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Query: EC:2.7.7.7 (DNA polymerase)
17,007 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

An isothermal in vitro DNA amplification method was developed based upon the following sequence of reaction events. Restriction enzyme cleavage and subsequent heat denaturation of a DNA sample generates two single-stranded target DNA fragments (T1 and T2). Present in excess are two DNA amplification primers (P1 and P2). The 3' end of P1 binds to the 3' end of T1, forming a duplex with 5' overhangs. Likewise, P2 binds to T2. The 5' overhangs of P1 and P2 contain a recognition sequence (5'-GTTGAC-3') for the restriction enzyme HincII. An exonuclease-deficient form of the large fragment of Escherichia coli DNA polymerase I (exo- Klenow polymerase) [Derbyshire, V., Freemont, P. S., Sanderson, M. R., Beese, L., Friedman, J. M., Joyce, C. M. & Steitz, T. A. (1988) Science 240, 199-201] extends the 3' ends of the duplexes using dGTP, dCTP, TTP, and deoxyadenosine 5'-[alpha-thio]triphosphate, which produces hemiphosphorothioate recognition sites on P1.T1 and P2.T2. HincII nicks the unprotected primer strands of the hemiphosphorothioate recognition sites, leaving intact the modified complementary strands. The exo- Klenow polymerase extends the 3' end at the nick on P1.T1 and displaces the downstream strand that is functionally equivalent to T2. Likewise, extension at the nick on P2.T2 results in displacement of a downstream strand functionally equivalent to T1. Nicking and polymerization/displacement steps cycle continuously on P1.T1 and P2.T2 because extension at a nick regenerates a nickable HincII recognition site. Target amplification is exponential because strands displaced from P1.T1 serve as targets for P2 and strands displaced from P2.T2 serve as targets for P1. A 10(6)-fold amplification of a genomic sequence from Mycobacterium tuberculosis or Mycobacterium bovis was achieved in 4 h at 37 degrees C.
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PMID:Isothermal in vitro amplification of DNA by a restriction enzyme/DNA polymerase system. 130 14

Screening of a Mycobacterium tuberculosis genomic DNA library in the lambda gt11 expression vector was carried out by using, as probes, sera from tuberculous patients and murine monoclonal antibody H61.3 recognizing a mycobacterial 35-kilodalton protein present only on the M. tuberculosis complex. The recombinant beta-galactosidase-fused protein present in the crude lysate induced the proliferation of T lymphocytes from patients with tuberculous pleuritis. As the recombinant insert contains an internal EcoRI restriction site, it was possible to identify two fragments, one proximal to the lacZ gene and 1.7 kilobases (kb) in size and the other distal to the lacZ gene and 2.2 kb in size. Southern blot analysis showed that both of them hybridized with the genomic DNA from M. tuberculosis and M. bovis but not with the DNA from other mycobacterial species. To perform extensive immunological studies, the amount of beta-galactosidase-fused protein being very low, we fused the 1.7-kb fragment to the N-terminal part of the gene coding for the DNA polymerase of bacteriophage MS2 in the expression vector pEx34. The fusion protein was partially purified, and subsequent Western blotting (immunoblotting) and T-cell proliferation experiments confirmed the presence of B- and T-cell mycobacterial epitopes. Furthermore, to isolate the chromosomal region containing the 35-kilodalton gene, we constructed another mycobacterial genomic library in the lambda 2001 vector by cloning 15 to 20 kb of foreign DNA. Screening of this library was carried out by using 1.7- and 2.2-kb recombinant fragments as probes. Restriction maps of some clones isolated were determined.
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PMID:Identification of a 35-kilodalton Mycobacterium tuberculosis protein containing B- and T-cell epitopes. 168 20

