Enhancement of a hybridization analysis efficiency by the controlled DNA fragmentation

The influence of a DNA amplicon fragmentation on the efficiency of detecting a specific sequence by heterophase hybridization analysis was investigated. The nucleotide sequence was detected colorimetrically after biotinylation of an oligonucleotide probe immobilized on a solid carrier via limited elongation in complex with the sample DNA with the use of Taq polymerase. Two simple and reproducible techniques of amplicon fragmentation were proposed. The techniques are based on the introduction of apurinic/apyrimidinic sites in DNA and their subsequent thermal degradation. DNA was depurinated by a mild acidic treatment. Apyrimidinic sites were generated by treating a DNA fragment containing dUMP in place of some dTMP in various proportions with uracil-DNA glycosylase (UDG). The DNA sample treated by either method proved to be suitable for hybridization analysis with Taq polymerase without additional purification. The efficiency of hybridization analysis was higher with the fragmented than with the native DNA amplicon. DNA fragmentation makes it possible to use bridged oligonucleotides, having a lower hybridization ability, as highly selective hybridization probes.     

Amplification efficiency of thermostable DNA polymerases

The amplification efficiencies of several polymerase chain reaction (PCR) enzymes were compared using real-time quantitative PCR with SYBR Green I detection. Amplification data collected during the exponential phase of PCR are highly reproducible, and PCR enzyme performance comparisons based upon efficiency measurements are considerably more accurate than those based on endpoint analysis. DNA polymerase efficiencies were determined under identical conditions using five different amplicon templates that varied in length or percentage GC content. Pfu- and Taq-based formulations showed similar efficiencies when amplifying shorter targets (<900 bp) with 45 to 56% GC content. However, when amplicon length or GC content was increased, Pfu formulations with dUTPase exhibited significantly higher efficiencies than Taq, Pfu, and other archaeal DNA polymerases. We discuss the implications of these results.     

Detection of HIV-1 DNA in cells and tissue by fluorescent in situ 5'-nuclease assay (FISNA).

The critical aspects of successful in situ amplification include fixation, permeabilization, amplification and detection. We address these aspects and present a novel detection scheme that eliminates hybridization following amplification. We use the 5'-nuclease activity of Taq polymerase to cleave in situ a 5'-reporter dye from an oligonucleotide probe which hybridizes to the target amplicon during amplification. The 5'-reporter dye is disassociated from the 3'-quenching dye and remains localized by charge interactions. In addition, we describe probe design constraints for 5'-nuclease assays both in solution and in situ. Using this technique, we show the sensitive and specific detection of HIV-1 DNA in cells lines and tissue from HIV-1-infected individuals.     

Taq DNA耐热聚合酶在大肠杆菌中的克隆和高表达

从水生栖热菌(Thermus aquaticus)YT-1中分离得到的Taq DNA 聚合酶是一种广泛应用于PCR的耐热DNA聚合酶。由于天然菌株酶产量较低,培养条件要求严格,酶的纯化过程极为繁琐而使产品成本较高,因而促使人们构建适合于大规模生产的基因工程菌株。已有人分别通过不同的途径,使用不同的载体,成功地在大肠杆菌菌株中表达了Taq 耐热DNA聚合酶基因。我们通过与前人不同的途径,把这一基因克隆到大肠杆菌的载体质粒pJLA503上并使其得以高表达,为降低生产成本和进一步研究该酶的各种特性提供了有利条件。     

Design considerations for array CGH to oligonucleotide arrays.

BACKGROUND: Representational oligonucleotide microarray analysis has been developed for detection of single nucleotide polymorphisms and/or for genome copy number changes. In this process, the intensity of hybridization to oligonucleotides arrays is increased by hybridizing a polymerase chain reaction (PCR)-amplified representation of reduced genomic complexity. However, hybridization to some oligonucleotides is not sufficiently high to allow precise analysis of that portion of the genome. METHODS: In an effort to identify aspects of oligonucleotide hybridization affecting signal intensity, we explored the importance of the PCR product strand to which each oligonucleotide is homologous and the sequence of the array oligonucleotides. We accomplished this by hybridizing multiple PCR-amplified products to oligonucleotide arrays carrying two sense and two antisense 50-mer oligonucleotides for each PCR amplicon. RESULTS: In some cases, hybridization intensity depended more strongly on the PCR amplicon strand (i.e., sense vs. antisense) than on the detection oligonucleotide sequence. In other cases, the oligonucleotide sequence seemed to dominate. CONCLUSION: Oligonucleotide arrays for analysis of DNA copy number or for single nucleotide polymorphism content should be designed to carry probes to sense and antisense strands of each PCR amplicon to ensure sufficient hybridization and signal intensity.     

