金纳米粒子修饰的手性毛细管电色谱固定相的制备及性能表征

制备了粒径为15 nm的金纳米粒子(GNPs)并将其修饰到氨基衍生化的硅胶整体柱内,通过化学键合法将牛血清白蛋白(BSA)固载到GNPs的表面作为手性固定相。通过透射电子显微镜、扫描电子显微镜等方法进行表征,结果表明,GNPs分散性良好,并被成功地修饰到毛细管柱内,含量高达17.18%。优化了BSA手性柱的制备条件,最终确定了体积分数为10%的3-氨丙基三乙氧基硅烷(APTES)和15 g/L BSA为最佳反应条件。在毛细管电色谱分离模式下,对缓冲液pH值、电压等分离条件进行了考察,最终选择了10 mmol/L pH 7.4的磷酸缓冲液和15 kV运行电压作为最佳分离条件。手性柱对3种手性化合物(色氨酸、阿替洛尔和麻黄碱)有拆分效果,对色氨酸能实现基线分离。与物理吸附法相比,化学键合法制备的手性柱拆分效果好,分析物无需柱前衍生化,且色谱柱稳定性良好。该文的制备方法也为其他类型手性选择剂的引入提供了良好的思路。     

手性离子液体配体交换色谱拆分扁桃酸对映体的研究

本文基于配体交换的机理,研究了以脯氨酸手性离子液体作为手性配体拆分扁桃酸(MA)对映体的方法及热力学过程。详细考察了手性离子液体的烷基链长、铜离子的浓度、离子液体的浓度和pH等因素对MA对映体分离的影响。研究发现,不同烷基链长的手性离子液体中,以1-丁基-3-甲基咪唑L-脯氨酸为配体时,MA对映体的拆分效果最好;随着铜离子浓度的增加,MA对映体的保留时间和分离度先增大再减小;而随着1-丁基-3-甲基咪唑L-脯氨酸离子液体的浓度和流动相pH的增大,保留时间和分离度均增大。本文还测定了拆分过程中的一些热力学参数,结果表明,MA对映体的拆分过程是一个焓控的过程,L-MA较D-MA与固定相有更强的相互作用,保留时间更长。     

β-环糊精键合手性固定相分离苯并恶嗪类对映体

研究了在反相高效液相色谱模式下,基于点击化学的β-环糊精手性固定相对苯并恶嗪类对映体的手性分离情况。考察了流动相中有机改性剂的类型和比例、缓冲盐的浓度和pH值对分离的影响。考察结果表明: 乙腈作为有机改性剂比甲醇更有利于苯并恶嗪对映体的分离;乙酸三乙胺缓冲盐体积分数从0.1%增大到1.0%时,苯并恶嗪对映体的保留时间和分离度都随之减小,在pH 4.1时苯并恶嗪对映体具有最大分离度。因此确定乙腈和体积分数为0.1%的乙酸三乙胺缓冲盐流动相(pH 4.1)为最佳分离条件。分离机理研究结果表明,固定相和样品之间的包容络合相互作用以及样品和固定相之间的氢键作用,是样品得以分离的基础。本研究为进一步深入研究β-环糊精固定相提供了实验基础,同时也证明了点击化学在手性环糊精固定相制备中具有极大潜力。     

高效毛细管电泳法分离4-羟基-苯异丙胺对映体

在内径100μm的毛细管内,以甲基丙烯酸甘油酯(GMA)和双(六-O-丁烯二酸单酯)-β-环糊精为单体原位聚合制得了手性毛细管电色谱整体柱,采用高效毛细管电泳法拆分了4-羟基-苯异丙胺对映体。考察了背景电解质的pH值、运行电压、柱温、流动相的配比等因素对分离度的影响。在背景电解质pH为4.2、运行电压20 kV、柱温18℃、乙腈-9 mmol.L-1磷酸盐缓冲溶液(60+40)为流动相、在4 min内成功地分离了4-羟基-苯异丙胺对映体,其分离度达到1.56。     

