Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

DNA polymerase-primase complex, isolated with an apparently undegraded alpha-subunit, was immunoaffinity-purified to near homogeneity from the human lymphoblast line HSC93. The undegraded state of the alpha-subunit was monitored by Western-blot analysis of crude cellular extracts and all active fractions obtained during purification. The human polymerase-primase consists of four subunits with molecular weights of 195, 68, 55 and 48 kd. The fidelity of the polymerase-primase in copying bacteriophage phi X174am16 DNA in vitro was determined by measuring the frequency of production of different revertent phages. The overall accuracy was between 4 x 10(-6) and 10 x 10(-6). This value reflects the spontaneous mutation frequency of phi X174am16 phages in Escherichia coli, and is 10- to 20-fold higher than the accuracy of a conventionally purified enzyme from calf thymus. The frequencies of base pairing mismatches, estimated from pool bias measurements, were 3.5 x 10(-7) (1/2 880,000) for dGMP:Ttemplate mispairs, between 10(-7) and 10(-8) for dCMP:Ttemplate (1/35,000,000), dCMP:Atemplate (1/18,200,000) and dAMP:Gtemplate mispairs (1/16,500,000), and below 10(-8) (1/100,000,000) for dTMP:Ttemplate, dGMP:Atemplate and dGMP:Gtemplate mispairs. In contrast to previous preparations, the intact polymerase-primase possesses a 3'----5' exonuclease activity. This exonuclease removes both matched and mismatched 3'-OH ends, with a preference for mismatched bases. Fidelity was reduced 8-fold by increasing the concentration of the next nucleotide following the incorporated mismatch nucleotide.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Exonucleolytic proofreading increases the accuracy of DNA synthesis by human lymphocyte DNA polymerase alpha-DNA primase. 252 47

Deletion mutants at the amino- and carboxyl-ends of the phi 29 terminal protein, as well as internal deletion and substitution mutants, whose ability to prime the initiation of phi 29 DNA replication was affected to different extent, have been assayed for their capacity to interact with DNA or with the phi 29 DNA polymerase. One DNA binding domain at the amino end of the terminal protein has been mapped. Two regions involved in the binding to the DNA polymerase, an internal region near the amino-terminus and a carboxyl-terminal one, have been also identified. Interaction with both DNA and phi 29 DNA polymerase are required to led to the formation of terminal protein-dAMP initiation complex to start phi 29 DNA replication.
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PMID:Functional domains in the bacteriophage phi 29 terminal protein for interaction with the phi 29 DNA polymerase and with DNA. 260 54

Occurrence of the transversion mutation A.T to C.G is specifically enhanced in Escherichia coli mutT mutants. With the aid of the cloned mutT gene, the MutT protein, which has a molecular mass of 15 kilodaltons, was overproduced and purified to near homogeneity. The protein catalyzes hydrolysis of dGTP to dGMP. dGDP and GTP were also hydrolyzed by the protein, but at a lower rate than seen with dGTP. No other deoxynucleoside triphosphates were hydrolyzed. Using poly(dA).(dT)20 as a template-primer, we investigated the misincorporation of dGMP, dCMP, and dAMP by the alpha subunit and the core of E. coli DNA polymerase III. When the polymerization reaction was performed with the alpha subunit, both dCMP and dGMP were misincorporated. The core, composed of alpha, epsilon, and theta subunits, misincorporated only dGMP. This would imply that the proofreading function of the epsilon subunit of DNA polymerase III may correct the dC.dA mispair but not the dG.dA mispair. Misincorporation of dAMP was not observed in reactions with the alpha subunit or core. The misincorporation of dGMP, but not dCMP, was almost completely suppressed by adding purified MutT protein to the reaction mixture. Under these conditions, only a portion of dGTP present in the reaction mixture was degraded. It is therefore likely that the MutT protein may prevent dGMP misincorporation by degrading a specific form of dGTP, probably the syn form, which can pair with deoxyadenosine.
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PMID:A specific role of MutT protein: to prevent dG.dA mispairing in DNA replication. 265 30

