PCR- and ligation-mediated synthesis of marker cassettes with long flanking homology regions for gene disruption in Saccharomyces cerevisiae.

We developed a novel method for synthesizing marker-disrupted alleles of yeast genes. The first step is PCR amplification of two sequences located upstream and downstream of the reading frame to be disrupted. Due to the addition of non-specific single A overhangs by Taq DNA polymerase, each PCR product can be ligated with a marker DNA which has T residues at its 3' ends. After amplification of individual ligation products through the second PCR, both products are mixed and annealed, and the single strand is converted to a double strand by an extension reaction. The final step is PCR amplification of the fragment composed of a selectable marker and two flanking sequences with the outermost primers. This method is rapid and needs only short oligonucleotides as primers.     

Optimal conditions to use Pfu exo(-) DNA polymerase for highly efficient ligation-mediated polymerase chain reaction protocols

Ligation-Mediated Polymerase Chain Reaction (LMPCR) is the most sensitive sequencing technique available to map single-stranded DNA breaks at the nucleotide level of resolution using genomic DNA. LMPCR has been adapted to map DNA damage and reveal DNA-protein interactions inside living cells. However, the sequence context (GC content), the global break frequency and the current combination of DNA polymerases used in LMPCR affect the quality of the results. In this study, we developed and optimized an LMPCR protocol adapted for Pyrococcus furiosus exo(-) DNA polymerase (Pfu exo(-)). The relative efficiency of Pfu exo(-) was compared to T7-modified DNA polymerase (Sequenase 2.0) at the primer extension step and to Thermus aquaticus DNA polymerase (Taq) at the PCR amplification step of LMPCR. At all break frequencies tested, Pfu exo(-) proved to be more efficient than Sequenase 2.0. During both primer extension and PCR amplification steps, the ratio of DNA molecules per unit of DNA polymerase was the main determinant of the efficiency of Pfu exo(-), while the efficiency of Taq was less affected by this ratio. Substitution of NaCl for KCl in the PCR reaction buffer of Taq strikingly improved the efficiency of the DNA polymerase. Pfu exo(-) was clearly more efficient than Taq to specifically amplify extremely GC-rich genomic DNA sequences. Our results show that a combination of Pfu exo(-) at the primer extension step and Taq at the PCR amplification step is ideal for in vivo DNA analysis and DNA damage mapping using LMPCR.     

Sequencing PCR DNA amplified directly from a bacterial colony

We show that PCR product asymmetrically amplified directly from a bacterial colony can be sequenced to yield results as good as those obtained when purified template DNA is used for the PCR amplification step. With either template, greater than 300 nucleotides can be read from a typical sequencing reaction. Taq DNA polymerase was used for both the PCR amplification and sequencing reactions.     

Quantitative analysis of polymerase chain reaction (PCR) products using primers labeled with biotin and a fluorescent dye

PCR primers covalently labeled with biotin and a fluorescent dye allow immobilization and separation of the products which can be quantitatively analyzed subsequently. The procedure we have developed circumvents electrophoretic separation and radioactive labeling. Exact quantitative analysis of reaction products is feasible during the logarithmic phase of amplification when Taq polymerase is not limiting, as it is during the plateau phase of the reaction. With appropriate standardization the procedure can be used for routine diagnostic purposes.     

A method to detect ras point mutations in small subpopulations of cells.

Biochemical assays for ras mutations are capable of detecting a mutant allele only if it is present in at least 5% of cells tested. Further, ras mutation assays which utilize the polymerase chain reaction (PCR) are unable to distinguish a ras mutation in a small population of cells from mutations resulting from Taq DNA polymerase base misincorporation. We used a standard restriction fragment length polymorphism assay of PCR-amplified c-Ki-ras to detect codon 12 mutations in tumor cells and found a cumulative error frequency for Taq DNA polymerase of one codon 12 mutation per 2 X 10(4) molecules of total amplification product. The Taq polymerase-induced mutations were found to be multiple base transitions and represented a constant proportion of the amplification product at each step of the PCR. The ability to detect the in vitro generated mutation was dependent on the number of thermal cycles and the sensitivity of the detection assay. With these considerations in mind, we developed a two-step RFLP assay in which the thermal cycle number was kept low and molecules containing mutations at codon 12 were selectively amplified in the second step. We were able to detect a ras mutation occurring in 1 per 1000 cells (a two log improvement over standard RFLP methods) without detecting mutations resulting from Taq DNA polymerase infidelity.     