高效毛细管电泳法分离1-甲基-3-苯基丙胺对映体

提出了高效毛细管电泳拆分手性药物中间体1-甲基-3-苯基丙胺的方法。研究了缓冲溶液pH值、手性选择剂质量浓度、柱温、电压等因素对分离度的影响。在缓冲溶液浓度15mmol.L-1(NaH2PO4-Na2HPO4,pH7.6)、运行电压15kV、手性选择剂浓度为20g.L-1、毛细管温度18℃条件下,在4min内成功地分离了1-甲基-3-苯基丙胺对映体,其分离度为1.65。     

配体交换毛细管区带电泳拆分未衍生化氨基酸

以铜(Ⅱ)-L-谷氨酸络合物为手性分离选择剂,对苯丙氨酸、酪氨酸和色氨酸3种非衍生芳香族氨基酸的手性对映体拆分进行了研究,建立了一种快速、简便拆分未衍生化的氨基酸对映体的配体交换毛细管电泳方法.在使用10 mmol/L NH4AC(pH 5.0),5 mmol/L CuSO4和10 mmol/L L-谷氨酸的条件下,成功地拆分了苯丙氨酸、酪氨酸手性对映体;色氨酸手性对映体也得到部分分离;考察了电泳缓冲液组成、pH值等影响分离效果的因素.     

疏水性L-酒石酸异丁酯立体选择性萃取拆分氰戊菊酸对映体

合成了萃取拆分氰戊菊酸(FA)对映体的手性选择体L-酒石酸异丁酯.研究了氰戊菊酸对映体在含有手性选择体L-酒石酸异丁酯的水-有机相双相体系中的萃取分配行为.考察了有机稀释剂类型、L-酒石酸异丁酯浓度、pH值和磷酸盐浓度诸因素对分配系数(K)和分离因子(α)的影响.研究结果表明:L-酒石酸异丁酯与S对映体形成的复合物稳定性比与R对映体形成的复合物要好;1,2-二氯乙烷作为有机稀释剂更有利于萃取分离;随着L-酒石酸异丁酯浓度的增大,K逐渐增大,α先增大后减小,当L-酒石酸异丁酯浓度为0.30 mol\5L-1时,α达最大;pH值增大,K和α都降低;磷酸盐浓度对分配系数和分离因子也有较大影响.     

微波辅助合成法制备万古霉素开管毛细管电色谱柱

采用微波辅助合成技术,快速制备了万古霉素开管毛细管电色谱柱.以D,L-色氨酸为目标物质,优化了万古霉素键合时的微波条件.结果表明:在微波时间45 min,微波功率300 w,微波温度60℃的条件下制得的电色谱柱分离效果最佳.利用在最佳条件下制备的电色谱柱成功分离了4种手性对映体.在pH 4.0～7.0的范围内考察了空管...     

牛血清白蛋白修饰的有机-硅胶杂化整体柱的制备及电色谱研究

以四甲氧基硅烷(Tetramethoxysilane,TMOS)和γ-缩水甘油醚氧基丙基三甲氧基硅烷(γ-Glycidyloxypropyltrimethoxysilane,GPTMS)为反应单体,采用"一步法"制备了有机-硅胶杂化整体柱,通过优化TMOS/GPTMS的含量制备了渗透性和机械强度良好的杂化整体柱,扫描电镜结果显示,毛细管柱内形成了连续的整体结构。采用席夫式碱法将牛血清白蛋白(Bovine serum albumin,BSA)共价键合于柱内,并对制备条件进行了优化,确定8 g/L BSA为最佳反应条件。在毛细管电色谱分离模式下,考察了缓冲液pH值、运行电压、柱温和进样条件对分离的影响,最终选择25 mmol/L Tris缓冲液(pH 7.4)、运行电压10 kV、柱温15℃和进样条件2 kV×3 s为最佳分离条件。此手性柱对色氨酸对映体实现了基线分离,日内、日间及柱间精密度良好。与BSA修饰的硅胶整体柱相比,本研究制备的固载BSA的杂化整体柱具有更优的手性识别能力,并且简化了制备流程,缩短了制备周期。     