A photoaffinity analogue of dATP, 8-azido-2'-deoxyadenosine 5'-triphosphate (8-azido-dATP), was used to probe the nucleotide binding site of the non-template-directed DNA polymerase terminal deoxynucleotidyl transferase (EC 2.7.7.31). The Mg2+ form of 8-azido-dATP was shown to be an efficient enzyme substrate with a Km of 53 microM. Loss of enzyme activity occurred during UV photolysis only in the presence of 8-azido-dATP. At saturation (120 microM 8-azido-dATP), 54% of the protein molecules were modified as determined by inhibition of enzyme activity. Kinetic analysis of enzyme inhibition induced by photoincorporation of 8-azido-dATP indicated an apparent Kd of approximately 38 microM. Addition of 2 mM dATP to 120 microM 8-azido-dATP resulted in greater than 90% protection from photoinduced loss of enzyme activity. In contrast, no protection was observed with the addition of 2 mM dAMP. Enzyme inactivation was directly correlated with incorporation of radiolabeled 8-azido-dATP into the protein and UV-induced destruction of the azido group. Photoincorporation of 8-azido-dATP into terminal transferase was reduced by all purine and pyrimidine deoxynucleoside triphosphates of which dGTP was the most effective. The alpha and beta polypeptides of calf terminal transferase were specifically photolabeled by [gamma-32P]-8-azido-dATP, and both polypeptides were equally protected by all four deoxynucleoside triphosphates. This suggests that the nucleotide binding domain involves components from both polypeptides.
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PMID:Photoaffinity labeling of terminal deoxynucleotidyl transferase. 1. Active site directed interactions with 8-azido-2'-deoxyadenosine 5'-triphosphate. 271 38

Distamycin A, a polypeptide antibiotic, binds to dA.dT-rich regions in the minor groove of B-DNA. By virtue of its nonintercalating binding, distamycin acts as a potent inhibitor of the synthesis of DNA both in vivo and in vitro. Here we report that distamycin paradoxically stimulates Escherichia coli DNA polymerase I (pol I), its large (Klenow) fragment, and bacteriophage T4 DNA polymerase to copy oligo(dA).poly(dT) in vitro. It is found that distamycin increases the maximum velocity (Vmax) of the extension of the oligo(dA) primer by pol I without affecting the Michaelis constant (Km) of the primer. Gel electrophoresis of the extended primer indicates that the antibiotic specifically increases the rate of addition of the first three dAMP residues. Lastly, in the presence of both distamycin and the oligo(dT)-binding protein factor D, which increases the processivity of pol I, a synergistic stimulation of polymerization is attained. Taken together, these results suggest that distamycin stimulates synthesis by increasing the rate of initiation of oligo(dA) extension. The stimulatory effect of distamycin is inversely related to the stability of the primer-template complex. Thus, maximum stimulation is exerted at elevated temperatures and with shorter oligo(dA) primers. That distamycin increases the thermal stability of [32P](dA)9.poly(dT) is directly demonstrated by electrophoretic separation of the hybrid from dissociated [32P](dA)9 primer. It is proposed that by binding to the short primer-template duplex, distamycin stabilizes the oligo(dA).poly(dT) complex and, therefore, increases the rate of productive initiations of synthesis at the primer terminus.
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PMID:Distamycin paradoxically stimulates the copying of oligo(dA).poly(dT) by DNA polymerases. 281 66

During in vitro replication of UV-irradiated single-stranded DNA with Escherichia coli DNA polymerase III holoenzyme termination frequently occurs at pyrimidine photodimers. The termination stage is dynamic and characterized by at least three different events: repeated dissociation-reinitiation cycles of the polymerase at the blocked termini; extensive hydrolysis of ATP to ADP and inorganic phosphate; turnover of dNTPs into dNMP. The reinitiation events are nonproductive and are not followed by further elongation. The turnover of dNTPs into dNMPs is likely to result from repeated cycles of insertion of dNMP residues opposite the blocking lesions followed by their excision by the 3'----5' exonucleolytic activity of the polymerase. Although all dNTPs are turned over, there is a preference for dATP, indicating that DNA polymerase III holoenzyme has a preference for inserting a dAMP residue opposite blocking pyrimidine photodimers. We suggest that the inability of the polymerase to bypass photodimers during termination is due to the formation of defective initiation-like complexes with reduced stability at the blocked termini.
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PMID:Dynamics of termination during in vitro replication of ultraviolet-irradiated DNA with DNA polymerase III holoenzyme of Escherichia coli. 295 58