硅对PCR过程的抑制作用研究

探讨不同氧化程度的硅材料对PCR扩增的抑制作用及其机理。将不同氧化程度的硅纳米颗粒加入PCR反应液中,使其与Taq酶、模板等充分接触,通过离心将硅纳米颗粒沉降在管壁上,取出上清或保留硅纳米颗粒上机扩增,扩增产物采用凝胶电泳法检测。结果表明,随着硅材料表面面积与PCR反应液体积之比的增大,核酸扩增效率将明显下降,并且在所研究的范围内,氧化程度高的硅材料对PCR过程抑制作用更强;通过对抑制作用机理进行初步的实验研究,表明硅材料对PCR反应液中的Taq酶的吸附是导致抑制现象产生的主要原因,而对模板的吸附影响较小;并且,反应管内是否保留硅材料对核酸扩增影响较小,硅材料没有明显的直接化学抑制作用。     

Novel competitive PCR methods for quantitation of T-cell receptor delta (TCRD) gene rearrangements

Since the invention of the polymerase chain reaction (PCR) several quantitative PCR-based approaches have been described. Recently, the real-time PCR method became a standard in quantitative PCR, although high costs of the necessary equipment and reagents make it unaffordable for many laboratories. In this paper we describe two novel competitive PCR techniques, which were used to determine the frequency of T-cell receptor delta gene (TCRD) rearrangements in peripheral blood leukocytes. In the reference gene competitive PCR (rgc-PCR) the rearranged TCRD gene competes with the reference gene (RAG1) for common reagents (dNTPs and Taq polymerase). The intensity ratio of amplification products, TCRD/RAG1, corresponds to the portion of cells containing a rearrangement. A series of reactions was performed, in which RAG1 primers were added to the PCR after different numbers of cycles. On the basis of the number of cycles needed to obtain equal band intensity, the frequency of cells containing a rearrangement was calculated. In the common primer competitive PCR (cpc-PCR), two gene rearrangements, Vdelta1-Jdelta1 and Vdelta2-Jdelta1, compete for the common Jdelta1 primer. The competing genes are amplified from the same genomic DNA template; therefore unlike in the method using the internal competitor, the results are not affected by the quantity or quality of the analysed sample. We showed that the rgc-PCR and cpc-PCR are reliable and give reproducible results. The methods do not require any expensive equipment or reagents, and can be used to determine the frequency of gene rearrangements.     

曼地亚红豆杉RAPD反应体系与程序的优化

以曼地亚红豆杉为研究对象,采用L16(45)正交组合实验和单因素梯度实验对MgCl2、dNTP、随机引物、Taq酶、模板DNA浓度和退火温度、循环次数等影响RAPD扩增的重要因素进行优化,以期建立最优的RAPD反应体系与程序。实验结果表明,各因素最适条件为:25μLPCR反应体系中10×Buffer2.5μL,MgCl21.5mmol/L,dNTP0.2mmol/L,随机引物0.6μmol/L,Taq酶1.0U,模板DNA80ng;退火温度为37℃,循环次数为45次。     

A polymerase chain reaction-based method to detect cisplatin adducts in specific genes.

Every bulky lesion in DNA can potentially inhibit the Taq DNA polymerase and thereby decrease the amplification produced in the polymerase chain reaction. We investigated the feasibility of using this inhibition to quantify DNA lesions produced by the anticancer drug cisplatin. Products were detected by electrophoresis followed by ethidium bromide staining. Quantitation was obtained by including [32P]dCTP in the amplification reaction and subsequently assessing the incorporated radioactivity. Hamster genomic DNA was platinated in vitro to defined levels and amplified with primers that produce either a 150, 750 or 2,000 base pair fragment. The degree of inhibition of PCR agreed with the predicted level of DNA platination in each size of fragment, suggesting that the polymerase was inhibited by every cisplatin-induced lesion. This method was used to detect cisplatin-induced lesions in the adenine phosphoribosyltransferase gene of CHO cells. Cells were incubated with 0-125 microM cisplatin for 2 h, the DNA was purified and subjected to PCR. A significant decrease in amplification of the 2 kbp fragment was observed in DNA from cells incubated with cisplatin at 75 microM. The degree of inhibition agreed closely with the amount of DNA damage in the overall genome as measured by atomic absorption. No change was detected in amplification of the 150 base fragment which can therefore be used to normalize data for any variations between DNA samples. This assay has the same sensitivity as other methods currently used for the analysis of gene-specific damage. The advantage of this assay is that it obviates the need for specific endonuclease complexes to recognize and cleave DNA adducts as previously required when analyzing damage in specific genomic sequences.     

