusability (relative standard deviation < 9% for batch‐to‐batch evaluation). Therefore, the developed polymer is effective for protein recognition and separation.     

Cost‐effective imprinting combining macromolecular crowding and a dummy template for the fast purification of punicalagin from pomegranate husk extract

The combination of molecular crowding and virtual imprinting was employed to develop a cost‐effective method to prepare molecularly imprinted polymers. By using linear polymer polystyrene as a macromolecular crowding agent, an imprinted polymer recognizable to punicalagin had been successfully synthesized with punicalin as the dummy template. The resulting punicalin‐imprinted polymer presented a remarkable selectivity to punicalagin with an imprinting factor of 3.17 even at extremely low consumption of the template (template/monomer ratio of 1:782). In contrast, the imprinted polymer synthesized without crowding agent, did not show any imprinting effect at so low template amount. The imprinted polymers made by combination of molecular crowding and virtual imprinting can be utilized for the fast separation of punicalagin from pomegranate husk extract after optimizing the protocol of solid‐phase extraction with the recovery of 85.3 ± 1.2%.     

Small organic molecular imprinted materials: their preparation and application

Molecular imprinting is a technique for preparing polymeric materials that are capable of recognizing and binding the desired molecular target with a high affinity and selectivity. The materials can be applied to a wide range of target molecules, even those for which no natural binder exists or whose antibodies are difficult to raise. The imprinting of small organic molecules (e.g., pharmaceuticals, pesticides, amino acids, steroids, and sugars) is now almost routine. In this review, we pay special attention to the synthesis and application of molecular imprinted polymer (MIPs) imprinted with small organic molecules, including herbicides, pesticides, and drugs. The advantages, applications, and recent developments in small organic molecular imprinted technology are highlighted.