EC:2.7.7.7 - FACTA Search

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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)

Mild proteolysis of rat DNA polymerase beta (beta-pol) generates an N-terminal 8 kDa domain and a C-terminal 31 kDa domain; the 31 kDa domain is degraded to 6 and 27 kDa fragments by further proteolysis [Kumar, A., Widen, S.G., Williams, K.R., Kedar, P., Karpel, R.L., & Wilson S.H. (1990) J. Biol. Chem. 265, 2124-2131]. In the present study, we found that more vigorous trypsin digestion of the 27 kDa fragment of beta-pol produces 10 and 12 kDa subdomains. Thus, rat beta-pol has four distinct proteolytic fragments of 8, 6, 10, and 12 kDa, extending from the N-terminus to the C-terminus, respectively. To map the location of the dNTP binding site(s), intact beta-pol was photoaffinity labeled with 8-azido-ATP or 5-azido-dUTP in presence or absence of competitor dNTP (dATP). The labeled enzyme was subjected to controlled proteolysis, and the resulting labeled peptides were separated and sequenced. Competition with dATP showed that three regions of beta-pol in solution combine to form the dNTP binding pocket as follows: residues 4-40 of the 8 kDa domain; residues 142-206 of the 10 kDa subdomain; and residues 263-280 of the 12 kDa subdomain (alpha-helices M and N). These results are discussed in light of the recent crystal structure of dATP bound to rat beta-pol.
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PMID:dNTP binding site in rat DNA polymerase beta revealed by controlled proteolysis and azido photoprobe cross-linking. 861 93

We show that archaebacterial DNA polymerases are strongly inhibited by the presence of small amounts of uracil-containing DNA. Inhibition appears to be competitive, with the DNA polymerase exhibiting approximately 6500-fold greater affinity for binding the inhibitor than a DNase I-activated DNA substrate. All six archaebacterial DNA polymerases tested were inhibited, while no eubacterial, eukaryotic, or bacteriophage enzymes showed this effect. Only a small inhibition resulted when uracil was present as the deoxynucleoside triphosphate, dUTP. The rate of DNA synthesis was reduced by approximately 40% when dUTP was used in place of dTTP for archaebacterial DNA polymerases. Furthermore, an incorporated dUMP served as a productive 3'-primer terminus for subsequent elongation. In contrast, the presence of an oligonucleotide containing as little as a single dUrd residue was extremely inhibitory to DNA polymerase activity on other primer-template DNA.
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PMID:Archaebacterial DNA polymerases tightly bind uracil-containing DNA. 866 53

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

PCR is a continually evolving technology. In the years since in inception, there have been many improvements made to the assay, and also to the automation. Some of the early developmental highlights in PCR are listed as follows; 1) The amplification process was automated with the introduction of thermocyclers. 2) False-positive results from carryover of amplification products have been largely eliminated by the incorporation of dUTP into amplification reactions and the subsequent restriction of dU-containing amplicons with UNG (AmpErase). 3) A combined RT-PCR assay for the amplification of RNA that utilizes a single thermoactive enzyme (Tth DNA polymerase) was recently developed. This assay eliminates the need to change buffer/enzymes between the RT and PCR steps. 4) The methods for detecting amplicons has been made simpler and faster. The use of radioactivity and electrophoresis have been eliminated. The development of microwell plate assays provides users with a familiar format (similar to EIAs) and makes use of reagents that are readily available. Based on the above developments and clinical requirements, the developments of the automated PCR testing are progressed. The recent introduction of the COBAS AMPLICOR represents a major advance in PCR instrumentation. With the COBAS AMPLICORE, both the amplification and detection process are automated. This greatly reduces the hand-on time required to carry out PCR assays and further improves assay reproducibility. Further developments for full automation are on going, i.e., kinetic PCR, 5' exonuclease assay, etc.
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PMID:[Present status and future on automated PCR testing for microorganisms]. 895 40