Optimal conditions and specific characteristics of Vent exo- DNA polymerase in ligation-mediated polymerase chain reaction protocols.

An optimized procedure for the ligation-mediated polymerase chain reaction (PCR) technique using Thermococcus litoralis exo- DNA polymerase (Vent exo-) was developed. The optimal dosage of Vent exo- at the primer extension and PCR amplification steps as well as the optimal DNA quantity to use were established. We showed that Vent exo- can efficiently create the blunt-ended termini required for subsequent linker ligation. Vent exo- proves to be more efficient than Pyrococcus furiosus exo- (Pfu exo-) for this task. Vent exo- resolves highly GC-rich sequence substantially better than Thermus aquaticus DNA polymerase (Taq) and with a similar efficiency as Pfu exo-. The DNA/DNA polymerase activity ratio is significantly higher for Vent exo- than for Pfu exo-, which is reflected by the sensibility of Vent exo- in efficiently amplifying genomic DNA. Furthermore, the range of efficiency of Vent exo- demonstrates the importance of conducting evaluative testing to identify the optimal dosage of use of this polymerase to obtain successful PCR amplification. Optimal MgSO4 concentrations to use with Vent exo- were established. Our results show that Vent exo- DNA polymerase produces bands of uniform and strong intensity and can efficiently be used for the analysis of DNA in living cells by ligation-mediated PCR.     

DNA damage reduces Taq DNA polymerase fidelity and PCR amplification efficiency

DNA damage blocks DNA polymerase progression and increases miscoding. In this study, we assessed the effects of specific lesions on Taq DNA polymerase fidelity and amplification efficiency. In the presence of 8-oxo-7,8-dihydro-2'-deoxyguanosine (8-oxodG), Taq DNA polymerase inserted dCMP and to a lesser extent dAMP. 8-Oxo-7,8-dihydro-2'-deoxyadenosine (8-oxodA) instructed the incorporation of dTMP and caused a pronounced n-1 deletion not observed in other systems. The presence of an abasic lesion led to dAMP incorporation and n-1 deletions. In addition, we introduce the mean modified efficiency (MME) as a more precise method for determining PCR amplification efficiency of damaged templates. Using this method, we were able to quantify reductions in amplification efficiency of templates containing 8-oxodG (single or multiple), 8-oxodA, or abasic sites. Because the MME method can detect small reductions in amplification efficiency, it may be useful in comparing the extent of damage in environmentally degraded or archival DNA specimens.     

Effect of materials for micro-electro-mechanical systems on PCR yield

In this study we analyzed the surface properties of different silicon-based materials used for micro-electro-mechanical systems (MEMS) production, such as thermally grown silicon oxide, plasma-enhanced chemical vapor deposition (PECVD)-treated silicon oxide, reactive-ion etch (RIE)-treated silicon oxide, and Pyrex. Substrates were characterized by atomic force microscopy (AFM) and X-ray photoelectron spectroscopy (XPS) to define the surface chemical and morphological properties, and by fluorescence microscopy to directly assess the absorption of the different polymerase chain reaction (PCR) components. By using microchips fabricated with the same materials we investigated their compatibility with PCR reactions, exploiting the use of different enzymes and reagents or proper surface treatments. We established the best conditions for DNA amplification in silicon/Pyrex microdevices depending on the type of device and fabrication method used and the quality of reagents, rather than on the passivation treatment or increment in standard Taq polymerase concentration.     

