十二烷基苯磺酸钠和无机阳离子之间相互作用的密度泛函理论研究

研究阴离子表面活性剂和阳离子之间的相互作用对于理解阴离子表面活性剂的沉淀和溶解现象具有十分重要的理论和实际意义,但关于两者相互作用的相关理论模型鲜有报道。本文采用密度泛函理论(DFT)方法研究了十二烷基苯磺酸根阴离子(DBS^-)与阳离子(Na⁺, Mg²⁺和Ca²⁺)在溶液内及气/液界面处的相互作用。在溶液内,在两种不同溶液环境中(水相和正十二烷)构建DBS^-/阳离子相互作用模型,并对其进行优化。结果表明, DBS^-能够与阳离子以双齿结构稳定结合。DBS^-与阳离子的结合能不仅取决于参与的无机盐离子种类,还与溶剂的性质有关。在气/液界面处, DBS^-与六个水分子相互作用形成的水合物DBS^-·6H₂O最为稳定。但是,无机盐离子的引入会严重破坏DBS^-·6H₂O水合物的水化层结构。本文定义无量纲参量def用来对水化层结构的变化程度进行评价。无机盐离子对DBS^-·6H₂O水化层结构破坏程度的顺序为:Ca²⁺ > Mg²⁺ >Na⁺。电荷分析结果表明水化层在十二烷基苯磺酸钠(SDBS)头基与阳离子的相互作用中起了重要作用。     

羟乙基纤维素中毛细管电泳DNA分离特性研究

本实验以羟乙基纤维素(HEC)为筛分介质,以100～1500 bp DNA ladder为分离对象,系统地研究了直流电场下毛细管电泳时DNA分离特性.论文考察了DNA迁移淌度及分离度随HEC溶液浓度和分子量、毛细管两端电场强度(E)、毛细管有效长度(le)及其内径形状、背景电解液(BGE)温度等因素变化规律.研究发现:(1)当筛分介质HEC浓度高于其阈值浓度c*时,HEC分子量越大,相邻DNA片段之间淌度差越大,HEC浓度越高,其迁移淌度越低;(2)对于相邻的DNA片段,le在一定范围内,其分离度随le增大而线性升高;(3)毛细管有效长度一定时,DNA淌度随毛细管侧面积与截面积之比R增大而升高,分离效率提高;(4)BGE温度升高,DNA在筛分介质中扩散效应增强,迁移淌度变大,相邻DNA片段间分离度减小.根据以上结论,在直流电场下毛细管电泳φ×174-Hirc II限制性酶切片段,并实现了其高分离度、快速分离.     

表面活性剂对纤维素接枝共聚物溶液粘度性质的影响

研究了阴离子十二烷基硫酸钠(SDS)、阳离子十六烷基三甲基溴化铵(CTAB)和非离子聚乙二醇辛基苯基醚(OP)等三种不同类型的表面活性剂对疏水化水溶性两性纤维素接枝共聚物(CGAO)溶液粘度性质的影响.结果表明,在SDS和OP的临界胶束浓度(cmc)附近，CGAO溶液粘度最大，SDS引起CGAO粘度的变化大于OP；即使在CTAB的cmc附近，随着CTAB浓度的增加，CGAO的粘度一直呈下降趋势；非疏水改性的纤维素接枝共聚物的溶液粘度随SDS或CTAB浓度的增加而下降，但几乎不随OP浓度的增大而变化.此外，通过凝胶渗透色谱法测得的保留时间证实了SDS、CTAB和OP与CGAO之间的疏水缔合作用.     

