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毛细管电泳聚乙烯吡咯烷酮与羟乙基纤维素混配无胶筛分介质分离DN … 总被引:1,自引:0,他引:1
本文报道了毛细电泳聚乙烯吡咯烷酮与羟乙基纤维素混配无胶筛分介质分离较短的pGEM7Zf(+)-HaeⅢDBA片段(DNA长度为18~675bp)。研究表明,在1%的羟乙基纤维素无胶筛分介质中,加入2%的聚乙烯吡咯迷酮能显著提高DNA片段的分辨率和分离效率。在混配无胶筛分介质中,聚乙烯吡咯烷酮有两种作用,一是动态涂渍,降低毛细管内壁对DNA片段与DNA荧光插入试剂的吸附,改善分离效率;二是两种不同长 相似文献
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线性聚丙烯酰胺(PAA)和聚乙烯吡咯烷酮(PVP)准互穿网络(quasi-IPN)聚合物溶液被成功用于毛细管电泳紫外检测条件下分离双链DNA片段
(对123bp/124bp片段的分离度为0.76)和单链DNA片段(对123b/124b片段的分离度为0.97). 该quasi-IPN筛分介质粘度小(在25oC
时的粘度为23.5mPa·s)且温度升高粘度下降. 该筛分介质具有动态涂敷能力可直接用于非涂层毛细管柱。根据实验结果,柱温和电场强度会明显影响DNA片段在该介质中的迁移行为。在变性条件下,最长片段为1353碱基的单链DNA样品可以在40分钟内获得分离,其中309/310b
片段的分离度为0.88。 相似文献
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探讨了含有金纳米粒子(GNPs)的筛分介质在毛细管电泳(CE)中对不同长度DNA片段的分离.以聚环氧乙烷(PEO)-金纳米粒子(GNPs)-TBE为CE筛分介质,用涂层的毛细管柱(37 cm×75 μm,有效长度27 cm)分离DNA Marker D和1 kbp DNA Ladder Marker标准DNA片段,考察了CE过程中各参数(如筛分介质质量浓度、分离电压、温度和筛分介质pH值)对不同长度DNA片段分离的影响.对比了新型筛分介质与不含GNPs的PEO-TBE筛分介质的分离效果,并将新型筛分介质用于实际样品的检测.结果表明,在筛分介质中添加GNPs后能够改进CE的分离效果,且分离时间短.方法较适于分离较宽范围的DNA片段. 相似文献
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毛细管电泳聚乙烯吡咯烷酮与羟乙基纤维素混配无胶筛分介质分离DNA片段 总被引:3,自引:0,他引:3
本文报道了毛细管电泳聚乙烯吡咯烷酮与羟乙基纤维素混配无胶筛分介质分离较短的 p GEM7Zf(+) Hae DNA片段 (DNA长度为 1 8~ 675bp)。研究表明 ,在 1 %的羟乙基纤维素无胶筛分介质中 ,加入 2 %的聚乙烯吡咯烷酮能显著提高 DNA片段的分辨率和分离效率。在混配无胶筛分介质中 ,聚乙烯吡咯烷酮有两种作用 ,一是动态涂渍 ,降低毛细管内壁对 DNA片段与 DNA荧光插入试剂的吸附 ,改善分离效率 ;二是两种不同长度、性质的线性高分子能形成更为致密的“缠绕网络”,有利于较短的 DNA片段电泳分离。 相似文献
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聚环氧乙烷无胶筛分毛细管电泳分离宽分子量范围DNA片段 总被引:1,自引:0,他引:1
在无胶筛分毛细管电泳中,以聚环氧乙烷为筛分介质,用硅烷化处理的毛细管柱(31.2 cm×75 μm有效长度21.0 cm)分离DL5000 DNA Marker(DNA长度为100~5000 bp),研究筛分介质浓度、缓冲液pH、分离电压和溴化乙锭浓度对分离双链DNA片段的影响,优化出分离100~5000 bp DNA片段的最佳条件。毛细管电泳的最佳条件为PEO浓度0.5%、缓冲液pH值8.0、电压12 kV、溴化乙锭浓度3.0 μg/mL。此条件下,对山梨醇脱氢酶基因(SDH)和乙烯受体基因(ETR1)的聚合酶链式反应(PCR)扩增产物同时检测,分离、鉴定效果良好。 相似文献
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聚氯乙烯—尼龙6分离富集催化光度法测定痕量金 总被引:4,自引:0,他引:4
研究了在稀释酸介质中,痕量金(Ⅲ)催化溴酸钾氧化偶胂Ⅲ褪色的指示反应及其动力学条件,据此建立测定痕量金(Ⅲ)的新方法。方法的检出限为7.96*10^-11g/mL;测定范围为0-1.2*10^-6g/25mL。采用聚氯乙烯-尼龙6树脂分离富集样品中的金,用于样品的测定获得满意结果。 相似文献
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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
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
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本实验以羟乙基纤维素(HEC)为筛分介质,以100~1500 bp DNA ladder为分离对象,系统地研究了直流电场下毛细管电泳时DNA分离特性.论文考察了DNA迁移淌度及分离度随HEC溶液浓度和分子量、毛细管两端电场强度(E)、毛细管有效长度(le)及其内径形状、背景电解液(BGE)温度等因素变化规律.研究发现:(1)当筛分介质HEC浓度高于其阈值浓度c*时,HEC分子量越大,相邻DNA片段之间淌度差越大,HEC浓度越高,其迁移淌度越低;(2)对于相邻的DNA片段,le在一定范围内,其分离度随le增大而线性升高;(3)毛细管有效长度一定时,DNA淌度随毛细管侧面积与截面积之比R增大而升高,分离效率提高;(4)BGE温度升高,DNA在筛分介质中扩散效应增强,迁移淌度变大,相邻DNA片段间分离度减小.根据以上结论,在直流电场下毛细管电泳φ×174-Hirc II限制性酶切片段,并实现了其高分离度、快速分离. 相似文献
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QianWANG XuXU 《中国化学快报》2003,14(12):1278-1280
The mixtures of two polymers, poly (N,N-dimethylacrylamide) (PDMA) and polyvinylpyrrolidone (PVP) were synthesized and used as the separation medium for double-stranded and single-stranded DNA fragments by capillary electrophoresis with UV detector. On optimal conditions, 2%w/v PDMA 2%w/v PVP can be used to separate the doublet 123/124bp in pBR322/Hae Ⅲ Markers. 相似文献
