多肽在金纳米粒子表面偶联反应效率研究

通过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)活化反应将多肽偶联到金纳米粒子表面,采用荧光光谱研究其形成的酰胺键的反应偶联效率.考察了实验条件,包括缓冲液的种类(HEPES、Tris-HCl、硼酸、PBS缓冲液)、pH值(pH 6.5~9.0)、缓冲液浓度(10, 25, 40和50 mmol/L)、NHS和EDC的浓度(NHS 0.2~1.0 mol/L,EDC 0.01~0.5 mol/L)及二者比例(0,0.5,1.0,2.0和2.5)、偶联反应时间(4, 8, 12, 24和36 h)等对偶联效率的影响,筛选出最佳实验条件.实验结果表明, 25 mmol/L 4-羟乙基哌嗪乙磺酸(HEPES)缓冲液(pH 7.0), NHS/EDC浓度为0.4 mol/L/0.2 mol/L和24 h的反应时间为EDC-NHS活化反应将多肽偶联到金纳米粒子上的最佳实验条件.本研究结果可为相关研究提供技术参考.     

石墨烯-壳聚糖复合物修饰电极构建电化学免疫传感器对1-芘丁酸的检测研究

采用石墨烯(GS)和壳聚糖(CS)复合膜修饰玻碳电极(GS-CS/GCE),利用1-乙基-(3-二甲基氨基丙基)碳二亚胺盐酸盐(EDC)和N-羟基丁二酰亚胺(NHS)(4∶1)活化GS-CS/GCE,共价固定多环芳烃抗体(anti-PAHs),构建灵敏度高、稳定性好的非标记电流型免疫传感器,用于1-芘丁酸(PBA)的检测。运用扫描电子显微镜对GS-CS复合膜的形貌进行表征。在pH 7.0含10 mmol/L K3Fe(CN)6和0.1 mmol/L KCl的磷酸盐溶液中,通过循环伏安法和示差脉冲伏安法研究修饰电极表面的电化学性质,并考察了免疫传感器的电化学性能。研究表明,由于石墨烯和壳聚糖的协同作用,GS-CS修饰的玻碳电极在Fe(CN)64-/3-溶液中的峰电流明显增大,有利于提高免疫传感器的灵敏度。在优化实验条件下,电极表面的anti-PAHs抗体固定量显著提高,增强了电极的分子识别性能。由于anti-PAHs抗体-抗原结合物的导电性较差,免疫传感器的峰电流随着待测溶液中PBA浓度的增大而减小,PBA浓度在0.1～80μg/L范围内呈良好的线性关系,检出限为0.03μg/L。该免疫传感器重现性好、特异性强,用于实际样品的测定,回收率为90%～105%。     

化学修饰方法对聚乙二醇功能化碳纳米管的影响

通过酰氯化法与碳二亚胺缩合法(EDC/NHS)制备氨基化聚乙二醇(PEG1500N)修饰的多壁碳纳米管(MWNTs)并采用FTIR、Raman、TEM、原子力显微镜(AFM)、TGA-DTA-DSC、UV-Vis进行表征与分析。实验结果发现：两种方法PEG1500N都能很好地修饰MWNTs,但EDC/NHS缩合法采用更短的反应时间(反应1 d),达到了更好的接枝效果。EDC/NHS缩合法提高了碳管上羧基的利用率,接枝率大大提高。TGA-DTA分析表明缩合法接枝率为30%,而酰氯化法(反应4 d)为15%。UV-Vis分析表明EDC/NHS缩合法得到的产物溶解性也更好,溶解度由1.19 mg·mL^-1(酰氯化法得到的产物的溶解度)提高到2 mg·mL^-1以上。     

