古DNA实时荧光定量PCR实验中标准品的制备

实时荧光定量PCR技术通过对PCR每一循环扩增产物的实时检测,可对模板的精确拷贝数进行绝对定量,从而用于古DNA实验中提取和扩增条件的比较和优化.本研究采用异硫氰酸胍碱裂解-SiO2吸附的方法,从采自黑龙江省的晚更新世斑鬣狗化石材料中提取得到了斑鬣狗线粒体基因组古DNA.经常规PCR扩增后,将纯化的扩增产物克隆到微生物体内使其大量复制,再用M13通用引物扩增出含少量外源DNA的古DNA目标片段,从而建立了适用于古DNA荧光定量PCR扩增的标准品的制备方法.经检测分析,运用该方法制备的标准品性质稳定,能够准确地指示反应体系中较为精确的古DNA模板拷贝数,从而反映古DNA的提取和扩增效率,用于比较并优化古DNA提取和扩增条件.     

Chelex-100快速提取放线菌DNA作为PCR扩增模板

旨在建立有效扩增16S rRNA基因序列的放线菌DNA快速提取的方法。采用Chelex-100法提取放线菌DNA,使用PCR扩增16S rRNA基因序列评价提取核酸的质量。结果显示,Chelex-100法能够在10 min之内从放线菌中快速提取DNA,所提取的DNA可以直接用于PCR扩增反应,PCR扩增产物电泳条带清晰,符合理论预期结果。因此,Chelex-100法提取放线菌DNA可以作为16S rRNA基因序列PCR扩增的模板,该方法具有经济、简便、快速的特点,适合于放线菌菌株大规模地筛选和分类鉴定。     

利用CTAB法和子囊孢子破壁法提取冬虫夏草菌DNA

通过CTAB法从冬虫夏草菌株和天然冬虫夏草不同部位提取DNA,并用PCR扩增进行验证,证明了CTAB法适合从冬虫夏草子座、菌核和冬虫夏草菌培养物中提取DNA。首次报道1种将子囊孢子破壁直接进行PCR扩增的方法,并比较了该方法和CTAB法在提取冬虫夏草DNA方面的差异。2种方法获得的DNA用于PCR扩增均能得到较好的结果。     

PCR技术的新进展

PCR是用于在体外快速酶促扩增特定DNA片段的技术,本文对PCR技术的一些新方法进行了简要综述,包括易错PCR,DNA shuffilng,原位PCR,电子PCR,固相PCR和PCR芯片。     

一种从大熊猫粪便中提取DNA的改进方法

本研究描述一个改进的方法，使从大熊猫粪便中提取DNA用于PCR扩增变得更加容易。在粪便DNA的提取过程中采用一个新的预处理方法，将粪便用预冷的丙酮洗2～3次，除去粪便中含有的大量PCR抑制物，然后用蛋白酶K裂解、酚氯仿抽提，能提取到纯度很高的DNA供PCR扩增。本实验PCR扩增了大熊猫脑源性神经营养因子(BDNF)基因和线粒体细胞色素6基因片段，并进行测序分析，证实了提取的可靠性。对比本方法和未经丙酮预处理的方法提取的DNA进行PCR扩增，前者的扩增结果明显优于后者。     

绵羊胚胎性别鉴定试剂盒的研究

根据绵羊Y-染色体的特异序列和常染色序列分别设计了确定公羊Y-染色体特异序列的3对特异性引物和内标基因的4对特异性引物。单重PCR扩增绵羊基因组DNA,筛选出了3对Y-染色体特异引物和3对羊DNA特异内标引物。将不同的绵羊Y-染色体特异引物与内标引物组合,利用多重PCR扩增绵羊基因组DNA,筛选出了1个可用于羊早期胚胎性别鉴定的PCR引物组合:A0/C1。按照最优PCR扩增DNA条件配制了绵羊PCR性别鉴定试剂盒并成功应用于绵羊血液、已知性别的绵羊成纤维细胞和胚胎,表明本研究建立的体系完全可用于绵羊早期的胚胎性别鉴定。     