以L-Cys-GNPs为手性选择剂对异丙肾上腺素的毛细管电泳分析

本文采用柠檬酸钠还原法合成了纳米金,并以L-半胱氨酸对其进行表面修饰,得到络合物L-Cys-GNPs。然后以该络合物为手性选择剂,采用毛细管区带电泳法对盐酸异丙肾上腺素进行手性拆分。对络合物浓度、缓冲液的浓度、pH值、运行电压等方面进行考察和优化。结果表明,当L-半胱氨酸的络合浓度为2.61×10~(-3)mmol·L~(-1)时,以15mmol·L~(-1)磷酸盐缓冲液(pH=7.0)为运行缓冲液、运行电压20kV、分离柱温25℃、进样量0.5Psi×5s以及214nm的检测波长下,盐酸异丙肾上腺素达到了基线分离,在7min内分离度达到10.49。     

Separation of stereoisomers of several furan derivatives by capillary gas chromatography-mass spectrometry,supercritical fluid chromatography,and liquid chromatography using chiral stationary phases

The direct separation of several stereoisomers (enantiomers and geometrical isomers) of furan derivatives, important intermediates for the synthesis of physiologically active natural products, was achieved using capillary gas chromatography/mass spectrometry with a per-O-methyl-beta-cyclodextrin, supercritical fluid chromatography and high-performance liquid chromatography with a tris(3,5-dimethylphenylcarbamate) of cellulose or amylose for the chiral stational phases, respectively. The temperature dependence of the peak resolution (Rs) and the retention factor (k) over the range of 110-130 degrees was studied using crotyl furfuryl ether in gas chromatography. Successive increases in the Rs value and of the difference between the k value of the E-isomer and the k value of the Z-isomer were observed when the gradient temperature was decreased. The per-O-methyl-beta-cyclodextrin column was suitable for use with volatile furan ethers whose molecular masses are between 150 and 180. In conclusion, the separation of thermally unstable furan derivatives was accomplished using supercritical fluid chromatography and high-performance liquid chromatography.     

Use of immobilized amyloglucosidase as chiral selector in chromatography. Control of enantioselective retention and resolution in liquid chromatography

Summary Several mobile phase parameters were investigated for controlling enantioselective retention and resolution on a chiral stationary phase made in-house. The chiral selector was the enzyme amyloglucosidase, which was immobilized onto a silica support via reductive amination. The influences of the mobile phase pH, concentration and type of uncharged organic modifier, ionic strength and column temperature on enantios-electivity were studied. The analysis time for resolving enantiomers could be adjusted with only a minor decrease in enantioselectivity by using a high ionic strength mobile phase buffer. This indicated a retention mechanism involving ion-exchange interactions. It was further confirmed by the decreasing enantioselectivity of amines when using a mobile phase pH below the isoelectric point of the native protein. Interesting effects were observed when the organic modifier concentration was increased and also when the column temperature was raised. Both retention and enantioselectivity increased with increasing concentration of 2-propanol in the mobile phase. Examples are given where both enantioselectivity and retention increased with increasing column temperature. Thermodynamic studies were performed to calculate the entropy and enthalpy constants. The results showed that, depending on mobile phase composition, the enantioselective retention may be caused by differences in entropy or enthalpy.     