Primed in situ (PRINS) labeling has been applied to replace the traditional fluorescence in situ hybridization (FISH) method for the detection of specific sequences in situ in several numerical and structural chromosome anomalies. PRINS is based on sequence-specific annealing in situ of an unlabeled DNA probe or oligonucleotide primer. The probe serves as a primer for chain elongation in situ, using the labeled nucleotides as substrate. An oligonucleotide, (CCCTAA) representing human telomeric sequences, was mixed with nucleotides, biotin-16-dUTP, and Taq DNA polymerase, and applied on metaphase slides with ring chromosomes 4, 13, 18, X and Y. Primers for alpha-satellite sequences specific for the centromeric regions of human chromosomes 13, 15, 18, X and Y were also used to characterize the nature and origin of unidentifiable supernumerary marker chromosomes. The specificity of PRINS in differentiating centromeric sequences of chromosome [3 from 21 which is not possible with FISH, was demonstrated. Absence of the telomeric sequences in all of the ring chromosomes was noted in normal and abnormal phenotypes. The results suggest a mechanism of ring formation, an end-to-end fusion after loss of the palindromic nucleotide sequences at the telomeres PRINS, a fast and sensitive method of detecting nucleic acid sequences in situ, may be a reliable technique for detecting chromosomal aneuploidies and some structural rearrangements.
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PMID:Primed in situ (PRINS) labeling for rapid detection of numeric and structural chromosome anomalies. 903 82

5-Formyluracil (fU) is one of the thymine lesions produced by reactive oxygen radicals in DNA and its constituents. In this work, 5-formyl-2'-deoxyuridine 5'-triphosphate (fdUTP) was chemically synthesized and extensively purified by HPLC. The electron withdrawing 5-formyl group facilitated ionization of fU. Thus, p K a of the base unit of fdUTP was 8.6, significantly lower than that of parent thymine (p K a = 10.0 as dTMP). fdUTP efficiently replaced dTTP during DNA replication catalyzed by Escherichia coli DNA polymerase I (Klenow fragment), T7 DNA polymerase (3'-5'exonuclease free) and Taq DNA polymerase. fU-specific cleavage of the replication products by piperidine revealed that when incorporated as T, incorporation of fU was virtually uniform, suggesting minor sequence context effects on the incorporation frequency of fdUTP. fdUTP also replaced dCTP, but with much lower efficiency than that for dTTP. The substitution efficiency for dCTP increased with increasing pH from 7.2 to 9.0. The parallel correlation between ionization of the base unit of fdUTP (p K a = 8.6) and the substitution efficiency for dCTP strongly suggests that the base-ionized form of fdUTP is involved in mispairing with template G. These data indicate that fU can be specifically introduced into DNA as unique lesions by in vitro DNA polymerase reactions. In addition, fU is potentially mutagenic since this lesion is much more prone to form mispairing with G than parent thymine.
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PMID:Substrate and mispairing properties of 5-formyl-2'-deoxyuridine 5'-triphosphate assessed by in vitro DNA polymerase reactions. 909 64

Using in situ DNA polymerase I-mediated biotin-dATP nick-translation (PANT) and terminal deoxynucleotidyl-transferase-mediated dUTP nick end-labeling (TUNEL), we investigated the evolution of DNA strand breaks, a marker of DNA damage, in rat brain after 1 h of middle cerebral artery occlusion and various durations of reperfusion. DNA single-strand breaks (SSBs) detected by PANT were present in neurons after as little as 1 min of reperfusion. Numbers of neurons containing an SSB increased progressively in the ischemic core but decreased in the ischemic penumbra after 1 h of reperfusion. DNA double-strand breaks (DSBs) detected by TUNEL were first seen in neurons after 1 h of reperfusion, and their numbers then increased progressively in the ischemic core, with a regional distribution similar to that of SSBs. However, the number of SSB-containing cells was greater than that of DSB-containing cells at all time points tested. SSB-containing cells detected within the first hour of reperfusion were exclusively neuronal and exhibited normal nuclear morphology. At 16-72 h of reperfusion, many SSB- and DSB-containing cells, including both neurons and astrocytes, showed morphological changes consistent with apoptosis. Gel electrophoresis of DNA isolated from the ischemic core showed DNA fragmentation at 24 h, when both SSBs and DSBs were present, but not at 1 h, when few DSBs were detected. These results suggest that damage to nuclear DNA is an early event after neuronal ischemia and that the accumulation of unrepaired DNA SSBs may contribute to delayed ischemic neuronal death, perhaps by triggering apoptosis.
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PMID:Early detection of DNA strand breaks in the brain after transient focal ischemia: implications for the role of DNA damage in apoptosis and neuronal cell death. 920 15

