Bst DNA聚合酶大片段在全基因组扩增中的应用

Bst DNA聚合酶大片段作为一种常用的DNA聚合酶,因其独特的特点:能引发链置换反应、高保真、耐高温等,而成为一种重要的DNA多重置换扩增酶。目的:为减少成本,设计一种高产,方便且扩增活性高的Bst DNA聚合酶大片段表达体系;探究该酶应用于胃癌石蜡包埋组织基因组DNA的扩增条件。方法:采用p TWIN1质粒作为载体克隆表达Bst DNA聚合酶大片段,应用几丁质亲和层析柱纯化该酶,使用该酶对人类基因组DNA进行不同温度下扩增,探究其最适反应温度,并据此对胃癌石蜡包埋组织基因组DNA进行扩增。结果:由此得到的Bst DNA聚合酶大片段能运用于胃癌石蜡包埋组织基因组DNA的扩增,扩增效率可达200倍,并能应用于a CGH芯片。结论:扩增得到保真性高,覆盖基因组范围大的DNA扩增产物。该应用与a CGH结合,使得对少量的癌症石蜡包埋组织DNA样本进行全基因组扩增,并进行其基因拷贝数变异研究成为可能。     

蛋白质起始的DNA病毒复制机制

DNA聚合酶在DNA合成过程中需要的引物包括RNA引物、DNA自我引物和蛋白质引物3种类型。新DNA链(如冈崎片段)的复制多是在DNA模板上合成一段RNA引物,细小病毒利用其基因组末端的反向末端重复序列(ITRs)自我折叠成DNA引物,而一些DNA、RNA病毒及真菌质粒起始复制反应的引物则是蛋白质。以感染原核生物的噬菌体Phi29和真核DNA病毒腺病毒为例,从复制过程所涉及的蛋白质、对复制原点的识别、复制起始反应、新链的延伸、复制终止过程等方面详细阐述DNA病毒由蛋白质引发的复制机制,并对已商品化的Phi29 DNA聚合酶产品多重置换扩增及单细胞测序等的应用以及基于噬菌体Phi29蛋白质起始的最小复制系统体外扩增异源DNA等最新的应用研究作相关总结介绍。     

滚环扩增技术及其在生物分子诊断中的应用

滚环扩增技术(RCA)是近年来发展起来的一种新型的核酸扩增技术.该技术是基于连接酶连接、引物延伸、与链置换扩增反应的一种等温核酸扩增方法.在恒温的条件下,可以产生大量的与环型探针互补的重复序列.与传统的核酸扩增方法相比,它具有扩增条件简单,特异性高,能在恒温条件下进行等特点.滚环扩增技术结合荧光、电化学、电化学发光等检...     

番茄随机扩增DNA多态性体系的条件优化

利用改进的SDS法提取代号为03748的栽培番茄叶片基因组DNA。对影响番茄随机扩增DNA多态性（RAPD）扩增结果的因素进行了分析,确定了模板、Mg^2＋、dNTPs、引物和Tap DNA聚合酶的适宜浓度及反应的最佳循环次数。实验结果表明,在以下条件下,番茄的RAPD扩增效果较好：20μL反应体系中使用20-40ng的模板、1．5-2．0mmol／L的Mg^2＋、0．15＋0．20μmol／L的dNTPs、0．15-2．0μmol／L的引物、1．0U的Taq DNA聚合酶;94℃预变性5min,然后经94℃变性1min、360℃ 1min、720℃ 1．5min,进行35个循环,最后在72℃时再延伸10min。     

分子克隆中使用的其他酶(续)

核酸酶BaJ31: 此酶有以下两种活性:(1)高度专一的单链脱氧核糖核苷酸内切酶与外切酶活性,催化从双链DNA3′,5′两端切除寡核苷酸片段或单核苷酸的反应(DNA两条链的降解速度几乎是相同的)。(2)与核酸酶S_1相似的单链专一内切酶活性。     

滚环DNA扩增的原理、应用和展望

滚环DNA扩增 (rollingcircleDNAamplification ,RCA)是一种等温信号扩增方法 ,其线性扩增倍数为 1 0 ⁵,指数化扩增能力大于 10⁹,产生的扩增产物连接在固相支持物 (如玻片、微孔板等 )表面的DNA引物或抗体上。RCA是一种适合在芯片上 (on chip)进行信号扩增的新技术 ,它既能提供研究分析的敏感性和特异性 ,又能保持立体分析的多元性。RCA亦是一种痕量的分子检测方法 ,可用于极其微量的生物大分子和生物标志的检测与研究     

