适配子纳米生物传感器在青霉素检测中的应用

通过脉冲腐蚀法对硅片进行多孔硅的制备,利用玻片通过对共价法、离子吸附法和APTES修饰的戊二醛交联法3种固定适配子方法的对比,以确定较好的固定青霉素适配子的方法。将适配子固定在多孔硅上后,利用交流阻抗法对加入青霉素前后传感器阻抗值进行测定、对比,构建等效电路并进行阻抗拟合。对多孔硅传感器的Nyqu ist谱图进行分析以确定多孔硅表面成功固定了青霉素适配子,从而证明构建纳米生物传感器成功。传感器的线性检测范围为0.05~0.2 mg/L,检测限为0.05 mg/L。     

基于免疫纳米颗粒强化的压电免疫传感器检测大肠杆菌O157︰H7

摘要：【目的】结合纳米技术建立检测大肠杆菌（Escherichia coli）O157︰H7高灵敏检测技术。【方法】采用化学共沉淀法制备出核心粒径约为10 nm的免疫纳米磁颗粒,柠檬酸钠还原法制备粒径约为20 nm的免疫胶体金。压电免疫传感器通过金黄色葡萄球菌蛋白A（Protein A from Staphylococcus aureus SPA）法将抗体固定于石英晶振上,两种免疫纳米颗粒借助不同的抗体连接于传感器上对检测频率信号进行放大。【结果】SPA在石英晶振上的最佳固定浓度和时间为1.2 mg/mL和40 min,抗体的最佳固定浓度和时间为1.0 mg/mL和60 min。压电免疫传感器通过两种免疫纳米颗粒的放大作用,使其对大肠杆菌O157︰H7的检测限从104 cfu/mL提高到101 cfu/mL。【结论】免疫纳米颗粒强化对压电免疫传感器的检测频率信号具有很好的放大效应,可以明显提高其检测灵敏度。     

多孔硅适配子生物传感器的电化学研究

构建1种用于快速检测四环素的新型电化学纳米多孔硅(PS)生物传感器。通过脉冲腐蚀法制得多孔硅基片,将适配子固定于其上,这种四环素适配子能够特异性识别四环素分子,并引起阻抗值的变化。利用电化学交流阻抗法比较固定适配子前后硅片表面阻抗值的变化,以及在体系中加入不同浓度四环素后阻抗谱的变化。选择1个合适的等效电路对测得的阻抗数据进行拟合,获得了四环素浓度与阻抗值的变化规律。传感器的线性检测范围为2.079~62.37 nmol/L,检测限为2.079 7 nmol/L。     

免标记光学纳米生物传感器的研究

利用发光稳定的多孔硅,当蛋白质溶液固定到多孔硅表面时,其发光强度和反射光谱的峰位会随着被测物质量浓度的变化而发生变化的特性。制备免标记光学纳米生物传感器来检测牛血清白蛋白（BSA）,把不同质量浓度的BSA溶液固定到多孔硅上测量反射光谱的峰位和荧光强度的变化。实验结果表明：反射光谱的峰位与牛血清白蛋白的浓度呈线性关系：y=1．4189x＋366．31,R^2=0．9898;荧光强度的降低量与BSA溶液的浓度呈线性关系,检测限为8×10^-9 mol／L。     

四种多孔菌子实体粗多糖抗肿瘤活性的比较研究

对粗毛纤孔菌、椭圆嗜蓝孢孔菌、火木层孔菌、木蹄层孔菌4种多孔菌子实体粗多糖成分的含量及其体内抗肿瘤活性进行了比较研究。结果表明粗毛纤孔菌子实体中的粗多糖含量为4.1%,高于其他3种多孔菌;同时,4种多孔菌子实体粗多糖对H22荷瘤小鼠均显示出一定的抗肿瘤活性,除木蹄层孔菌外,其他3种多孔菌给药剂量为500mg/mL和1 000mg/mL时抑瘤率均大于40%,其中粗毛纤孔菌子实体粗多糖抑瘤率最高,低剂量组（500mg/kg）为58.12%,高剂量组（1 000mg/kg）为47.75%。     

心肌肌钙蛋白Ⅰ的分子印迹电化学生物传感器

应用分子印迹技术,以邻苯二胺和对苯二酚为功能单体,心肌肌钙蛋白Ⅰ(cTnI)为模板分子,在pH 7.0磷酸盐缓冲液中,利用循环伏安法在玻碳电极表面聚合形成了分子印迹膜.该分子膜对cTnI有特异性识别作用,在0.01～2.00 μg/mL的范围内,cTnI的浓度与氧化峰电流的变化呈线性关系,检测下限为2 ng/mL,响应时间为15 min.该分子印迹传感器具有制备简单、特异性及稳定性好等优点.     

