共查询到20条相似文献,搜索用时 31 毫秒
1.
Comparison of sample preparation methods for ChIP-chip assays 总被引:1,自引:0,他引:1
A single chromatin immunoprecipitation (ChIP) sample does not provide enough DNA for hybridization to a genomic tiling array. A commonly used technique for amplifying the DNA obtained from ChIP assays is ligation-mediated PCR (LM-PCR). However; using this amplification method, we could not identify Oct4 binding sites on genomic tiling arrays representing 1% of the human genome (ENCODE arrays). In contrast, hybridization of a pool of 10 ChIP samples to the arrays produced reproducible binding patterns and low background signals. However the pooling method would greatly increase the number of ChIP reactions needed to analyze the entire human genome. Therefore, we have adapted the GenomePlex whole genome amplification (WGA) method for use in ChIP-chip assays; detailed ChIP and amplification protocols used for these analyses are provided as supplementary material. When applied to ENCODE arrays, the products prepared using this new method resulted in an Oct4 binding pattern similar to that from the pooled Oct4 ChIP samples. Importantly, the signal-to-noise ratio using the GenomePlex WGA method is superior to the LM-PCR amplification method. 相似文献
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Bst DNA聚合酶具有热稳定性、链置换活性及聚合酶活性,在体外DNA等温扩增反应中起重要作用. 本文利用Bst DNA聚合酶的5′→3′聚合酶、核苷酸(末端)转移酶及链置换酶活性发展了一种新的体外环式DNA扩增技术跨越式滚环等温扩增(saltatory rolling circle amplification,SRCA).在SRCA反应中,Bst DNA聚合酶以上游引物P1为模板合成其互补链RcP1,并和P1形成双链DNA|之后,Bst DNA聚合酶用其核苷酸转移酶活性在其P1的3′末端沿5′→3′方向随机掺入脱氧核糖核苷酸聚合形成寡聚核苷酸(dNMP)m序列,即DNA的合成反应跨越了RcP1 与下游引物P2之间的缺口|然后,以下游引物P2为模板形成互补序列(RcP2);接着,Bst DNA聚合酶继续将脱氧核糖核苷酸随机添加到RcP2的3′末端,形成(dNMP)n序列.继而,Bst DNA聚合酶以RcP1为模板,继续催化聚合反应合成互补新链,并通过其链置换酶活性替换P1|如此往复,形成[P1-(dNMP)m-RcP2-(dNMP)n …]序列.本文通过电泳、酶切、测序等方法对扩增产物进行分析,演绎出上述扩增过程,并就工作原理进行了讨论.该反应可能对开发等温扩增技术检测微生物有一定助益,也为解释环介导等温扩增技术中假阳性反应和滚环等温扩增反应中的背景信号提供了线索. 相似文献
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Nelson JR Cai YC Giesler TL Farchaus JW Sundaram ST Ortiz-Rivera M Hosta LP Hewitt PL Mamone JA Palaniappan C Fuller CW 《BioTechniques》2002,(Z1):44-47
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. 相似文献
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Nucleic acid isothermal amplification technologies: a review 总被引:3,自引:0,他引:3
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A system allowing the induction of DNA amplification in Bacillus subtilis was developed, based on a thermosensitive plasmid, pE194, stably integrated in the bacterial chromosome. An amplification unit, comprising an antibiotic resistance marker flanked by directly repeated sequences, was placed next to the integrated plasmid. Activation of pE194 replication led to DNA amplification. Two different amplification processes appeared to take place: one increased the copy number of all sequences in the vicinity of the integrated plasmid and was possibly of the onion skin type, while the other increased the copy number of the amplification unit only and generated long arrays of amplification units. These arrays were purified and shown to consist mainly of directly repeated amplification units but to also contain non-linear regions, such as replication forks and recombination intermediates. They were attached to the chromosome at one end only, and were, in general, not stably inherited, which suggests that they are early amplification intermediates. Longer arrays were detected before the shorter ones during amplification. When the parental amplification unit contained repeats which differed by a restriction site the arrays which derived thereof contained in a majority of cases only a single type of repeat. We propose that the amplified DNA is generated by rolling circle replication, and that such a process might underlie a number of amplification events. 相似文献
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A novel and sensitive fluorescence biosensor based on aptamer and rolling circle amplification for the determination of cocaine was developed in the present work. Here cocaine aptamers immobilized onto Au nanoparticles modified magnetic beads hybridized with short DNA strand. In the presence of cocaine, the short DNA strand was displaced from aptamer owing to cocaine specially binding with aptamer. Next, the short DNA strand was separated by magnetic beads and used to originate rolling circle amplification as primer. The end products of rolling circle amplification were detected by fluorescence signal generation upon molecular beacons hybridizing with the end products of rolling circle amplification. With rolling circle amplification and the separation by magnetic beads reducing the background signal, the new strategy was suitable for the detection of as low as 0.48 nM cocaine. Compared with reported cocaine sensors, our method exhibited excellent sensitivity. Our new strategy may provide a platform for numerous proteins and low molecular weight analytes to highly sensitively detect by DNA amplification. 相似文献
