纳米探针芯片技术用于微量乙肝病毒DNA的检测

利用两组探针修饰的微粒:(1)表面标记有可与待测乙肝病毒(HBV) DNA另一端结合的纳米金探针1(信号探针)以及可与信号探针部分结合的纳米金探针2(检测探针);(2)表面标记有可与待测HBV DNA一端结合的磁珠探针(捕捉探针1).检测靶HBV DNA时,磁珠探针与信号探针在液相中可分别与HBV DNA靶序列一端结合最终形成三明治样结构.再以磁场将三明治样复合物从反应液中分离,以DTT溶液将信号探针从纳米金颗粒上洗脱.洗脱后的信号探针数量反映靶基因的多寡,信号探针一段与预先点样的基因芯片上的捕捉探针2结合,检测探针与信号探针另一段相结合,最后用银染液将检测探针显色从而得到靶目标DNA相对定量信息.结果表明,本检测方法的检测灵敏度达到10-15 mol/L水平.检测时间少于1.5 h,检测结果与HBV DNA水平呈现较好的线性关系且无假阳性结果;本方法有望用于乙肝病人血清中HBV DNA的快速筛测及其它微生物基因的检测.     

基于金纳米通道膜检测脱氧核糖核酸的研究

采用化学沉积的方法在聚碳酸酯膜上沉积金纳米颗粒得到金纳米通道膜,并用探针DNA对金纳米通道进行修饰。基于目标DNA与探针DNA杂交后,金纳米通道膜(孔径为30 nm左右)交流阻抗信号的变化,发展了一种无需标记的DNA的检测方法。该方法获得的线性回归方程为ΔR(Ω)=21.05 0.21C(nmol/L),线性相关系数为0.9864;线性检测范围为35~450 nmol/L,检出限为20 nmol/L。这种金纳米通道膜在DNA或RNA的检测及分离方面具有较好的应用前景。     

特定序列脱氧核糖核酸电化学生物传感器进展

对当今电分析化学中的研究热点之一－脱氧核糖核酸（DNA）的电化学生物传感技术的最新进展进行了综述,评述了其发展前景。     

脱氧核糖核酸荧光探针的研究进展

综述了不同种类的荧光探针与ＤＮＡ的结合方式及其在ＤＮＡ定量分析等方面的应用,并对荧光探针的研究前景进行了展望。     

脱氧核糖核酸电分析化学研究进展

就DNA电分析化学研究及其应用方面进行综述，主要叙述了DNA的各种电分析化学方法，以及DNA电化学传感器的原理，应用以及发展，本文引用文献77篇。     

Monodispersed Gold Nanoparticles Decorated Carbon Nanotubes as an Enhanced Sensing Platform for Nanomolar Detection of Tramadol

A promising composite‐modified glassy carbon electrode is fabricated by electrodeposition of mono‐dispersed gold nanoparticles onto carbon nanotubes (AuNPs/CNTs/GCE). The electroanalysis of Tramadol (TRA) was achieved by different electrochemical techniques. The effect of different parameters including pH, concentration and potential scan on the oxidation current signal of TRA was investigated. Large excess of ascorbic acid (AA) and uric acid (UA) with a maximum molar ratio of 1/1000 and 1/100, respectively, did not interfere with the response of TRA. The detection limit with high sensitivity is 68 nM. TRA was successfully determined in pharmaceutical dosage forms, without any pretreatment of the samples.     

脱氧核糖核酸加合物分析技术进展

脱氧核糖核酸(DNA)加合物近十多年来一直是环境科学、医学和生态毒理学的前沿和热点研究领域之一。作为DNA加合物研究手段的DNA加合物分析技术，将传统仪器分析与分子生物学技术相结合，其分析方法既体现了现代分析仪器的新进展，也反映出分子生物学研究的新动向。本文主要结合国外DNA加合物研究状况，评述了DNA加合物主要分析技术，尤其对DNA加合物分析技术的新进展作了详细评述。     

Lightweight ITO Electrodes Decorated with Gold Nanostructures for Electrochemical Applications

Gold nanostructures were fabricated on a transparent indium tin oxide (ITO) coated PET substrate by an electrodeposition technique from a potassium gold (III) chloride solution for two different types of applications. It was found that the optical transparency of lightweight ITO electrodes could be maintained by depositing isolated gold nanostructures while opening up the use of these electrodes for inner sphere electron reactions, such as hydroquinone oxidation, which are not possible at ITO electrodes. For practical applications the adhesion of gold to the ITO electrode was improved by modifying the ITO surface with 3‐mercaptopropyl‐trimethoxysilane (MPS). Compared to Au/ITO, the Au/MPS/ITO electrode showed vastly improved electrochemical activity toward various electron transfer reactions when subjected to mechanical stress. The biosensing properties of the Au/MPS/ITO electrode was also investigated by studying the detection of immobilized DNA on the Au/MPS/ITO electrode via electrochemical impedance spectroscopy (EIS).     

