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1.
Kumar KS  Kang SH 《Electrophoresis》2007,28(22):4247-4254
This study examined the potential of microchip electrophoresis (ME) with a LIF detector using a programmed field strength gradient (PFSG) in a conventional glass double-T microchip for the ultra-fast detection and simultaneous analysis of genetically modified (GM) maize. The separation efficiency and sensitivity at various sieving gels (poly(ethylene oxide) (PEO, M(r) 8,000,000) and 2-hydroxyethylcellulose (HEC) (M(r) 250,000)) and fluorescent dye concentrations were investigated. The PCR products of both the GM and non-GM maize were analyzed within 30 s under the PFSG (470.6 V/cm for 20 s, 117.6 V/cm for 12 s, and 470.6 V/cm for 30 s) with a 2.5% HEC sieving matrix in the running buffer, 1 x Tris-borate EDTA (TBE) (pH 8.30) and 0.5 ppm ethidium bromide. The five transgenic maize varieties (Event176, MON810, Bt11, GA21, and T25) examined in this study were also clearly differentiated by ME-PFSG within 30 s in a single run without any loss of resolution. The ME-PFSG technique is a powerful tool for the ultra-fast detection and simultaneous analysis of GMOs in a variety of foods including maize.  相似文献   

2.
Suresh KK  Lee MJ  Park J  Kang SH 《Talanta》2008,75(1):49-55
This paper describes the applicability of microchip gel electrophoresis using a programmed field strength gradients (MGE-PFSG) method coupled with a polymerase chain reaction (PCR) for the ultra-fast diagnosis of canine T-cell lymphoma. The variable region in the T-cell receptor gamma (TCRgamma) gene from a T-cell lymphoma was used in PCR amplification. The contributions of the various parameters, including the effects of the molecular weight, concentration of the sieving matrix and field strength in MGE, were examined. 0.5% poly (ethyleneoxide) (PEO, M(r) 8000000) was used as the sieving matrix for the ultra-rapid separation of the amplified-PCR products (90 and 130-bp DNA fragments) from the PFSG at an effective length of 20mm in a glass microchip. The PCR products (90 and 130-bp DNA) of the T-cell lymphoma were analyzed within 41.7+/-0.1s, 15.5+/-0.2s and only 7.0+/-0.1s using a low-constant field strength, high-constant field strength and the PFSG, respectively. When 11 clinical samples were analyzed using the MGE-PFSG method, there was a 100% correlation with those obtained using conventional slab gel electrophoresis. The ultra-fast detection and rapid separation capabilities of MGE-PFSG make it an efficient tool for diagnosing T-cell lymphoma in clinical samples with high sensitivity.  相似文献   

3.
4.
We report a diagnostic method for Anaplasma phagocytophilum (A. phagocytophilum) infection in cattle using a nested PCR and microchip electrophoresis (ME). A. phagocytophilum causes human granulocytic anaplasmosis and granulocytic ehrlichiosis, which are emerging tick‐borne zoonotic diseases. Nested PCR was used to amplify genomic DNA samples extracted from cattle blood. The amplified PCR products were analyzed under a sieving gel matrix of 0.7% poly(ethyleneoxide) (Mr=8 000 000) in a conventional glass microchip. In the ME assay, A. phagocytophilum was analyzed within 35 s with a relative standard deviation of 1.30% (n=5) using a programmed field strength gradient (PFSG) as follows: 615.3 V/cm for 0–24 s, 66.7 V/cm for 24–34 s, 615.3 V/cm for 34–100 s. The ME‐PFSG assay was clinically validated by comparing the 16S rRNA gene levels obtained by this method with those measured using conventional slab gel electrophoresis performed with ten cattle blood samples suspected of A. phagocytophilum infection. In contrast to slab gel electrophoresis, the proposed ME‐PFSG methodology had increased sensitivity (200–450 pg/μL), a faster analysis time (<35 s), and required a smaller sample volume (~162 fL).  相似文献   

5.
A multi‐channel microchip electrophoresis using a programmed step electric field strength (PSEFS) method was investigated for fast parallel detection of feline panleukopenia virus (FPV) DNA. An expanded laser beam, a 10× objective lens, and a charge‐coupled device camera were used to simultaneously detect the separations in three parallel channels using laser‐induced fluorescence detection. The parallel separations of a 100‐bp DNA ladder were demonstrated on the system using a sieving gel matrix of 0.5% poly(ethylene oxide) (Mr = 8 000 000) in the individual channels. In addition, the PSEFS method was also applied for faster DNA separation without loss of resolving power. A DNA size marker, FPV DNA sample, and a negative control were simultaneously analyzed with single‐run and one‐step detection. The FPV DNA was clearly distinguished within 30 s, which was more than 100 times faster than with conventional slab gel electrophoresis. The proposed multi‐channel microchip electrophoresis with PSEFS was demonstrated to be a simple and powerful diagnostic method to analyze multiple disease‐related DNA fragments in parallel with high speed, throughput, and accuracy.  相似文献   

