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)

A DNA polymerase has been highly purified from Anacystis nidulans R2. Electrophoretic analysis in sodium dodecyl sulfate-polyacrylamide gels revealed that the final fraction contains three bands of Mr 107,000, 93,000, and 51,000, respectively. Analysis of purified DNA polymerase activity in situ indicates that of the three polypeptides the Mr 107,000 species has the catalytic activities. The native molecular weight of the enzyme was estimated by glycerol gradient sedimentation to be 100,000. The enzyme has an absolute requirement for a divalent cation. Mg2+ can be replaced with Mn2+, but the DNA polymerase is less active. Potassium chloride stimulates the enzyme, while potassium phosphate has no apparent effect. The enzyme is active over a pH range from 7.5 to 9.5 in 50mM Tris-HCl buffer. The ability of the cyanobacterial DNA polymerase to use activated DNA as a template, its associated 3'----5' and 5'----3' exonuclease activities, as well as its resistance to N-ethylmaleimide, dideoxynucleotides, arabinosyl-CTP and aphidicolin suggest a similarity between this enzyme and E. coli DNA polymerase I. This is the first characterization of a DNA polymerase from a cyanobacterium.
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PMID:Purification and characterization of a DNA polymerase from the cyanobacterium Anacystis nidulans R2. 212 41

Both thymidine kinase (TK) and DNA polymerase (DNAp) are present in measurable amounts in human serum. Even though the use of TK as a clinical marker is rapidly increasing there has been no attempt to characterize the serum TK in a wider extent, i.e.; with respect to Mw or other biochemical parameters. Therefore sera with high TK or DNAp activities derived from patients with cytomegalovirus (CMV) infection, B12-deficiency and leukaemia were fractionated by gel exclusion chromatography. The TK activity eluted as two peaks, one major TK activity with an apparent molecular weight (Mw) or 730 kD and one minor TK activity corresponding to a Mw of 58 kD. The amount of TK activity at 58 kD varied between 7 and 23% of total activity, depending on the serum fractionated. The DNAp activity in sera from patients with malignant disease and B12 deficiency eluted as a single peak corresponding to a Mw of 240 kD. A DNAp with a different Mw (greater than 1000 kD) was recovered from 1 of 3 investigated immunosuppressed patients with CMV infection. A similar pattern of enzyme forms was observed when sera were separated by glycerol gradient centrifugation. The effect of high salt and various reaction solution components on the enzymes were studied. The only condition found that affected the molecular forms of TK was the state of reduction. Incubation of sera with high concentrations of dithioerythritol (DTE) (400 mM) prior to separation transferred all serum TK to the 58 kD form, it also converted most of the serum DNAp from the 240 kD form to a smaller form (56 kD) without affecting the total recovery of enzymatic activity. The reaction product from both TK forms was exclusively monophosphate and none of the TK forms could efficiently utilize cytidine triphosphate as phosphate donor. The substrate kinetics of the small serum TK fraction was identical with those of an enzyme with similar size purified from proliferating HeLa cells, indicating that both serum TK activities are forms of TK 1, the proliferation associated cellular isozyme.
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PMID:Molecular forms in human serum of enzymes synthesizing DNA precursors and DNA. 215 79

AMP and NaF each taken separately were shown to activate DNA polymerization catalyzed by Klenow fragment of DNA polymerase I by means of interaction of AMP or NaF with 3'----5'-exonuclease center of the enzyme. In the presence of NaF which is a selective inhibitor of 3'----5'-exonuclease center, AMP is an inhibitor of polymerization competitive with respect to dATP. Ki values and the pattern of inhibition with respect to dATP were determined for AMP, ADP, ATP, carboxymethylphosphonyl-5'-AMP, Pi, PPi, PPPi, methylenediphosphonic acid and its ethylated esters, phosphonoformic acid, phosphonoacetic acid and its ethylated esters as well as for some bicarbonic acids in the reactions of DNA polymerization catalyzed by Klenow fragment of DNA polymerase I (in the presence of NaF) and DNA polymerase alpha from human placenta in the presence of poly(dT) template and r(pA)10 primer. All nucleotides and their analogs were found to be capable of competing with dATP for the active center of the enzyme. Most of the analogs of PPi and phosphonoacetic acid are inhibitors of Klenow fragment competitive with respect to dATP. Nowever these analogs display a mixed-type inhibition in the case of human DNA polymerase alpha. We postulated a similar mechanism of interaction for dNTP with both DNA-polymerases. It is suggested that each phosphate group of PPi makes equal contribution to the interaction with DNA polymerases and that the distance between the phosphate groups is important for this interaction. beta-phosphate of NTP or dNTP is suggested to make negligible contribution to the efficiency of the formation of enzyme complexes with dNTP. beta-phosphate is likely to be an essential point of PPi interaction with the active center of proteins during the cleavage of the alpha-beta-phosphodiester bond of dNTP in the reaction of DNA polymerization.
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PMID:[Interaction of dNTP-binding sites of human DNA polymerase alpha and The Klenow fragment of Escherichia coli DNA polymerase I with nucleotides, pyrophosphate and their analogs]. 216 89