基于纳米多孔硅Bragg反射镜免标记生物传感器的研究

构建一种基于多孔硅Bragg反光镜的免标记的纳米生物传感器,通过在纳米多孔硅上固定的适配子的特异性识别能力,检测溶液中四环素浓度。当适配子结合不同浓度的四环素溶液时,引起多孔硅Bragg反光镜内部有效折射率的变化,反射谱峰位进而发生变化。传感器的有效检测范围为1~200μg/L,检测限为1μg/L。     

多孔硅Bragg反射镜适配子生物传感器检测心肌肌钙蛋白I

通过脉冲腐蚀法制备多孔硅Bragg反射镜,将心肌肌钙蛋白I（cTnI）适配子共价固定到多孔硅Bragg反射镜的孔洞中,发现适配子能与cTnI分子特异性结合。定量分析不同浓度的cTnI与适配子结合后多孔硅Bragg反射镜的反射谱峰位的红移情况。结果表明：基于多孔硅Bragg反射镜适配子生物传感器的光学检测具有良好的特异性,且具有免标记及检测时间短等优异性能。传感器的线性检测范围0．05-4nmol／L,最低检测限为0．05nmol／L。     

自身抗体检测蛋白芯片制备条件的优化及初步应用

选择临床上常用的用于自身免疫性疾病抗体检测所对应的12种抗原, 运用NBT/BCIP显色反应策略, 研制一种可同时检测12种常用自身抗体的蛋白芯片检测系统。应用NBT/BCIP终点检测体系对每一种抗原的点样液、点样浓度、血清稀释度进行优化, 制备出可同时检测12种自身抗体的蛋白芯片, 并通过对678例病人血清和120例非病人血清的检测进行敏感度和特异度评价。优化的点样液为0.1%TBST, 血清稀释度为1:4, 12种抗原的最佳点样浓度分别为: ANA 520 mg/mL, Ro-60/SSa 465 mg/mL, La/SSb 530 mg/mL, Jo-1 530 mg/mL, Scl-70 525 mg/mL, Sm 520 mg/mL, Ro-52/SSa 615 mg/mL, RF 340 mg/mL, CCP 465 mg/mL, u1RNP 410 mg/mL, CENP-B 490 mg/mL, dsDNA 580 mg/mL; 通过对678份阳性血清和120份阴性血清的检测, 该蛋白芯片技术对12种自身抗体检测的敏感度在80%~96.3%之间, 特异度在86.7%~100%之间, 与传统的检测技术有较高的符合率。我们研究的自身抗体检测蛋白芯片技术体系具有快速、方便、高通量、廉价等优势, 易于商业化, 适合不同条件的临床需要。     

多孔硅Bragg反射镜适配子生物传感器检测心肌肌钙蛋白Ⅰ

通过脉冲腐蚀法制备多孔硅Bragg反射镜,将心肌肌钙蛋白Ⅰ(cTnⅠ)适配子共价固定到多孔硅Bragg反射镜的孔洞中,发现适配子能与cTnⅠ分子特异性结合.定量分析不同浓度的cTnⅠ与适配子结合后多孔硅Bragg反射镜的反射谱峰位的红移情况.结果表明:基于多孔硅Bragg反射镜适配子生物传感器的光学检测具有良好的特异性,且具有免标记及检测时间短等优异性能.传感器的线性检测范围0.05～4 nmol/L,最低检测限为0.05 nmol/L.     