6.
We report the use of capillary gel electrophoresis (CGE) based on a rfbS allele-specific polymerase chain reaction (PCR) for the analysis and simultaneous detection of Salmonella pullorum and Salmonella gallinarum, which are the major bacterial pathogens in poultry. rfbS allele-specific PCR was used to concurrently amplify two specific 147- and 187-bp DNA fragments for the simultaneous detection of S. pullorum and S. gallinarum at an annealing temperature of 54 ± 1 °C and an MgCl2 concentration of 2.8-5.6 mM. Under an electric field of 333.3 V/cm and a sieving matrix of 1.0% poly(ethyleneoxide) (Mr 600 000), the amplified PCR products were analyzed within 6 min by CGE separation. This CGE assay could be translated to microchip format using programmed field strength gradients (PFSG). In the microchip gel electrophoresis with PFSG, both of the Salmonella analyses were completed within 30 s, without decreasing the resolution efficiency. rfbS allele-specific PCR-microchip gel electrophoresis with the PFSG technique might be a new tool for the simultaneous detection of both S. pullorum and S. gallinarum, due to its ultra-speed and high efficiency.  相似文献   

7.
Wang Q  Xu X  Dai L 《Electrophoresis》2006,27(9):1749-1757
The preparation of a new separation matrix, quasi-interpenetrating networks (quasi-IPNs) formed by poly(N-acryloyl-Tris) (poly(tris-A)) and PVP, and its application for dsDNA and ssDNA fragments separation by CE with UV detection, are presented. This new quasi-IPN exhibited high sieving performance, good dynamic coating ability, and low viscosity. Single-base resolutions of dsDNA fragments (Rs = 0.92 for 123/124 bp) and ssDNA fragments (Rs = 0.65 for 123/124 base, Rs = 0.48 for 309/310 base) were achieved by using the quasi-IPN of poly(tris-A)/PVP (2% + 2%) solution in a 31 cm effective length linear polyacrylamide (LPA)-coated column. Single-base separation of dsDNA fragments (Rs = 0.92 for 123/124 bp) was also obtained within 28 min in a 46.7 cm effective length bare column at higher 160 V/cm electric field strength by using the same quasi-IPN solution. The RSD of the migration time measured for each DNA fragments was less than 1.5% in the bare column for nine continuous runs. The effects of temperature and electric field strength on the DNA separation were also investigated.  相似文献   

8.
Applicability of modern microfabrication technology to electrophoresis microchips initiated a rapidly moving interdisciplinary field in analytical chemistry. Electric field mediated separations in microfabricated devices (electrophoresis microchips) are significantly faster than conventional gel electrophoresis, usually completed in seconds to minutes. Electrophoretic separation of DNA molecules on microfabricated devices proved to have the potential to improve the throughput of analysis by orders of magnitude. The flexibility of electrophoresis microchips allows the use of a plethora of separation matrices and conditions. In this paper, we report on electric field mediated separation of fluorescent intercalator-labeled dsDNA fragments in polyvinylpyrrolidone matrix-filled microchannel structures. The separations were detected in real time by a confocal, single-point laser-induced fluorescence/photomultiplier setup. Effects of the sieving matrix concentration (Ferguson plot), migration characteristics (reptation plot), separation temperature (Arrhenius plot), as well as applied electric field strength and intercalator concentration on the separation of DNA fragments are thoroughly discussed.  相似文献   

9.
王前许旭  戴立信 《中国化学》2006,24(12):1766-1772
Quasi-interpenetrating network of polyacrylamide (PAA) and polyvinylpyrrolidone (PVP) had been successfully used for single-base resolution of double-stranded DNA (0.76 for 123 bp/124 bp) and single-stranded DNA fragments (0.97 for 123 b/124 b) with UV detection. This quasi-IPN (interpenetrating network) sieving matrix showed low viscosity (23.5 mPa·s at 25 ℃) and decreased with increasing temperature. This polymer also exhibited dynamically coating capacity and could be used in the uncoated capillary. The effects of temperature and electric field strength on the DNA separation of quasi-IPN matrix were also investigated and found that the temperature and electric field strength could markedly affected the mobility behavior of DNA fragments. This polymer matrix has also applied to separate the bigger DNA fragments by capillary electrophoresis with UV detection. Under the denaturing conditions, this matrix separated the samples with last fragment of 1353 base in 40 rain, in which the doublet of 309/310 base was partial separated and the resolution was 0.88.  相似文献   