毛细管电泳激光诱导荧光法优化量子点-转铁蛋白偶联体系及用于细胞标记

利用毛细管电泳激光诱导荧光(CE-LIF)表征了偶联剂N-羟基硫代琥珀酰亚胺(NHS)及NHS和1-(3-二甲氨基丙基)-3-乙基碳二亚胺盐酸盐(EDC)混合偶联剂对CdTe量子点活化效果的差异,优化了CdTe与转铁蛋白(Trf)的偶联条件,比较了CdTe-Trf,CdTe-BSA偶联物及CdTe量子点对Hela细胞的标记效果。结果表明:NHS活化后的量子点性能优于混合偶联剂EDC-NHS。31.2μmol/L Trf与CdTe形成的偶联物CdTe-Trf对Hela细胞的标记效果最佳。CdTe-Trf在4℃孵育20 min可快速标记在Hela细胞的表面;在37℃孵育7 h后,可进入Hela细胞内。说明所制得的CdTe-Trf偶联物具有Trf的生物功能,它可通过特异性识别并结合细胞膜表面的Trf受体而转入Hela细胞。而CdTe-BSA偶联物的标记不具特异性,CdTe则不能用于Hela细胞的标记。     

基于新型量子点荧光微球的氯霉素免疫层析试纸条的制备和应用

以羧基化CdTe/ZnSe量子点荧光微球为标记物,通过1-乙基-(3-二甲基氨基丙基)碳二亚胺/N-羟基琥珀酰亚胺(EDC/NHS)活化法将氯霉素(CAP)单克隆抗体与量子点荧光微球偶联制备荧光探针.氯霉素全抗原(CAP-HS-BSA)及羊抗鼠二抗分别喷涂硝酸纤维素膜,形成检测线(T线)和质控线(C线),组装成新型氯霉素量子点荧光微球免疫层析试纸条,建立了快速、定量检测牛奶中CAP的方法.本研究开发的量子点荧光微球试纸条可在15 min内完成牛奶样品中CAP的定量检测,线性范围为0.1~100.0μg/L,检出限为0.1μg/L.牛奶样品CAP的加标回收率为93.3%~97.9%,相对标准偏差在4.9%~6.9%之间.     

新型石墨烯/金/功能导电高分子/过氧化氢生物传感器的制备及应用

石墨烯材料和酶的固定对石墨烯基生物传感器性能及应用至关重要.金电极依次放入氧化石墨(0.05 mg/mL)和氯金酸(0.05 mmol/L)溶液中进行控制电位电解,循环以上操作20次后,转移至2,5-二(2-噻吩)-1-对苯甲酸吡咯单体溶液采用循环伏安法进行电聚合形成含有羧基的导电高分子膜,然后以1-(3-二甲氨基丙基)-3-乙基碳二亚胺盐酸盐(EDC)/N-羟基琥珀酰亚胺(NHS)为活化剂将辣根过氧化物酶共价键合在修饰电极表面制备过氧化氢生物传感器.研究表明,交替电沉积得到的石墨烯/金纳米复合材料分散性好,所制备的生物传感器对过氧化氢的氧化还原过程有显著的催化作用.过氧化氢浓度在2～200 nmol/L之间传感器的电流响应与浓度呈线性关系,相关系数(R2)为0.9996,方法的检测限是0.67 nmol/L(S/N=3),灵敏度明显优于现有文献报道.此外,共价键合方式固定酶使传感器的稳定性和方法的重现性大大提高.5 nmol/L的过氧化氢溶液测定20次,相对标准偏差为1.2%.在4℃下储藏3个月传感器电化学响应变化值少于3%.该方法已成功应用于牛奶样品中痕量过氧化氢的测定.     

双官能Fe3O4/CdSe/CdS荧光磁性复合物的制备和表征

采用化学共沉淀法, 以FeCl₂•4H₂O和FeC1₃•6H₂O为原料制备磁性Fe₃O₄纳米颗粒(MNPs), 采用氨基酸对其进行修饰使其表面连上氨基. 用巯基乙酸作为稳定剂合成了水溶性的CdSe/CdS量子点, 并利用偶联剂1-乙基-3-(3-二氨丙基)碳二亚胺盐酸盐(EDC)和N-羟基琥珀酰亚胺(NHS)连接氨基修饰的Fe₃O₄和带有羧基的CdSe/CdS, 成功制备了Fe₃O₄/CdSe/CdS荧光磁性纳米颗粒. 该荧光磁性纳米复合物保留了CdSe/CdS量子点优异的荧光特性, 平均粒径在40 nm左右; 磁化曲线表明此纳米复合物具有超顺磁性. 这种双官能复合纳米颗粒有望成为新型荧光磁性双标记复合微粒而广泛应用于免疫检测、荧光追踪、磁性分离等领域.     

