电化学石英晶体微天平实时表征和定量检测短序列DNA

利用电化学石英晶体微天平(EQCM)这一灵敏的质量和电化学传感器测定特定序列DNA。应用自组装膜技术在压电石英晶振表面自组装一带羧基的α－硫辛酸单层膜,通过盐酸1-乙基-3-(3-二甲基氨基丙基)碳二亚胺(EDC)及N-羟基琥珀酰亚胺(NHS)共价固化寡聚核苷酸为探针,用于测定与其碱基序列互补的DNA。实验中EQCM实时监测了α-硫辛酸的自组装过程、探针固化过程及其与cDNA杂交过程。定量得出了探针固化量及cDNA杂交量。在酸性、中性和碱性条件下,分别对固化和杂交过程进行表征,实验发现探针固化及DNA杂交都受pH影响,本文对此现象进行了解释。同时,利用染料Hoechst33258的电化学活性,使其与双链DNA嵌合,通过测量Hoechst33258的电化学信息进一步验证了DNA杂交关键步骤。     

Electrochemical detection of sequence-specific DNA using a DNA probe labeled with aminoferrocene and chitosan modified electrode immobilized with ssDNA

The electrochemical detection of sequence-specific DNA using a DNA probe labeled with aminoferrocene (AFC) is reported. Sample ssDNA was immobilized on a chitosan modified glassy carbon electrode. A sequence-known DNA with 256 bp [obtained by polymerase chain reaction (PCR)] was successfully labeled with the electro-active reagent AFC by 1-ethyl-3-(3-dimethylaminopropyl) carbodiimide for the first time. This DNA probe labeled with AFC was applied to hybridize with a sequence-unknown DNA sample. Only the complementary sequence (cDNA) could form a double-stranded DNA (dsDNA) with the DNA probe labeled with AFC. The anodic peak currents (ipa) of the AFC bound to the dsDNA by differential pulse voltammetry were used for the determination of cDNA. The ipa of AFC was linearly related to the concentration of cDNA sequence between 1.0 x 10(-8) and 6.0 x 10(-6) mol L-1. The detection limit was 2.0 x 10(-9) mol L-1 using 3 sigma (where sigma is the standard deviation of blank solution, n = 11). The probe showed high sensitivity and selectivity.     

Electrochemical DNA biosensor for the detection of short DNA species of Chronic Myelogenous Leukemia by using methylene blue

A novel assay for the voltammetric detection of 18-bases DNA sequences relating to Chronic Myelogenous Leukemia (CML, Type b3a2) using methylene blue (MB) as the hybridization indicator was reported. DNA was covalently attached onto a glassy carbon electrode (GCE) through amines of the DNA bases using N-hydroxysulfosuccinimide (NHS) and N-(3-dimethylamion)propyl-N′-ethyl carbodiimidehydrochloride (EDC). The covalently immobilized single-stranded DNA (ssDNA) could selectively hybridize with its complementary DNA (cDNA) in solution to form double-stranded DNA (dsDNA) on the surface. A significant increase of the peak current for methylene blue upon the hybridization of immobilized ssDNA with cDNA in the solution was observed. This peak current change was used to monitor the recognition of CML DNA sequence. This electrochemical approach is sequence specific as indicated by the control experiments in which no peak current change was observed if a non-complementary DNA sequence was used. Factors, such as DNA target concentration and hybridization conditions determining the sensitivity of the electrochemical assay were investigated. Under optimal conditions, this sensor has a good calibration range between 1.25 × 10⁻⁷ and 6.75 × 10⁻⁷ M, with CML DNA sequence detection limit of 5.9 × 10⁻⁸ M.     

Electrochemical DNA biosensor for the detection of Listeria Monocytogenes using toluidine blue as a hybridization indicator

An electrochemical DNA biosensor was established for the determination of actin-assembly inducing protein (actA) gene sequences from Listeria monocytogenes and its polymerase chain reaction (PCR) product. The actA gene probe sequences were covalently immobilized on the surface of the mercaptoacetic acid self-assembled gold electrode with the help of N-(3-dimethylaminopropyl)-N′-ethylcarbodiimide hydrochloride (EDC) and N-hydroxysuccinimide (NHS), which was further used to hybridize with the target sequence. Toluidine blue (TB) was used as an effective electrochemical indicator for the discrimination of the hybridization reaction on the electrode surface, which had stronger interaction with double-stranded DNA (dsDNA) than single-stranded DNA (ssDNA). The electrochemical parameters of TB on DNA modified electrodes were carefully calculated. Based on the different electrochemical responses of TB on DNA modified electrodes, the actA gene sequences can be detected in the concentration range from 1.0 × 10^-7 to 8.0 × 10^-5 M. The PCR product of Listeria monocytogenes was successfully detected by the proposed electrochemical biosensor.     