10.
B F Liu  Q G Xie  Y T Lu 《Analytical sciences》2001,17(11):1253-1256
It was demonstrated that a capillary electrophoresis (CE) method with a non-gel sieving solution has been developed to identify the orientation of DNA fragments in recombinant plasmids in molecular biology. The influences of the concentration of sieving polymer HEC, the applied electric field strength and sampling on CE separation were analyzed concerning the optimization of separation. YO-PRO-1 was used as a DNA intercalating reagent to facilitate fluorescence detection. Under the chosen conditions (buffer, 1 x TBE containing 1 microM YO-PRO-1 and 1.2% HEC; applied electric field strength, 200 V/cm; electrokinetic sampling: time, 5 s; voltage, -6 kV), three DNA markers (phi 174/HaeIII, pBR322/HaeIII and lambda DNA/HindIII) were tested for further evaluating the relationship between the DNA size and the mobility. The established CE method conjugated with the enzymatic approach was successfully applied to identifying the DNA orientation of recombinant plasmid in transgene operations of a newly cloned gene from Arabidopsis Thaliana.  相似文献   

11.
Microchip electrophoresis has become a powerful tool for DNA separation, offering all of the advantages typically associated with miniaturized techniques: high speed, high resolution, ease of automation, and great versatility for both routine and research applications. Various substrate materials have been used to produce microchips for DNA separations, including conventional (glass, silicon, and quartz) and alternative (polymers) platforms. In this study, we perform DNA separation in a simple and low-cost polyester-toner (PeT)-based electrophoresis microchip. PeT devices were fabricated by a direct-printing process using a 600 dpi-resolution laser printer. DNA separations were performed on PeT chip with channels filled with polymer solutions (0.5% m/v hydroxyethylcellulose or hydroxypropylcellulose) at electric fields ranging from 100 to 300 V cm(-1). Separation of DNA fragments between 100 and 1000 bp, with good correlation of the size of DNA fragments and mobility, was achieved in this system. Although the mobility increased with increasing electric field, separations showed the same profile regardless of the electric field. The system provided good separation efficiency (215,000 plates per m for the 500 bp fragment) and the separation was completed in 4 min for 1000 bp fragment ladder. The cost of a given chip is approximately $0.15 and it takes less than 10 minutes to prepare a single device.  相似文献   

12.
建立一种毛细管电泳快速高效检测限制性内切酶酶切产物的方法, 使其更好地用于基因诊断. 以甲基纤维素(Methyl cellulose, MC)为筛分介质, 用pUC19 DNA/Msp I (Hpa II) Marker标准DNA片段为实验对象, 通过考察筛分介质的浓度、pH值、毛细管的温度和运行电压优化出分离小于600 bp的双链DNA片段的最适条件, 并将此方法应用于临床59例胃癌患者肿瘤组织H-ras基因12位密码子点突变情况的检测. MC是一种良好的筛分介质, 运用其进行毛细管电泳对于遗传性疾病的诊断将更加快速、准确、简便、灵敏.  相似文献   

13.
线性聚丙烯酰胺凝胶毛细管电泳的迁移特性   总被引:1,自引:0,他引:1  
汪洁  王立强  石岩  郑华  陆祖康 《分析化学》2008,36(3):330-334
使用线性聚丙烯酰胺作为筛分介质,对片段长度为80~584bp的标准DNA样品进行毛细管电泳,利用激光诱导荧光方法检测信号,荧光染料为溴化乙啶。改变电场强度100~375V/cm,得到的迁移率曲线与电场强度和DNA片段长度成复杂的函数关系,已有的经典理论模型:Ogston模型、Reptation无拉伸模型和Reptation拉伸模型都不能正确地描述实验观察到的迁移率随电场强度和DNA片段长度的变化情况。因此,提出一种修正的Ogston筛分理论,假定迁移的DNA分子在电场强度方向延展拉伸,如同小分子穿过凝胶筛孔。在该修正模型中,DNA的迁移率仅依赖于电场强度、筛分介质浓度和片段长度,很好地解释了实验现象。  相似文献   