自组装膜上细胞色素c的电化学石英晶体微天平实时表征和定量检测

采用电化学石英晶体微天平(EQCM)实时表征和定量检测细胞色素c(Cytc).在压电石英晶振表面上自组装巯基十一酸(MUA)单层膜,以盐酸1-乙基-3-(3-二甲基氨基丙基)碳二亚胺(EDC)和N-羟基琥珀酰亚胺(NHS)活化羧基,将Cytc共价固化到电极表面.EQCM实时监测了MUA的自组装和Cytc的固化过程,测定了二者在电极表面的覆盖度和Cytc的固化量.结果表明,Cytc在0.03～3.00μmol/L浓度范围内呈线性变化,检测限可达到1.19×10^-9mol/L.     

量子点荧光微球免疫层析试纸条定量检测恶性疟原虫

以羧基化Cd Te/Zn Se量子点荧光微球为荧光标记物,采用1-乙基-(3-二甲基氨基丙基)碳酰二亚胺(EDC)法偶联抗恶性疟原虫富组氨酸蛋白(Pf)单克隆抗体制备荧光探针;以羊抗恶性疟原虫组氨酸多克隆抗体和驴抗鼠二抗分别喷涂硝酸纤维膜,形成试纸条检测线和质控线,建立了免疫层析试纸条定量检测血清中恶性疟原虫的方法。所使用的羧基化量子点荧光微球的荧光强度为单个量子点的2800倍。实验结果表明,该荧光试纸条定量检测血清中恶性疟原虫线性范围为5.8~8010 Parasite/μL,最低灵敏度达到5.8 Parasite/μL,单个样品检测时间只需15 min。加标回收实验显示,试纸条批内回收率为93.0%~111.8%,批间回收率为98.3%~115.1%,且批内、批间的相对标准偏差均小于5%。     

基于Ru@SiO_2的微囊藻毒素电化学发光免疫传感器研究

本研究在玻碳电极(GCE)表面电沉积金纳米粒子(Au NPs),通过化学吸附将微囊藻毒素-(亮氨酸-精氨酸)(MC-LR)的单克隆抗体(anti-MC-LR)固定在电沉积了Au NPs的玻碳电极表面,以牛血清白蛋白(BSA)封闭非特异性吸附位点,制得免疫电极anti-MC-LR/Au NPs/GCE。采用微乳化法制备了掺杂三(2,2'-联二吡啶)钌(Ⅱ)配合物离子(Ru(bpy)2+3)的二氧化硅纳米粒子(Ru@SiO2),利用透射电镜和扫描电镜对所制备的纳米粒子进行表征。3-氨基丙基三乙氧基硅烷(APTS)进一步与Ru@SiO2反应,制得氨基功能化的Ru@SiO2,通过1-(3-二甲氨基丙基)-3-乙基碳二亚胺(EDC)和N-羟基琥珀酰亚胺(NHS)活化辣根过氧化物酶标记的MC-LR(HRP-MC-LR),并使其与氨基功能化的Ru@SiO2偶联,制得MC-LR-Ru@SiO2。采用直接竞争模式,在标记物MC-LR-Ru@SiO2存在下,以三丙胺作为共反应物,利用电化学发光法(ECL)测定溶液中的微囊藻毒素,免疫反应完成后,电化学发光强度(I)随着MC-LR浓度的增大而减小,且在0.100~100μg/L范围内,电化学发光强度差值(ΔI)与游离的MC-LR浓度的对数呈良好线性关系,检出限为0.007μg/L。对实际水样进行了加标回收实验,回收率为95.5%~105%。     

ZnS:Mn/ZnS量子点在DNA定量分析中的应用

以巯基乙酸为稳定剂,采用成核掺杂的方法在水溶液中一步制备得到具有核壳结构的ZnS:Mn/ZnS量子点.研究了荧光、室温磷光产生的机理.基于DNA对量子点发光的增强效应,以ZnS:Mn/ZnS量子点作为标记探针建立了测定DNA的荧光、室温磷光的分析方法.考察了量子点浓度、EDC/NHS用量和反应时间等条件对DNA测定的影...     