SPR生物传感器研究缺乏3′→5′核酸外切酶活性的DNA聚合酶对DNA的分子识别功能

Taq聚合酶 (Taq pol)、失去核酸酶结构域的鼠白血病逆转录酶 (MMLV RT－) 和人源的聚合酶β(pol β) 缺少3′→5′外切核酸酶活性. 利用表面等离子激元共振 (SPR) 生物传感器,研究了Taq pol与引物末端完全匹配和含有1、2、3个错配碱基的DNA 模板-引物 (T-P) 的结合动力学,并分析比较了在“正确”或“错误”dNMP环境中Taq pol和引物末端完全匹配的DNA T-P的结合. 实验结果表明,随着引物末端错配碱基逐个增加,Taq pol和DNA的结合亲和力呈下降趋势,说明增强和引物末端完全匹配的DNA T-P的亲和力是Taq pol选择正确配对碱基的途径之一. 在 “错误”的dNMP环境中, Taq pol与DNA T-P的结合动力学能够用简单的1∶1 Langmuir模型进行拟合,但是MMLV RT－与DNA T-P的结合动力学可能存在构象变化. 而在“正确”的dNMP环境中,Taq pol或MMLV RT－与DNA T-P的结合符合构象变化模型,而且亲和力常数分别是无dNMP时的20倍和64倍,说明“正确”的dNMP诱导酶 (Taq pol或MMLV RT－) - DNA复合物发生构象变化,大大增强了酶-DNA复合物结合的紧密程度. 在存在大量dNMP的环境中, pol β与DNA T-P的结合动力学明显与缺乏dNMP时相异, pol β和DNA的亲和力显著增强.     

链替代扩增反应研究进展

链替代扩增反应作为一种体外恒温酶控扩增体系,主要基于限制酶打开缺口和无外切酶活性的DNA聚合酶的聚合替代的原理,随着该反应体系各环节的不断改进,目前该方法已应用于细菌尤其是分枝杆菌DNA的检测、体外进化模型的建立、核酸定量及芯片杂交等多个方面。     

DNA引发酶及其在肿瘤增殖和治疗中的作用

DNA聚合酶不能从游离的核苷酸开始合成DNA链,由DNA引发酶合成约7～10个核苷酸的RNA引物．DNA聚合酶利用引物提供自由的3′-OH末端合成新的DNA链。DNA引发酶在DNA复制的起始中起重要作用,而DNA复制是肿瘤细胞增殖的关键,抑制DNA引发酶活性,使引物的合成或延长受阻．DNA复制受抑制,肿瘤细胞不能增殖,从而达到抗肿瘤的目的。因此DNA引发酶是抗肿瘤药物研究的一个理想靶点。     

环介导等温扩增技术的研究进展

环介导等温扩增(loop-mediated isothermal amplification,LAMP)是一种新式核酸扩增技术,它依靠一种具有链置换活性的DNA聚合酶和2对特殊设计的引物,不需要反复的温度循环和昂贵的仪器设备,在等温条件下即可高效快速地完成扩增反应,目前已广泛应用于细菌、病毒、寄生虫等病原体的检测,及动物胚胎性别的鉴定。该文总结了LAMP技术的基本原理、相对于传统核酸检测技术的优点、产物的检测方法及其临床应用,最后指出LAMP目前存在的不足以及采取的相应措施,并对其发展前景进行了展望。     

One New Method of Nucleic Acid Amplification-Loop-mediated Isothermal Amplification of DNA

Loop-mediated isothermal amplification (LAMP) is a novel nucleic acid amplification method, which amplifies DNA with high specificity, sensitivity, rapidity and efficiency under isothermal conditions using a set of four specially designed primers and a Bst DNA polymerase with strand displacement activity. The basic principle, characteristics, development of LAMP and its applications are summarized in this article.     

One new method of nucleic acid amplification—Loop-mediated isothermal amplification of DNA

Loop-mediated isothermal amplification (LAMP) is a novel nucleic acid amplification method, which amplifies DNA with high specificity, sensitivity, rapidity and efficiency under isothermal conditions using a set of four specially designed primers and a Bst DNA polymerase with strand displacement activity. The basic principle, characteristics, development of LAMP and its applications are summarized in this article.     

核酸恒温扩增技术研究进展

核酸恒温扩增技术在生命科学研究及相关诸多领域已经得到了广泛应用。我们对核酸恒温扩增技术的最新进展作一简要综述,包括环介导恒温扩增、链替代扩增、依赖核酸序列的扩增、滚环扩增、切口酶核酸恒温扩增、依赖解旋酶的恒温扩增、转录依赖的扩增、杂交捕获法、转录介导的扩增等的原理、优缺点及应用。     

Linear nicking endonuclease-mediated strand-displacement DNA amplification

We describe a method for linear isothermal DNA amplification using nicking endonuclease-mediated strand displacement by a DNA polymerase. The nicking of one strand of a DNA target by the endonuclease produces a primer for the polymerase to initiate synthesis. As the polymerization proceeds, the downstream strand is displaced into a single-stranded form while the nicking site is also regenerated. The combined continuous repetitive action of nicking by the endonuclease and strand-displacement synthesis by the polymerase results in linear amplification of one strand of the DNA molecule. We demonstrate that DNA templates up to 5000 nucleotides can be linearly amplified using a nicking endonuclease with 7-bp recognition sequence and Sequenase version 2.0 in the presence of single-stranded DNA binding proteins. We also show that a mixture of three templates of 500, 1000, and 5000 nucleotides in length is linearly amplified with the original molar ratios of the templates preserved. Moreover, we demonstrate that a complex library of hydrodynamically sheared genomic DNA from bacteriophage lambda can be amplified linearly.     