以乙二胺为手臂分子制备的DNA修饰电极及其伏安性能

Carboxyl was formed on the surface of glassy carbon electrode(GCE) by electrochemical oxidation. Ethylenediamine(En) was used as the arm molecule to link carboxyl with dsDNA using 1-ethyl-3-(3-dimethylaminopropyl)-carbodiimide hydrochloride (EDC) and N- hydroxysuccinimide (NHS) as the activators to prepare dsDNA modified electrode(dsDNA/En/GCE). It was shown that dsDNA couM be covalently immobilized on the surface of GCE. ssDNA modified electrode(ssDNA/En/GCE) was obtained via the thermal denaturation of dsDNA/En/GCE. The dsDNA/En/GCE and ssDNA/En/GCE were characterized by voltammetry with methylene blue(MB) as the indicator. The results indicated that the currents of the redox peaks of MB at ssDNA/En/GCE were larger than those at dsDNA/En/GCE, and the currents of the redox peaks at En/GCE were the smallest. The peak-currents of MB at the DNA modified electrode had good reproducibility after multi-denaturation and hybridization cycles.     

Positive ion electrospray ionization mass spectrometry of double-stranded DNA/drug complexes.

Positive ion electrospray ionization mass spectra of 16 base-pair double-stranded (ds)DNA have been obtained with essentially no ions from single-stranded DNA present. Single-stranded DNA was minimized by: (1) careful choice of DNA sequences; (2) the use of a relatively high salt concentration (0.1 M ammonium acetate, pH 8.5), and, (3) a low desolvation temperature (40 degrees C). Similarly, ESI-MS complexes of dsDNA with cisplatin, daunomycin and distamycin were obtained that contained only negligible amounts of single-stranded DNA. The complexes with daunomycin and distamycin were more stable to strand separation in the gas phase than dsDNA alone. This is in agreement with solution studies and with other recent gas phase results. These data contrast with many earlier ESI-MS studies of dsDNA and DNA/drug complexes in which ions from ssDNA are also normally observed.     

灿烂甲酚蓝在DNA修饰金电极上的电化学行为

利用自组装技术将巯基乙醇固定在金电极表面形成巯基乙醇自组装膜修饰金电极, 用乙基-(3-二甲基氨丙基)碳二亚胺盐酸盐(EDC)和N-羟基琥珀酰亚胺(NHS)为偶联试剂, 分别将鲱鱼精单链DNA(ssDNA)和双链DNA(dsDNA)固定于金电极表面形成ssDNA和dsDNA 修饰电极. 考察了灿烂甲酚蓝(BCB)在不同DNA 修饰电极上的电化学行为,结果表明, BCB 在ssDNA 和dsDNA 修饰电极上的吸附常数分别为1.67×10^4和3.22×10^4 L·mol-1, BCB 与ssDNA 主要以静电作用结合, 而与dsDNA作用存在静电和嵌插两种模式. dsDNA 对BCB 具有更高的亲和力, 使BCB 可以作为一种有效的电化学杂交指示剂.     

Tethered thiazole orange intercalating dye for development of fibre-optic nucleic acid biosensors

Single-stranded DNA (ssDNA) oligonucleotide in solution, or that is immobilized onto a surface to create a biosensor, can be used as a selective probe to bind to a complementary single-stranded sequence. Fluorescence enhancement of thiazole orange (TO) occurs when the dye intercalates into double-stranded DNA (dsDNA). TO dye has been covalently attached to probe oligonucleotides (homopolymer and mixed base 10mer and 20mer) through the 5′ terminal phosphate group using polyethylene glycol linker. The tethered TO dye was able to intercalate when dsDNA formed in solution, and also at fused silica surfaces using immobilized ssDNA. The results indicated the potential for development of a self-contained biosensor where the fluorescent label was available as part of the immobilized oligonucleotide probe chemistry. The approach was shown to be able to operate in a reversible manner for multiple cycles of detection of targeted DNA sequences.     

