一种表面具有自由羧基的CdS纳米团簇

近年来 ,纳米晶和纳米团簇在免疫生物学和临床检验学等研究中的潜在应用价值已引起了科学工作者的极大关注 [1～ 3] .1 998年 ,Alivisatos等 [4 ]制备了 Cd Se-Zn S核壳结构的纳米晶 ,并用其作为荧光探针对老鼠的成纤维细胞进行了标识 .同年 Nie等 [5,6]发展了一种新的非同位素检测方法 ,将铁转移蛋白质或特异性抗体偶连到具有核 -壳型结构的纳米晶表面 ,利用纳米晶的荧光特性进行检测和标识 .上述工作的共同特点是在有机相中合成纳米晶 ,再用巯基乙酸将其萃取到水相中 ,使纳米晶的外表面被自由羧基包覆 ,这些羧基可与各种生物分子如特异…     

CdTe纳米晶与蛋白相互作用研究

当半导体纳米晶的直径小于其电子的玻尔直径时 ,半导体纳米晶对电子具有量子限域效应 ,其发光波长与纳米晶的尺寸相关 .与有机荧光分子相比 ,荧光半导体纳米晶具有以下优点 :(1 )其激发谱在吸收阈值以上几乎是连续的 ,利于多波长激发 ;(2 )高强荧光发射 ,谱峰窄 ,峰形对称 ;(3 )发射波长随着粒径的增大而有规律地红移 ,只需改变粒径即可获得多色发光 ;(4)纳米晶的发光稳定性好 ,不易被光分解和漂白 .因此 ,半导体纳米晶作为新一代荧光生物标记物已有研究[1～ 6] .荧光生物标记要求使用水溶性的纳米粒子 ,水相合成半导体纳米晶操作简便、重复…     

SERS标记的金纳米棒探针用于免疫检测

报道了基于金纳米棒表面增强拉曼散射(SERS)的免疫检测. 将拉曼活性分子对巯基苯甲酸吸附于金纳米棒表面, 制备出SERS标记的金纳米棒探针. 该探针和蛋白抗体结合形成SERS标记抗体. 通过SERS标记抗体、待测抗原和俘获抗体(固体基底上修饰的抗体, 即俘获抗体)之间的免疫应答反应, 将金纳米棒探针组装到固体基底上, 形成SERS标记抗体-抗原-俘获抗体 “三明治”夹心复合体. 待测抗原浓度越大, 固体基底上俘获的金纳米棒探针的数目越多, 从而可通过SERS信号的强弱来检测待测抗原的浓度. 由于金纳米棒的表面等离子体共振(SPR)峰位置可以在较宽的范围内调控, 可通过激发光和SPR的耦合来提高SERS信号, 从而提高免疫检测的灵敏度. 单组分抗原可检出的浓度范围高于1×10－8 mg/mL.     

磁性Fe3O4纳米晶的电化学制备及在线混凝过程研究

以铁片和碳纤维为电极,采用电化学法实现了磁性Fe3O4纳米晶混凝剂的快速制备、在线混凝和磁性过滤的预处理过程.采用X射线衍射仪(XRD)和扫描电子显微镜(SEM)等对磁性Fe3O4纳米晶进行了表征.结果表明,所制备的磁性Fe3O4纳米晶具有均匀的晶体尺寸,粒子尺寸分布在30~100 nm之间.利用Fe3O4纳米晶对高浊度高岭土悬浊液进行了混凝研究,并在外加磁场的作用下实现了絮凝体和水体的快速分离.结果证实电化学法磁混凝技术能够快速高效去除污水浊度,省去了机械过滤过程.理论研究结果表明,磁性Fe3O4纳米晶去除浊度的过程是电荷中和与沉淀卷扫共同作用的结果,而电荷中和过程发生是由于电化学制备Fe3O4纳米晶时表面电荷种类的均一性.     