Characterization of multi-cationic aminopyrene-based tag for oligosaccharide labeling by capillary electrophoresis with laser-induced fluorescence detection

In this work, we characterize a previously synthesized multi-cationic aminopyrene-based labeling tag for oligosaccharide analysis by capillary electrophoresis with laser-induced fluorescence detection (CE/LIF). The fluorescent tag, 4,4',4''-(8-aminopyrene-1,3,6-trisulfonyl)tris(1-methylpiperazine) (APTMP), was characterized by reaction with standard maltooligosaccharides and the labeling parameters such as fluorescent tag concentration, labeling temperature, and time as well as influence of a reducing agent and its solvent were investigated in terms of labeling efficiency. The nanomolar limit of detection of CE/LIF analysis of APTMP labeled maltopentaose was determined. However, significant amount of the oligosaccharides was reduced to alditols, which negatively affects the yield and rate of the labeling reaction. Under optimized conditions, a highly reproducible labeling by multi-cationic APTMP was obtained; however, the most commonly used labeling by multi-anionic 8-aminopyrene-1,3,6-trisulfonic acid trisodium salt (APTS) is superior compared to APTMP labeling. Lower reactivity of APTMP compared to APTS can be explained by the loss of nucleophilicity induced by substitution of the sulfonate groups with more electron-withdrawing aminosulfonyl ones. On contrary, APTMP is still a promising tag for oligosaccharide labeling followed by CE-MS in a positive ion mode, which is considered to be more sensitive than MS detection of APTS in a negative ion mode.     

Controlling coupling reaction of EDC and NHS for preparation of collagen gels using ethanol/water co-solvents

To control the crosslinking rate of the collagen gel, ethanol/water co-solvent was adopted for the reaction solvent for the collagen microfibril crosslinking. Collagen gel was prepared by using EDC and NHS as coupling agents. Ethanol did not denaturate the helical structure of the collagen and prevented the hydrolysis of EDC, but showed the protonation of carboxylate anions. In order to control the intra- and interhelical crosslink of the collagen triple helix, variations of the mole ratio of carboxyl group/EDC/NHS, and of the ethanol mole concentration were investigated. Increase in the EDC ratio against the carboxyl group increased the crosslinking rate. Furthermore, an increase in the ethanol mole concentration resulted in an increase of the crosslinking rate until ethanol mole concentration was 0.12, but showed gradual decrease as the ethanol mole concentration was further increased. This is because the adsorption of solvent by the collagen gel, protonation of carboxylate anion, and hydrolysis of EDC is at its most optimum condition for the coupling reaction when the ethanol mole concentration is 0.12. The re-crosslinking of the collagen gel showed an increase in the crosslinking rate, but did not show further increase when the coupling reaction was executed for the third time. This implied that the highest possible crosslinking rate for the intra- and interhelical is approximately 60% when EDC/NHS is used.     

Determination of strychnine and brucine in traditional Chinese medicine preparations by capillary zone electrophoresis with micelle to solvent stacking

A novel micelle to solvent stacking on-line sample preconcentration technique in capillary zone electrophoresis（MSS-CZE） has been developed to determine the strychnine and brucine in traditional Chinese medicine preparations.The optimal running buffer was 30 mmol/L H₃PO₄ containing 20%acetonitrile at pH 4.0.The sample matrix was 8 mmol/L H₃PO₄ containing 5 mmol/L sodium dodecyl sulfate（SDS） at pH 3.0.The established MSS-CZE method afforded more than 50-fold improvements in concentration sensitivity compared with typical CZE-UV analysis.The calibration curve was linear in the range from 0.2 to 15.0μg/ mL for both strychnine and brucine,with correlation coefficients of 0.9984 and 0.9976,respectively.The limits of detection（5/ N = 3:1） for strychnine and brucine were 0.02 and 0.05μg/mL,respectively.The MSS-CZE method has been successfully applied to the analysis of strychnine and brucine in Chinese medicinal preparations.     