PCR技术在检测鼠金黄色葡萄球菌中的应用研究

目的　建立实验大小鼠金黄色葡萄球菌的快速检测方法———PCR法。方法　根据已公布的金黄色葡萄球菌耐热核酸酶nuc基因的序列 ,设计并合成一对特异性的引物 ,利用PCR技术扩增nuc基因片段。对金黄色葡萄球菌和其他非金黄色葡萄球菌菌株抽提的DNA进行扩增。结果　金黄色葡萄球菌PCR产物出现 6 6 8bp的特异性DNA扩增片段 ,而其他非金黄色葡萄球菌未出现扩增片段 ,证实了合成的引物对金黄色葡萄球菌具有特异性。将抽提的金黄色葡萄球菌DNA进行系列稀释 ,测定此PCR体系的敏感性 ,结果显示 ,该PCR体系能检出 3pg金黄色葡萄球菌DNA ,且从抽提DNA到PCR扩增及电泳结束仅需 4h。结论　本研究所建立的扩增耐热核酸酶nuc基因检测鼠金黄色葡萄球菌的PCR方法 ,具有快速、可靠、敏感和特异的特点 ,可用于临床样品和金黄色葡萄球菌感染时的检测 ,适合应用于实验大小鼠的监测。     

小鼠基因功能研究及疾病模型系列专题(二)——基因工程小鼠的品系管理及基因型鉴定

<正>实验室基因工程小鼠品系的保存大多是通过和野生型小鼠交配,然后不断鉴定、选择携带基因突变或转基因的后代来实现。因此,维持一个基因工程小鼠品系,必须要通过分子生物学手段不断的鉴定小鼠的基因型。以基因剔除小鼠为例,一般我们需要设计两组不同的PCR引物,分别用于扩增野生型小鼠和突变型小鼠的基因组DNA片段。用于扩增野生型基因组DNA的PCR两个引物至少有一个来自于被剔除的区域DNA序列,这样对于基因剔除小鼠纯合子个体基因组DNA,利用这对引物将无法得到扩增产物;用于扩增突变型小鼠基因组DNA,我们一般在被     

甜菜碱增强长片段PCR的扩增

聚合酶链式反应 (PCR)作为一项非常成熟的技术可以用于基因组序列的扩增。普通的PCR技术只适合于短片段DNA的扩增 ,一般在 6kb以下。对于 6kb至十几kb甚至几十kb以上的DNA片段的扩增就非常困难。通过添加不同化学物质 ,发现甜菜碱对长片段PCR的扩增有非常有效的增强作用。通过对玉米总DNA以及质粒DNA的扩增 ,发现 1mol L到 25mol L甜菜碱对改进PCR扩增效果明显。通过添加甜菜碱 ,可以从玉米基因组中扩增出 9kb以上的单拷贝片段 ,从质粒中扩增出 16kb以上片段。经过试验 ,发现不同GC含量的引物需要使用不同浓度的甜菜碱。甜菜碱可以减少甚至消除长片段PCR中的非特异性扩增。同时 ,我们发现其它的添加物 ,如DMSO ,甘油 ,甲酰胺对长片段PCR的作用不明显     

PCR 扩增人型结核杆菌 DNA 及结核杆菌属 DNA 探针的制备

用多聚酶链反应(PCR)方法扩增人型、牛型结核杆菌基因组 DNA,获得特异的158 bpDNA 片段,而从另外十三种分枝杆菌未见到特异的扩增产物.回收158 bpDNA 片段作探针,它除与人型、牛型结核杆菌有特异的杂交信号外,与金黄色葡萄球菌、绿脓杆菌及一些分枝杆菌皆没有杂交反应.结果表明,PCR 可用于检测结核杆菌基因组 DNA,扩增产物158 bp DNA 片段可作为探针用于检测人型、牛型结核杆菌并鉴别结核杆菌与其它分枝杆菌.     

Efficient production of single-stranded DNA as long as 2 kb for sequencing of PCR-amplified DNA.

A modification of the asymmetric PCR method is described, which reliably facilitates sequencing of PCR-amplified DNA. This procedure produces single-stranded DNA fragments as long as two kilobases that are suitable for dideoxy DNA sequencing. First, a PCR for double-stranded DNA is preformed under optimal conditions (double-stranded PCR). Then, a 5-10-microliters fraction of the double-stranded PCR and a single primer are used to generate single-stranded DNA in a separate PCR (single-stranded PCR). The concentration of the single primer are used to generate single-stranded DNA in a separate PCR (single-stranded PCR). The concentration of the single primer is approximately 0.4 microM. Usually 15 to 25 cycles of single-stranded PCR are optimal to produce single-stranded DNA for four to eight sequencing reactions. The single-stranded DNA is purified by centrifugal ultrafiltration and used directly in dideoxy sequencing. This method was employed to produce high-quality single-stranded DNA templates from a variety of organisms for efficient DNA sequencing of PCR-amplified DNA.     