毛细管电泳中葡萄糖-羟丙基甲基纤维素体系分离脱氧核糖核酸

葡萄糖作为羟丙基甲基纤维素（Hydroxpropylmethyl cellulose,HPMC)筛分体系的添加剂,可以改善该体系在低浓度时分离脱氧核糖核酸（DNA）的能力。研究了硼酸浓度和pH值对葡萄糖－羟丙基甲基纤维素体系分离性能的影响;并将葡萄糖与其它添加剂如甘油、甘露醇对分离的影响作了比较,葡萄糖特有的环状结构使得其对羟丙基甲基纤维素体系分离能力的提高更为显著。     

基于纤维素衍生物的毛细管无胶筛分电泳及其应用

毛细管无胶筛分电泳近年来取得了很大进展。本文综述了以纤维素衍生物作为筛分介质的毛细管无胶筛分电泳的研究进展,包括筛分理论,筛分体系模式,以及它在DNA、蛋白质分离方面的应用。     

β-环糊精存在下阳离子表面活性剂的毛细管电泳电导法测定

基于H3 BO3 与 β CD配合成大阴离子 ,与不同的阳离子表面活性剂作用不同 ,建立了快速分离检测阳离子表面活性剂的毛细管电泳电导法。研究了H3 BO3 与 β CD的浓度 ,缓冲液的酸度和浓度对分离的影响。在优化的实验条件下 ,溴化四丁基铵 (TBAB)、溴化十二烷基三甲基铵 (DTAB)、溴化十六烷基三甲基铵(CTMAB)阳离子表面活性剂 10min内完全分离 ,峰形良好。线性范围分别为TBAB 10 -3 ～ 10 -5mol/L ,DTAB1.0× 10 -3 ～ 5 .0× 10 -6mol/L ,CTMAB 1.0× 10 -3 ～ 5 .0× 10 -6mol/L。检测限分别为TBAB 7.5× 10 -6mol/L ,DTAB 1.7× 10 -6mol/L ,CTMAB 1.0× 10 -6mol/L。方法用于合成水样分析 ,结果令人满意     

毛细管电泳-安培检测法测定3种拟肾上腺素药物

建立了毛细管电泳-安培检测法测定盐酸去氧肾上腺素(phenylephrine hydrochloride, PHE)、重酒石酸间羟胺(metaraminol bitartrate, MR)和盐酸异丙肾上腺素(isoprenaline hydrochloride, IP)3种拟肾上腺素药物的方法。检测电位为0.950 V(Ag/AgCl为参比电极),硼酸盐浓度为50 mmol/L(pH 10.00),分离电压为18 kV,进样时间为10 s。在最佳实验条件下,3种物质在18 min内达到基线分离,在2～100 μmol/L浓度范围内峰面积与浓度呈良好的线性关系,线性相关系数不小于0.9991。盐酸去氧肾上腺素、重酒石酸间羟胺和盐酸异丙肾上腺素的检出限分别为0.8、0.8和1.0 μmol/L。将所建立的方法应用于针剂样品的分析,结果令人满意。     

疏水化水溶性两性纤维素接枝共聚物与粘土的相互作用

运用紫外光谱法研究了疏水化水溶性两性纤维素接枝共聚物(羧甲基纤维素接枝丙烯酰胺及N,N 二甲基辛基(2 甲基丙烯酰氧乙基)溴化铵的共聚物, CGAO)在粘土上的吸附,考察了聚合物浓度、无机盐浓度、温度、 pH、 表面活性剂和粘土浓度等因素对CGAO在粘土上吸附量的影响,以及通过X射线衍射分析了CGAO在粘土上的吸附位置.结果表明， CGAO在粘土上的吸附规律与一般聚合物有很大差别,而且CGAO未深入到粘土晶层间,只在其表面吸附. 粘土与CGAO作用前后的粒度分析表明CGAO对粘土粒子有很好的桥接聚集作用. 扫描电镜分析显示粘土与CGAO作用后,其颗粒形态发生了显著变化.     

毛细管区带电泳法间接测定红细胞中的主要无机阳离子

建立了间接测定红细胞中主要无机阳离子的毛细管区带电泳方法, 考察了背景溶液pH、咪唑和酒石酸浓度等对无机离子分离效果及峰面积的影响. 以10 mmol/L咪唑-4 mmol/L酒石酸(pH 5.5)为背景, 在15 kV、214 nm的条件下, 对红细胞中K 、Mg2 、Ca2 和Zn2 进行了定性、定量分析, 回收率在96%～104%之间, 迁移时间和峰面积的相对标准偏差分别低于0.76%和2.8%(日内), 0.85%和3.7%(日间). 所建方法有望成为一种测定细胞内离子含量的辅助方法.     