荧光偏振免疫分析法研究17种磺胺类药物与抗体亲和力的构效关系

应用4株磺胺二甲基嘧啶(SMZ)多克隆抗体和5种不同结构的荧光标记物(Tracer)建立了荧光偏振免疫分析(FPIA)检测SMZ的方法. 讨论了4株多抗对SMZ的检测灵敏度和对17种磺胺类药物(SAs)的相对亲和力趋势, 从药物分子二维结构上探讨了多抗对小分子抗原的识别能力. 结果表明, 3号多抗对SMZ的灵敏度最高, 但是4株多抗对17种SAs的相对亲和力趋势相似, 说明抗体对抗原的结合力大小与抗原的化学结构有关.     

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.     

Ag∶InP/ZnSe纳米晶的合成与生物成像

采用高温热注入法,以P[N(CH_3)_2]_3为磷源合成了具有近红外荧光的Ag∶InP/ZnSe纳米晶.采用紫外-可见-近红外吸收光谱(UV-Vis-NIR)、荧光光谱、透射电子显微镜(TEM)、X射线衍射(XRD)等对产物的结构和光学性质进行了表征,并分析了Ag掺杂浓度和温度对InP纳米晶荧光性能的影响.通过调节Ag掺杂浓度和反应温度,发现当Ag掺杂量为6%,反应温度为200℃时,Ag∶InP纳米晶的发光效率最高.将制备的Ag∶InP的表面包覆ZnSe,粒子的荧光效率从原来的20%提高到45%.将具有近红外荧光的Ag∶InP/ZnSe纳米晶应用于细胞成像,结果表明制备的荧光纳米晶在细胞成像中清晰可见且毒性较低.     

MgFe2O4@(TF-LDHs)磁性纳米复合体的制备与表征

以镁铁尖晶石(MgFe2O4)颗粒为磁性基质, 采用共沉淀法制备了替加氟(TF)插层层状双金属氢氧化物(LDHs)包覆MgFe2O4的核-壳结构磁性纳米复合体[MgFe2O4@(TF-LDHs)], 并对其化学组成、 晶体结构和磁性等进行了表征, 探讨了TF在LDHs层间的存在状态, 考察了TF的释放行为. 实验结果表明, MgFe2O4@(TF-LDHs)纳米复合体具有顺磁性, 其比饱和磁化强度随磁性基质含量的增大而增强; TF分子在LDHs层间以长轴略倾斜于LDHs层板的方式呈双层排布; MgFe2O4@(TF-LDHs)纳米复合体具有明显的药物缓释效果, 其释放动力学过程符合准二级动力学方程, 释放机理为Fick扩散; 增大磁性基质含量或施加外加磁场均可减缓其药物释放过程.     

荧光各向异性法快速测定荧光标记物对蛋白质的标记比

免疫荧光技术是免疫学检测的重要手段之一,该技术在病原微生物的早期诊断、自身免疫研究、抗原或抗体的免疫组化定位等方面都得到了广泛应用^[1].荧光色素对抗体(或抗原)标记比的测定是免疫荧光技术的重要部分.     

Ag∶InP/ZnSe纳米晶的合成与生物成像

采用高温热注入法, 以P[N(CH3)2]3为磷源合成了具有近红外荧光的Ag∶InP/ZnSe纳米晶. 采用紫外|可见|近红外吸收光谱(UV|Vis|NIR)、 荧光光谱、 透射电子显微镜(TEM)、 X 射线衍射(XRD)等对产物的结构和光学性质进行了表征, 并分析了Ag掺杂浓度和温度对InP纳米晶荧光性能的影响. 通过调节Ag掺杂浓度和反应温度, 发现当Ag掺杂量为6%, 反应温度为200 ℃时, Ag∶InP纳米晶的发光效率最高. 将制备的Ag∶InP的表面包覆ZnSe, 粒子的荧光效率从原来的20%提高到45%. 将具有近红外荧光的Ag∶InP/ZnSe纳米晶应用于细胞成像, 结果表明制备的荧光纳米晶在细胞成像中清晰可见且毒性较低.     

