DNA与维生素B2相互作用的电化学研究

研究了维生素 B2 与 DNA在 p H4.5 6条件下相互作用的电化学行为。DNA的存在能导致维生素 B2 氧化还原峰电流降低 ,峰电位基本不变。通过测定 DNA引入前后的一些电化学参数 ,推测维生素 B2 与 DNA在该条件下结合生成了一种非电活性的超分子化合物。针对该类型体系 ,推导出一系列方程求得该超分子化合物的组成为 1∶ 1 ,结合常数β =6.0 2× 1 0     

电化学方法研究芦丁与鲱鱼精DNA之间的相互作用

采用循环伏安法和交流阻抗法研究了固定在羟基磷灰石薄膜上的DNA与芦丁之间的相互作用.在pH 5.6～7.0范围内,芦丁在DNA修饰电极上的峰电位随pH的增加向负方向移动;在50～800 mV/s扫描速度范围内电极过程同时受扩散和吸附控制,且扩散控制占主导作用;随溶液离子强度增大,芦丁在DNA修饰电极上的表观式量电位不断正移,表明芦丁与DNA之间存在一定的嵌入作用,二者结合形成了超分子化合物.     

嗪草酮与脱氧核糖核酸相互作用的研究

采用电化学方法,结合紫外-可见分光光度法、荧光光度法、粘度法和与变性脱氧核糖核酸(DNA)的作用研究了嗪草酮(M)与DNA的作用机制,并通过研究嗪草酮对溴化乙锭-天然DNA体系的影响,以及天然DNA和变性DNA与嗪草酮的作用的不同,得出嗪草酮与DNA分子发生类似溴化乙锭(EB)嵌插作用的结论,形成DNA-M 1∶1型的超分子化合物DNA-M。求得结合常数β=1.8×105L/mol。DNA加入量在1×10-5~1.5×10-4mol/L范围内,DNA浓度与峰电流降低值之间存在线性关系。     

大黄酸与牛血清白蛋白相互作用的电化学研究

在pH3.5的Britton -Robinson缓冲液中 ,研究了大黄酸与牛血清白蛋白 (BSA)相互作用的电化学行为 ,二者结合生成了一种非电活性的超分子化合物。用循环伏安法和示差脉冲伏安法对该体系进行了研究 ,并对结合反应的机理进行了探讨。BSA的存在导致大黄酸氧化还原峰电流降低 ,峰电位基本不变 ,峰电流的下降值同所加入的BSA浓度在一定范围内呈线性关系。线性范围3.0×10 -8～8.0×10 -7mol/L ,检出限1.21×10 -8mol/L。     

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。     

木犀草素与DNA相互作用的电化学研究

木犀草素在0.04 mol/L B-R(pH 4.00)缓冲溶液中于 0.478 V(vs.SCE)和 0.450 V(vs.SCE)有一对氧化还原峰.当向该溶液中加入DNA分子后,通过比较电化学参数转移系数α和表观电子传递速率常数ks的变化.可知木犀草素嵌入DNA碱基对间形成了非电活性的超分子化合物从而使得峰电位正移,峰电流下降;通过二者的紫外吸收光潜对其嵌入作用进行了验证.研究发现木犀草素的氧化峰电流Ipa与DNA质量浓度在2～12 mg/L的范围内基本呈线性关系,线性回归方程为Ipa(10-5A)=8.68-0.322 pDNA(mg/L),相关系数r为0.989;建立了定量检测DNA的方法.并求得木犀草素和DNA嵌入作用的结合常数β=3.02×1011,结合数m=2.     