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Many techniques in molecular biology require the use of pure nucleic acids in general and circular DNA (plasmid or mitochondrial) in particular. We have developed a method to separate these circular molecules from a mixture containing different species of nucleic acids using rolling circle amplification (RCA). RCA of plasmid or genomic DNA using random hexamers and bacteriophage Phi29 DNA polymerase has become increasingly popular for the amplification of template DNA in DNA sequencing protocols. Recently, we reported that the mutant single-stranded DNA binding protein (SSB) from Thermus thermophilus (TthSSB) HB8 eliminates nonspecific DNA products in RCA reactions. We developed this method for separating circular nucleic acids from a mixture having different species of nucleic acids. Use of the mutant TthSSB resulted in an enhancement of plasmid or mitochondrial DNA content in the amplified product by approximately 500×. The use of mutant TthSSB not only promoted the amplification of circular target DNA over the background but also could be used to enhance the amplification of circular targets over linear targets. 相似文献
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A simple isothermal nucleic-acid amplification reaction, primer generation–rolling circle amplification (PG–RCA), was developed to detect specific nucleic-acid sequences of sample DNA. This amplification method is achievable at a constant temperature (e.g. 60°C) simply by mixing circular single-stranded DNA probe, DNA polymerase and nicking enzyme. Unlike conventional nucleic-acid amplification reactions such as polymerase chain reaction (PCR), this reaction does not require exogenous primers, which often cause primer dimerization or non-specific amplification. Instead, ‘primers’ are generated and accumulated during the reaction. The circular probe carries only two sequences: (i) a hybridization sequence to the sample DNA and (ii) a recognition sequence of the nicking enzyme. In PG–RCA, the circular probe first hybridizes with the sample DNA, and then a cascade reaction of linear rolling circle amplification and nicking reactions takes place. In contrast with conventional linear rolling circle amplification, the signal amplification is in an exponential mode since many copies of ‘primers’ are successively produced by multiple nicking reactions. Under the optimized condition, we obtained a remarkable sensitivity of 84.5 ymol (50.7 molecules) of synthetic sample DNA and 0.163 pg (~60 molecules) of genomic DNA from Listeria monocytogenes, indicating strong applicability of PG–RCA to various molecular diagnostic assays. 相似文献
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Athanasios Tsaftaris Konstantinos Pasentzis Anagnostis Argiriou 《Biotechnology letters》2010,32(1):157-161
We have devised an improved method of genome walking, named rolling circle amplification of genomic templates for Inverse
PCR (RCA–GIP). The method is based on the generation of circular genomic DNA fragments, followed by rolling circle amplification
of the circular genomic DNA using ϕ29 DNA polymerase without need for attachment of anchor sequences. In this way from the
circular genomic DNA fragments, after RCA amplification, a large amount of linear concatemers is generated suitable for Inverse
PCR template that can be amplified, sequenced or cloned allowing the isolation of the 3′- and 5′- of unknown ends of genomic
sequences. To prove the concept of the proposed methodology, we used this procedure to isolate the promoter regions from different
species. Herein as an example we present the isolation of four promoter regions from Crocus sativus, a crop cultivated for saffron production. 相似文献
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For rapid and simultaneous detection of transgenic elements in genetically modified (GM) food crops, we explored DNA array
technology. Forty-four oligonucleotide 23-to 31-mers were selected to use in an array on the basis of melting temperature
and sequence specificity. Selected oligonucleotides consisted of DNA fragments corresponding to structural and regulatory
elements and selectable markers used in developing transgenic crops, such as potato. Other oligonucleotides represented endogenous
genes from potato to serve as positive controls and from heterologous crops, such as soybean and canola, to serve as negative
controls. Amino-terminated oligonucleotides were hand-spotted on activated nylon membrane with a commercial spotting device.
