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)

Thioredoxin was purified to homogeneity from the Escherichia coli mutant tsnC 7007 that is defective in phage T7 DNA replication and previously shown to contain a missense thioredoxin. Tryptic peptide maps of reduced and carboxymethylated 7007 thioredoxin combined with amino acid sequence analysis revealed one amino acid substitution; Gly-92 in thioredoxin is exchanged to an aspartic acid residue in the 7007 protein. The missense thioredoxin gave no activity with the gene 5 protein of phage T7 in the complementation to active T7 DNA polymerase. It competitively inhibited the complementation of wild type thioredoxin and gene 5 protein and formed a complex with the gene 5 protein that was retained by antithioredoxin Sepharose. The 7007 thioredoxin has reduced catalytic activity with thioredoxin reductase, ribonucleotide reductase, or as a protein disulfide reductase. The apparent Km value of 7007 thioredoxin as a substrate for thioredoxin reductase was increased 3-fold relative to normal thioredoxin, and the Vmax value was decreased 7-fold. The position of GLy-92 in the known three-dimensional structure of thioredoxin-S2 is correlated with the changed functional properties of the substituted mutant protein.
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PMID:A mutant thioredoxin from Escherichia coli tsnC 7007 that is nonfunctional as subunit of phage T7 DNA polymerase. 700 7

Previously constructed Swiss mouse 3T3 fibroblasts producing polyomavirus large T antigen after addition of dexamethasone were used to study the transcriptional activation by the viral protein of five genes coding for enzymes involved in DNA synthesis and precursor production, namely, dihydrofolate reductase, thymidine kinase, thymidylate synthase, DNA polymerase alpha, and proliferating-cell nuclear antigen. It was found that all these genes, whose expression is stimulated at the G1/S boundary of the cell cycle after growth stimulation by serum addition, are coordinately trans activated when T antigen is induced in cells previously growth arrested by serum withdrawal. Cell lines carrying the information for a mutant form of large T antigen, in which a glutamic acid residue in the binding site for the retinoblastoma protein was changed into aspartic acid, were constructed to test the involvement of an interaction of T antigen with the retinoblastoma protein in this reaction. It was found that the mutated T protein is incapable of stimulating transcription of any one of the genes. The promoter of three of the genes (dihydrofolate reductase, thymidine kinase, and DNA polymerase alpha) unequivocally carries binding sites for transcription factor E2F, suggesting that complexes forming with this growth- and cell cycle-regulating transcription factor are the targets for T antigen. Although there is so far no evidence that thymidylate synthase and proliferating cell nuclear antigen are regulated via E2F, our data indicate that the retinoblastoma protein still is involved in the control of these genes. mRNA for E2F itself increases in amount at the G1/S border in serum-stimulated cells but not during polyomavirus T antigen-induced transcriptional activation of DNA synthesis enzymes in arrested cells.
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PMID:Coordinated trans activation of DNA synthesis- and precursor-producing enzymes by polyomavirus large T antigen through interaction with the retinoblastoma protein. 790 59

Analysis of two mutations affecting nucleotide selection by the DNA polymerase from bacteriophage T7 is reported here. Two conserved residues (Glu480 and Tyr530) in the polymerase active site of an exonuclease deficient (exo-) T7 DNA polymerase were mutated using site-directed mutagenesis (Glu480-Asp and Tyr530-Phe). The kinetic and equilibrium constants governing DNA binding, nucleotide incorporation, and pyrophosphorolysis were measured with the mutants E480D(exo-) and Y530F(exo-) in single-turnover experiments using rapid chemical quench-flow methods. Both mutants have slightly lower Kd values for DNA binding compared to that of wild-type(exo-). With Y530F(exo-) the ground state nucleotide binding affinity was unchanged from wild-type for dGTP and dCTP, was 2-fold lower for dATP and 8-10-fold lower for dTTP binding. With E480D(exo-), the binding constants were 5-6-fold lower for dATP, dGTP, and dCTP and 40-fold lower for dTTP binding compared to those constants for wild-type(exo-). The significance of a specific destabilization of dTTP binding by these amino acids was examined using a dGTP analog, deoxyinosine triphosphate, which mimics the placement and number of hydrogen bonds of an A:T base pair. The Kd for dCTP opposite inosine was unchanged with wild-type(exo-) (197 microM) but higher with Y530F(exo-) (454 microM) and with E480D(exo-) (1 mM). The Kd for dITP was the same with wild-type(exo-) (180 microM) and Y530F(exo-) (229 microM), but significantly higher with E480D(exo-) (3.2 mM). These data support the suggestion that E480 selectively stabilizes dTTP in the wild-type enzyme, perhaps by hydrogen bonding to the unbonded carbonyl. Data on the incorporation of dideoxynucleotide analogs were consistent with the observation of a selective stabilization of dTTP by both residues. Pyrophosphorolysis experiments revealed that neither mutation had a significant effect on the chemistry of polymerization. The fidelity of the mutants were examined in misincorporation assays. Both E480D(exo-) and Y530F(exo-) showed saturation kinetics with the wrong nucleotide, with binding constants of 1-3 mM compared to the estimated binding affinity of 6-8 mM with wild-type(exo-). Accordingly, both mutants showed slightly lower selectivity against misincorporation. Taken together, these results indicate that E480 and Y530 each contribute to ground state nucleotide binding and suggest that the E480 may serve to specifically stabilize the incoming dTTP of A:T base pairs to compensate for the fewer hydrogen bonds compared to G:C base pairs.
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PMID:Mutants affecting nucleotide recognition by T7 DNA polymerase. 799 17

