丹参酮ⅡA的电化学行为及其测定

应用循环伏安法研究丹参酮ⅡA在玻碳电极上的电化学行为并建立差示脉冲伏安法测定含量.在pH 4.0醋酸盐缓冲液中,差示脉冲伏安氧化峰电流与丹参酮ⅡA浓度(3.0×10-7~2.0×10-5mol.L-1)呈良好的线性关系,检测限为2.0×10-8mol.L-1.玻碳电极可有效消除样品中其它组分对丹参酮ⅡA测定的干扰,已成功用于实际样品中丹参酮ⅡA含量的直接测定.该方法灵敏度高、检测范围宽,结果令人满意.     

隐丹参酮的电化学行为及其测定

采用循环伏安法研究隐丹参酮在电极上的电化学行为及建立差示脉冲伏安对其测定的新方法。在pH 4.0乙酸盐缓冲液中,氧化峰电流与隐丹参酮浓度在3.0×10-8~2.0×10-7mol/L范围内呈良好的线性关系,检出限为2.0×10-9mol/L。玻碳电极可有效消除样品中其它组分对隐丹参酮测定的干扰,已用于实际样品中隐丹参酮的直接测定。该方法灵敏度高、检测范围宽。     

阿昔洛韦在硼掺杂金刚石电极上的电化学行为及其与DNA相互作用的研究

利用硼掺杂金刚石(BDD)电极通过循环伏安法和微分脉冲伏安法研究了阿昔洛韦在0.10 mol/L磷酸盐缓冲溶液(pH 7.4)中的电化学行为及其与DNA的相互作用.与玻碳电极相比,阿昔洛韦在BDD电极上的循环伏安曲线在1.17 V处的氧化峰电流更大,背景电流较低.根据峰电位随溶液pH值和扫描速率的变化趋势考察了阿昔洛韦...     

萘乙酸在多壁碳纳米管-离子液体复合修饰电极上的电催化氧化及电分析方法

运用循环伏安法(CV),计时库仑法(CC),计时电流法(CA)研究了萘乙酸(NAA)在玻碳电极(GCE),多壁碳纳米管修饰玻碳电极(MWCNTs/GCE)和多壁碳纳米管-离子液体修饰玻碳电极(MWCNTs-IL/GCE)上的电化学行为及电化学动力学性质.实验结果表明,NAA在GCE电极上于1.00V附近有一不可逆氧化峰...     

基于树状高分子固定DNA的电化学生物传感器的研究

用电化学氧化法使玻碳电极表面氧化生成羧基,利用偶联活化试剂将1.0G树状高分子(PAMAM)固定在玻碳电极表面,并通过共价结合固定ssDNA。以亚甲基蓝为指示剂,采用循环伏安法、示差脉冲伏安法等电化学方法对DNA电化学生物传感器进行了表征。结果发现,通过亚甲基蓝与双链dsDNA作用的氧化还原电流的变化,可以识别和定量检测溶液中互补的ssDNA片段。经过条件优化,本法测定DNA的浓度线性范围为2×10-9～2×10-7mol/L,检出限为1×10-9mol/L。     

玻碳电极上Ru（bpy）3^2＋的吸附及其电致化学发光的研究

通过电化学循环伏安法和电致化学发光方法,研究了Ru(bpy)32 在玻碳电极上的吸附,研究结果表明,2Ru(bpy)3 的浓度和与玻碳材料接触的时间,直接影响了Ru(bpy)32 在玻碳上的吸附.还考察了吸附的Ru(bpy)32 在玻碳电极上被氧化后脱附的情况.     

玻碳电极上Ru(bpy)23+的吸附及其电致化学发光的研究

通过电化学循环伏安法和电致化学发光方法,研究了Ru(bpy)23+在玻碳电极上的吸附,研究结果表明,Ru(bpy)23+的浓度和与玻碳材料接触的时间,直接影响了Ru(bpy)23+在玻碳上的吸附.还考察了吸附的Ru(bpy)23+在玻碳电极上被氧化后脱附的情况.     