Polyaniline protected gold nanoparticles based mediator and label free electrochemical cortisol biosensor

Polyaniline protected gold nanoparticles (PPAuNPs) were electrophoretically deposited onto a gold electrode, and utilized to fabricate an electrochemical cortisol biosensor. Cortisol specific monoclonal antibody (C-Mab) was covalently immobilized onto the surface of a PPAuNP/Au electrode using N-ethyl-N'-(3-dimethylaminopropyl) carbodiimide and N-hydroxysuccinimide (EDC/NHS) chemistry. BSA was employed for blocking nonspecific adsorption on the electrode surface. PPAuNP formation and BSA/C-Mab/PPAuNP/Au electrode fabrication were characterized using transmission electron microscopy, atomic force microscopy and electrochemical impedance techniques, respectively. Cyclic voltammetry and differential pulse voltammetric techniques were used to determine the cortisol concentration in a phosphate buffer saline (PBS) solution. Results confirmed that the PPAuNP based electrode was stable during repeated scans and exhibited repeatable redox peaks. Further, the BSA/C-Mab/PPAuNP/Au electrode in the PBS buffer accurately detected cortisol in the range of 1 pM-100 nM with a sensitivity of 1.63 μAM(-1). The biosensor was found to be selective against BSA and 17-α-hydroxy progesterone. This research establishes the feasibility of using a PPAuNP based matrix for a label and mediator free electrochemical biosensor for cortisol, a stress biomarker.     

Method for printing functional protein microarrays

Piezoelectric dispensing of proteins from borosilicate glass capillaries is a popular method of protein biochip fabrication that offers the advantages of sample recovery and noncontact with the printing substrate. However, little regard has been given to the quantitative aspects of dispensing minute volumes (1 nL or less) at the low protein concentrations (20 micrograms/mL or less) typically used in microprinting. Specifically, loss of protein sample due to nonspecific adsorption to the glass surface of the dispensing capillaries can limit the amount of protein delivered to the substrate. We demonstrate the benefits of a low ionic strength buffer containing the carrier protein BSA that effectively minimizes the ionic strength-dependent phenomenon of nonspecific protein adsorption to borosilicate glass. Over the concentration range of 20-2.5 micrograms/mL, the dispensing of a reference IgG in 10 mM PBS including 0.1% BSA resulted in the deposition of 3.6- to 44-fold more IgG compared to the deposition of IgG in standard 150 mM PBS in the absence of BSA. Furthermore, when the IgG was dispensed with carrier protein, the resulting spots exhibited a more uniform morphology. In a direct immunoassay for cholera toxin, capture antibody spots dispensed in 10 mM PBS containing 0.1% BSA produced fluorescent signals that were 2.8- to 4.3-fold more intense than antibody spots that were dispensed in 150 mM PBS without BSA. Interestingly, no differences were observed in the specific activities of the capture antibodies as a result of printing in the different buffers. The implications of these results on the future development of protein biochips are discussed.     

Investigation of interfacial capacitance of Pt,Ti and TiN coated electrodes by electrochemical impedance spectroscopy

Electrochemical processes at the electrode-electrolyte (body fluid) interface are of ultimate importance for stimulating/sensing electrode function. A high electrode surface area is desirable for safe stimulation through double-layer charging and discharging. Pt and Pt-Ir alloys have been the most common electrode materials. The use of TiN coating as the surface layer on the electrode has found increasing interest because of its metal-like conductivity, excellent mechanical and chemical properties, and the fact that it can be deposited with a high surface area. In this work, electrochemical impedance spectroscopy (EIS), which is a sensitive and non-destructive technique and widely used for characterization of electrical properties of electrode-electrolyte interfaces, was applied to investigate pure Pt and Ti, and TiN coated electrodes exposed to a phosphate-buffered-saline (PBS) solution. Platinized Pt and Ti were also studied for comparison. The capacitance value of the electrodes in PBS was obtained through quantitative analysis of the EIS spectra. The results reveal that the capacitance of the TiN coated electrodes with a rough surface is several hundreds times higher than that of a smooth Pt surface. Platinization of Ti can also increase the capacitance to the same extent as platina. EIS has been shown to be a powerful technique for characterization of stimulating/sensing electrodes.     