Calculation of chromatographic band profiles with an implicit isotherm

The mechanisms of structure selective and enantioselective retentions of amines and acids on two chiral stationary phases based on wild type cellobiohydrolase I (CBH I) and its mutant D214N have been investigated. All the amino alcohols tested had an enantioselective site that overlaps with the catalytically active site of CBH I, whereas the enantioselectivity of prilocaine was not affected by the mutation. The hydroxyl group of the amino alcohols did not seem to be an important contributor to the total binding strength whereas a bromo substituent in the aromatic ring promotes a high enantioselectivity (alpha=7.05). Interestingly, the chiral recognition site of the acid warfarin overlaps with the binding site of the amino alcohols. Di-p-toluoyltartaric acid and dibenzoyltartaric acid were strongly retained probably due to electrostatic attraction, but no enantioselectivity was observed. The difference in retention characteristics for the amino alcohols on the two stationary phases was strongly pH-dependent. A change in elution order of different amino alcohols occurred when changing the pH from 5.0 to 7.0. The difference between the two phases was lower at low pH. The retention times could also be affected by ionic strength and by use of cellobiose as a mobile phase additive but no indication of ion-pair retention of the amines was observed, when adding hexanesulphonate as counter ion to the mobile phase. The temperature dependence of the retention of the enantiomers of propranolol at pH 7.0 on the mutant D214N was similar to what was earlier observed on the wild type CBH I at lower pH.     

Factors affecting the stability of O/W emulsion in BSA solution: stabilization by electrically neutral protein at high ionic strength

Bovine serum albumin (BSA) was used as an emulsifier to disperse corn oil in aqueous media with various protein concentration, pH, and ionic strength. Quantitative estimation was made on the homogenizing activity of BSA and dispersion stability of oil particles by measuring particle size, turbidity, and creaming rate. Dispersion stability strongly depended on pH and became a minimum around pH 5.0 which was the isoelectric point of BSA. The interfacial tension between BSA solution and corn oil was minimized at pH 5.0. Interesting results were obtained concerning the ionic-strength dependence of stability. When the ionic strength was set below 30 mM, the emulsions became more stable with the increase of BSA concentration at pH 6.7 but the opposite behavior (enhanced destabilization) was confirmed at pH 5.0 with the BSA content. In high ionic strength conditions (ca. > or = 80 mM NaCl), however, BSA-stabilized emulsions became fairly stable even at pH 5.0. These results suggested that BSA molecules having no net charge induced some attractive interactions (e.g., bridging or depletion) in low ionic strength but steric stabilization in high ionic strength, respectively.     

用强阴离子交换毛细管电色谱分离阴离子化合物

对阴离子性化合物在强阴离子交换毛细管电色谱中的保留行为进行了研究。发现样品中固定相上的吸附使样品的保留因子k^*变小,柱小的分离能力减小;而电压的增大,使酸性样品的k^*也增大,并且电压的改变也能改变分离的选择性;样品保留因子的对数值随着缓冲液离子强度的对数值的增大而线性减小;样品也强阴子交换毛细管电谱和毛细管区带电泳中有不同的保留行为。     

Nanocomposites based on cationic polyelectrolytes and silver nanoparticles: Synthesis,characterization, molybdate retention and antimicrobial activity

The objective of this work was to synthesize nanocomposites based on cationic polyelectrolytes and silver nanoparticles using poly(N-vinylbenzyl-N-triethylammonium chloride) as polymer phase. For that, a nanostructured crosslinker was synthesized from silver nanoparticles (AgNPs) and acrylic acid. Molybdate retention properties of nanocomposites were studied in function of pH and ionic strength. In addition, their antimicrobial properties were evaluated against E. coli and S. aureus. It was evidenced that AgNPs can be stabilized using acrylic acid and that this material can be incorporated to the polymer phase during polymerization by free radical of cationic monomers. The effect of pH on retention of molybdate, by the nanostructured polymer, was significant only to low ionic strength (the order seen was pH 5.0 > pH 7.0 > pH 9.0 for 0.0% NaCl). Results suggest that the main interaction influencing the molybdate retention is electrostatic in nature. Finally, antimicrobial activity was enhanced by incorporation of polymerizable nanostructured crosslinker based on AgNPs.     

Chiral separation of nipecotic acid amides.