Preparation of polysaccharide-coated nanoparticles by emulsion polymerization of styrene

It is the aim of this paper to describe the preparation of polysaccharide-coated nanoparticles by direct emulsion polymerization of styrene in the presence of native dextran. In spite of the lack of surface-active properties of native dextran, stable latexes with very low amount of coagulate were obtained. Particle size decreased with dextran concentration and molecular weight. The amount of permanently adsorbed dextran was determined by direct titration of the polysaccharide present on the surface of the nanoparticles. A maximum value of 2.5 mg m⁻² was found. Zeta-potential measurements allowed us to estimate the thickness of the hydrophilic layer, which regularly increased with dextran aqueous concentration. The dextran-coated polystyrene nanoparticles were stable in concentrated NaCl solutions and could be redispersed after freeze-drying. The mechanism of chemical modification of dextran was studied by nuclear magnetic resonance and matrix-assisted laser desorption/ionization-time of flight spectrometry studies. Graft copolymers are supposed to be formed.     

Combined investigation of experimental characterization and theoretic calculation on the structure of dextran-Fe3O4 clusters

Dextran-Fe₃O₄ hybrid clusters were fabricated by coprecipitating ferric and ferrous ions in the presence of dextran, and after characterization of these clusters combined with calculation based on classical nucleation theory, a structure model of these hybrid clusters was proposed. The hybrid cluster was believed including small Fe₃O₄ nanoparticles and dextran which acted as both nucleating agent and stabilizer, so that exist in both the inside of magnetite nanoparticles and the periphery of the hybrid clusters. Besides, the effects of W_CD (weight_{iron cation}:weight_dextran) and molecular weight of dextran on the size, morphology and magnetic property of clusters were also investigated in this paper. It was found that the variation of W_CD and molecular weight of dextran have great effect on the size of the hybrid clusters, but have almost no effect on the size of the Fe₃O₄ nanoparticles. The characterization of magnetic property demonstrated that the Fe₃O₄ nanoparticles are of a single domain and the saturation magnetization was affected by the size of dextran-Fe₃O₄ hybrid clusters.     

Synthesis and Characterization of Chitosan/ Dextran-Based Hydrogels for Surgical Use

A series of hydrogels were formed from the reaction between an amine functionalized succinyl chitosan and an oxidized dextran. The properties and rate of formation of the gel were related to both the amine and aldehyde levels of the precursors. These levels could be readily changed by altering the reaction conditions, and allowed good control of the gel properties. Oxidation of the dextran with periodate was accompanied by chain scission and a large reduction in molecular weight. The gel showed excellent haemostatic properties and reduction of adhesions in animal models.     

Preparation of dextran immunological magnetic nanoparticles and their application to combined targeting carrier

Superparamagnetic dextran nanoparticles were prepared by coprecipitation. Effects of concentration of dextran, amount of ironic salts, stirring speed, concentration of ammonium hydroxide and mole ratio of Fe3+/Fe2+ on the effective diameter of dextran magnetic nanopartides (DMNP) were studied. Dextran immunological magnetic nanoparticles (DIMNP) were formed by the reaction of the monoclonal anti-human mammary cancer antibody with DMNP oxidized by sodium periodate, and the properties of magnetic susceptibility, shape and retention of antibody activity were investigated. The in vitro cancer antigen binding ability of DIMNP was demonstrated by radioimmunoassay, and the in vivo magnetic localization and antibody targeting ability of radiolabeled DIMNP were studied.     

Magnetic field dependence of the diffusion of single dextran molecules within a hydrogel containing magnetite nanoparticles

We consider the effect of applied magnetic fields on the diffusion of single dextran molecules labeled with fluorescein isothiocyanate within a ferrogel [a composite of magnetite nanoparticles in a poly(methacrylic acid) hydrogel] using fluorescence correlation spectroscopy. We show that the mesh size of the ferrogel is controlled by the applied magnetic field, B, and scales as exp(-(4)√ξ(3)B(2)/2μ(0)k(B)T), where ξ is a correlation length, μ(0) the magnetic constant, k(B) the Boltzmann constant, and T is the absolute temperature. The diffusion coefficient of the dextran can be modeled with a simple Stokes-Einstein law, containing the same scaling behavior with magnetic field as the swelling of the hydrogel. Furthermore, the magnetic field-dependent release of dextran from the hydrogel is also controlled by the same relationship. The samples were characterized by small angle x-ray scattering (SAXS) and magnetometry experiments. Magnetic hysteresis loops from these ferrogels and zero field cooled∕field cooled measurements reveal single domain ferromagnetic behavior at room temperature with a similar coercivity for both as-prepared and fully swollen ferrogels, and for increasing magnetic nanoparticle concentration. SAXS experiments, such as the hysteresis loops, show that magnetite does not aggregate in these gels.     