土霉素的电化学性质及其与DNA相互作用的研究

研究了土霉素在玻碳电极上的电化学行为。并利用电化学方法研究了土霉素与小牛胸腺DNA(ctDNA)的相互作用,DNA的存在能导致土霉素还原峰电流降低,峰电位正移,推测土霉素与DNA在该条件下以键合模式相互结合。紫外-可见吸收光谱的研究进一步确证了上述结果。     

青蒿素与DNA作用的电化学机理

在体积分数为20%乙醇的Britton-Robinson缓冲溶液(pH=7.4)中,利用循环伏安法和紫外可见吸收光谱法研究了青蒿素与DNA的相互作用。电化学研究表明,DNA的存在能导致青蒿素在银电极上-0.672 V处的还原峰电流下降,峰电位正移。通过对比双链DNA(dsDNA)和单链(ssDNA)与青蒿素作用,得出青蒿素可嵌插到DNA分子中,形成非电活性的复合物。电化学方法可计算出DNA与青蒿素的结合比为1∶4,结合常数为3.6×104。电极过程的电化学参数表明,DNA作用前后,α、β值变化不明显,进一步证实了该复合物是非电活性;Ks值变小,表明二者作用后受扩散控制。紫外可见吸收光谱法研究表明,青蒿素对DNA分子发生嵌插作用。通过光谱滴定法可计算二者的结合比和结合常数,同样获得1个DNA结合4个青蒿素分子,结合常数为4.0×104,与电化学方法测定结果相吻合。实验数据显示,青蒿素进入细胞内有可能与细胞核中DNA结合,诱导细胞凋亡。     

线性扫描伏安法研究美托拉腙与DNA的相互作用

在NaOH(pH 10.0)介质中,美托拉腙分别在-1.810 V和-2.075 V处具有2个还原峰,DNA的加入导致美托拉腙的2个还原峰峰电位正移,峰电流下降,表明美托拉腙与DNA之间发生了相互作用,形成了非电活性的化合物.考察了时间、温度、扫描速率、离子强度等条件对该相互作用的影响;结合DNA对美托拉腙紫外吸收光谱的影响,推断美托拉腙分子与DNA分子的相互作用是通过嵌插方式结合.在优化条件下,反应体系在-2.075 V处的还原峰电流I_(pa)与DNA的质量浓度在6 ～36 mg/L范围内呈较好的线性关系,相关系数为0.994 8,检出限为3 mg/L;通过对反应机制的研究,得到美托拉腙与DNA间的结合常数β为1.334×10~4 L/mol,结合数为2.     

Aerolysin蛋白纳米孔道直接检测单个DNA碱基修饰

基于Aerolysin生物膜通道蛋白的纳米孔道电化学分析技术,因其高的电化学空间限域能力可实现超灵敏DNA单分子检测。本文利用单个Aerolysin纳米孔道在无需标记、无需扩增的条件下直接分辨3种具有单个碱基差异的单链DNA。实验结果显示,具有单个炔基侧链基团修饰的单个ss DNA在限域空间内与Aerol-ysin纳米孔道的相互作用时间较未修饰的ss DNA增长近7倍,电流阻断程度增大7%,且高斯峰半峰宽减小了44%,增强了Aerolysin纳米孔道对单个DNA分子的分辨能力。研究成果有望推动Aerolysin纳米孔在DNA直接测序及表观遗传修饰检测中的应用。     

DNA与Rt、VB2相互作用的电化学性质

芦丁(Rt)是存在于多种植物体中的一种多羟基黄酮化合物,是某些中草药的有效成分。本文在前文基础上着重对芦丁、VB2在玻碳电极上的电化学性质、二者与DNA相互作用的机理等方面的差异进行比较,这对维生素类药物与生物大分子相互作用的研究与应用具有重要意义。     

Studies on the Recognition Interaction of Rhodamine B and DNA by Voltammetry

Introduction Theinteractionofvariousmoleculessuchas anticancerdrugs,metalcomplexesandorganic dyeswithDNAhasattractedaconsiderableinter- estofsomeresearchersinrecentyears.Theinflu- encesofsmallorganicmoleculesontheDNAstruc- tureandfunctionareofgreatimportanceindrug composition,carcinogenicmechanismandgenemu- tation[1_3].Atpresent,manymethodsandmodels havebeenproposedforthestudyoftheinteraction ofDNAwithsmallmolecules,suchasspectropho- tometry,fluorometry,lightscatteringtechniques andelectro…     