几种无机阳离子的毛细管电泳-电容耦合非接触电导分离检测

研制出电容耦合非接触电导检测器,检测器使用两个5 mm长的管状电极套在分离毛细管的外面,电极相距2 mm并与函数信号发生器连接。对影响检测器检测限和线性范围的激发频率、峰峰电压(V p-p )等因素进行了考察,结果发现频率为25～35 kHz、V p-p 在30 V时检测器有最佳的信号噪声比;以2-N-吗啡啉乙磺酸(MES)-组氨酸(His)为缓冲体系,用自制的检测器对Li+,Na+,K+,Mg 2+ ,Ca 2+ 和Ba 2+ 等几种常见的无机离子进行了毛细管电泳分离检测,优化了缓冲溶液     

Synthesis of Cationic Biphen[4, 5]arenes as Biofilm Disruptors

Since bacteria in biofilms are inherently resistant to antibiotics and biofilm-associated infections pose a serious threat to global public health, new therapeutic agents and schemes are urgently needed to meet clinical requirements. Here two quaternary ammonium-functionalized biphen[n]arenes (WBPn, n=4, 5) were designed and synthesized with excellent anti-biofilm potency. Not only could they inhibit the assembly of biofilms, but also eradicate intractable mature biofilms formed by Gram-positive S. aureus and Gram-negative E. coli bacterial strains. Moreover, they could strongly complex a conventional antibiotic, cefazolin sodium (CFZ) with complex stability constants of (7.41±0.29)×10⁴ M⁻¹ for CFZ/WBP4 and (4.98±0.49)×10³ M⁻¹ for CFZ/WBP5. Combination of CFZ by WBP4 and WBP5 synergistically enhanced biofilm eradication performance in vitro and statistically improved healing efficacy on E. coli-infected mice models, providing a novel supramolecular strategy for combating biofilm-associated infections.     

CMC-g-DNA接枝共聚物的合成与表征

在磷酸盐缓冲溶液中用1-(3-二甲氨基丙基)-3-乙基碳二亚胺(EDC)与N-羟基琥珀酰亚胺(NHS)活化羧甲基纤维素钠(CMC)侧链上的羧基; 在室温下再将活化的CMC与5'端经氨基修饰的单链脱氧核糖核酸(DNA)齐聚物(ODNs)反应, 获得CMC上接枝ODNs的共聚物(CMC-g-ODNs), 以Lambda DNA为模板, 通过聚合酶链式反应(PCR), 将接枝的ODNs扩增为长度为1300个碱基对的双链DNA, 从而制得CMC侧链上接枝DNA的共聚物CMC-g-DNA. 采用傅里叶红外光谱仪测定CMC与NHS形成的中间体; 用水平式琼脂糖凝胶电泳和垂直板变性聚丙烯酰胺凝胶电泳对CMC-g-DNA接枝共聚物进行表征. 结果表明, 合成了CMC-g-DNA接枝共聚物, 且在酸性条件下CMC的活化效果更好; 同时, 接枝在CMC上的DNA在琼脂糖凝胶电泳中迁移速率加快, 而在聚丙烯酰胺凝胶电泳中迁移速率减慢.     

二元和三元复合物中阳离子硫键与磷键的理论研究

采用MP2/cc-pVDZ和cc-pVTZ基组分别对复合物XH₂S⁺…NCH₂P和NCH₂P…PyX(X=NH₂, CH₃, H, CN, F, Cl, Br)中的硫键和磷键进行了研究, 讨论了键长、 键临界点的电荷密度(ρ)、 拉普拉斯密度(▽²ρ)、 范德华表面穿透距离、 二阶稳定化能和电荷转移量对硫键和磷键相互作用能的影响. 结果表明, 当取代基X为吸电子基团时, 形成的硫键较强. 当X为给电子基团时, 形成的磷键较强. 利用能量分解方法分析了取代基—CN导致硫键稳定性反常的可能原因. 还进一步讨论了三元复合物H₃S⁺…NCH₂P…PyX(X=NH₂, CH₃, H, CN, F, Cl, Br)中硫键和磷键的协同相互作用以及取代基对复合物稳定性的影响. 并通过对比相同的2种单体在三元复合物和二元复合物中的二阶稳定化能和相互作用能的差值, 说明了硫键与磷键起到相互促进的正协同作用, 增强了三元复合物的稳定性.     