1-Decyl-3-(N,N-diethylcarbamoyl)piperidine (1) and alpha,alpha'-bis[3-(N-benzyl-N-methylcarbamoyl)piperidinol]-p-xyle ne (2) represent mono-N-substituted and bis-N-substituted carbamoylpiperidines, or nipecotic acid amides, respectively. Initially, several attempts were made to resolve these compounds using beta-cyclodextrin, cellulose carbamate and Pirkle-type columns. However, the interactions of the stereoisomers of the two compounds with these stationary phases did not differ enough to permit satisfactory separations. Baseline resolution was achieved using an alpha 1-acid glycoprotein (AGP) chiral column. The mobile phase was phosphate buffer (pH 7.0). Tetrabutylammonium (TBA) was used as the cationic modifier and ethanol as the uncharged modifier. Circular dichroism was used to identify the enantiomers. Compound 1 was resolved into positive and negative enantiomers and 2 into positive and negative enantiomers and a meso diastereomer. The influence of pH, buffer ionic strength, cationic and uncharged modifier concentrations on retention, chiral selectivity and resolution were evaluated. Based on the results, it is suggested that both ionic and hydrophobic interactions may be responsible for retention and resolution.     

新型Rh_2(esp)_2配体手性类似物的合成

以(R)-叔丁基亚磺酰胺为手性助剂,与1,3-苯二甲醛经缩合反应制得关键中间体——(Rs,Rs)-双叔丁基亚磺酰亚胺(7);锂化的羧酸酯与7经不对称加成反应合成了两个新型的Rh_2(esp)_2配体类似物——(Rs,Rs',R,R')-β-胺基羧酸酯和(Rs,Rs',R,R',R,R')-α,β-氮杂环丙烷羧酸酯,产率分别为96%和65%,非对映选择性均大于20∶1。化合物的结构经1H NMR和13C NMR表征。     

Retention behavior of proteins in size-exclusion electrochromatography with a low-voltage electric field perpendicular to the liquid phase streamline

A novel preparative size-exclusion electrochromatography with an oscillatory low-voltage electric field perpendicular to the liquid phase streamline (pSEEC) was proposed with a column design of rectangular cross-section. The column of 12 cm length was packed with Sephadex G-75, and the retention behavior of bovine serum albumin (BSA) and myoglobin (Myo) was extensively investigated under various conditions. The results indicated that the partition coefficient of a charged protein increased significantly on increasing the current strength as well as the difference between its pI and pH. The partition coefficient also increased on decreasing the mobile phase conductivity. For the gel-excluded protein like BSA, the concentration polarization (CP) on the gel surface induced by the protein electromigration was the main reason for the increased retention. For a gel-permeable protein like Myo, both the CP and electrophoretic migration in the solid phase contributed to its increased retention. Further results exhibited that the polarization would be offset by diffusion, because the accumulated protein would flux back to the bulk liquid phase. Therefore, when the electrically induced mass flux was equal to the diffusion flux, the partition coefficient did not change with a further increase of the oscillatory current cycle. Finally, pSEEC was compared with SEC in the separation of protein mixtures of BSA/Myo as well as BSA/Myo/lysozyme. The results showed much better resolutions of the protein mixtures in pSEEC with the column as short as 12 cm. The potential of pSEEC for preparative protein separation was therefore demonstrated.     

Brush-type chiral stationary phase for enantioseparation of acidic compounds. Optimization of chiral capillary electrochromatographic parameters

The capillary electrochromatographic separations of three acidic enantiomers (carprofen, coumachlor and warfarin) were studied on a capillary column packed with 5 microm (3R,4S)-Whelk-O 1 chiral stationary phase. The influence of several experimental parameters (mobile phase pH, type of background electrolyte, acetonitrile ratio, temperature, applied voltage and ionic strength) on electroosmotic flow velocity, retention factor, selectivity factor, efficiency, resolution and effectiveness of chiral separation was evaluated. It was notable that the optimum resolution of the acidic enantiomers was achieved at pH 3.0 phosphate buffer, suggesting that capillary electrochromatography in the ion-suppressed mode can be applied for chiral separations of a range of acidic compounds.