Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

The versatility of non-radioactive cell-cycle analysis in detecting endogenous nuclear antigens of the proliferating cells was evaluated. Optimal conditions for immunostaining varied in fixation and pretreatment procedures among antigens, bromodeoxyuridine (BrdU), Ki-67 epitope, DNA polymerase alpha and PCNA. A significant correlation between BrdU labeling index (LI) was observed in each positive ratio (PR, positive/total neoplastic cells) for nuclear antigens in tumor-sections which had been labeled in vivo with BrdU. The best correlation was observed in Ki-67 PR (y = 1.26x + 2.5; y = Ki-67 PR; x = BrdU LI; r = 0.97). To determine its prognostic value, Ki-67 analysis was applied to the surgically resected lung tumors. Ki-67 PR were different according to the histologic types of the tumors: 47.8 +/- 3.4% in small cell carcinoma; 29.5 +/- 3.5% in squamous cell carcinoma; 28.3 +/- 4.7% in large cell carcinoma; 15.2 +/- 1.8% in adenocarcinoma and 0.1 +/- 0.1% in mature carcinoid tumor. When the mean value was used to divide each type to a higher or lower proliferative activity (15% Ki-67 PR for adenocarcinoma and 30% for squamous cell carcinoma), the group with the lower Ki-67 PR showed a significantly more favorable prognosis than that of a higher ratio. Ki-67 PR was not correlated with other pathologic factors such as size, lymph node metastasis or pleural involvement. Non-radioactive cell-cycle analysis was feasible and useful for detecting endogenous nuclear antigens even in the lung tumors, particularly when the analysis was coupled with histologic typing.
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PMID:Cell-cycle analysis detecting endogenous nuclear antigens: comparison with BrdU-in vivo labeling and an application to lung tumors. 834 8

In order to further define the enzymatic properties of yeast DNA polymerase delta, the Saccharomyces cerevisiae POL3 gene, whose expression is highly toxic to bacteria in most cloning vectors, was cloned into a new T7 expression vector (W. C. Brown and J. L. Campbell, submitted for publication) which allowed efficient overexpression in bacteria. Fifteen mg of polymerase were obtained from 3 g of cells. Since the protein is produced in insoluble form, to obtain active polymerase, inclusion bodies were solubilized with urea. DNA polymerase delta (124 kDa) was purified in the presence of urea and then renatured by dialysis against buffers containing decreasing concentrations of urea. Optimal protein concentration for refolding was 5 micrograms/ml. By several criteria the enzyme obtained is comparable with that from yeast: specific activity, electrophoretic mobility, template preference, sensitivity to inhibitors, and processivity. The electrophoretic mobility suggests that, unlike DNA polymerase alpha, polymerase delta is not posttranslationally modified in yeast. Polyclonal antibody was raised against the full-length DNA polymerase delta from bacteria and shown to cross-react with the protein purified from yeast on protein blots. The renatured protein also exhibits an exonucleolytic activity. Further examination of this nuclease determined it to be a 3' to 5' exonuclease with the characteristics of a proofreading activity. The presence of this nuclease in the highly purified bacterial polymerase provides biochemical confirmation of earlier genetic evidence (Simon, M., Giot, L., and Faye, G. (1991) EMBO J. 10, 2165-2170) that suggested that DNA polymerase delta's core catalytic subunit contains an intrinsic 3' to 5' exonuclease.
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PMID:Purification and characterization of the Saccharomyces cerevisiae DNA polymerase delta overproduced in Escherichia coli. 838 Apr 19

Initiation of adenovirus DNA replication in vitro minimally requires the viral TP-DNA template and the precursor terminal protein-DNA polymerase heterodimer (pTP-pol). Optimal initiation occurs in the presence of the cellular transcription factors NFI and Oct-1 and the viral DNA binding protein (DBP). We have studied the influence of these three stimulatory proteins on the kinetics of formation of the pTP-dCMP initiation complex. NFI increases the Vmax of the reaction but does not affect the apparent Km for dC-TP. This indicates that NFI acts by enlarging the amount of active initiation complex in agreement with its stabilizing effect on binding of pTP-pol to the template. Similar kinetic effects were observed for Oct-1. Since Oct-1 does not stabilize binding of pTP-pol to the origin this suggests that Oct-1 increases the rate of pTP-dCMP formation. DBP stimulates the initiation reaction in two ways. First, it moderately increases the Vmax at suboptimal NFI concentrations, which is related to its enhancing effect on binding of NFI to the origin. Second, a much larger stimulation was caused by DBP itself based on a reduction of the Km for dCTP, which was independent of the concentration of pTP-pol or NFI. The Km for dCTP during initiation is lower than during elongation.
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PMID:The adenovirus DNA binding protein effects the kinetics of DNA replication by a mechanism distinct from NFI or Oct-1. 844 75