不同DNA抽提方法对普通PCR和实时荧光定量PCR方法检测家蚕微孢子虫的影响

为了优选快速、 灵敏、 特异的家蚕微孢子虫Nosema bombycis分子检测方法和DNA抽提方法, 本文通过对家蚕微孢子虫TaqMan探针荧光定量PCR检测方法和SYBR Green荧光定量PCR检测方法的建立以及反应体系优化, 并与普通PCR方法进行比较; 再采用4种不同DNA抽提方法分别对PCR和实时荧光定量PCR方法检测家蚕微孢子虫悬浮液的效果评价。结果显示: 不经过DNA抽提, 直接将家蚕微孢子虫发芽液进行PCR反应的效果优于其他方法, 检测灵敏度由高到低依次为直接法、 酚/氯仿抽提法、 动物组织DNA试剂盒抽提法和植物组织DNA试剂盒抽提法; TaqMan探针法检测家蚕微孢子虫发芽液的灵敏度和SYBR Green法相近, 达到微孢子10²个/mL, 两者均优于普通PCR方法。实验表明, 直接采用发芽液结合荧光定量PCR方法检测家蚕微孢子虫最为简便、 快速、 灵敏。该研究结果将有助于提高家蚕微粒子病监控技术和检疫能力, 对家蚕微粒子病的检疫和防治具有积极意义。     

Re-usable DNA template for the polymerase chain reaction.

DNA covalently bound to an uncharged nylon membrane was used for consecutive amplifications of several different genes by PCR. Successful PCR amplifications were obtained for membrane-bound genomic and plasmid DNA. Membrane-bound genomic DNA templates were re-used at least 15 times for PCR with specific amplification of the desired gene each time. PCR amplifications of specific sequences of p53, p16, CYP1A1, CYP2D6, GSTM1 and GSTM3 were performed independently on the same strips of uncharged nylon membrane containing genomic DNA. PCR products were subjected to restriction fragment length polymorphism analysis, single-strand conformational polymorphism analysis and/or dideoxy sequencing to confirm PCR-amplified gene sequences. We found that PCR fragments obtained by amplification from bound genomic DNA as template were identical in sequence to those of PCR products obtained from free genomic DNA in solution. PCR was performed using as little as 5 ng genomic or 4 fg plasmid DNA bound to membrane. These results suggest that DNA covalently bound to membrane can be re-used for sample-specific PCR amplifications, providing a potentially unlimited source of DNA for PCR.     

Comparison of real-time and nested PCR assays for detection of herpes simplex virus DNA

We performed a real-time PCR assay to detect herpes simplex virus (HSV) DNA, and compared it prospectively with a nested PCR assay in 164 clinical samples (109 cerebrospinal fluid and 55 sera) from patients suspected of having neonatal HSV infection or HSV encephalitis. In 25 of 164 samples, HSV DNA was detected by the nested PCR assay. All samples positive for HSV DNA in the nested PCR assay were also positive in the real-time PCR assay, and all but two samples negative for HSV DNA in the nested assay were negative in the real-time assay. The real-time PCR assay thus had a sensitivity of 100% and a specificity of 99%, when compared with the nested assay. Sequential assays in a case of disseminated HSV showed that a decrease in HSV DNA paralleled clinical improvement. Quantification of HSV DNA by real-time PCR was useful for diagnosing and monitoring patients with HSV encephalitis and neonatal HSV infection.     

用变性梯度凝胶电泳分析PCR克隆的突变率

用变性梯度凝胶电泳技术比较分析了分别由Taq DNA聚合酶和Pfu DNA聚合酶催化扩增的产物克隆入pUCm-T/DH5a系统中产生的重组子,发现包含突变的重组子分别为21．50％和3．50％,前为后的6．15倍。转化为每100nt净扩增长度的突变率分别为7．44％和1．21％。     

Development of procedures for direct extraction of Cryptosporidium DNA from water concentrates and for relief of PCR inhibitors

Extraction of high-quality DNA is a key step in PCR detection of Cryptosporidium and other pathogens in environmental samples. Currently, Cryptosporidium oocysts in water samples have to be purified from water concentrates before DNA is extracted. This study compared the effectiveness of six DNA extraction methods (DNA extraction with the QIAamp DNA minikit after oocyst purification with immunomagnetic separation and direct DNA extraction methods using the FastDNA SPIN kit for soil, QIAamp DNA stool minikit, UltraClean soil kit, or QIAamp DNA minikit and the traditional phenol-chloroform technique) for the detection of Cryptosporidium with oocyst-seeded samples, DNA-spiked samples, and field water samples. The study also evaluated the effects of different PCR facilitators (nonacetylated bovine serum albumin, the T4 gene 32 protein, and polyvinylpyrrolidone) and treatments (the use of GeneReleaser or ultrafiltration) for the relief from or removal of inhibitors of PCR amplification. The results of seeding and spiking studies showed that PCR inhibitors were presented in all DNA solutions extracted by the six methods. However, the effect of PCR inhibitors could be relieved significantly by the addition of 400 ng of bovine serum albumin/mul or 25 ng of T4 gene 32 protein/mul to the PCR mixture. With the inclusion of bovine serum albumin in the PCR mixture, DNA extracted with the FastDNA SPIN kit for soil without oocyst isolation resulted in PCR performance similar to that produced by the QIAamp DNA minikit after oocysts were purified by immunomagnetic separation.     