Preparation of Au Nanoparticles Decorated Polyaniline Nanotube and Its Catalytic Oxidation to Ascorbic Acid

With sulfonated electrospun polystyrene fiber as a template, uniform polyaniline(PANI) nanotubes were fabricated via polymerization of aniline followed by template removal. Au nanoparticles(Au_nano) were decorated on the PANI nanotube successfully via auto-reduction of HAuCl₄ on the PANI nanotube. The morphology of the nanotubes was characterized by means of scanning electron microscopy(SEM) and transmittance electron microscopy(TEM). By varying precursor concentration and incubation time, Au_nano-PANI with different size of Au_nano was obtained conveniently. Glassy carbon electrode modified with the Au_nano decorated PANI nanotubes (Au_nano-PANI/GCE) was prepared and used seccessfully for the catalytic oxidation of ascorbic acid(AA). The results of differential pulse voltammetry indicate that there is a good linear relationship between the peak currents and the concentrations of AA in the range of 5-3000 μmol/L, with the limit of detection of 1 μmol/L(S/N>3). There is no mutual interference between AA and dopamine. The electrode has been successfully applied in the detection of AA in vitamin C tablet sample.     

不可逆电活性药物米托蒽醌与脱氧核糖核酸的相互作用

研究了抗癌新药米托蒽醌(MXT)的电化学行为及与脱氧核糖核酸(DNA)的相互作用，推导了适用于研究不可逆电活性分子与DNA相互作用的电化学公式，运用该公式可以简便、快速地测定靶向分子与DNA的结合常数和结合位点数。实验发现，MXT与小牛胸腺DNA的结合以蒽醌母核的嵌插作用为主，同时，烃氨基侧链与骨架磷酸基团之间的静电吸引对母核起稳定作用，使化合物易于嵌入DNA的平面结构。MXT与DNA相互作用引起的峰电流的变化可以用于分析测定DNA。     

硫酸喹啉荧光猝灭法测定脱氧核糖核酸

基于DNA在pH2～4的范围内对硫酸喹啉的荧光具有较强的猝灭作用，建立了一种测定DNA的新方法。当DNA的浓度为10～700μg／L时，荧光猝灭程度与DNA浓度呈线性关系，其线性回归方程为：△IF=1．52118 0．11038G(μg／L)；相关系数r=0．9985；检出限为5．9μg／L。本方法用于大肠杆菌提取的质粒DNA的测定，获得满意结果。     

The Influence of Gold Nanoparticles on Simultaneous Determination of Uric Acid and Ascorbic Acid

A three-dimensional L-cysteine (L-cys) monolayer assembled on gold nanoparticles (GNP) providing simultaneous detection of uric acid (UA) and ascorbic acid (AA) was studied in this work. The cyclic voltammetry demonstrated that, at a bare glassy carbon electrode (GCE) or planar gold electrode, the mixture of UA and AA showed one overlapped oxidation peak; whereas when the electrode was modified with GNP, the oxidation peaks for UA and AA were separated. While a GNP modified electrode was further modified with L-cys monolayer (L-cys/GNP/GCE), namely, three-dimensional L-cys monolayer, a better separation for UA and AA response was obtained. Interestingly, the L-cys monolayer-modified planar gold electrode presented a block effect on the oxidation of AA, which was facilitated by the three-dimensional L-cys monolayer attributed to its distinct structure. The pH of solution presented a noticeable effect on the separation of UA and AA at GNP modified electrodes with or without L-cys monolayer. Wide concentration ranges from 2 × 10^?6?1 × 10^?3 M to UA and 2 × 10^?6?8 × 10^?4 M to AA could be obtained at L-cys/GNP/GCE.     

次甲基蓝褪色光度法测定脱氧核糖核酸

研究了碱性染料次甲基蓝与脱氧核糖核酸的结合反应。在pH8.0～8.5的三羟甲基氨基甲烷-HCl介质中,次甲基蓝于630nm处有最大吸收,随着脱氧核糖核酸加入量的增加,其在630nm处的吸光度显著下降,下降程度与脱氧核糖核酸的量成正比。据此,建立了测定脱氧核糖核酸的新方法,方法的线性范围为0～7mg/L。该方法可用于合成样品分析。     

基于金纳米粒子掩模的硅表面纳米结构加工

利用金溶胶纳米粒子为掩模,结合轻敲模式原子力显微镜（TM AFM）的局域氧化技术和化学湿法腐蚀,对Si表面进行纳米尺度的结构加工,得到柱状和环状纳米结构.实验结果表明,氧化过程中AFM针尖与样品平均间距的大小显著影响后续纳米结构的形状.保持一定的氧化偏压、扫描速度和相对湿度,当针尖与样品间距为7.5 nm时,可得到柱状纳米结构;而当间距减小到5 nm时,则得到带芯环状纳米结构.不同几何形状的纳米结构形成的原因是体系中纳米粒子物理屏蔽效应.     