多倍体罗汉果PCR-RFLP参数的优化与应用

以多倍体罗汉果DNA为材料,采用L16(4~5)正交组合试验和单因素梯度试验,研究Mg~(2+)、dNTP、引物、Taq DNA聚合酶、模板DNA浓度和退火温度、循环次数等对PCR扩增结果以及内切酶量、酶切时间对酶切反应的影响。结果表明,多倍体罗汉果RFLP最优PCR反应体系和扩增参数为:在25μL扩增反应体系中,10×Buffer 2.5μL,MgCl_2 1.5 mmol/L,dNTP 0.2 mmol/L,引物0.1μmol/L,Taq DNA聚合酶2.0 U,模板DNA 60 ng;退火温度为56℃,循环次数为35次。酶切反应体系:内切酶10×Buffer 2.0μL,内切酶5.0U,PCR产物15μL,超纯水补至20μL;酶切时间2 h。     

线虫PCR:直接针对秀丽线虫进行PCR扩增基因组DNA的新方法

目的:直接针对秀丽线虫进行PCR反应,以便快速扩增基因组DNA,从而提高钓取目的基因和鉴定基因组是否发生突变的效率.方法:根据生物信息学分析,针对不同基因设计单重或多重PCR引物;在不含砌DNA聚合酶的PCR反应体系中加入蛋白酶K消化秀丽线虫染色体中的组蛋白,然后加入Taq酶,直接针对野生型或突变型秀丽线虫个体进行PC...     

Optimizing Taq Polymerase Concentration for Improved Signal-to-Noise in the Broad Range Detection of Low Abundance Bacteria

Background

PCR in principle can detect a single target molecule in a reaction mixture. Contaminating bacterial DNA in reagents creates a practical limit on the use of PCR to detect dilute bacterial DNA in environmental or public health samples. The most pernicious source of contamination is microbial DNA in DNA polymerase preparations. Importantly, all commercial Taq polymerase preparations inevitably contain contaminating microbial DNA. Removal of DNA from an enzyme preparation is problematical.

Methodology/Principal Findings

This report demonstrates that the background of contaminating DNA detected by quantitative PCR with broad host range primers can be decreased greater than 10-fold through the simple expedient of Taq enzyme dilution, without altering detection of target microbes in samples. The general method is: For any thermostable polymerase used for high-sensitivity detection, do a dilution series of the polymerase crossed with a dilution series of DNA or bacteria that work well with the test primers. For further work use the concentration of polymerase that gave the least signal in its negative control (H₂O) while also not changing the threshold cycle for dilutions of spiked DNA or bacteria compared to higher concentrations of Taq polymerase.

Conclusions/Significance

It is clear from the studies shown in this report that a straightforward procedure of optimizing the Taq polymerase concentration achieved “treatment-free” attenuation of interference by contaminating bacterial DNA in Taq polymerase preparations. This procedure should facilitate detection and quantification with broad host range primers of a small number of bona fide bacteria (as few as one) in a sample.     

High-fidelity amplification using a thermostable DNA polymerase isolated from Pyrococcus furiosus.

A thermostable DNA polymerase which possesses an associated 3'-to-5' exonuclease (proofreading) activity has been isolated from the hyperthermophilic archaebacterium, Pyrococcus furiosus (Pfu). To test its fidelity, we have utilized a genetic assay that directly measures DNA polymerase fidelity in vitro during the polymerase chain reaction (PCR). Our results indicate that PCR performed with the DNA polymerase purified from P. furiosus yields amplification products containing less than 10% of the number of mutations obtained from similar amplifications performed with Taq DNA polymerase. The PCR fidelity assay is based on the amplification and cloning of lacI, lacO and lacZ alpha gene sequences (lacIOZ alpha) using either Pfu or Taq DNA polymerase. Certain mutations within the lacI gene inactivate the Lac repressor protein and permit the expression of beta Gal. When plated on a chromogenic substrate, these LacI- mutants exhibit a blue-plaque phenotype. These studies demonstrate that the error rate per nucleotide induced in the 182 known detectable sites of the lacI gene was 1.6 x 10(-6) for Pfu DNA polymerase, a greater than tenfold improvement over the 2.0 x 10(-5) error rate for Taq DNA polymerase, after approx. 10(5)-fold amplification.