Determination of chelating agents in Hanford tank waste simulant by capillary zone electrophoresis

A capillary electrophoretic method has been developed which achieves rapid quantitative separation and determination of ethylenediaminetetraacetic acid, N-(2-hydroxyethyl)ethylenediaminetriacetic acid, diethylenetriaminepentaacetic acid, ethylenediaminediacetic acid, and nitrilotriacetic acid in Hanford tank waste simulant (TWS). Direct UV detection of Cu²⁺/chelator complexes is used to achieve enhanced sensitivity. The qualitative and quantitative reliability of the method and the quality of separations, as given by efficiency and resolution, is presented. In addition, the limits of detection and linearity of detector response with concentration are given for each chelator. The selection of Cu as the UV-absorbing species over other transition metals present in the waste is discussed.     

Isolation of cycloamylose by iodine affinity capillary electrophoresis

In contrast to α-, β- and γ-cyclodextrins, little information is available on the isolation and separation of cycloamylose (CA) with degree of polymerization (DP) larger than 22. The objective of the current study was to develop a new iodine affinity capillary electrophoresis (CE) for separation of CA with DP of 22-42, which was based on the formation of CA-iodine inclusion complexes, CA with twisted conformations made complicated mobility behaviors on CE instead of merely size dependent. The influences of iodide/iodine ratio, iodine concentration, pH, ion strength of running phosphate buffer, voltage, and temperature on the peak resolution and electrophoretic mobility were further investigated. Our results suggest that iodine affinity capillary electrophoresis provides a versatile and selective tool for the isolation and analysis of CA with DP from 22 to 42.     

Capillary electrophoresis method to determine siRNA complexation with cationic liposomes

Small interfering RNA (siRNA) inducing gene silencing has great potential to treat many human diseases. To ensure effective siRNA delivery, it must be complexed with an appropriate vector, generally nanoparticles. The nanoparticulate complex requires an optimal physiochemical characterization and the complexation efficiency has to be precisely determined. The methods usually used to measure complexation in gel electrophoresis and RiboGreen^® fluorescence‐based assay. However, those approaches are not automated and present some drawbacks such as the low throughput and the use of carcinogenic reagents. The aim of this study is to develop a new simple and fast method to accurately quantify the complexation efficiency. In this study, capillary electrophoresis (CE) was used to determine the siRNA complexation with cationic liposomes. The short‐end injection mode applied enabled siRNA detection in less than 5 min. Moreover, the CE technique offers many advantages compared with the other classical methods. It is automated, does not require sample preparation and expensive reagents. Moreover, no mutagenic risk is associated with the CE approach since no carcinogenic product is used. Finally, this methodology can also be extended for the characterization of other types of nanoparticles encapsulating siRNA, such as cationic polymeric nanoparticles.     

Novel cationic coating agent for protein separation by capillary electrophoresis†

A novel positively charged surfactant N‐dodecyl‐N,N‐dimethyl‐(1,2‐propandiol) ammonium chloride was used for the dynamic coating of the inner wall of a silica capillary. This paper covers the evaluation of dynamic coating and study of the influence of the analysis conditions for the magnitude and direction of electroosmotic flow as well as for the effective and selective separation of chosen proteins (ribonuclease A, cytochrome c, lysozyme, and myoglobin). The concentration of 0.1 mM of N‐dodecyl‐N,N‐dimethyl‐(1,2‐propandiol) ammonium chloride enabled the reversal of the electro‐osmotic flow, however, to separate basic as well as neutral proteins the higher concentration of the studied surfactant was necessary. The final conditions for the separation of studied proteins were set at 100 mM sodium acetate pH 5.5 with 10.0 mM of the studied surfactant. The results were also compared with those of two commercially available cationic surfactants, cetyltrimethylammonium bromide and dodecyltrimethylammonium bromide. Additionally, the developed method for protein separation was applied for the determination of lysozyme in a cheese sample. The limits of detection and quantification of lysozyme were 0.9 and 3.0 mg/L, respectively. The mean concentration of lysozyme found in the cheese sample was 167.3 ± 10.3 mg/kg.     