Fidelity of Thermococcus litoralis DNA polymerase (Vent) in PCR determined by denaturing gradient gel electrophoresis.

DNA synthesis fidelities of two thermostable DNA polymerases, Thermus aquaticus (Taq) and Thermococcus litoralis (Tli, also known as Vent), and a non-thermostable enzyme, a modified T7 DNA polymerase (Sequenase), were determined by analyzing polymerase chain reaction (PCR) products using denaturing gradient gel electrophoresis (DGGE). The error rates were 4.4, 8.9, and 2.4 x 10(-5) errors/bp for modified T7, Taq, and Tli polymerase, respectively. Reducing the nucleotide triphosphate concentration for Tli polymerase during PCR did not alter the fidelity. The ability of DGGE to detect a mutant present at several percent in a wild type population is related to the polymerase fidelity. To examine the sensitivity of mutant detection, human genomic DNA containing a 1% fraction of a known base pair substitution mutant was PCR-amplified with the three enzymes using primers that flank the mutant sequence. The PCR products were analyzed by DGGE. The signal from the mutant present at 1% was visible in the samples amplified with modified T7 and Tli polymerase, but the higher error rate of Taq polymerase did not permit visualization of the signal in DNA amplified with Taq polymerase.     

Sensitivity comparison of real-time PCR probe designs on a model DNA plasmid

We investigated three probe design strategies used in quantitative polymerase chain reaction (PCR) for sensitivity in detection of the PCR amplicon. A plasmid with a 120-bp insert served as the DNA template. The probes were TaqMan, conventional molecular beacon (MB), and shared-stem molecular beacon (ATssMB and GCssMB). A shared-stem beacon probe combines the properties of a TaqMan probe and a conventional molecular beacon. It was found that the overall sensitivities for the four PCR probes are in the order of MB>ATssMB>GCssMB>TaqMan. The fluorescence quantum yield measurements indicate that incomplete or partial enzymatic cleavage catalyzed by Taq polymerase is the likely cause of the low sensitivities of two shared-stem beacons when compared with the conventional beacon probe. A high-fluorescence background associated with the current TaqMan probe sequence contributes to the relatively low detection sensitivity and signal-to-background ratio. The study points out that the nucleotide environment surrounding the reporting fluorophore can strongly affect the probe performance in real-time PCR.     

DNA Microarray for Rapid Detection of Mitochondrial DNA Haplotypes of Chum Salmon

For use in genetic stock identification, we developed an oligonucleotide (DNA) microarray hybridization method for rapid and accurate detection of nucleotide sequence variations in 20 previously identified variable nucleotide sites in about 500 bp within the 5 half of the control region of mitochondrial DNA of chum salmon (Oncorhynchus keta). The method includes immobilization of synthesized oligonucleotides containing respective polymorphic sites on a glass slide precoated with polycarbodiimide resin, a 2-hour hybridization with DNA microarray of biotinylated polymerase chain reaction fragments spanning the 5 variable portion followed by short washing, and visualization of hybridization signals by conventional ABC method and scanner-assisted computation of signal intensity on a computer. The entire process of hybridization and detection was completed within 4 hours. The resulting DNA microarray could detect all of the single nucleotide mutations and therefore could be used to identity the sequence variations defining 30 mtDNA haplotypes of chum salmon as revealed previously by nucleotide sequence analysis.     

Simplified DNA Extraction and Improved PCR Based Detection of Greening Bacterium in Citrus

Citrus greening disease caused by a fastidious bacterium is an important graft transmissible disease in commercial citrus in India and other parts of the world. Polymerase chain reaction (PCR) is a sensitive and convenient method for detection of greening bacterium. A non-phenol chloroform method of DNA extraction was evaluated for DNA quality and PCR based detection of greening bacterium. The method was comparable with a commercial DNA extraction kit (Qiagen) and better than a CTAB based DNA extraction method. To improve the reliability, three primer sets (primers A, B, and C yielding amplicons of 1160 bp, 703 bp and 451 bp, respectively) and two polymerase enzymes (Taq polymerase and Klen Taq polymerase) were evaluated. The primer set C provided better amplification when compared to primer sets A and B. Primer C in combination with Taq polymerase provided amplification band at a DNA template concentration of 100 pg but good amplification band was obtained at still lower DNA template concentration of 0.1 pg when Klen Taq polymerase was used. The standardized PCR protocol combining non-phenol chloroform method of DNA isolation, primer set C and Klen Taq polymerase enzyme was found very effective in detecting greening bacterium in citrus trees. The sequence of cloned amplicon from 16S ribosomal RNA gene had 89–100 % sequence identity with corresponding sequence of Candidatus Liberibacter asiaticus from China, Brazil, Japan and Pune isolate of India, C. Liberibacter americnus from Brazil and C. Liberibacter africanus from Africa.     