Target DNA was isolated from foliage of transgenic and nontransgenic crops, including potato, and labeled with digoxigenin-dUTP
by random priming following restriction digestion to reduce DNA fragment size. Hybridization signals were visualized by an
alkaline phosphatase anti-DIG-Fab conjugate and the chemiluminescent substrate, CDP-star. We detected the presence or absence
of transgenic elements in transgenic and nontransgenic potato samples. Preliminary studies demonstrated that more specific
and sensitive hybridization signals were generated from an oligonucleotide probe array than from a PCR product array. We anticipate
that oligonucleotide probe arrays will be useful for regulatory monitoring of transgenic events. 相似文献
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DNA microarray technology has been widely used to simultaneously determine the expression levels of thousands of genes. A variety of approaches have been used, both in the implementation of this technology and in the analysis of the large amount of expression data. However, several practical issues still have not been resolved in a satisfactory manner, and among the most critical is the lack of agreement in the results obtained in different array platforms. In this study, we present a comparison of several microarray platforms [Affymetrix oligonucleotide arrays, custom complementary DNA (cDNA) arrays, and custom oligo arrays printed with oligonucleotides from three different sources] as well as analysis of various methods used for microarray target preparation and the reference design. The results indicate that the pairwise correlations of expression levels between platforms are relative low overall but that the log ratios of the highly expressed genes are strongly correlated, especially between Affymetrix and cDNA arrays. The microarray measurements were compared with quantitative real-time-polymerase chain reaction (QRT-PCR) results for 23 genes, and the varying degrees of agreement for each platform were characterized. We have also developed and tested a double amplification method which allows the use of smaller amounts of starting material. The added round of amplification produced reproducible results as compared to the arrays hybridized with single round amplified targets. Finally, the reliability of using a universal RNA reference for two-channel microarrays was tested and the results suggest that comparisons of multiple experimental conditions using the same control can be accurate. 相似文献
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滚环复制技术的建立及在RNA病毒基因检测中的初步应用 总被引:2,自引:0,他引:2
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。 相似文献
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Linear amplification of catalyzed reporter deposition technology on nylon membrane microarray 总被引:1,自引:0,他引:1
The application of microarray analysis to gene expression from limited tissue samples has not been very successful because of the poor signal qualityfrom the genes expressed at low levels. Here we discussed the use of catalyzed reporter deposition (CARD) technology to amplify signals from limited RNA samples on nylon membrane cDNA microarray. When the input RNA level was greater than 10 microg, the genes expressed at high levels did not amplify in proportion to those expressed at low levels. Compared to conventional colorimetric detection, the CARD method requires less than 10% of the total RNA used for amplification of signal displayed onto a nylon membrane cDNA microarray. Total RNA (5-10 microg), as one can extract from a limited amount of specimen, was determined to produce a linear correlation between the colorimetric detection and CARD methods. Beyond this range, it can cause a nonlinear amplification of highly expressed and low-abundance genes. These results suggest that when amplification is needed for any applications using the CARD method, including DNA microarray experiments, precaution has to be taken in the amount of RNA used to avoid skew amplification and thus misleading conclusions. 相似文献
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MicroRNAs (miRNAs) are a class of RNAs that play important regulatory roles in the cell. The detection of microRNA has attracted significant interest recently, as abnormal miRNA expression has been linked to cancer and other diseases. Here, we present a straightforward method for isothermal amplified detection of miRNA that involves two separate nucleic acid-templated chemistry steps. The miRNA first templates the cyclization of an oligodeoxynucleotide from a linear precursor containing a 5'-iodide and a 3'-phosphorothioate. The sequence is amplified through rolling circle amplification with 29 DNA polymerase and then detected via a second amplification using fluorogenic templated probes. Tests showed that the cyclization proceeds in ~50% yield over 24 h and is compatible with the conditions required for rolling circle polymerization, unlike enzymatic ligations which required non-compatible buffer conditions. The polymerization yielded 188-fold amplification, and separate experiments showed ~15-fold signal amplification from the templated fluorogenic probes. When all components are combined, results show miRNA detection down to 200 pM in solution, and correlation of the detected signal with the initial concentration of miRNA. The doubly templated double-amplification method demonstrates a new approach to detection of rolling circle products and significant advantages in ease of operation for miRNA detection. 相似文献
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Persistence of Tandem Arrays: Implications for Satellite and Simple-Sequence Dnas 总被引:18,自引:9,他引:9 
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下载免费PDF全文 James Bruce Walsh 《Genetics》1987,115(3):553-567
Recombination processes acting on tandem arrays are suggested here to have probable intrinsic biases, producing an expected net decrease in array size following each event, in contrast to previous models which assume no net change in array size. We examine the implications of this by modeling copy number dynamics in a tandem array under the joint interactions of sister-strand unequal crossing over (rate gamma per generation per copy) and intrastrand recombination resulting in deletion (rate epsilon per generation per copy). Assuming no gene amplification or selection, the expected mean persistence time of an array starting with z excess copies (i.e., array size z + 1) is z(1 + gamma/epsilon) recombinational events. Nontrivial equilibrium distributions of array sizes exist when gene amplification or certain forms of selection are considered. We characterize the equilibrium distribution for both a simple model of gene amplification and under the assumption that selection imposes a minimal array size, n. For the latter case, n + 1/alpha is an upper bound for mean array size under fairly general conditions, where alpha(= 2 epsilon/gamma) is the scaled deletion rate. Further, the distribution of excess copies over n is bounded above by a geometric distribution with parameter alpha/(1 + alpha). Tandem arrays are unlikely to be greatly expanded by unequal crossing over unless alpha much less than 1, implying that other mechanisms, such as gene amplification, are likely important in the evolution of large arrays. Thus unequal crossing over, by itself, is likely insufficient to account for satellite DNA. 相似文献
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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... 相似文献
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Rockett JC Christopher Luft J Brian Garges J Krawetz SA Hughes MR Hee Kirn K Oudes AJ Dix DJ 《Genome biology》2001,2(4):research0014.1-research00149