14.
The separation of DNA molecules in polymeric solution by capillary electrophoresis involves the optimization of several variables, such as polymer solution concentration, electric field separation, temperature, etc. The optimization of each variable individually usually is a time-consuming process and the results may reach a false optimum point. Chemometric methods are suitable to be applied in such cases in which a number of variables can be optimized simultaneously. The simplex is a chemometric method that can perform such a task easily and efficiently. In this study, a simplex method was carried out to maximize the correlation coefficient (r(2)) of a logarithmic plot of mobility (mu) vs. base pair (bp), which was obtained from the separation of DNA fragments of size between 75 and 4072 bp. The simplex showed three vertexes with r(2) > 0.98 and the vertex 21 showing the highest resolution. For the fragments between 201 and 2036 bp, the r(2) increased to 0.992 with and relative standard deviation (RSD) lower than 0.2% (inter- and intra-day variation). The precision of the method in determining the size of a PCR DNA fragment was carried out using a 1 kbp DNA ladder. With the addition of an internal standard to the sample, the precision could be further improved.  相似文献   

15.
A ternary polyaniline/Fe2O3-SnO2/reduced graphene oxide (PFSG) nanocomposite was prepared using a simple two-step hydrothermal treatment. The composite was applied as a glassy carbon electrode modifier (GCE) to enhance dopamine (DA) and uric acid (UA) detection. The ternary PFSG composite was compared with its binary precursor Fe2O3-SnO2/reduced graphene oxide (FSG). The influence of the modified GCE electrodes on their performance as a sensing platform was determined. GCE/PFSG showed better sensing parameters than GCE/FSG due to the introduction of polyaniline (PANI), increasing the electrocatalytic properties of the electrode towards the detected analytes. GCE/PFSG enabled the detection of low concentrations of DA (0.076 µM) and UA (1.6 µM). The peak potential separation between DA and UA was very good (180 mV). Moreover, the DA oxidation peak was unaffected even if the concentration of UA was ten times higher. The fabricated sensor showed excellent performance in the simultaneous detection with DA and UA limits of detection: LODDA = 0.15 µM and LODUA = 6.4 µM, and outstanding long-term stability towards DA and UA, holding 100% and 90% of their initial signals respectively, after one month of use.  相似文献   

16.
Xu F  Jabasini M  Baba Y 《Electrophoresis》2002,23(20):3608-3614
Low-viscosity polymer solutions have potential for double-stranded (ds) DNA separations in micrototal analysis systems (micro-TAS). In this paper, we report dilute, low-viscosity hydroxypropylmethylcellulose-50 (HPMC-50, 11.5 kDa) solutions containing polyhydroxy additives as separation media. Predominant operational variables, such as applied electric field strength, fluorescent intercalator (YOPro-1) concentration, polymer concentration, and additive concentration, are thoroughly investigated. Fast (within 170 s) and excellent separation of DNA restriction fragments ranging in size from 72 to 1353 base pairs (bp) is achieved in a 30 mm length channel of polymethylmethacrylate (PMMA) microchips at an electric field strength of 300 V/cm, by introducing 8% mannitol, 8% glucose or 10% glycerol additives into a 2% HPMC-50/1 x Tris-borate-EDTA (TBE) solution. The low-viscosity (40 cP) matrix formulation provides both coating of the microchannels and separation of DNA in one step. The performance in the solution surpasses that in highly concentrated HPMC-50 solution. In addition, separation using 1xTris-EDTA buffer in the 2% HPMC-50 matrix containing polyhydroxy additives also exhibits a notably increased performance. This is presumably due to formation of hydrogen-bonding interactions of polyhydroxy additives with HPMC-50 matrix and DNA so as to increase the coupling interactions between matrix and DNA molecules during electrophoresis. The result reflects that boric acid is not a prerequisite in polyhydroxy-enhanced HPMC-50 solution for separation.  相似文献   

17.
The electric field dependence of the electrophoretic mobility of linear DNA fragments in agarose gels was reinvestigated in order to correct the observed mobilities for the different temperatures actually present in the gel during electrophoresis in different electric field gradients. When corrected to a common temperature, the electrophoretic mobilities of DNA fragments less than or equal to 1 kilobase pairs (kbp) in size were independent of electric field strength at all field strengths from 0.6 to 4.6 V/cm if the gels contained less than or equal to 1.4% agarose. The mobilities of larger DNA fragments increased approximately linearly with electric field strength. If the agarose concentration was higher than 2%, the mobilities of all DNA fragments increased with increasing electric field strength. The electric field dependence of the mobility was larger in gels cast and run in Tris-borate buffer (TBE) than in gels cast and run in Tris-acetate buffer (TAE), and was more pronounced in gels without ethidium bromide incorporated in the matrix. Ferguson plots were constructed for the various DNA fragments, both with and without extrapolating the temperature-corrected mobilities to zero electric field strength. Linear Ferguson plots were obtained for all fragments less than or equal to 12 kbp in size in agarose gels less than or equal to 1.4% in concentration if the mobilities were first extrapolated to zero electric field strength. Concave upward curvature of the Ferguson plots was observed for DNA fragments greater than or equal to 2 kbp in size at finite electric field strengths. Convex downward curvature of the Ferguson plots was observed for DNA fragments greater than or equal to 1 kbp in size in agarose gels greater than or equal to 2% in concentration. The mobilities of the various DNA fragments, extrapolated to zero agarose concentration and zero electric field strength, decreased with increasing DNA molecular weight; extrapolating to zero molecular weight gave an "intrinsic" DNA mobility of 2.7 x 10(-4) cm2/Vs at 20 degrees C. The pore sizes of LE agarose gels cast and run in TAE and TBE buffers were estimated from the mobility of the DNA fragments.(ABSTRACT TRUNCATED AT 400 WORDS)  相似文献   