We have demonstrated that when the covalently joined ends of linear adeno-associated virus (AAV) DNA are resolved in vitro, the virus-encoded Rep protein becomes covalently attached to the 5' ends of the DNA. The covalent bond is between a tyrosine residue of the AAV Rep protein and a 5' phosphate of a thymidine residue in the AAV genome. Only the Rep protein encoded by the AAV p5 promoter, Rep68, was capable of becoming covalently attached to the ends of the AAV genome; the Rep proteins encoded by the p19 promoter were not. We also investigated some of the requirements for the complete in vitro resolution reaction. Inhibitor studies suggested that terminal resolution required DNA polymerase delta, ATP, and the deoxyribonucleoside triphosphates but did not require the remaining ribonucleoside triphosphates, DNA polymerase alpha, RNA polymerase II, or topoisomerases I and II. Finally, purified AAV Rep68, when added to the crude cytosol from uninfected HeLa cells, was sufficient for resolution. This suggested that terminal resolution relies on host enzymes and the virus-encoded p5 Rep proteins.
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PMID:Evidence for covalent attachment of the adeno-associated virus (AAV) rep protein to the ends of the AAV genome. 217 87

The reversed-phase chromatography technique was employed in the measurement of DNA synthesis at the primers d(pT)n, r(pU)n, d(pA)n, and r(pA)n (n = 1-16) in the presence of template poly(dA) or poly(dT). DNA synthesis was catalyzed by Escherichia coli DNA polymerase I Klenow fragment, Physarum polycephalum DNA polymerase beta-like, P. polycephalum DNA polymerase alpha, and human placenta DNA polymerase alpha. Values of Km and Vmax were measured as functions of the primer chain lengths. It was found that all mononucleotides and small oligonucleotides served as primers of DNA synthesis. Values of the logarithm of both Km and Vmax increased linearly until primers had attained a chain length of 9-12 nucleotides, where a break was observed. The incremental as well as the absolute values of Km were interpreted in terms of free binding energies. These together with other data indicate that the 3'-ultimate nucleotide of the primer contributes a decisive amount of free energy of binding to DNA polymerase both from the nucleoside and from the phosphate moiety. The incremental increase is due to a complementary interaction between bases of primer and template buried in the binding cleft of the polymerase. It is also the ultimate nucleotide that determines whether the ribonucleotide or the deoxyribonucleotide is an efficient primer. It is of interest that the major results seem preserved for all four DNA polymerases. An energetic model for the binding of the template-primer was proposed and compared with available crystallographic data.
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PMID:Structure-function analysis of mononucleotides and short oligonucleotides in the priming of enzymatic DNA synthesis. 218 18

Immunoaffinity-purified DNA-polymerase-alpha--DNA-primase complex from calf thymus was phosphorylated in vitro by highly purified casein kinase II from the same tissue. Specific phosphorylation of the DNA-polymerizing alpha subunit and the primase-associated gamma subunit was observed. About 1 mol phosphate/mol polymerase--primase was incorporated. Despite this effect, neither the DNA polymerase nor the DNA primase activity were changed after phosphorylation by casein kinase II. Furthermore, dephosphorylation of polymerase--primase with alkaline phosphatase did not change the polymerase or the primase activity to a significant extent. Moreover, both alkaline phosphatase and casein kinase II had no effect on the processivity of DNA synthesis and on the lengths and amounts of primers formed by the DNA primase. Because DNA polymerase alpha maintained all its basic properties even after extensive treatment with alkaline phosphatase, it is unlikely that phosphorylation has a direct influence on the activities of the DNA-polymerase-alpha--DNA-primase complex. The possible influence of post-translational phosphorylation on the formation of a complex of polymerase alpha and its accessory proteins is discussed.
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PMID:Casein kinase II phosphorylates DNA-polymerase-alpha--DNA-primase without affecting its basic enzymic properties. 222 36