农药噻嗪酮在玻碳电极上的电化学行为

应用循环伏安法(CV)、线性扫描伏安法(LSV)、微分脉冲伏安法(DPV)和方波伏安法(SWV)等研究了噻嗪酮在玻碳电极上的电化学行为,并建立样品噻嗪酮的SWV测定法.噻嗪酮在玻碳电极上的电还原涉及两质子/两电子和两质子的不可逆过程.     

电化学还原的氧化石墨烯修饰电极检测L-色氨酸

制备了氧化石墨烯修饰玻碳电极,并运用循环伏安法对氧化石墨烯进行了直接的电化学还原,研究了L-色氨酸在该电化学还原的氧化石墨烯修饰玻碳电极上的电化学行为。结果表明,L-色氨酸在该修饰电极上其氧化峰电流与裸玻碳电极相比增大了7.1倍,且峰电位负移80mV。利用差分脉冲伏安法,在pH=6.5的磷酸盐缓冲溶液中测定L-色氨酸,氧化峰电流与其浓度在0.4～65.0μmol/L范围内呈良好的线性关系,相关系数为0.998,方法检出限为0.2μmol/L。     

粉防己碱在玻碳电极上的电化学行为及其与DNA的相互作用

应用循环伏安法、差分脉冲伏安法、控制电位电解法等电化学方法和紫外光谱法研究了粉防己碱在玻碳电极上的电化学行为及其与DNA的相互作用,并对相关电化学动力学参数进行考察。结果表明,粉防己碱在玻碳电极上发生了受扩散控制的不可逆氧化反应,其在玻碳电极上的电子转移数为2、质子转移数为2、电荷转移系数为0.62。粉防己碱的峰电流随着DNA的加入而降低,且峰电位发生正移,表明粉防己碱与DNA通过嵌插方式相互作用生成复合物,同时计算了两者反应的结合数以及结合常数,结果显示粉防己碱和DNA以1∶1结合形成粉防己碱-DNA复合物,结合常数为4.27×103。     

DNA／聚（3-甲基噻吩）复合膜修饰电极的制备及其应用于研究8-羟基-2＇-脱氧鸟嘌呤核苷的伏安行为及测定

首先通过电聚合方法在玻碳电极表面制备了聚（3-甲基噻吩）（P3MT）修饰膜,然后在一定电位下将DNA分子电沉积到P3MT表面,制备了DNA／（P3MT）复合膜修饰玻碳电极．研究了8-羟基-2’-脱氧鸟嘌呤核苷（8-OH-dG）在该复合膜修饰电极上的伏安行为以及扫描速度、pH值和尿酸对其伏安行为和检测的影响．实验结果表明,该复合膜修饰电极结合了P3MT和DNA两者的优点,使8-OH-dG在复合膜修饰电极上的电化学行为明显改善,而且具有很好的重现性和稳定性．在0．1mol／LpH7．0的磷酸盐缓冲溶液（PBS）中,8-OH-dG的氧化峰电流与其浓度在0．28～4．2μmol／L和4．2～19．6μmol／L两个范围内成良好的线性关系,检出限为56nmol／L（S／N=3）．该研究可以为制备HPLC或毛细管电泳电化学检测器检测8-OH—dG打下一定的基础,因此在检测尿样中8-OH-dG的研究方面具有潜在的应用价值．     

Electrochemical and spectroelectrochemical studies of four tanshinones from Salvia miltiorrhiza Bunge

The spectra of four tanshinones in the potentiostatic reduction process, including tanshinone I, dihydrotanshinone I, tanshinone IIA and cryptotanshinone, were investigated using spectroelectrochemical cell and UV spectrophotometer. Their cyclic voltammograms （CVs） were recorded with a glassy carbon electrode （GCE）. The experiment results show that the antioxidant activity of these tanshinones, in the structure, where A, B and C rings connect through a single double bond, is weaker than that where A ring does not have double bond. Moreover, the increasing angle strain in the reduction process could enhance the antioxidant activity. In summary, the rank of antioxidant activities of these tanshinones, from weak to strong, is tanshinone I, dihydrotanshinone I, tanshinone IIA and cryptotanshinone.     