The thymidine analog 3'-azido-3'-deoxythymidine (BW A509U; azidothymidine [AZT]) had potent bactericidal activity against many members of the family Enterobacteriaceae, including strains of Escherichia coli, Salmonella typhimurium, Klebsiella pneumoniae, Shigella flexneri, and Enterobacter aerogenes. AZT also had bactericidal activity against Vibrio cholerae and the fish pathogen Vibrio anguillarum. AZT had no activity against Pseudomonas aeruginosa, gram-positive bacteria, anaerobic bacteria, Mycobacterium tuberculosis, nontuberculosis mycobacteria, or most fungal pathogens. Several lines of evidence indicated that AZT must be activated to the nucleotide level to inhibit cellular metabolism: AZT was a substrate for E. coli thymidine kinase; spontaneously arising AZT-resistant mutants of E. coli ML-30 and S. typhimurium were deficient in thymidine kinase; and intact E. coli ML-30 cells converted [3H]AZT to its mono-, di-, and triphosphate metabolites. Of the phosphorylated metabolites, AZT-5'-triphosphate was the most potent inhibitor of replicative DNA synthesis in toluene-permeabilized E. coli pol A mutant cells. AZT-treated E. coli cultures grown in minimal medium contained highly elongated cells consistent with the inhibition of DNA synthesis. AZT-triphosphate was a specific DNA chain terminator in the in vitro DNA polymerization reaction catalyzed by the Klenow fragment of E. coli DNA polymerase I. Thus, DNA chain termination may explain the lethal properties of this compound against susceptible microorganisms.
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PMID:Antibacterial activity and mechanism of action of 3'-azido-3'-deoxythymidine (BW A509U). 355 32

DNA polymerase has been purified approximately 2000-fold from Mycobacterium tuberculosis H37Rv. The purified preparation was homogeneous by electrophoretic criteria and has a molecular weight of 135 000. The purified enzyme resembles Escherichia coli polymerase I in its properties, being insensitive to sulfhydryl drugs and possessing 5',3'-exonuclease activity in addition to polymerase and 3',5'-exonuclease activities. However, it differs from the latter in its sensitivity to higher salt concentration and DNA intercalating agents such as 8-aminoquinoline. The polymerase exhibited maximal activity between 37--42 degrees C and pH 8.8--9.5. The polymerase was stable for several months below 0 degree C. However, the 5',3'-exonuclease activity was more labile. The effects of different metal ions, polyamines and drugs on the polymerase activity are presented.
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PMID:Purification and properties of DNA polymerase from Mycobacterium tuberculosis H37Rv. 678 93

The polA gene (encoding DNA polymerase I) from Mycobacterium tuberculosis was cloned using an internal gene segment probe generated by PCR amplification of genomic DNA [Mizrahi et al., Gene 136 (1993) 287-290]. The gene encodes a polypeptide 904 amino acids (aa) in length that shares 89% identity with a 911-aa homologue from Mycobacterium leprae. The polypeptide has all of the primary structural elements necessary for DNA polymerase and 5'-3' exonuclease activity, but lacks the motifs required for an associated 3'-5' exonuclease (proofreading) activity.
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PMID:Cloning and sequence analysis of the gene encoding the DNA polymerase I from Mycobacterium tuberculosis. 759 Mar 2

Detection of Mycobacterium tuberculosis by microscopy is difficult in specimens containing fewer than 10(4) bacteria/mL and growth in culture can take up to 6 wks. In this study the Polymerase Chain Reaction (PCR) was investigated as a rapid diagnostic technique for the detection of M. tuberculosis. The presence of DNA polymerase inhibitors in sputum specimens poses a potentially serious problem as false negative results can occur. In this study polymerase inhibitors were detected by inclusion of an internal plasmid control in each test. DNA from specimens in which the internal control failed to amplify was purified with a DNA binding matrix before retesting by PCR. A total of 169 sputum specimens were examined and 4 were found to have inhibitors. The correlation between detection of M. tuberculosis by PCR with a combination of culture, Ziehl-Neelsen (ZN) staining and patient history was 97.6%. This study confirms that PCR offers a more sensitive and rapid alternative for the detection of M. tuberculosis to ZN staining and culture, with results being available within 24 hrs of a specimen being received in the laboratory.
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PMID:The diagnostic use of the polymerase chain reaction for the detection of Mycobacterium tuberculosis. 789 54