Recently, 2-halogenated deoxyadenosine analogs (F, Cl, and Br) have been shown to have antitumor activity. These analogs are phosphorylated by cells and are believed to exert their cytotoxic action at the nucleoside triphosphate level. In this work the interaction of these nucleoside triphosphate analogs with potential targets, such as DNA polymerase alpha, beta, and gamma, DNA primase, and ribonucleotide reductase was examined in detail. All of these compounds competitively inhibited the incorporation of dAMP into DNA by DNA polymerase alpha, beta, or gamma. F-dATP was able to completely substitute for dATP using DNA polymerase alpha and gamma, but not with DNA polymerase beta. Cl-dATP and Br-dATP substituted poorly for dATP using DNA polymerase alpha and beta. Extension of a 32P-labeled primer by DNA polymerase alpha, beta, or gamma on a single-stranded M13 template showed that these compounds were incorporated into the 3' end of the growing DNA chain and that elongation beyond the incorporated analogs was significantly retarded for Cl-dATP and Br-dATP using either DNA polymerase alpha or beta. DNA primase using poly(dC) as template was inhibited by these compounds at a concentration 4 to 5 times greater than that required for 2-F-araATP. The 2-halogenated dATP analogs were potent inhibitors of ADP reduction by ribonucleotide reductase. In conclusion, the cytotoxic action of 2-Cl-deoxyadenosine and 2-Br-deoxyadenosine may partially be mediated through the mechanism of "self-potentiation," by depression of the deoxynucleoside triphosphate pools due to inhibition of ribonucleotide reductase, which would facilitate their incorporation into DNA and result in the inhibition of DNA synthesis.
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PMID:Interaction of 2-halogenated dATP analogs (F, Cl, and Br) with human DNA polymerases, DNA primase, and ribonucleotide reductase. 305 Apr 47

The phi 29 protein p6 stimulates the formation of the protein p3-dAMP initiation complex when added to a minimal system containing the terminal protein p3, the phi 29 DNA polymerase p2 and phi 29 DNA-protein p3 complex, by decreasing about 5 fold the Km value for dATP. In addition, protein p6 stimulates elongation of the p3-dAMP initiation complex. Whereas the effect of protein p6 on initiation is similar with protein p3-containing fragments from the right or left phi 29 DNA ends, the stimulation of elongation is higher with the right than with the left phi 29 DNA terminal fragment, suggesting DNA sequence specificity. The stimulation by protein p6 of the initiation and elongation steps of phi 29 DNA replication does not require the presence of the parental protein p3 at the phi 29 DNA ends. No effect of protein p6 was obtained on the elongation of the template-primer poly(dT)-(dA) 12-18 by the phi 29 DNA polymerase.
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PMID:Replication of phage phi 29 DNA in vitro: role of the viral protein p6 in initiation and elongation. 308 45

The drugs aphidicolin and the nucleotide analogs butylanilino dATP, butylphenyl dGTP, and butylphenyl rGTP inhibited the protein-primed replication of phi 29 DNA-protein p3 in the presence of purified terminal protein p3 and phi 29 DNA polymerase p2. The effect of aphidicolin was mainly on the polymerization reaction by decreasing the rate of elongation. The nucleotide analogs inhibited both the formation of the p3-dAMP initiation complex and its further elongation, the latter being also due to a decrease in the elongation rate. When assayed with the phi 29 DNA polymerase as the only protein, all the drugs inhibited polymerization on activated DNA as well as the 3'----5' exonuclease activity of the polymerase, indicating that the target of the drugs is the phi 29 DNA polymerase itself.
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PMID:Effect of aphidicolin and nucleotide analogs on the phage phi 29 DNA polymerase. 309 Jul 78

The protein-free terminal fragments HindIII B and L, from the left and right ends of phi 29 DNA, respectively, but not internal fragments of similar size, were active as templates in the formation of the p3-dAMP initiation complex in an in vitro system containing purified phi 29 terminal protein p3 and DNA polymerase p2, although the activity was lower than that obtained with the phi 29 DNA-p3 complex. These results indicate the existence of specific sequences at the ends of phi 29 DNA that allow the initiation of phi 29 DNA replication. The template activity of the protein-free terminal fragments was size dependent. The protein-free single strands of the HindIII L fragment were much less active than the corresponding double-stranded fragment. Terminal protein-DNA complexes of phages PZA and phi 15, with a terminal protein closely related to the phi 29 protein p3, were more active as templates in the initiation reaction with the purified phi 29 proteins than the corresponding protein-free DNAs, as it happens in the case of phi 29. However, the terminal protein-DNA complexes of phages Nf, B103, and GA-1, with a terminal protein less related or unrelated to the phi 29 protein p3, were essentially inactive and became active after removal of the parental terminal protein. These results strongly suggest that the parental terminal protein is the major signal in the template for the initiation of phi 29 DNA replication.
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PMID:Signals in the phi 29 DNA-terminal protein template for the initiation of phage phi 29 DNA replication. 309 58


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