New inhibitors of the enzyme thymidylate synthase (TS) are now reaching clinical application. Alteration of the dUTP: dTTP ratio may be critical to TS inhibition-induced tumor cell death. The DNA polymerase assay with modification was used to rapidly and sensitively measure dUTP, dTTP, and dUTP:dTTP ratios in cell extracts of HT29 human colon carcinoma cells treated with the specific TS inhibitor ZD1694 [N-(5-[N-(3,4-dihydro-2-methyl-4-oxoquinazolin-6-ylmethyl)-N-methylamino]-2-thenoyl)-L-glutamic acid]. These results revealed an increase in the dUTP:dTTP ratio at 2 hr after a 2-hr exposure to ZD1694 at concentrations of 0.05 to 0.2 microM with significant normalization at 16 hr after a 2-hr exposure despite evidence of continued TS inhibition. This assay is highly sensitive and reproducible for levels of dUTP and is less labor intensive than traditional assays.
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PMID:Measurement of deoxyuridine triphosphate and thymidine triphosphate in the extracts of thymidylate synthase-inhibited cells using a modified DNA polymerase assay. 933 81

Thermophilic strand displacement amplification (tSDA) is an isothermal DNA amplification technique that proceeds at 55-60 degrees C using both a thermostable restriction enzyme and a DNA polymerase. A modification of this system has been developed that allows the simultaneous amplification and detection of a DNA target by the addition of a detector probe to the reaction. This tSDA system has been further modified into a flow cytometry-based, bead capture assay for quantitation of HIV-1 RNA. A biotinylated capture probe and digoxygenin-dUTP have been incorporated into the tSDA reaction. The resulting double labelled amplicons are captured on strepavidin beads, and a fluorescent signal is generated on the beads by staining with fluorescent anti-digoxygenin antibody. The assay has a linear dynamic range of three orders of magnitude with a lower detection limit at 250 HIV-1 RNA molecules.
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PMID:A rapid and sensitive method for non-isotopic quantitation of HIV-1 RNA using thermophilic SDA and flow cytometry. 937 93

Uracil can arise in DNA by misincorporation of dUTP into nascent DNA and/or by cytosine deamination in established DNA. Based on recent findings, both pathways appear to be promoted in the methyl-deficient model of hepatocarcinogenesis. A chronic increase in the ratio dUTP:dTTP with folate/methyl deficiency can result in a futile cycle of excision and reiterative uracil misincorporation leading to premutagenic apyrimidinic (AP) sites, DNA strand breaks, DNA fragmentation and apoptotic cell death. The progressive accumulation of unmethylated cytosines with chronic methyl deficiency will increase the potential for cytosine deamination to uracil and further stress uracil mismatch repair mechanisms. Uracil is removed by a highly specific uracil-DNA glycosylase (UDG) leaving an AP site that is subsequently repaired by sequential action of AP endonuclease, 5'-phosphodiesterase, a DNA polymerase and DNA ligase. Since the DNA polymerases cannot distinguish between dUTP and dTTP, an increase in dUTP:dTTP ratio will promote uracil misincorporation during both DNA replication and repair synthesis. The misincorporation of uracil for thymine (5-methyluracil) may constitute a genetically significant form of DNA hypomethylation distinct from cytosine hypomethylation. In the present study a significant increase in the level of uracil in liver DNA as early as 3 weeks after initiation of folate/methyl deficiency was accompanied by parallel increases in DNA strand breaks, AP sites and increased levels of AP endonuclease mRNA. In addition, uracil was also detected within the p53 gene sequence using UDG PCR techniques. Increased levels of uracil in DNA implies that the capacity for uracil base excision repair is exceeded with chronic folate/methyl deficiency. It is possible that enzyme-induced extrahelical bases, AP sites and DNA strand breaks interact to negatively affect the stability of the DNA helix and stress the structural limits of permissible uracil base excision repair activity. Thus substitution of uracil for thymine induces repair-related premutagenic lesions and a novel form of DNA hypomethylation that may relate to tumor promotion in the methyl-deficient model of hepatocarcinogenesis.
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PMID:Presence and consequence of uracil in preneoplastic DNA from folate/methyl-deficient rats. 939 4

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