Optimal conditions were developed for a random amplified polymorphio DNA (RAPD) assay of hexaploid bread wheat and tetraploid durum wheat. AmpliTaq Stoffcl fragment was found to be better than Taq DNA polymerase in generating RAPDs. Studies on chromosome specific RAPD markers of the A- and B- and D-genome were performed using the complete set of Langdon disomic substitution lines and the parental lines (Langdon and Chinese Spring) as templete. Seven out of twelve arbitrary primers (all Operon 10-mer sequences) yielded 13 products that could be assigned to 1.0 chromosomes of A- and B- and D-genome, five of 13 markers for A-genome (2A: J6a and J11b; 3A: D11b; 6A: J17; 7A: J15a), seven for B-genome (1B: J11c; 2B: D5, D11c and J18) and one for D-genome (1D: J11a). Using Chinese Spring ditelosomic lines, four RAPD markers were further mapped to a specific chromosome arm (i.e., J11b-2AL, J17-6AL, D11c-2BL, and J11a-1DL). This study demonstrates that reproduoible RAPID markers can be generated and assigned to wheat chromosomes except 4AL, using Langdon disomic substitution lines and Chinese Spring euploid and aneuploids as malerids.
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PMID:[RAPD markers for wheat chromosomes in Langdon disomic substitution lines]. 869 76

Directed evolution of Escherichia coli beta-galactosidase into variants featuring beta-glucosidase activity was challenged. To this end, mutagenesis of lacZ was performed by replication in E. coli CC954, a mutator strain containing a DNA polymerase III defective in 3'-->5' exonuclease activity. beta-Galactosidase variants can be isolated upon mutagenesis of lacZ hosted into the self-transmissible episome F'128. Optimal evolution of lacZ can be achieved by propagation of E. coli CC954/F'128 cultures for 15 generations; further growth of mutator cultures for 37 or 55 generations imposes a high mutational load on lacZ and hinders the selection of efficiently evolved clones.
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PMID:Directed evolution of beta-galactosidase from Escherichia coli by mutator strains defective in the 3'-->5' exonuclease activity of DNA polymerase III. 1128 11

This paper describes studies on the processivity of an [alpha]-type DNA polymerase from maize (Zea mays L.) embryonic axes, designated as DNA polymerase 2. Using poly(dA)/oligo(dT) as template, DNA polymerase 2 has a processivity of 18 ([plus or minus]5) nucleotides incorporated, a value much lower than that found for wheat [alpha]-type DNA polymerase (P. Laquel, S. Litvak, M. Castroviejo [1993] Plant Physiol 102: 107-114). Conditions that maximally stimulate enzyme activity, such as 100 mM KCl and 12 mM Mg2+, are strongly inhibitory of processivity and cause the enzyme to become distributive under these conditions. Optimal concentrations for processivity are 10 mM KCl and 1 to 2 mM Mg2+. Both enzyme activity and processivity were found to be similar at different Mn2+ concentrations. Both DNA polymerase 2 activity and processivity are greatly reduced by spermine and N-ethylmaleimide. A distinguishing feature of processivity in DNA polymerase 2 was the response to ATP, which not only stimulated processivity by more than 2-fold, but also produced a distinctive pattern in which the enzyme seemed to pause every 10 nucleotides, reaching a value of 40 to 50 nucleotides incorporated. This pattern was observed in some, but not all, heparin-Sepharose fractions with enzyme activity, suggesting the possibility of different DNA polymerase 2 complexes.
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PMID:Studies on the Processivity of Maize DNA Polymerase 2, an [alpha]-Type Enzyme. 1222 18