Separation of superparamagnetic magnetite nanoparticles by capillary zone electrophoresis using non‐complexing and complexing electrolyte anions and tetramethylammonium as dispersing additive

Separations of bare superparamagnetic magnetite nanoparticles (BSPMNPs, approx. 11 nm diameter) was performed using non‐complexing (nitrate) and complexing (chloride, citrate and phosphate) electrolyte ions with additions of tetramethylammonium hydroxide (TMAOH), which is commonly applied to control the synthesis of stable iron oxides. The use of TMAOH as a background electrolyte (BGE) additive for capillary electrophoresis (CE) separations provided for the first time electropherograms of BSPMNPs exhibiting symmetrical and highly reproducible peaks, free of spurious spikes characteristic of nanoparticle clusters. Consequently, accurate determination of the electrophoretic effective mobility of BSPMNPs was possible, yielding a value of −3.345E‐08 m² V⁻¹ s⁻¹ (relative standard deviation (RSD) of 0.500%). The obtained mobilities of BSPMNPs in the presence of various electrolyte ions show that the degree of complexation with the surface of BSPMNPs follows the order chloride < citrate < phosphate, correlating with the stabilities of Fe(III) complexes with the respective anions. Finally, bare and carboxylated iron oxide nanoparticles were successfully separated in only 10 min using 10 mM Tris‐nitrate containing 20 mM of TMAOH as electrolyte. Our findings show that simple and rapid CE experiments are an excellent tool to characterise and monitor properties and interactions of iron oxide nanoparticles with other molecules for surface modification purposes.     

Quantitative determination of glucoraphanin in Brassica vegetables by micellar electrokinetic capillary chromatography

Glucoraphanin, a glucosinolate, is found naturally in plants and is present in relatively high concentrations in broccoli. Glucosinolates have received much attention as studies have indicated that a diet rich in them may provide some protection from certain cancers. A micellar electrokinetic chromatography (MEKC) method using sodium cholate as the micellar phase has been developed to quantify for glucoraphanin in broccoli (seeds and florets) and Brussels sprouts. The glucoraphanin peak elutes just under 5 min with a theoretical plate number of 380,000 per metre of capillary. The method is suitable for crude extracts of broccoli and Brussels sprouts. Glucoraphanin in broccoli seeds (1330 mg/100 g) broccoli florets (89 mg/100 g) and Brussels sprouts (3 mg/100 g) was determined and agreed with the data obtained by high performance liquid chromatography. The LODs were 10-100 times below the levels typically found in broccoli seeds (4 mg/100 g), broccoli florets (0.9 mg/100 g) and Brussels sprouts (0.1 mg/100 g).     

Inter-company cross validation exercise on capillary electrophoresis. Quantitative determination of drug counter-ion level

Summary A capillary electrophoresis (CE) method for the quantitative determination of sodium levels in the sodium salt of an acidic drug has been transferred across 6 independent pharmaceutical companies. All companies were able to demonstrate similar selectivity and acceptable precision for migration times and relative migration times. Five companies obtained acceptable precision for the repeatability of response factors from repeated injections of calibration solutions. Highly variable results from the sixth company indicated problems arising from contamination from residual sodium, possibly from unclean glassware or autosampler vials.The quantitative assay results from all companies confirmed the correct drug: counter-ion ratio. The average % w/w sodium content was 5.45% which represents 99.0% of the theoretical sodium content of sodium cephalothin