Optimization of PCR in application of hot start Taq DNA polymerase for detection of Erwinia amylovora with primers FER1-F and FER1-R

There are two approaches in detection of bacterium Erwinia amylovora by PCR. One is based on detection of plasmid pEA29 and the other is based on detection of a chromosomal DNA sequence, specific for E. amylovora, in a sample. Since pathogenic strains without pEA29 have been isolated from the environment, methods based on this plasmid have been compromised and PCR methods based on chromosomal DNA species specific sequences became only reliable methods. PCR method with chromosomal primers FER1-F and FER1-R is currently the most reliable method due to its high sensitivity and specificity. The goal of this research is to make a significant improvement of the method by optimization of PCR in application of hot start DNA Taq polymerase, instead of wax, to obtain a hot start reaction. This enzyme, which is currently widely applied, can provide simpler achievement of hot start, saving labor and time and decreasing possibility of cross contamination of samples. Experiments showed that simple replacement of a regular recombinant Taq DNA polymerase by a hot start Taq DNA polymerase leads to complete failure of the reaction. Many optimization experiments had to be carried out to obtain an operational and reliable PCR which simultaneously has high sensitivity and specificity. Content of the reaction mixture, as well as temperature and time parameters of PCR, were significantly changed to achieve proper optimization.     

Post-PCR sterilization: development and application to an HIV-1 diagnostic assay.

We have developed an effective post-PCR sterilization process and have applied the procedure to a diagnostic assay for HIV-1. The method, which is based on isopsoralen photochemistry, satisfies both the inactivation and hybridization requirements of a practical sterilization process. The key feature of the technique is the use of isopsoralen compounds which form covalent photochemical adducts with DNA. These covalent adducts prevent subsequent extension of previously amplified sequences (amplicons) by Taq polymerase. Isopsoralens have minimal inhibitory effect on the PCR, are activated by long wavelength ultraviolet light, provide sufficient numbers of covalent adducts to impart effective sterilization, modify the amplified sequence such that it remains single-stranded, and have little effect on subsequent hybridization. The sterilization procedure can be applied to a closed system and is suitable for use with commonly used detection formats. The photochemical sterilization protocol we have devised is an effective and pragmatic method for eliminating the amplicon carryover problem associated with the PCR. While the work described here is limited to HIV-1, proper use of the technique will relieve the concern associated with carryover for a wide variety of amplicons, especially in the clinical setting.     

Critical factors for the performance of chip array-based electrical detection of DNA for analysis of pathogenic bacteria

Different factors influencing chip array-based electrical detection of DNA for analysis of pathogenic bacteria were examined. Both rehydration of capture probe layer of functionalized chip arrays and efficient hybridization of targets irrespective of their length resulted in signal enhancement when high-ionic phosphate-buffered saline (i.e., 600 mM sodium chloride and 40 mM disodium hydrogen phosphate) was used. Similarly, placement of two adjacent capture and detection probe-binding sites at a terminal part of the target strand resulted in significant signal increase. Moreover, 10-min ultrasonic fragmentation of targets amplified the signals up to twofold for longer DNA strands (i.e., >300 bp). No obvious effects on signals were visible for shorter than 400-bp PCR amplicons subjected to ultrasonication. For DNA strands of all sizes, more than 10 min ultrasonication diminished the specific electrical responses. Our results also demonstrate that target analytes are detected with discrimination against mismatches even for single nucleotide sequence alteration. The mismatch detection appeared in order of ease of recognition as follows: triple random > quintuple middle > triple middle > single middle mismatch. Among the three variants of one-base mismatches, a sequence variation was most remarkable for adenine. On the other hand, no benefits in assay sensitivity were recognized by the use of longer capture probe linkers as the 6-C linker.     