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The HEMA-BIO 1000 support, which is based on a copolymer of 2-hydroxyethyl methacrylate and ethylene dimethacrylate, was used for separation of lambda DNA and its fragments and plasmid pBR322 DNA. The separation of fragments greater than 6.6 kbp was demonstrated according to the slalom chromatography mechanism on column for size-exclusion chromatography in the case of linear lambda DNA fragments. The influence of particle size of column packing, mobile phase rate, and KCl concentration in mobile phase is discussed. The purification of plasmid DNA pBR322 using size-exclusion chromatography was more rapid compared to gel electrophoresis. The presence of salts in the eluate is not disadvantageous. DNA can be recovered from the eluate by ethanol precipitation. Plasmid DNA pBR322 isolated in this way was suitable for different biological applications (cleavage with restrictases, electrotransformation into bacterial cells). 相似文献
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Zheng-Ping Jia Rong Wang Qiao-Yun Chen Hua Xie Jun Ma Yuan-Yuan Liu Juan Wang 《Chromatographia》2009,70(7-8):1127-1134
Mutations at codons 248 and 249 of p53 gene showed a relatively high incidence in gastric cancer patients. Development of novel methods for the detection of codon mutations is of great importance for gastric cancer research. Studies have showed that the separation matrix can significantly influence the separation efficiency and resolution of small DNA fragments in CE. In order to achieve baseline separation of PCR-amplified products of small DNA fragments from gastric cancer tissue, linear polyacrylamides (LPA I and LPAII) were designed and synthesized in the current study. LPAI and LPAII were used as separation matrixes to separate small size fragments (less than 70 bp) of pBR322/BsuRI DNA Marker and the separation conditions were optimized. Optimum separations were performed at 25 kV in reversed-polarity mode with capillary temperature set at 15 °C. The signal of DNA fragments was detected using laser-induced fluorescence detector, with an argon ion laser as the excitation source that emits at 488 nm. A 520 nm bandpass filter was used as an emission cut-off filter. The resolution of small DNA fragments was higher when LPAI was used as separation matrix compared to LPAII, accompanied with longer migration time. The results indicated that LPAI as separation matrix was more efficient for the separation of small DNA fragments (less than 70 bp) than other LPAs. A rapid and sensitive analysis method for the separation and detection of small DNA fragments (less than 70 bp) was established in this study. The method was successfully applied to detect the mutations at codons 248 and 249 in p53 gene from gastric cancer tissues. 相似文献
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The impact of hexadecyltrimethylammonium bromide (CTAB) on the separation of ds-DNA by capillary electrophoresis in conjunction with laser-induced fluorescence (CE-LIF) detection using poly(ethylene oxide) (PEO) solution is described. The use of CTAB for improved separation reproducibility and efficiency of DNA has not been demonstrated although it is widely used for controlling the magnitude and direction of electroosmotic flow in CE. With increasing CTAB concentration, the interactions of DNA with ethidium bromide (EtBr) and with the capillary wall decrease. For the separation of DNA fragments with the sizes ranging from several base pairs (bp) to 2,176 bp, a polymer solution consisting of 0.75% poly(ethylene oxide), 100 mM TB buffer (pH 8.0), 25 