Comparison of oligosaccharide labeling employing reductive amination and hydrazone formation chemistries

In this work, we compare labeling by two negatively charged fluorescent labels, 8-aminopyrene-1,3,6-trisulfonic acid (APTS) and 8-(2-hydrazino-2-oxoethoxy)pyrene-1,3,6-trisulfonic acid (Cascade Blue hydrazide [CBH]). Effectiveness of the labeling chemistries were investigated by 4-hydroxybenzaldehyde and maltoheptaose followed by LC/UV-MS and CE/LIF analysis, respectively. The reaction yield of APTS labeling was determined to be only ∼10%. This is due to reduction of almost 90% of the analyte by sodium cyanoborohydride to alcohol, which cannot be further labeled via reductive amination. However, the CBH labeling provides ∼90% reaction yield based on the LC/UV-MS measurements. The significantly higher labeling yield was also confirmed by CE/LIF measurements. Finally, the more effective hydrazone formation technique of CBH was characterized and applied for N-linked glycan analysis by CE/LIF.     

An electrochemical immunosensor based on covalent immobilization of okadaic acid onto screen printed carbon electrode via diazotization-coupling reaction

In this work, an electrochemical method based on the diazonium-coupling reaction mechanism for the immobilization of okadaic acid (OA) on screen printed carbon electrode was developed. At first, 4-carboxyphenyl film was grafted by electrochemical reduction of 4-carboxyphenyl diazonium salt, followed by terminal carboxylic group activation by N-hydroxysuccinimide (NHS), N-(3-dimethylaminopropyle)-N′-ethyle-carbodiimide hydrochloride (EDC). Hexamethyldiamine was then covalently bound by one of its terminal amine group to the activated carboxylic group. The carboxyl group of okadaic acid was activated by EDC/NHS and then conjugated to the second terminal amine group on other side of the hexamethyldiamine through amide bond formation. After immobilization of OA, an indirect competitive immunoassay format was employed to detect OA. The immunosensor obtained using this novel approach allowed detection limit of 1.44 ng/L of OA, and was also validated with certified reference mussel samples.     

降解裙带菜多糖对纳米硒的形成与稳定作用

在常温下的降解裙带菜多糖(Degraded Undaria Pinnatifida Charv. Suringer polysaccharide, DUP)水溶液中, 由适当过量的抗坏血酸(Vc)与二氧化硒(SeO2)反应制备纳米单质硒(Se0). 通过共振瑞利散射、激光散射和透射电镜(TEM)研究了DUP对Se0粒径的调控和在液相中的稳定作用. 结果表明, DUP通过控制还原速度和表面修饰而把Se0粒子调节在较窄的粒径分布范围内当Se0浓度为0.0507—3.245 mmol/L时, DUP表面修饰的球状纳米硒的平均粒径稳定地保持在24—65 nm范围内, 4 ℃时可在水溶液中稳定保存1个月.     

毛细管电泳-激光诱导荧光用于中药制剂中氨基酸成分的分析

建立了一种用于测定中药制剂中氨基酸成分的毛细管电泳-荧光检测方法. 用含有α-环糊精(α-CD)的硼砂缓冲溶液为背景电解质, 经异硫氰酸荧光素(FITC)衍生的5种氨基酸在50 min内可以得到很好的分离和测定. 考查了各个分离参数对分离的影响, 得到的优化条件为: 含45 mmol/L的α-环糊精的80 mmol/L硼砂缓冲溶液(pH值9.2)作为背景电解质, 分离电压20 kV; 柱温22 ℃. 衍生试剂FITC与单个氨基酸的化学计量比为4∶1时, 能够获得稳定荧光强度的氨基酸衍生物. 在优化条件下, 各氨基酸成分在73.5～2900 nmol/L 的浓度范围内呈良好的线性关系(相关系数r2为0.9906～0.9998). 保留时间和峰面积的相对标准偏差分别为0.8%～3.0%和0.7%～5.7%, 检测限(3倍信噪比)为3.5～35 nmol/L. 该方法准确可靠, 可用于质量控制为目的的中药制剂中氨基酸成分的定量测定.