Minor groove binding of a novel tetracationic diviologen

Novel tetracationic diviologen compounds of the general formula CH3(CH2)nV2+(CH2)6V2+(CH2)nCH3 (where V2+ = 4,4'-bipyridinium and n = 5 or 11) were investigated as electrochemical reporters of DNA duplex formation. These compounds bind to both single-stranded DNA (ssDNA) and double-stranded DNA (dsDNA) when the DNA is either present in solution or immobilized at electrode surfaces. Binding to thiolated ssDNA and dsDNA immobilized at Au electrodes was characterized using the electrochemical response for the reduction of the V2+ state to the V+ (viologen radical cation) state. An analysis of the charge for this reduction provided isotherms and binding constants for binding of these diviologens to both forms of immobilized DNA. Saturation of the binding is achieved at solution concentrations near 20 microM. For both the n = 5 and 11 diviologens, binding to ssDNA is driven by electrostatic charge neutralization. For the n = 11 case, the binding is cooperative. In the presence of dsDNA, the n = 11 diviologen exhibits a unique reduction potential for the V2+/+ redox couple that is shifted approximately 100 mV negative of that in the presence of ssDNA. This new electrochemical signature is attributed to the reduction of viologen groups bound in the minor groove of the DNA duplex. For dsDNA in solution, an increase in the thermal denaturation temperature (Tm) from 60 to 66 degrees C as a function of the n = 11 diviologen concentration confirmed its interaction with the duplex. Circular dichroism (CD) spectroscopy also was used to investigate the binding of both the V2+ and V+ redox states of the n = 11 diviologen to dsDNA in solution. For the V+ state, a CD signal was observed that is consistent with the presence of face-to-face pi dimers of the viologen groups. This unambiguously demonstrates the binding of this redox state of the diviologen in the dsDNA minor groove and the formation of such dimers in the minor groove.     

Characterization of single- and double-stranded DNA on gold surfaces

Single- and double-stranded deoxy ribonucleic acid (DNA) molecules attached to self-assembled monolayers (SAMs) on gold surfaces were characterized by a number of optical and electronic spectroscopic techniques. The DNA-modified gold surfaces were prepared through the self-assembly of 6-mercapto-1-hexanol and 5'-C(6)H(12)SH -modified single-stranded DNA (ssDNA). Upon hybridization of the surface-bound probe ssDNA with its complimentary target, formation of double-stranded DNA (dsDNA) on the gold surface is observed and in a competing process, probe ssDNA is desorbed from the gold surface. The competition between hybridization of ssDNA with its complimentary target and ssDNA probe desorption from the gold surface has been investigated in this paper using X-ray photoelectron spectroscopy, chronocoulometry, fluorescence, and polarization modulation-infrared reflection absorption spectroscopy (PM-IRRAS). The formation of dsDNA on the surface was identified by PM-IRRAS by a dsDNA IR signature at approximately 1678 cm(-)(1) that was confirmed by density functional theory calculations of the nucleotides and the nucleotides' base pairs. The presence of dsDNA through the specific DNA hybridization was additionally confirmed by atomic force microscopy through colloidal gold nanoparticle labeling of the target ssDNA. Using these methods, strand loss was observed even for DNA hybridization performed at 25 degrees C for the DNA monolayers studied here consisting of attachment to the gold surfaces by single Au-S bonds. This finding has significant consequence for the application of SAM technology in the detection of oligonucleotide hybridization on gold surfaces.     