Dramatic increase in the signal and sensitivity of detection <Emphasis Type="Italic">via</Emphasis> self-assembly of branched DNA

In molecular testing using PCR, the target DNA is amplified via PCR and the sequence of interest is investigated via hybridization with short oligonucleotide capture probes that are either in a solution or immobilized on solid supports such as beads or glass slides. In this report, we report the discovery of assembly of DNA complex(es) between a capture probe and multiple strands of the PCR product. The DNA complex most likely has branched structure. The assembly of branched DNA was facilitated by the product of asymmetric PCR. The amount of branched DNA assembled was increased five fold when the asymmetric PCR product was denatured and hybridized with a capture probe all in the same PCR reaction mixture. The major branched DNA species appeared to contain three reverse strands (the strand complementary to the capture probe) and two forward strands. The DNA was sensitive to S1 nuclease suggesting that it had single-stranded gaps. Branched DNA also appeared to be assembled with the capture probes immobilized on the surface of solid support when the product of asymmetric PCR was hybridized. Assembly of the branched DNA was also increased when hybridization was performed in complete PCR reaction mixture suggesting the requirement of DNA synthesis. Integration of asymmetric PCR, heat denaturation and hybridization in the same PCR reaction mixture with the capture probes immobilized on the surface of solid support achieved dramatic increase in the signal and sensitivity of detection of DNA. Such a system should be advantageously applied for development of automated process for detection of DNA.     

基于数字PCR的单分子DNA定量技术研究进展

数字PCR是一项针对单分子目标DNA的绝对定量技术．该技术是将含有DNA模板的反应溶液分配到大量独立的反应室中并且发生扩增反应,通过统计反应室中的阳性信号来定量DNA的拷贝数．DNA样品在反应室中随机和独立分布是单分子成功扩增和准确定量DNA拷贝数的关键因素．本文综述了数字PCR的发展历史、数字PCR与实时荧光定量PCR的区别,以及数字PCR在临床诊断、转基因成分定量、单细胞基因表达、环境微生物检测和下一代测序等方面的最新进展,并展望了该技术的应用前景．     

A new method of pebrine inspection of silkworm egg using multiprimer PCR

Using a mixture of several PCR primers, we evaluated whether multiprimer PCR is practically useful for the early and simultaneous detection of several kinds of microsporidia that cause silkworm pebrine. When genomic DNA extracted from silkworm eggs infected with Nosema bombycis was used as the DNA template, the specific DNA sequences were amplified by multiprimer PCR. In addition, similar results were obtained even when genomic DNA extracted from silkworms infected with N. bombycis was used as the DNA template. These findings suggest that multiprimer PCR using several primers designed for this study is practically useful for pebrine inspection of silkworm eggs.     

Development of a Rapid Method for Identifying Carryover Contamination of Positive Control DNA,Using a Chimeric Positive Control and Restriction Enzyme for the Diagnosis of White Spot Syndrome Virus by Nested PCR

Chimeric positive plasmids have been developed to minimize false-positive reactions caused by polymerase chain reaction (PCR) contamination. Here, we developed a rapid method for identifying false-positive results while detecting white spot syndrome virus (WSSV) by nested PCR, using chimeric positive plasmids. The results of PCRs using WSSV diagnostic primer sets showed PCR products of a similar size (WSSV 1st PCR product, 1,447 bp; WSSV 2nd PCR product, 941 bp) using WSSV chimeric plasmids or DNA from shrimp infected with WSSV. The PCR products were digested with DraI for 1 h at 37 °C. The digested chimeric DNA separated into two DNA bands; however, the WSSV-infected shrimp DNA did not separate. Thus, chimeric plasmid DNA may be used as positive control DNA instead of DNA from WSSV-infected shrimp, in order to prevent PCR contamination. Thus, the use of restriction enzyme digestion allowed us to rapidly distinguish between WSSV DNA and WSSV chimeric plasmid DNA.