High biological activity of a recombinant protein immobilized onto polystyrene

The adsorption characteristics of glutathione S-transferases (GST) genetically fused with polystyrene (PS)-binding peptides (PS-tags) on PS plates with increase in hydrophilicity were studied to clarify the mechanisms of the specific interaction between the PS-tag-fused protein and PS plates. GST fused with the PS-tag PS19 (RAFIASRRIKRP) preferentially interacted with hydrophilic PS plates, even in the presence of high concentrations of competitors such as Tween 20 and BSA. Both basic and aliphatic amino acids in the PS-tags were involved in the specific interaction of PS-tags with the surface of the hydrophilic PS plate. Genetic fusion of the PS19 variants, PS19-4 (RAIARRIRR) and PS19-6 (RIIIRRIRR), further improved the immobilization yield of GST in the presence of a high concentration of the competitor BSA (50 mg/mL). The PS19-6 peptide specifically interacted with the surfaces of various hydrophilic PS plates, especially in the presence of Tween 20. Higher remaining activity was detected on all of the hydrophilic PS plates immobilized with GST-PS19-6 in comparison with those with wild-type GST and GST-PS19, and the remaining activity was further increased by the addition of Tween 20 in the adsorption state. The PS19-6 peptide developed in this study is therefore very useful as an affinity tag that can immobilize a target protein directly onto various hydrophilic PS supports with high remaining activity.     

Label-free impedimetric immunosensor for ultrasensitive detection of cancer marker Murine double minute 2 in brain tissue

The detection of cancer biomarkers is as important tool for the diagnosis and prognosis of cancer such as brain cancer. Murine double minute 2 (MDM2) has been widely studied as prognostic marker for brain tumor. Here we describe development of a new sensitive label free impedimetric immunosensor for the detection of MDM2 based on cysteamine self assembled monolayers on a clean polycrystalline Au electrode surface. The amine-modified electrodes were further functionalized with antibody using homobifunctional 1,4-phenylene diisothiocyanate (PDITC) linker. The assembly processes of the immunosensor had been monitored with cyclic voltammetry (CV) and electrochemical impedance spectroscopy (EIS) techniques using Fe(CN)(6)(3-/4-) solution as redox probe. The impedance changes upon binding of MDM2 protein to the sensor surface was utilized for the detection of MDM2. The increase in relative electron-transfer resistance (ΔR/R(0)%) values was linearly proportional to the concentration of tumor marker MDM2 in the wide dynamic range of 1pg/ml-1μg/ml. The limit of detection was 0.29pg/ml in phosphate buffer saline (PBS) and 1.3pg/ml in mouse brain tissue homogenate, respectively. The immunosensor showed a good performance in comparison with ELISA for the analysis of the MDM2 in the cancerous mouse brain tissue homogenates. Moreover, the immunosensor had a good selectivity against epidermal growth factor receptor (EGFR) protein, long-storage stability and reproducibility. It might be become a promising assay for clinical diagnosis and early detection of tumors.     

Energy Transfer from Cyanobacterial Phycobilisomes to Spinach Photosystem Ⅱ Particles

The phycobilisomes (PBS) from the thermophilic cyanobacterium Myxosarcina concinna Printz and the PS Ⅱ particles from Spinacia oleracea Mill. were isolated. Their spectral characteristics were defined and the light energy transfer from PBS to PS Ⅱ was studied. As the ion intensity (KH2PO4) of the buffer system increased from 0.1 mol/L to 0.5 mol/L, the efficiency of the energy transfer also increased. The PS Ⅱ particles had a higher water splitting activity. When excited with light at 558 nm, there was a significant rise of the activity of O2 evolution which further indicated that the excitation energy harvested by PBS could transfer to the PS Ⅱ particle from spinach.     