ssDNA/十八酸修饰碳糊电极的制备及伏安法表征

将石墨粉与十八酸在80 ℃下混合制成表面富含—COOH的基底碳糊电极(SA/CPE), 然后在活化剂N-羟基琥珀酰亚胺(NHS)和1-乙基-3-(3-二甲基氨丙基)碳二亚胺盐酸盐(EDC)存在下将ssDNA固定到电极表面制备ssDNA修饰电极(ssDNA/SA/CPE). 以亚甲基蓝(MB)为指示剂, 用循环伏安法对SA/CPE和ssDNA/SA/CPE进行电化学表征, 发现其在ssDNA/SA/CPE上较在SA/CPE上的氧化峰电流(i_pa)和还原峰电流(i_pc)分别增大1.9倍和1.7倍, 式电势(E_f)负移8 mV. 把ssDNA/SA/CPE放在互补ssDNA溶液中杂交后, MB的i_pa 和i_pc较在SA/CPE上分别增大1.0倍和0.8倍, E_f负移18 mV. 用0.5 mol/L 的NaOH溶液冲洗使电极表面杂交而成的dsDNA变性洗脱, MB的伏安信号几乎与在ssDNA/SA/CPE上一样. i_pc与SA/CPE上固定的ssDNA质量在1.0×10^－7～5.0×10^－6 g范围内成线性关系, 检测限为2.0×10^－9 g (S/N＝3). 这种既廉价又灵敏的电化学生物传感器有望在转基因植物产品检测研究中得到应用.     

Label-Free DNA Biosensor for Electrochemical Detection of Short DNA Sequences Related to Human Papilloma Virus

Abstract

Highly sensitive label-free techniques of DNA determination are particularly interesting in relation to the present development of an electrochemical hybridization biosensor for the detection of short DNA fragments specific to the human papilloma virus (HPV). Unlabeled DNA probes have been immobilized by spontaneous coadsorption of thiolated single-stranded oligonucleotides (HS-ssDNA) onto the sensing surface of a screen-printed gold electrode (SPGE). The covalently immobilized single-stranded DNA probe (HS-ssDNA) could selectively hybridize with its complementary DNA (cDNA) in solution to form double-stranded DNA (dsDNA) on the surface. DNA is treated with acid (e.g., 0.5 M chloridric acid), and the acid-released purine bases are directly determined by square wave voltammetry (SWV).

Variables of the probe-immobilization and hybridization steps are optimized to offer convenient quantitation of HPV DNA target, in connection with a short hybridization time. Peak currents were found to increase in the following order: hybrid-modified SPGE, 11-base mismatched modified SPGE, 18-base mismatched SPGE, and the probe modified SPGE. Control experiments with noncomplementary oligonucleotides were carried out to assess whether the suggested DNA sensor responds selectively to the target. The effect of the target DNA concentration on the hybridization signal was also studied. Under optimal conditions, this sensor has a good calibration range with HPV DNA sequence detection limit of 2 pg · ml^?1 (S/N = 3).     

DNA sensing on glassy carbon electrodes by using hemin as the electrochemical hybridization label

The electrochemical behavior of hemin, an iron complex of porphyrin, on binding to DNA at a glassy carbon electrode (GCE) and in solution, is described. Hemin, which interacts with covalently immobilized calf thymus DNA, was detected by use of a bare GCE, a double-stranded DNA-modified GCE (dsDNA-modified GCE), and a single-stranded DNA-modified GCE (ssDNA-modified GCE), in combination with differential pulse voltammetry (DPV). The structural conformation of DNA was determined from changes in the voltammetric signals acquired on reduction of hemin. As a result of its large steric structure and anionic substitution on its porphyrin plane, hemin intercalates between the base pairs of dsDNA. A scan-rate study for hemin and the dsDNA-hemin complex were also performed to determine the electrochemical behavior of the complex. The partition coefficient was obtained from the peak currents measured when different concentrations of hemin were in the presence of dsDNA. By observing the oxidation signals of guanine, damage to DNA after reaction with hemin at the GCE surface was also detected. The electrochemical detection of hybridization between the covalently immobilized probe and its target sequence was detected by use of hemin. These results demonstrate the use of DNA biosensors in conjunction with hemin for electrochemical detection of hybridization and damage to DNA.     

DNA-modified electrodes; part 4: optimization of covalent immobilization of DNA on self-assembled monolayers

The covalent immobilization of DNA onto self-assembled monolayer (SAM) modified gold electrodes (SAM/Au) was studied by X-ray photoelectron spectrometry and electrochemical method so as to optimize its covalent immobilization on SAMs. Three types of SAMs with hydroxyl, amino, and carboxyl terminal groups, respectively, were examined. Results obtained by both X-ray photoelectron spectrometry and cyclic voltammetry show that the largest covalent immobilization amount of dsDNA could be gained on hydroxyl-terminated SAM/Au. The ratio of amount of dsDNA immobilized on hydroxyl-terminated SAMs to that on carboxyl-terminated SAMs and to that on amino-terminated SAMs is (3-3.5): (1-1.5): 1. The dsDNA immobilized covalently on hydroxyl-terminated SAMs accounts for 82.8-87.6% of its total surface amount (including small amount of dsDNA adsorbed). So the hydroxyl-terminated SAM is a good substrate for the covalent immobilization of dsDNA on gold surfaces.     