microg/mL EtBr, and 0.36 microg/mL CTAB is proper. Using the PEO solution, we separated a mixture of DNA markers V (pBR 322/HaeIII digest) and VI (pBR 328/BglI digest and pBR 328/HinfI digest) within 8 min at -375 V/cm, with the limit of detection of 2.0 ng/mL based on the peak height for the 18-bp DNA fragment. The method is highly efficient (>10(6)plate/m), repeatable (RSD of the migration times <1.5%), and sensitive. In addition, it is convenient to fill a capillary (75 microm in diameter) with such a low-viscosity PEO solution by syringe pushing. 相似文献
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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
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Separation of double-stranded DNA fragments by capillary electrophoresis in interpenetrating networks of polyacrylamide and polyvinylpyrrolidone 总被引:1,自引:0,他引:1
Mixtures of two polymers with totally different chemical structures, polyacrylamide and polyvinylpyrrolidone (PVP) have been successfully used for double-stranded DNA separation. By polymerization of acrylamide in a matrix of PVP solution, the incompatibility of these two polymers was suppressed. Laser light scattering (LLS) studies showed that highly entangled interpenetrating networks were formed in the solution. Further systematic investigation showed that double-stranded DNA separation was very good in these interpenetrating networks. With a concentration combination of as low as 2% w/v PVP (weight-average molecular mass Mr = 1 x 10(6) g/mol) + 1% w/v polyacrylamide (Mr = 4 x 10(5) g/mol), the 22 fragments in pBR322/HaeIII DNA, including the doublet of 123/124 bp, have been successfully separated within 6.5 min. Under the same separation conditions, similar resolution could only be achieved by using polyacrylamide (Mr = 4 x 10(5) g/mol) with concentrations higher than 6% w/v and could not be achieved by using only PVP (Mr = 1 x 10(6) g/mol) with a concentration as high as 15% w/v. It is noted that the interpenetrating network formed by 2% PVP and 1% polyacrylamide has a very low viscosity and can dynamically coat the inner wall of a fused-silica capillary. The separation reached an efficiency of more than 10(7) theoretical plate numbers/m and a reproducibility of less than 1% relative standard deviation of migration time in a total of seven runs. The interpenetrating network could stabilize polymer chain entanglements. Consequently, the separation speed was increased while retaining resolution. 相似文献
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A high-speed DNA fragment separation system was developed based on a short capillary and a slotted-vial array automated sample introduction system. The injection process of DNA sample in a short capillary was investigated systematically with three injection techniques including constant-field-strength, low-field-strength and translational spontaneous injections. Under the optimized conditions, picoliter-scale sample plugs (corresponding to ca. 20-μm plug length) were obtained, which ensure the high-speed and high-efficiency separation for DNA fragments with a short effective separation length. Other separation conditions including the sieving matrix concentration, separation field strength and effective separation length were also optimized. The present system was applied in the separation of ΦX174-Hae III