Recombination-dependent replication is an integral part of the process by which double-strand DNA breaks are repaired to maintain genome integrity. It also serves as a means to replicate genomic termini. We reported previously on the reconstitution of a recombination-dependent replication system using purified herpes simplex virus type 1 proteins (Nimonkar A. V., and Boehmer, P. E. (2003) Proc. Natl. Acad. Sci. U. S. A. 100, 10201-10206). In this system, homologous pairing by the viral single-strand DNA-binding protein (ICP8) is coupled to DNA synthesis by the viral DNA polymerase and helicase-primase in the presence of a DNA-relaxing enzyme. Here we show that DNA synthesis in this system is dependent on the viral polymerase processivity factor (UL42). Moreover, although DNA synthesis is strictly dependent on topoisomerase I, it is only stimulated by the viral helicase in a manner that requires the helicase-loading protein (UL8). Furthermore, we have examined the dependence of DNA synthesis in the viral system on species-specific protein-protein interactions. Optimal DNA synthesis was observed with the herpes simplex virus type 1 replication proteins, ICP8, DNA polymerase (UL30/UL42), and helicase-primase (UL5/UL52/UL8). Interestingly, substitution of each component with functional homologues from other systems for the most part did not drastically impede DNA synthesis. In contrast, recombination-dependent replication promoted by the bacteriophage T7 replisome was disrupted by substitution with the replication proteins from herpes simplex virus type 1. These results show that although DNA synthesis performed by the T7 replisome is dependent on cognate protein-protein interactions, such interactions are less important in the herpes simplex virus replisome.
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PMID:Role of protein-protein interactions during herpes simplex virus type 1 recombination-dependent replication. 1502 9

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.
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PMID:Optimal conditions and specific characteristics of Vent exo- DNA polymerase in ligation-mediated polymerase chain reaction protocols. 1586 24

Human DNA apurinic/apyrimidinic (AP-) endonuclease 1 (APE1) is involved in the base excision repair (BER) pathway. The enzyme hydrolyzes DNA from the 5 side of the AP site. In addition to endonuclease activity, APE1 also possesses other slight activities including 3 -5 exonuclease activity. The latter is preferentially exhibited towards mispaired (non-canonical) nucleotides, this being the reason why APE1 is considered as a proofreading enzyme correcting the misincorporations introduced by DNA polymerase beta. We have studied 3 -5 exonuclease activity of APE1 towards dCMP and dTMP residues and modified dCMP analogs with photoreactive groups at the 3 end of the nicked DNA. Photoreactive dNMP residues were incorporated at the 3 end of the lesion using DNA polymerase beta and photoreactive dNTPs. The dependence of exonuclease activity on the "canonicity" of the base pair formed by dNMP flanking the nick at the 3 end, on the nature of the group flanking the nick at the 5 end, and on the reaction conditions has been determined. Optimal reaction conditions for the 3 -5 exonuclease hydrolysis reaction catalyzed by APE1 in vitro have been established, and conditions when photoreactive residues are not removed by APE1 have been chosen. These reaction conditions are suitable for using photoreactive nicked DNAs bearing 3 -photoreactive dNMP residues for photoaffinity labeling of proteins in cellular/nuclear extracts and model APE1-containing systems. We recommend using FAPdCTP for photoaffinity modification in APE1-containing systems because the FAPdCMP residue is less prone to exonuclease degradation, in contrast to FABOdCTP, which is not recommended.
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PMID:3'-5' exonuclease activity of human apurinic/apyrimidinic endonuclease 1 towards DNAs containing dNMP and their modified analogs at the 3 end of single strand DNA break. 1648 26

Highly efficient DNA synthesis without template and primer DNAs occurs when N.BspD6I DNA nickase is added to a reaction mixture containing deoxynucleoside triphosphates and the large fragment of Bst DNA polymerase. Over a period of 2 h, virtually all the deoxynucleoside triphosphates (dNTPs) become incorporated into DNA. Inactivation of N.BspD6I nickase by heating inhibits DNA synthesis. Optimal N.BspD6I activity is required to achieve high yields of synthesized DNA. Electron microscopy data revealed that the majority of DNA molecules have a branched structure. Cloning and sequencing of the fragments synthesized demonstrated that the DNA product mainly consists of multiple hexanucleotide non-palindromic tandem repeats containing nickase recognition sites. A possible mechanism is discussed that addresses template-independent DNA synthesis stimulated by N.BspD6I nickase.
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PMID:N.BspD6I DNA nickase strongly stimulates template-independent synthesis of non-palindromic repetitive DNA by Bst DNA polymerase. 1739 Oct 57


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