18.
Sun M  Lin JS  Barron AE 《Electrophoresis》2011,32(22):3233-3240
Double-stranded (ds) DNA fragments over a wide size range were successfully separated in blended polymer matrices by microfluidic chip electrophoresis. Novel blended polymer matrices composed of two types of polymers with three different molar masses were developed to provide improved separations of large dsDNA without negatively impacting the separation of small dsDNA. Hydroxyethyl celluloses with average molar masses of ~27 kDa and ~1 MDa were blended with a second class of polymer, high-molar mass (~7 MDa) linear polyacrylamide. Fast and highly efficient separations of commercially available DNA ladders were achieved on a borosilicate glass microchip. A distinct separation of a 1-kb DNA extension ladder (200-40,000 bp) was completed in 2 min. An orthogonal design of experiments was used to optimize experimental parameters for DNA separations over a wide size range. We find that the two dominant factors are the applied electric field strength and the inclusion of a high concentration of low-molar mass polymer in the matrix solution. These two factors exerted different effects on the separations of small dsDNA fragments below 1 kbp, medium dsDNA fragments between 1 and 10 kbp, and large dsDNA fragments above 10 kbp.  相似文献   

19.
以大肠杆菌(E.coli)为对象,采用环介导恒温扩增技术(LAMP)对其扩增,在实验室自制的毛细管电泳-诱导荧光平台上建立了LAMP产物的检测新方法。引物F3,B3,FIP,BIP扩增的E.coli LAMP产物大小为240 bp。优化的毛细管电泳条件为:毛细管有效长度/总长度(10 cm/15 cm),筛分介质溶液为0.5%羟乙基纤维素(1 300 K),电场强度(100 V/cm),进样条件(100 V/cm,1.0 s)。毛细管电泳时,DNA长度在100~500 bp范围内与其迁移时间呈线性关系,相关系数为0.996。在相同毛细管电泳条件下对E.coli LAMP产物进行分析,并利用这种线性关系在电泳图中对E.coli LAMP产物与假阳性产物做区分,结果表明,毛细管电泳技术不仅可在15 min内实现LAMP产物及附加产物的快速检测,而且可快速区分LAMP阳性及假阳性实验产物。采用建立的毛细管电泳快速检测LAMP产物的方法,对AB0174 E.coli基因实施了LAMP,结果表明该方法适合DNA LAMP产物的快速检测。  相似文献   

20.
Rapid separation of nucleic acids by microchip electrophoresis could streamline many biological applications, but conventional chip injection strategies offer limited sample stacking, and thus limited sensitivity of detection. We demonstrate the use of photopatterned polyacrylamide membranes in a glass microfluidic device, with or without fixed negative charges, for preconcentration of double-stranded DNA prior to electrophoretic separation to enhance detection limits. We compared performance of the two membrane formulations (neutral or negatively charged) as a function of DNA fragment size, preconcentration time, and preconcentration field strength, with the intent of optimizing preconcentration performance without degrading the subsequent electrophoretic separation. Little size-dependent bias was observed for either membrane formulation when concentrating dsDNA > 100 bp in length, while the negatively charged membrane more effectively blocks passage of single-stranded oligonucleotide DNA (20-mer ssDNA). Baseline resolution of a six-band dye-labeled ladder with fragments 100-2000 bp in size was obtained in <120 s of separation time, with peak efficiencies in the range of 2000-15,000 plates/cm, and detection limits as low as 1 pM per single dye-labeled fragment. The degree of preconcentration is tunable by at least 49-fold, although the efficiency of preconcentration was found to have diminishing returns at high field and/or long times. The neutral membrane was found to be more robust than the negatively charged membrane, with approximately 2.5-fold larger peak area during the subsequent separation, and less decrease in resolution upon increasing the preconcentration field strength.  相似文献   

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