The utility of polymerase chain reaction (PCR) is described for the diagnosis in three patients suffering from central nervous system infections, tuberculous meningitis, herpetic encephalitis and cerebral toxoplasmosis. PCR was performed in the cerebrospinal fluid after processing the specimen by two methods, proteinase K digestion and phenol extraction of DNA. Amplification was realized using primers previously described that amplify specific DNA fragments of each microorganisms (insertion sequence IS6110 of Mycobacterium tuberculosis, B1 gene of Toxoplasma gondii, and DNA polymerase gene of Herpes simplex virus). In all three cases, PCR was positive after amplification of the specimen extracted with proteinase K, as well as when a complete DNA extraction with phenol was realized. In all cases a band of amplified products was observed in agarose gels. In conclusion, in all three patients described, PCR would had allowed the diagnosis in seven hours, and PCR should be consider a rapid sensitive and relatively simple method.
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PMID:[Applications of the polymerase chain reaction (PCR) to the diagnosis of central nervous system infections]. 876 71

Strand displacement amplification (SDA) is an isothermal, in vitro method for diagnostics that amplifies a target DNA sequence by using a restriction enzyme and DNA polymerase. We have combined a new thermophilic form of SDA that involves restriction enzyme BsoBI and polymerase exo-Bca with fluorescence polarization for detection of Mycobacterium tuberculosis DNA by using the IS6110 insertion element as the target sequence. A 5'-fluorescein-labeled oligodeoxynucleotide detector probe hybridizes to the amplified product as it rises in concentration during SDA, and the single- to double-stranded conversion is monitored through an increase in fluorescence polarization. The associated change in polarization upon amplification of the target sequence is enhanced by specific polymerase binding to the double-stranded detector probe. Fewer than 10 M. tuberculosis genomes can be amplified and detected with an extremely simple protocol that takes only 20 min and uses relatively simple instrumentation and reagents, all of which can be purchased off-the-shelf.
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PMID:Detection of Mycobacterium tuberculosis DNA with thermophilic strand displacement amplification and fluorescence polarization. 885 42

Strand Displacement Amplification (SDA) is an isothermal, in vitro method of amplifying DNA that is based upon the combined action of a DNA polymerase and restriction enzyme. Previously, a form of SDA was developed which utilizes the exonuclease deficient Klenow fragment of E. coli polymerase I (exo Klenow) and the restriction enzyme HincII to achieve 10(8)-fold amplification in 2 h at 37 degrees C (Walker, G.T., 1993, PCR Methods and Applications 3; 1-6). A new thermophilic form of SDA is reported here which uses a restriction endonuclease from Bacillus stearothermophilus (BsoBI) and a 5'-->3' exonuclease deficient polymerase from Bacillus caldotenax (exo Bca). SDA was used to amplify DNA from Mycobacterium tuberculosis. An amplification factor of 10(10)-fold was achieved after 15 min of SDA at 60 degrees C. The new thermophilic system is much more specific than the previous mesophilic system as evidenced by a dramatic decrease in background amplification products. Thermophilic SDA was also optimized with dUTP substituted for TTP to enable amplicon decontamination using uracil-DNA glycosylase.
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PMID:Detection of M. tuberculosis DNA using thermophilic strand displacement amplification. 886 73

A sensitive, labor-saving, and easily automatable nonradioactive procedure named APEX-FCS (amplified probe extension detected by fluorescence correlation spectroscopy) has been established to detect specific in vitro amplification of pathogen genomic sequences. As an example, Mycobacterium tuberculosis genomic DNA was subjected to PCR amplification with the Stoffel fragment of Thermus aquaticus DNA polymerase in the presence of nanomolar concentrations of a rhodamine-labeled probe (third primer), binding to the target in between the micromolar amplification primers. The probe becomes extended only when specific amplification occurs. Its low concentration avoids false-positives due to unspecific hybridization under PCR conditions. With increasing portion of extended probe molecules, the probe's average translational diffusion properties gradually change over the course of the reaction, reflecting amplification kinetics. Following PCR, this change from a stage of high to a stage of low mobility can directly be monitored during a 30-s measurement using a fluorescence correlation spectroscopy device. Quantitation down to 10 target molecules in a background of 2.5 micrograms unspecific DNA without post-PCR probe manipulations could be achieved with different primer/ probe combinations. The assay holds the promise to concurrently perform amplification, probe hybridization, and specific detection without opening the reaction chamber, if sealable foils are used.
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PMID:Fluorescence correlation analysis of probe diffusion simplifies quantitative pathogen detection by PCR. 891

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