Electrochemical Studies of the Recognition Interaction of Rhodamine B with DNA

The recognition interaction of rhodamine B (RB) with DNA was studied in pH 7.5 Britton-Robinson (B-R) buffer solution by electrochemical techniques. An irreversible oxidation peak at glassy carbon electrode was obtained at 0.92V (vs. SCE). After the addition of DNA into the RB solution, the peak current of RB decreased apparently without the shift of peak potential. The electrochemical parameters such as the charge transfer coefficient α and the electrode reaction standard rate constant ks of RB in the absence and presence of DNA were determined, which did not change, indicating that a non-electroactive complex was formed, so the concentration of RB in the solution decreased and the peak current decreased correspondingly.     

Sensitive voltammetric determination of rutin in pharmaceuticals, human serum, and traditional Chinese medicines using a glassy carbon electrode coated with graphene nanosheets, chitosan, and a poly(amido amine) dendrimer

The electrochemical behavior of rutin was investigated in pH 6.0 buffer solution using a glassy carbon electrode coated with graphene nanosheets, chitosan and a poly (amidoamine) dendrimer in pH?6.0 buffer solution. The results indicate that the modified electrode displays electrochemical redox activity towards rutin, and that the oxidation peak current of rutin increases significantly compared to that at other electrodes. The amount of immobilized graphene and dendrimer, pH value, scan rate, accumulation time and accumulation potential were optimized. The kinetic parameters, charge transfer coefficient, transfer electron number, proton transfer number, standard rate constant, were calculated. Under the optimized conditions, the oxidation peak current is proportional to the concentration of rutin in the range between 0.001 and 2.0???mol L^?1 (R?=?0.9991). The detection limit is 0.6?nmol L^?1 (at S/N?=?3). The electrode exhibits satisfactory selectivity and reproducibility and was applied to the determination of rutin in pharmaceutical preparations, spiked human serum, and traditional Chinese medicine, with recoveries between 97.2 and 104.67%.

Electrochemical behavior of electrodeposited rutin film on a multi-wall carbon nanotubes modified glassy carbon electrode. Improvement of the electrochemical reversibility and its application as a hydrazine sensor

By immobilizing rutin at the surface of a glassy carbon electrode (GCE) modified with multi-wall carbon nanotubes (MWCNT), a new modified electrode has been fabricated and its electrochemical behavior was investigated by cyclic voltammetry. Cyclic voltammograms of the resulting modified electrode show stable and a well defined redox couple with surface confined characteristics. The results show that the reversibility of rutin is significantly improved at a MWCNT modified GCE in comparison with GCE alone. The charge transfer coefficient, α, was calculated to be 0.4, and charge transfer rate constant, k_s, was 46.7 s⁻¹ in pH 8, indicating great facilitation of the electron transfer between rutin and MWCNT deposited on the electrode surface. The rutin MWCNT (RMWCNT) modified GCE showed excellent mediation of hydrazine oxidation: a decrease in the overvoltage of hydrazine electrooxidation was observed as well as a dramatic increase in the peak current compared to that seen at a rutin modified GCE (RMGCE), activated GCE or bare GCE. Hydrazine was determined amperometrically at the surface of RMWCNT modified GCE in pH 8. Under the optimized conditions the calibration curve is linear in the concentration range 2.0–190.0 μM hydrazine. The detection limit and sensitivity are 0.61 μM and 0.0656 μA μM⁻¹, respectively. Finally the kinetic parameters of the electron transfer coefficient, α, the heterogeneous rate constant of dependent to different potentials, k′(E), and the standard heterogeneous rate constant, k⁰, for oxidation of hydrazine at the RMWCNT surface were determined using various electrochemical methods. The advantages of this modified electrode for hydrazine determination are high sensitivity, excellent catalytic activity, short response time, wide linear range, and high exchange current density.     