含寡聚腺嘌呤序列DNA探针在金纳米粒子上的固定及杂交性能

利用寡聚腺嘌呤序列(OAS)与金的强相互作用,在金纳米粒子(AuNPs)上固定不同密度DNA探针(DNAprobe),详细探究不同条件(OAS长度、AuNPs粒径、NaCl浓度等)下单链DNAprobe的固定效果,以及制备的纳米探针(Au-probe)与互补DNA目标分子(DNAtarget)的杂交性能.利用透射电子显微镜(TEM)、紫外可见分光光度计(UV-Vis)、激光粒度仪等对制备的AuNPs的形貌、粒径、表面DNAprobe固定及杂交性能等进行了研究.结果表明,随OAS碱基数量由10增加到30和50,Au-probe上固定的DNAprobe数量降低.对粒径为10.2和24.3 nm的AuNPs,杂交效果最佳的NaCl浓度分别为300和25 mmol/L.随着AuNPs粒径增大,AuNPs单位面积上的DNAprobe固定量及DNAtarget杂交量均呈下降趋势.     

脱氧核糖核酸变性和损伤的吸附伏安法研究

本文用汞电极（ＨＭＤＥ）二次导数阴极吸附伏安（ＳＤ－ＡｄＣＳＶ）和碳电极（ＧＣＥ、ＣＰＥ）导数循环伏安（ＦＤ－ＣＶ）法研究了核酸受热、紫外线、超声波和丝裂霉素Ｃ（ＭＭＣ）作用下的变性作用。在０．１ｍｏｌ／Ｌ（Ｋ２ＨＰＯ４＋ＫＨ２ＰＯ４）－０．１ｍｏｌ．Ｌ ＮａＣｌ（ｐＨ７．０）底液中，吸附的单股（ｓｓ－）和双螺旋（ｄｓ－）ＤＮＡ分别在ＨＭＤＥ上得到特征还原峰Ｐ３和Ｐ２，和在碳电极上得到氧化峰Ａ。物     

过氧化聚吡咯修饰金电极研究全氟化合物对脱氧核糖核酸的损伤

金电极在含有1.0 mol/L KCl的0.1 mol/L吡咯溶液中,-0.3～0.8 V循环扫描10圈制备了聚吡咯膜,在1.2 V进行过氧化处理,得到聚吡咯微孔膜,并将双链小牛胸腺DNA沉积在膜的微孔内,利用差分脉冲技术以亚甲基蓝(MB)为电化学指示剂研究了新型有机污染物全氟辛烷磺酸(PFOS)对DNA的损伤.结果表...     

Analytical Application of Pyramidal,Rodlike, and Spherical Gold Nanostructures: Simultaneous Detection of Ascorbic Acid and Uric Acid

Simultaneous detection of ascorbic (AA) and uric acid (UA) is developed at pyramidal (NP), rodlike (NR), and spherical (NS) gold nanostructures, due to their high electrocatalytic activities toward the oxidation of AA and UA. Unlike at bare gold electrode, the fouling resulted from the oxidized product of AA is eliminated at the nanostructured gold electrode. The voltammetric signals of AA and UA are completely separated with a potential difference of 216 mV, 158 mV and 195 mV, respectively, at the pyramidal, rodlike, and spherical gold surfaces. The experimental results reveal that solution pH effects the peak separation of AA and UA, acidic solution is more favorable for the simultaneous determination of AA and UA than neutral one, than alkaline one. The coexistence of a large excess of AA does not interfere with the voltammetric sensing of UA, vice versa. All the three kinds of nanostructured gold electrodes show excellent sensitivity, stability, selectivity, low detection limit, quick response and wide linear range in the repeated detection of AA and UA. The practical utility of the present nanostructured gold electrodes is demonstrating by determining the concentration of AA in fruit juice and UA in urine sample.     

碱性品红共振光散射法测定DNA研究

基于脱氧核糖核酸（DNA）对有机染料碱性品红的共振光散射增强效应，拟订了一种测定DNA的共振光散射法。在pH=6．75～7．25的范围内，碱性品红在594nm处的共振光散射增强与yDNA和ctDNA的浓度呈线性关系，线性范围分别为0．20～1．60μg／mL和0～1．50μg／mL，相关系数分别为0．9997和0．9994，检出限可达26．5μg／L。该方法简便、快速，用于合成样品中DNA的测定，结果满意。     

纳米材料应用于DNA检测领域的研究进展

本文主要评述了近年来纳米材料在除了PCR领域以外的DNA检测方面的研究进展.对以纳米材料(纳米粒子、纳米纤维、纳米线、纳米管)为单元,或以纳米器件的制备为实验方法而开展的DNA检测方面的工作进行了介绍.研究表明,基于纳米材料的DNA检测法,无论是在定位、可视化还是多重检测等方面都比传统PCR技术的检测方法表现出其自身的...