Isolation, characterization, and expression in Escherichia coli of the DNA polymerase gene from Thermus aquaticus

The thermostable properties of the DNA polymerase activity from Thermus aquaticus (Taq) have contributed greatly to the yield, specificity, automation, and utility of the polymerase chain reaction method for amplifying DNA. We report the cloning and expression of Taq DNA polymerase in Escherichia coli. From a lambda gt11:Taq library we identified a Taq DNA fragment encoding an epitope of Taq DNA polymerase via antibody probing. The fusion protein from the lambda gt11:Taq candidate selected an antibody from an anti-Taq polymerase polyclonal antiserum which reacted with Taq polymerase on Western blots. We used the lambda gt11 clone to identify Taq polymerase clones from a lambda Ch35:Taq library. The complete Taq DNA polymerase gene has 2499 base pairs. From the predicted 832-amino acid sequence of the Taq DNA polymerase gene, Taq DNA polymerase has significant similarity to E. coli DNA polymerase I. We subcloned and expressed appropriate portions of the insert from a lambda Ch35 library candidate to yield thermostable, active, truncated, or full-length forms of the protein in E. coli under control of the lac promoter.     

Fluorescence resonance energy transfer-based detection of analytes using antiidiotypic affinity protein pairs

A new method for specific detection of proteins based on fluorescence resonance energy transfer (FRET) using affinity proteins (affibodies) derived from combinatorial engineering of Staphylococcal protein A has been developed. Antiidiotypic affibody pairs were used in a homogeneous competitive binding assay, where the idiotypic, target-specific affibody was labeled with fluorescein and the antiidiotypic affibody was labeled with tetramethylrhodamine. Intermolecular FRET between the two fluorescent probes was observed in the antiidiotypic affibody complex, but upon addition of target protein the antiidiotypic affibody was displaced, which was monitored by a shift in the relative emission of the donor and acceptor fluorophores. The feasibility of the system was demonstrated by the detection of IgA and Taq DNA polymerase with high specificity, using two different antiidiotypic affibody pairs. Detection of Taq DNA polymerase in 25% human plasma was successfully carried out, demonstrating that the method can be used for analysis of proteins in samples of complex composition.     

Detection of Norwalk virus in the UK by the polymerase chain reaction

Abstract We have developed a polymerase chain reaction for the detection of Norwalk virus using the published sequence of the virus RNA dependent RNA polymerase gene and have used this to clone and sequence this region of a virus from a UK outbreak. We have applied this method to a panel of UK Norwalk-like viruses using both Tet-z and Taq DNA polymerases and found that amplification produces a multiplicity of bands from stool samples. However, combination with Southern blotting. Taq polymerase amplification detected virus in 13 of a panel of 30 clinical samples known to contain these viruses and also detected astroviruses in a mixed infection. Amplification using Tet-z DNA polymerase was less efficient (6/30) and detected predominantly viruses typed as UK type 2 by solid phase immune electron microscopy.     

Affibody molecules in protein capture microarrays: evaluation of multidomain ligands and different detection formats

The importance of the ligand presentation format for the production of protein capture microarrays was evaluated using different Affibody molecules, produced either as single 6 kDa monomers or genetically linked head-to-tail multimers containing up to four domains. The performances in terms of selectivity and sensitivity of the monomeric and the multidomain Affibody molecules were compared by immobilization of the ligands on microarray slides, followed by incubation with fluorescent-labeled target protein. An increase in signal intensities for the multimers was demonstrated, with the most pronounced difference observed between monomers and dimers. A protein microarray containing six different dimeric Affibody ligands with specificity for IgA, IgE, IgG, TNF-alpha, insulin, or Taq DNA polymerase was characterized for direct detection of fluorescent-labeled analytes. No cross-reactivity was observed and the limits of detection were 600 fM for IgA, 20 pM for IgE, 70 fM for IgG, 20 pM for TNF-alpha, 60 pM for insulin, and 10 pM for Taq DNA polymerase. Also, different sandwich formats for detection of unlabeled protein were evaluated and used for selective detection of IgA or TNF-alpha in human serum or plasma samples, respectively. Finally, the presence of IgA was determined using detection of directly Cy5-labeled normal or IgA-deficient serum samples.     

A novel ochre mutation in the beta-thalassemia gene of a Thai. Identification by direct cloning of the entire beta-globin gene amplified using polymerase chain reactions

The beta-globin genes from a Thai patient compound heterozygous for beta-thalassemia and HbE disease were investigated. The 3.0-kilobase fragment containing the entire beta-globin gene was amplified by polymerase chain reaction, using Taq DNA polymerase followed by direct cloning of the amplified product into plasmid DNA. Sequence analysis of the thalassemia gene revealed only one base change, a C-A transversion within codon for an amino acid 35. This new mutation creates a premature terminator, TAA, an ochre codon, and results in a beta 0-thalassemia phenotype. The same result was obtained when this mutation was analyzed using a conventional cloning technique, direct sequencing of the amplified product, and hybridization with allele-specific oligonucleotide probes. No misincorporation was detected in the sequence analysis of the 3.0-kilobase insert of five clones of the amplified products obtained from genomic DNA of a normal individual. This approach is a rapid and accurate method for molecular cloning of the beta-globin gene and also other genes, the partial nucleotide sequences of which are known.     