Enhanced Electrocatalytic Oxidation of Paracetamol at DNA Modified Gold Electrode

Cysteine monolayer has been assembled onto bare gold electrode (SAM/Au), and subsequently deoxyribonucleic acid (DNA) has been successfully immobilized at the SAM/Au electrode. The thus modified electrode is assigned DNA/SAM/Au. Modification steps of the electrode were followed electrochemically using K₄[Fe(CN₆)] electrochemical marker. Also, the build‐up of the modified electrode composition is followed using EDX and the crystallographic orientation is inspected using XRD. The electrochemical behavior of paracetamol (PC) at DNA/SAM/Au electrode is investigated. Interestingly, the sluggish irreversible behavior of PC at the bare gold electrode is converted to a quasi‐reversible one at DNA/SAM/Au electrode pointing to some interaction between the immobilized DNA and PC. The enhanced electrochemical behavior of PC at modified DNA/SAM/Au electrode is successfully used for a sensitive electrochemical determination of PC. Square wave voltammetry (SWV) was used for this purpose. The concentration of PC was in linear relation with the peak current at the optimum conditions within the range 10.0–110.0 μg mL^?1 with correlation coefficient (R²) of 0.998. Also, the standard deviation (SD) and relative standard deviation (RSD) were calculated and found to be 0.817 and 1.52, respectively, indicating the significance of the present method.     

布洛芬在石墨烯/DNA/纳米金修饰电极上的电化学行为及测定

利用石墨烯/DNA/纳米金(Gr/DNA/GNPs)修饰电极对布洛芬(IB)的电化学行为进行了研究。分别采用紫外-可见分光光度法和扫描电镜成像技术对Gr/DNA/GNPs复合材料进行了表征。比较了不同修饰电极的检测效果并考察了缓冲体系及修饰量等对测定的影响。实验结果表明,IB在Gr/DNA/GNPs复合材料修饰电极上的电化学信号较为明显,在0.1 mol·L-1PBS缓冲溶液(pH 6.8)中,IB于0.83 V处可观察到1个灵敏的氧化峰。在最佳实验条件下对IB进行检测,其线性范围为7.2×10-7~4.9×10-5mol·L-1,检出限为1.5×10-7mol·L-1。干扰实验和重复实验的结果表明,该修饰电极选择性及重现性良好。用于实际样品的检测,结果满意。     

Determination of Tetracycline at a UV‐Irradiated DNA Film Modified Glassy Carbon Electrode

In this study, interaction of tetracycline (TC) and DNA in the Britton? Robinson buffer solution (BR) was studied by cyclic voltammetry. The experimental results reveal that TC can bind strongly to DNA and the association constant and binding number between TC and DNA was obtained. Then DNA was immobilized on a glassy carbon electrode by UV‐irradiation. Through this process, water‐soluble DNA was converted into insoluble materials, and a stable DNA film was formed on the electrode. The electrochemical oxidation behavior of TC was studied at UV‐irradiated DNA film modified glassy carbon electrode (UV‐DNA‐GCE). The response of modified electrode was optimized with respect to pH, accumulation time, ionic strength, drug concentration and other variables. TC at the surface of modified electrode showed a linear dynamic range of 0.30–90.00 µM and a detection limit of 0.27 µM. To demonstrate the applicability of the modified electrode, it was used for the analysis of real samples such as pharmaceutical formulations and milk.     

A DNA biosensor based on graphene paste electrode modified with Prussian blue and chitosan

A chemically modified graphene paste electrode was prepared by incorporating appropriate amounts of graphene in a paste mixture, followed by electrodepositing Prussian blue (PB) and coating chitosan on the electrode surface. The electrode was able to bind ssDNA, and gave a better voltammetric response for complement DNA than did ordinary carbon paste electrodes. The response of the electrode was characterized with respect to the paste composition, immobilization time of probe DNA on the chitosan and PB modified graphene paste electrode, and the effect of 1-ethyl-3-(3-dimethylaminopropyl)-carbodiimide hydrochloride (EDC). The electrochemical behavior of PB assembled on the graphene paste electrode was investigated. The combination of graphene and PB can enhance the current response of the graphene paste electrode. As a consequence of DNA hybridization, a significant change in the current due to daunomycin intercalated with double-stranded DNA (ds-DNA) on the surface of the graphene paste electrode was observed.     