Interrogation of multimeric DNA amplification products by competitive primer extension using bst DNA polymerase (large fragment).

Linear dsDNA composed of tandem repeats may be exponentially amplified by the strongly strand-displacing Bst DNA polymerase (large fragment) and two primers specific for opposite strands. When the repetitive DNA is derivedfrom rolling circle replication of a circular template, the reaction is termed cascade rolling circle amplification (CRCA). We have developed a variant of CRCA in which one primer is attached to the surface of a microwell and the other is labeled, thus enabling detection of amplified material using an ELISA-like protocol. The circular template is derived by annealing and ligation of a padlock on target DNA. It was found that there was good correlation between the synthesis of amplified material and signal. The specificity of the reaction with respect to single-nucleotide polymorphisms was investigated, and it was found that Bst DNA polymerase is prone to extension from primers with mismatched 3' ends. Reliable single nucleotide specificity was only obtained when pre-synthesized amplified material was interrogated by competitive primer extension.     

Isolation of single-stranded DNA from loop-mediated isothermal amplification products.

Loop-mediated isothermal amplification (LAMP), in which a specific DNA sequence can be directly amplified under isothermal conditions, yields DNA in large quantities of more than 500 microg/ml. We have developed a method to isolate single-stranded DNA fragments from LAMP products that are stem-loop DNAs with several inverted repeats of the target DNA. This method requires the TspRI restriction enzyme, a primer hybridized to the 3' overhanging sequence at its cleavage site, and a DNA polymerase with strand displacement activity. The LAMP products are digested with TspRI and are then extended using the primer, producing the strand-specific DNA fragments. All processes, from LAMP reaction to primer extension, can be carried out at the same temperature. The use of strand-specific DNA would be conducive for detection by hybridization technique such as DNA microarrays.     

Harnessing asymmetrical substrate recognition by thermostable EndoV to achieve balanced linear amplification in multiplexed SNP typing.

Multiplexed amplification of specific DNA sequences, by PCR or by strand-displacement amplification, is an intrinsically biased process. The relative abundance of amplified DNA can be altered significantly from the original representation and, in extreme cases, allele dropout can occur. In this paper, we present a method of linear amplification of DNA that relies on the cooperative, sequence-dependent functioning of the DNA mismatch-repair enzyme endonuclease V (EndoV) from Thermotoga maritima (Tma) and Bacillus stearothermophilus (Bst) DNA polymerase. Tma EndoV can nick one strand of unmodified duplex DNA, allowing extension by Bst polymerase. By controlling the bases surrounding a mismatch and the mismatch itself, the efficiency of nicking by EndoV and extension by Bst polymerase can be controlled. The method currently allows 100-fold multiplexed amplification of target molecules to be performed isothermally, with an average change of <1.3-fold in their original representation. Because only a single primer is necessary, primer artefacts and nonspecific amplification products are minimized.     

滚环复制技术的建立及在RNA病毒基因检测中的初步应用

滚环复制是噬菌体繁殖所采取的一种基因复制方式,这种方式可使单链的环形分子在聚合酶和引物的作用下进行体外自我扩增。本文中用可特异性连接环化的寡核苷酸链作为探针,分别进行了1份细胞培养的禽流感病毒H5N1亚型样品、1份细胞培养的SARS病毒样品和4份丙型肝炎病毒阳性血清样品的检测。检测原理是探针与靶序列杂交后便可在T4DNA连接酶的作用下形成滚环复制中的环化单链分子,该分子在同温下可被特异性引物滚动复制和支链扩增。本文还利用按禽流感病毒NA1基因区序列合成的模拟DNA分子对该检测方法的灵敏度进行了测试。结果显示：利用固相RCA技术成功检测到三种RNA病毒的基因,该方法的灵敏度可达到能检测10^3拷贝模式DNA分子的水平。与传统的PCR方法敏感性的比较尚待进一步研究。     

TempliPhi,phi29 DNA polymerase based rolling circle amplification of templates for DNA sequencing

We have developed a novel, isothermal DNA amplification strategy that employs phi29 DNA polymerase and rolling circle amplification to generate high-quality templates for DNA sequencing reactions. The TempliPhi DNA amplification kits take advantage of the fact that cloned DNA is typically obtained in circular vectors, which are readily replicated in vitro using phi29 DNA polymerase by a rolling circle mechanism. This single subunit, proofreading DNA polymerase has excellent processivity and strand displacement properties for generation of multiple, tandem double-stranded copies of the circular DNA, generating as much as 10(7)-fold amplification. Large amounts of product (1-3 microg) can be obtained in as little as 4 hours. Input DNA can be as little as 0.01 ng of purified plasmid DNA, a single bacterial colony, or a 1 microL of a saturated overnight culture. Additionally, the presence of an associated proof reading function within the phi29 DNA polymerase ensures high-fidelity amplification. Once completed, the product DNA can be used directly in sequencing reactions. Additionally, the properties of phi29 DNA polymerase and its use in applications such as amplification ofhuman genomic DNA for genotyping studies is discussed.