Proton Magnetic Resonance Studies of Adsorption of Salts on Dextran Gels

Abstract

The proton magnetic resonance spectra of various salt-gel solutions and frozen salt-gel solutions are reported for dextran gels. When compared to spectra obtained for polyacrylamide gels and ion-retardation resins, very little adsorption is noted for dextran gels. Therefore, the probable mechanism for separation of inorganic salts by dextran gels is ion exclusion.     

MALDI-TOFMS测定高聚合度葡聚糖及不同基体在测定中的作用比较

应用基体辅助激光解吸电离飞行时间质谱(MALDI-TOFMS)直接对未经分级的高聚合度(n>100)葡聚糖样品进行了测定,检测到的葡聚糖最大分子量达18000以上.对2,5-二羟基苯甲酸(DHB)、1-羟基异喹啉(1-HIQ)及3,4-二羟基肉桂酸(咖啡酸,CA)3种一元基体以及DHB与1-HIQ,DHB与CA两种二元基体在测定中的作用进行了比较.结果表明,DHB基体测定的质量范围较大;DHB+1-HIQ和DHB+CA二元混合基体对样品的解吸电离效果及谱图重现性好;DHB+1-HIQ基体获得的谱图分辨率高.     

Effect of the Solvent on the Water Properties of Water/Oil Microemulsions

Porous poly(styrene-divinylbenzene) (PS-DVB) particles were modified by adsorption of hydrophobically-modified dextrans, to provide chromatographic matrices for biomolecule chromatography. The dextran distribution and the pore characteristics of various coated PS-DVB beads were examined using nitrogen adsorption–desorption, mercury intrusion, and size exclusion chromatography. It was found that the adsorption of dextran does not result in homogeneous layers but rather in inhomogeneous ones. At high dextran loading and high content of hydrophobic groups in the adsorbed polymer, most of the pores of the macroporous rigid material are filled with a soft and porous dextran network being stabilized by hydrophobic interactions. According to chromatographic experiments, most of the surface was nevertheless expected to be covered at least by a thin and dense protecting layer since proteins—even those that are small enough to penetrate the dextran network—cannot interact nonspecifically with the internal pore surface. At low content of hydrophobic groups, dextran deposits preferentially as a thicker and more diffuse layer. However, the thickness of the coating is expected to be irregular and probably contributes to an increase in the roughness of the polystyrene surface.     

葡聚糖及其衍生物对大麦细胞电融合的影响

葡聚糖及其衍生物对大麦细胞电融合的影响①王伟江志裕＊（复旦大学化学系上海２００４３３）细胞融合是指用人工方法使两个细胞融合成一个细胞的过程［１,２］．体细胞融合可在不同种,不同属,甚至更远的生物间进行,所得到的细胞可具有新的特性．对于植物细胞,有望通...     

Influence of polymeric coating on capillary electrophoresis of iron oxide nanoparticles

In this work, electrophoresis was successfully used to separate three different polymer-coated magnetic iron oxide nanoparticles with similar sizes (nominally 50 nm) using high-pH borate buffer system. The coating polymers were dextran, polyethylene glycol, or carboxymethyl dextran. The results showed that the migration time of carboxymethyl dextran coated nanoparticles is the longest due to relatively more negative surface charges. Investigation of the effects of buffer concentration, pH, electric field strength and the capillary temperature, on electrophoretic properties of samples was also carried out. The results showed that pH, electric field strength and the capillary temperature had indirect relations with both of the migration time and the separation resolution of three different polymer-coated nanoparticles while the buffer concentration had a direct relation.