digest DNA marker. With an effective separation length of 2.5 cm, the separation could be achieved in <100 s with plate heights ranging from 0.21 to 0.74 μm (corresponding to plate numbers from 4.86 × 10(6) to 1.36 × 10(6)/m). The repeatabilities for the migration time of the eleven fragments were between 0.4 and 1.1% RSD (n=8). By using the automated continuous injection method, the separation for four different DNA samples could be achieved within 250 s. The present system was further applied in the fast sizing of real DNA samples of PCR products. 相似文献
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We report concentration and separation of DNA in the presence of electroosmotic flow (EOF) using poly(ethylene oxide) (PEO) solution. DNA fragments migrating against EOF stacked between the sample zone and PEO solution. To maximize the injection volume, several factors, such as concentrations of Tris-borate (TB) buffer and PEO solution, capillary size, and matrix, were carefully evaluated. The use of 25 mM TB buffers, pH 10.0, containing suitable amounts (less than 10 mM) of salts, such as sodium chloride, sodium phosphate, and sodium acetate, to prepare DNA is essential for the concentration of large-volume samples. In the presence of salts, the peaks also became sharper and the fluorescence intensity of DNA complexes increased. Using 2.5% PEO and a 150 microm capillary filled with 400 mM TB buffer, pH 10.0, up to 5 microL DNA samples (phiX 174 RF DNA-HaeIII digest or the mixture of pBR 322/HaeIII, pBR 328/Bg/I, and pBR 328/HinfI digests) have been analyzed, resulting in more than 400-fold improvements in the sensitivity compared to that by conventional injections (ca. 36 nL). Moreover, this method allows the analysis of 3.5 microL PCR products amplified after 17 cycles without any sample pretreatment. 相似文献
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Separations of phiX-174/HaeIII DNA restriction fragments have been performed in the presence of electroosmotic flow (EOF) using five different polymer solutions, including linear polyacrylamide (LPA), poly(ethylene oxide) (PEO), hydroxypropylcellulose (HPC), hydroxyethylcellulose (HEC), and agarose. During the separation, polymer solutions entered the capillary by EOF. When using LPA solutions, bulk EOF is small due to adsorption on the capillary wall. On the other hand, separation is faster and better for the large DNA fragments (> 872 base pairs, bp) using derivative celluloses and PEO solutions. Several approaches to optimum resolution and speed by controlling EOF and/or altering electrophoretic mobility of DNA have been developed, including (i) stepwise changes of ethidium bromide (0.5-5 microg/mL), (ii) voltage programming (125-375 V/cm), (iii) use of mixed polymer solutions, and (iv) use of high concentrations of Tris-borate (TB) buffers. The DNA fragments ranging from 434 to 653 bp that were not separated using 2% PEO (8,000,000) under isocratic conditions have been completely resolved by either stepwise changes of ethidium bromide or voltage programming. Compared to PEO solutions, mixed polymer solutions prepared from PEO and HEC provide higher resolving power. Using a capillary filled with 600 mM TB buffers, pH 10.0, high-speed (< 15 min) separation of DNA (pBR 322/HaeIII digest, pBR 328/ Bg/l digest and pBR 328/Hinfl digest) has been achieved in 1.5% PEO. 相似文献