Lysozyme for capture of microorganisms on protein biochips

Lysozyme placed on the SiO₂ surfaces that have previously been derivatized with C₁₈ coating will capture both Escherichia coli and Listeria monocytogenes cells from PBS buffer at pH 7.2. This phenomenon is of significance for the design and fabrication of protein biochips that are designed to capture bacteria from buffer or water so that these can be further interrogated with respect to possible pathogenicity. Fluorescent microscopy shows that two types of bacteria (gram-negative E. coli and gram-positive Listeria spp.) will be adsorbed by lysozyme placed on the surface of the biochip but that strong adsorption of the bacteria is reduced but not eliminated when Tween 20 is present (at 0.5%) in the PBS buffer in which the cells are suspended. In comparison, Tween 20 and Bovine Serum Albumin (BSA) almost completely block adsorption of these bacteria on C₁₈ coated surfaces. The combination of a lysozyme surface with Tween 20 gives a greater degree of adsorption of L. monocytogenes than E. coli, and hence suggests selectivity for the more hydrophobic E. coli may be reduced by the Tween 20. This paper presents protocols for preparing protein-coated, SiO₂ surfaces and the effect of buffer containing Tween 20 on adsorption of bacteria by SiO₂ surfaces coated with C₁₈ to which BSA, lysozyme or C11E9 antibody is immobilized at pH 7.2 and ambient temperature.     

Calcium concentration in vitrification medium affects the developmental competence of in vitro matured ovine oocytes

The present study was designed to determine whether different calcium concentrations in the vitrification solutions could improve the developmental competence of in vitro matured ovine oocytes after cryopreservation. In vitro matured oocytes were vitrified with 16.5% ethylene glycol (EG) + 16.5% dimethylsulfoxide (DMSO) vitrification media. The base media contain different calcium concentrations, so that five experimental groups were obtained: TCM/FCS (TCM 199 + 20% fetal calf serum (FCS), [Ca²⁺] 9.9 mg/dl); PBS/FCS (Dulbecco Phosphate Buffered Saline (PBS) + 20% FCS, [Ca²⁺] 4.4 mg/dl); PBS^{CaMg free}/FCS (PBS without Ca²⁺ and Mg²⁺ + 20% FCS [Ca²⁺] 2.2 mg/dl); PBS/BSA (PBS + 0.4% bovine serum albumin (BSA), [Ca²⁺] 3.2 mg/dl) and PBS^{CaMg free}/BSA (PBS without Ca²⁺ and Mg²⁺ +0.4% BSA, [Ca²⁺] 0.4 mg/dl). After warming, the oocytes from the five experimental groups were assessed for survival, spontaneous parthenogenetic activation and developmental capacity via in vitro fertilization. Oocyte survival after vitrification procedures was better preserved in group PBS^{CaMg free}/FCS compared to the others (P < 0.05). In addition, a positive correlation was found between calcium concentration in vitrification solutions and spontaneous parthenogenetic activation (correlation index 0,82; P < 0.001). Development of vitrified oocytes was significantly affected by vitrification media composition (P < 0.01). In particular, oocytes from group PBS^{CaMg free}/FCS led to higher cleavage rates and blastocyst rate compared to the others. Our data showed that lowering calcium concentration in the vitrification medium improves the blastocyst rate of vitrified ovine oocytes, probably reducing the effect of EG + DMSO during vitrification. On the contrary, the replacement of FCS with BSA dramatically reduces the developmental potential of these oocytes.     

Capillary electrophoresis coupled with end‐column electrochemiluminescence for the determination of ephedrine in human urine,and a study of its interactions with three proteins

A tris(2,2‐bipyridyl)ruthenium(II) (Ru(bpy)₃²⁺)‐based electrochemiluminescence (ECL) detection coupled with capillary electrophoresis (CE) method has been established for the sensitive determination of ephedrine for the first time. Under the optimized conditions [ECL detection at 1.15 V, 25 mmol/L phosphate buffer solution (PBS), pH 8.0, as running buffer, separation voltage 12.5 kV, 5 mmol/L Ru(bpy)₃²⁺ with 60 mmol/L PBS, pH 8.5, in the detection cell] linear correlation (r = 0.9987) between ECL intensity and ephedrine concentration was obtained in the range 6.0 × 10^–8–6.0 × 10^–6 g/mL. The detection limit was 4.5 × 10^–9 g/mL (S:N = 3). The developed method was successfully applied to the analysis of ephedrine in human urine and the investigation of its interactions with three proteins, including bovine serum albumin (BSA), cytochrome C (Cyt‐C) and myoglobin (Mb). The number of binding sites and the binding constants between ephedrine and BSA, Cyt‐C and Mb were 8.52, 12.60, 10.66 and 1.55 × 10⁴ mol/L, 6.58 × 10³ mol/L and 1.59 × 10⁴ mol/L, respectively. Copyright © 2011 John Wiley & Sons, Ltd.