碳纳米管和聚电解质修饰玻碳电极的电化学行为及对芦丁的检测

研究了芦丁和抗坏血酸在碳纳米管与聚电解质复合材料修饰电极(PDDA/SWCNTs/GC)上的电化学行为.循环伏安测试结果表明,在该修饰电极上芦丁的电子传递反应受吸附控制.在碳纳米管和PDDA的共同作用下,芦丁和抗坏血酸的氧化峰电位分离大于200 mV.利用微分脉冲伏安法测定了不同浓度芦丁的电流响应,线性范围为2.5～110μmol.L-1,检出限0.5μmol.L-1.即使抗坏血酸浓度较高时,氧化峰电流与芦丁的浓度仍然呈良好的线性关系.该修饰电极制作简便,可应用于药物中芦丁含量的直接检测.     

Voltammetric Detection of the DNA Interaction with Toluidine Blue

Binding reactions of toluidine blue (TB) with herring fish DNA in pH 6.0 Britton–Robinson (B–R) buffer solution have been investigated by cyclic voltammetry and linear‐sweep voltammetry at a glassy carbon electrode. TB has a couple of well‐defined redox peaks. The addition of DNA into the TB solution resulted in the decrease of the redox‐peak currents and the shift negatively of the anodic peak potential. The values of the electrochemical parameters such as the electron number of the electrochemical reaction, the electron transfer coefficient and the electrochemical reaction standard rate constant in the absence and presence of DNA, as well as the values of binding constant and binding ratio of DNA with TB were obtained. Almost unchanged values of the electrochemical parameters in the absence and presence of DNA show that nonelectroactive complexes were formed when TB interacted with DNA. DNA concentration can be determined by the decrease of the peak current of TB. The binding mode of TB with DNA was discussed.     

Sensitive voltammetric determination of rutin at a carbon nanotubes-ionic liquid composite electrode

A new composite electrode of multiwall carbon nanotubes (MWNTs) and 1-dodecyl-3-methylimidazolium hexafluorophosphate (DDMIMPF₆) was fabricated to determine rutin. This electrode showed very attractive electrochemical performances compared to other kinds of ionic liquid modified electrodes and notably improved sensitivity and stability. Electrochemical behavior of rutin at the composite electrode had been investigated in pH 2.09 Britton–Robinson buffer solution by cyclic voltammetry and square wave voltammetry. The experimental results suggested that the composite electrode exhibited an electrocatalytic activity toward the redox of rutin. The electrochemical parameters of rutin were calculated with the results of the charge transfer coefficient (α) and the standard rate constant (k _s) as 0.48 and 2.09 s^?1. Under the selected conditions, the reduction peak current was linearly dependent on the concentration of rutin in the range of 0.03–1.5 μM, with a detection limit of 0.01 μM (S/N?=?3). The relative standard deviation for six times successive determination of 1 μM rutin was 1.6 %. The method was successfully applied to the determination of rutin in tablets and urine samples without the influence of the coexisting substances. In addition, the MWNTs/DDMIMPF₆ composite electrode exhibits a distinct advantage of simple preparation, surface renewal, good reproducibility, and stability.     

Electrochemical Studies of Pirarubicin and Its Interaction with DNA at a Co／GC Ion Implantation Modified Electrode

IntroductionIon implantation is a new material surfacemodification technique.It has been also applied tostudying the electrochemical behaviors of organicdrugs and biological materials as well as their de-terminations. This method offers good stability,reproductivity and catalytic activity[1] .Pirarubicin( THP) is an active highly effective and new antitu-moral anthracycline antibiotic,which has gainedwidespread clinical use in the chemotherapeutictreatment of a variety of human cancers.The d…