Photoelectrochemistry as a novel strategy for DNA hybridization detection

The special properties of ssDNA and dsDNA molecules in structure and electric behavior, may offer us some new ideas for the fabrication of genosensors and DNA-chips. In this work, the photoelectrochemical method was firstly employed to characterize the photoelectric behavior of a ssDNA probe electrode, which was prepared with the self-assembly technique, and its resulting dsDNA electrode. The obvious decrease in the photocurrent of the dsDNA modified electrode at open potential or a bias voltage indicated that photoelectrochemistry was another useful method for DNA hybridization detection. Using the special design of ssDNA probes, we attempt to discuss further the relationship between the properties of DNA molecules and their photoelectric behaviors. In addition, the electrochemical impedance method was employed to verify the occurrence of some modifications over the electrode interface before and after the hybridization event.     

Determination of Cryptotanshinone, a Major Active Component in Salvia miltiorrhiza, in Caco-2 Monolayers by HPLC with UV Detection

Cryptotanshinone is the major active component from the root of Salvia miltiorrhiza which has been widely used for the management of coronary heart disease. The aims of this study were to develop and validate an HPLC method for the determination of cryptotanshinone in the human intestinal cell line Caco-2 monolayers, and to investigate the transport kinetics of cryptotanshinone. The developed HPLC method was sensitive and reliable, with acceptable accuracy (90–110% of true values) and precision (intra- and inter-assay CV < 10%). The total running time was within 10 min, with acceptable separation of the compounds of interest. The limit of quantitation (LOQ) for cryptotanshinone was 10 ng mL⁻¹. A simple liquid–liquid extraction procedures resulted in an extraction efficiency of 90.8 ± 8.9 and 93.5 ± 6.2% for cryptotanshinone at 0.1 and 3 μg mL⁻¹. The calibration curve was linear over the concentration range of 0.05–3.0 μg mL⁻¹ with the mean correlation coefficients >0.999. The validated HPLC method was applied to examine the epithelial transport of cryptotanshinone by Caco-2 monolayers. The transport across the monolayers from the apical (B) to basolateral (A) side was significantly higher than that from A to B side. The structural analog of cryptotanshinone and a known substrate of P-glycoprotein, tanshinone II_A, dramatically inhibited the B to A transport of cryptotanshinone in the monolayers. These results indicate that the developed HPLC method was suitable for the study of transport of cryptotanshinone by Caco-2 monolayers and cryptotanshinone is a substrate of P-glycoprotein.     

Voltammetric Behavior of the Alizarin Red S Interaction with DNA and Damage to DNA

The electrochemical behavior and the interaction of alizarin red S (ARS) with calf thymus DNA was investigated on a bare glassy carbon electrode (GCE) and DNA modified GCE (DNA/GCE), respectively. ARS showed a pair of redox peaks at ?0.445 V and ?0.414 V on a bare GCE. On addition of DNA into the ARS solution, the peak current of ARS decreased and the peak potential positively shifted, but without new redox peaks appeared. The ARS reduction peak current increased with immersion time on a DNA/GCE. The results showed that ARS could interact with DNA molecules by intercalative binding mode. The equilibrium constant, binding number and the ratio of binding constant for oxidized and reduced ARS forms were obtained. The DNA damage was directly detected by appearance of guanosine and adenosine bases oxidation signal. The influence of experimental conditions on DNA damage extent was discussed in detail.     

The reaction of Tanshinones with Amines

The reaction of cryptotanshinone and tanshinone IIA with several biogenic amine metabolites involved in the pathogenic pathways of HE were investigated and eight 1,2,3,4-tetrahydrophenanthrene derivatives,2-6 and 8-10,were obtained.The probable mechanism on reaction was discussed.