Universal DNA array detection of small insertions and deletions in BRCA1 and BRCA2

Array-based mutation detection methodology typically relies on direct hybridization of the fluorescently labeled query sequence to surface-bound oligonucleotide probes. These probes contain either small sequence variations or perfect-match sequence. The intensity of fluorescence bound to each oligonucleotide probe is intended to reveal which sequence is perfectly complementary to the query sequence. However, these approaches have not always been successful, especially for detection of small frameshift mutations. Here we describe a multiplex assay to detect small insertions and deletions by using a modified PCR to evenly amplify each amplicon (PCR/PCR), followed by ligase detection reaction (LDR). Mutations were identified by screening reaction products with a universal DNA microarray, which uncouples mutation detection from array hybridization and provides for high sensitivity. Using the three BRCA1 and BRCA2 founder mutations in the Ashkenazi Jewish population (BRCA1 185delAG; BRCA1 5382insC; BRCA2 6174delT) as a model system, the assay readily detected these mutations in multiplexed reactions. Our results demonstrate that universal microarray analysis of PCR/PCR/LDR products permits rapid identification of small insertion and deletion mutations in the context of both clinical diagnosis and population studies.     

Isolation of cDNA clones encoding an enzyme from bovine cells that repairs oxidative DNA damage in vitro: homology with bacterial repair enzymes.

Ionizing radiation and radiomimetic compounds, such as hydrogen peroxide and bleomycin, generate DNA strand breaks with fragmented deoxyribose 3' termini via the formation of oxygen-derived free radicals. These fragmented sugars require removal by enzymes with 3' phosphodiesterase activity before DNA synthesis can proceed. An enzyme that reactivates bleomycin-damaged DNA to a substrate for Klenow polymerase has been purified from calf thymus. The enzyme, which has a Mr of 38,000 on SDS-PAGE, also reactivates hydrogen peroxide-damaged DNA and has an associated apurinic/apyrimidinic (AP) endonuclease activity. The N-terminal amino acid sequence of the purified protein matches that reported previously for a calf thymus enzyme purified on the basis of AP endonuclease activity. Degenerate oligonucleotide primers based on this sequence were used in the polymerase chain reaction to generate from a bovine cDNA library a fragment specific for the 5' end of the coding sequence. Using this cDNA fragment as a probe, several clones containing 1.35 kb cDNA inserts were isolated and the complete nucleotide sequence of one of these determined. This revealed an 0.95 kb open reading frame which would encode a polypeptide of Mr 35,500 and with a N-terminal sequence matching that determined experimentally. The predicted amino acid sequence shows strong homology with the sequences of two bacterial enzymes that repair oxidative DNA damage, ExoA protein of S. pneumoniae and exonuclease III of E. coli.     

The use of Taq DNA polymerase to determine the sequence specificity of DNA damage caused by cis-diamminedichloroplatinum(II), acridine-tethered platinum(II) diammine complexes or two analogues.

cis-Diamminedichloroplatinum(II) (cisplatin) forms adducts with DNA. The sequence specificity of formation of cisplatin adducts with plasmid DNA was investigated using Taq DNA polymerase. This procedure involved the extension of an oligonucleotide primer by Taq DNA polymerase up to the cisplatin adduct. Using thermal cycling, this process is repeated many times in order to amplify the signal. The products of this linear amplification can then be examined on DNA sequencing gels, and the sequence specificity of cisplatin adduct formation can be determined to the exact base pair. In the pUC8 plasmid, the sequences that produced the most intense damage sites (as determined by densitometry) were runs of two or more Gs. Adducts could also be detected at GA, AG, and GC dinucleotides. Four other cisplatin analogues were also tested in the system. Two of these analogues contained an attached intercalating chromophore, and the strong damage with these compounds was similar to that found for cisplatin, but the medium and weak damage tended to be different. Weak damage was also detected with trans-diamminedichloroplatinum(II). With this compound, a large number of the damage sites were at the CG dinucleotide. This technique represents a simple, accurate, and quick method for determining the sequence specificity of damage for a cisplatin analogue in any DNA sequence.