A group of proteins that act as primers for initiation of linear DNA replication are called DNA-terminal proteins (terminal proteins). We have found a short stretch of conserved amino acid sequence among the terminal proteins from six different sources. The location of this sequence motif is also similar among the different terminal-proteins. To determine the functional role of this terminal-protein domain in DNA replication, we have studied the bacteriophage PRD1 system. The PRD1 terminal protein and DNA polymerase genes were cloned into expression vectors, and the recombinant plasmids were used for constructing PRD1 terminal protein mutants. Site-directed mutagenesis and functional analysis showed that one of the two arginines (Arg-174) in the conserved sequence is critical for the initiation complex-forming activity of the PRD1 terminal protein. Replacement of Arg-174 by noncharged amino acids resulted in nonfunctional terminal protein. Phenylglyoxal, an alpha-dicarbonyl compound that reacts with the guanidino group of arginine, inhibits initiation complex formation between PRD1 terminal protein and dGMP. On the basis of these results, we propose that Arg-174 represents, at least in part, the binding site for phosphate groups of dGTP.
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PMID:An essential arginine residue for initiation of protein-primed DNA replication. 223 78

A luminescent adsorbent constituted of bacterial luciferase, FMN oxidoreductase and a protein, such as an antibody or an oligonucleotide coimmobilized on Sepharose, has been used to detect a label enzyme (Glucose 6 phosphate dehydrogenase). The label enzyme, bound to the solid phase, produces NADH and start an enzymatic chain reaction leading to light emission. The dehydrogenase, which is not bound to the solid phase, produces NADH in solution which is rapidly oxidized by a scavenger system (lactate dehydrogenase plus pyruvate) and thus does not participate in light emission. Using this solid phase, binding assays do not require separation of the excess of label, and the assay protocol is limited to the addition of sample, and luminescent reagents. The authors have used this solid phase for rapid immunoassays of haptens and proteins but also for the rapid quantitation of DNA sequences obtained by enzymatic amplification catalysed by a thermostable DNA polymerase.
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PMID:[A bioluminescent solid phase for immunoassays and the detection of nucleic probes]. 228 45

Primer recognition proteins (PRP) are cofactors of DNA polymerase alpha and may have a role in lagging strand DNA replication. Purified PRP from HeLa cells and human placenta are composed of two subunits of 36,000 (PRP 1) and 41,000 (PRP 2) daltons. Upon tryptic digestion, amino acid sequencing of tryptic peptides, and homology search against a protein sequence data base, we have identified PRP 2 to be the glycolytic enzyme, phosphoglycerate kinase (PGK). The activities of PRP and PGK increase coordinately in the PRP purification procedure. PRP activity is inhibited by the PGK substrate 3-phosphoglycerate and the competitive inhibitor of substrate binding, DL-alpha-glycerol 3-phosphate. 5'-p-Fluorosulfonylbenzoyl adenosine, which inactivates PGK by binding to the nucleotide binding site, also inhibits PRP. For PRP activity, the two substrate binding sites of PGK are necessary in addition to the as yet unidentified PRP 1 polypeptide.
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PMID:Functional identity of a primer recognition protein as phosphoglycerate kinase. 232 90

Intact primer RNA for discontinuous DNA replication of Escherichia coli has been detected by specific labeling in vitro of its 5'-terminal tri- (or di-) phosphate group with vaccinia guanylyltransferase and [alpha-32P]GTP. A mutant defective either in RNase H or in both RNase H and DNA polymerase I accumulated about 10 or 30 times more intact primer RNA, respectively, than wild-type cells. The primers started with purine in an A to G ratio of 5 and the most abundant 5'-terminal dinucleotide sequence was (p)ppA-Pu. The chain length of the intact primer RNA was approximately 10 to 12 nucleotide residues. The structural properties of the E. coli primer RNa resemble those of the eukaryotic primer RNA.
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PMID:Evidence that discontinuous DNA replication in Escherichia coli is primed by approximately 10 to 12 residues of RNA starting with a purine. 241 35

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