Direct electrochemistry and superficial characterization of DNA-cytochrome c-MUA films on chemically modified gold surface

Cytochrome c (Cyt. c) was immobilized on the 11-mercaptohendecanoic acid (MUA)-modified gold electrode. The electrode was stable and sensitive to Cyt. c. Later, DNA was also immobilized on the two-layer modified electrode. Cyclic voltammetry studies show that Cyt. c can interact with dsDNA and ssDNA. The binding site sizes were determined to be 15 base pairs per Cyt. c molecule with dsDNA and 30 nucleotides binding 1 Cyt. c molecule with ssDNA. The modified electrodes were characterized by quartz crystal microbalance (QCM), impedance spectroscopy and atomic force microscope (AFM). The modified electrode can be used for determining DNA.     

巯基乙酸自组装膜DNA电化学传感器对转基因NOS的定量检测

以转基因植物中常用的根癌农杆菌终止子(NOS)为检测对象, 将巯基乙酸自组装于金电极表面形成巯基乙酸自组装单分子膜, 再利用乙基-(3-二甲基氨丙基)碳二亚胺盐酸盐(EDC)和N-羟基琥珀酰亚胺(NHS)的活化作用将NOS探针ssDNA序列固定于金电极表面形成NOS电化学生物传感器, 以亚甲基蓝(MB)为杂交指示剂, 对NOS靶基因相关序列进行了定量检测.     

Electrochemical Detection of Cecropin CM4 Gene by Single Stranded Probe and Cysteine Modified Gold Electrode

ABSTRACT

A single stranded Cecropin CM4 gene (108 bases) was further immobilized at a cysteine modified gold electrode with the help of water soluble 1-ethyl-3-(3-dimethylaminopropyl)-carbodiimide (EDC). The ssDNA at the modified electrode could undergo hybridization in a hybridization buffer containing single stranded plasmid pLCM-4SN. A DNA minor groove binder, Hoechst 33258, was employed to discriminate between ssDNA and dsDNA. The anodic waves in differential pulse voltammograms (DPVs), of Hoechst 33258 bound to the DNAs, were used as the indicator. This assay procedure was shown to be rapid, sensitive and precise, thus a kind of prototype DNA biosensor was developed.     

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.     

基于聚苯胺掺杂乙醇胺固定DNA电化学传感器的研究

本研究以电化学聚合法制备了聚苯胺掺杂乙醇胺修饰电极,并成功固定了DNA探针。文中对修饰电极的制备和DNA的固定杂交条件进行了探讨,并利用循环伏安法测定嵌入双链DNA(dsDNA)分子碱基对中的亚甲基蓝的氧化还原峰电流,识别和测定溶液中互补的单链DNA(ssDNA)片段,从而实现对溶液中不同基因片段的检测。     

微囊藻属DNA电化学传感器的研制

利用自组装法将巯基修饰的DNA探针与6-巯基-1-己醇(MCH)固定到金电极表面,制备了微囊藻属特定DNA传感器,将该传感器与完全互补的微囊藻DNA序列、完全不互补序列,以及单碱基错配序列进行杂交,以Hoechst 33258为杂交指示剂,应用循环伏安法和线性扫描伏安法研究了该传感器对目标DNA的电化学检测行为.研究表明,当与完全互补DNA杂交后,Hoechst 33258氧化信号有明显的增强.实验对自组装时间、MCH浸泡时间及杂交液离子浓度进行了优化.结果表明,当自组装时间为90 min,MCH浸泡时间为1 h,杂交溶液中NaCl浓度为0.3 mol/L时,电化学信号最好.目标DNA的氧化峰电流值与其浓度在1×10~(-8) ～1×10~(-6) mol/L范围内呈良好的线性关系,检出限为8.1×10~(-9) mol/L.