The eukaryotic transcription factor TFIIS enhances elongation and nascent transcript cleavage activities of RNA polymerase II in a stalled elongation complex. By site-directed mutagenesis, we have demonstrated that invariant residues Asp-261 and Glu-262 of the nucleic acid-binding TFIIS Zn ribbon are critical for stimulation of both elongation and RNA cleavage activities of RNA polymerase II. Substitution of either of these residues inactivates both TFIIS functions, suggesting a related role in both activities. These acidic residues may participate in phosphoryl transfer reactions by a two-metal-ion mechanism in a manner analogous to Klenow fragment. The RNA polymerase II itself may contain a Zn ribbon, in as much as the polymerase's 15-kDa subunit contains a sequence that aligns well with the TFIIS Zn ribbon sequence, including a similarly placed pair of acidic residues.
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PMID:The transcription factor TFIIS zinc ribbon dipeptide Asp-Glu is critical for stimulation of elongation and RNA cleavage by RNA polymerase II. 809 Jul 78

The DNA polymerase gene of African swine fever virus (ASFV) was mapped by marker rescue experiments using a phosphonoacetic acid-resistant mutant and hybridization with an oligonucleotide probe designed from the most conserved motif of family B DNA polymerases. Viral DNA fragments mapping in this region were cloned and sequenced. An open reading frame coding for a 1244 amino acid long peptide with a molecular mass of 142.5 kDa was determined from the sequence. A unique feature of ASFV DNA polymerase is the presence of 13 tandem repeats of the sequence Ala-Gly-Asp-Pro near the carboxyl end of the molecule. Comparison with 30 sequences of alpha-like DNA polymerases of cellular and viral origin showed that ASFV DNA polymerase has all the conserved motifs of family B DNA polymerases. A 3.9 kb transcript was detected by Northern hybridization and the transcription initiation and termination sites were mapped by S1 analysis and primer extension. Late transcription was initiated at a site different from the early transcription initiation site. A 145 kDa protein, consistent with the size of the gene, was identified by an in situ enzyme assay after gel electrophoresis of infected cell extracts.
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PMID:Genetic identification and nucleotide sequence of the DNA polymerase gene of African swine fever virus. 812 6

The vaccinia virus genome encodes a DNA polymerase that is similar to other DNA polymerases. A mutation in the polymerase gene at a site that is adjacent to conserved residues allows viral replication in the presence of aphidicolin. Since wild-type virus is converted to aphidicolin-resistance by site-directed mutagenesis, it was feasible that active virus with substituted conserved residues could be detected by linking alterations to the aphidicolin-resistance mutation. Altered DNA, from a PCR, was introduced into virus by a marker transfer procedure. DNA from plaques of drug-resistant virus was amplified, and the product was sequenced to check for the conserved residue alteration. An alteration that introduced a Bg1I site was designed to facilitate the selection of drug-resistant virus containing substituted residues. One positive result was the replacement of two amino acids, tyrosine and alanine, by tryptophan and threonine. The failure to substitute aspartic acid for tyrosine indicates that drastic changes of the conserved sequence are not tolerated. Although the limitations associated with negative results apply, the method provides an in vivo assay for selecting a polymerase with conserved residue changes.
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PMID:A biological method for examining the effect of codon changes in a conserved region of DNA polymerase. 813 25

The crystal structure of the catalytic domain of rat DNA polymerase beta (pol beta) has been determined at 2.3 A resolution and refined to an R factor of 0.22. The mixed alpha/beta protein has three subdomains arranged in an overall U shape reminiscent of other polymerase structures. The folding topology of pol beta, however, is unique. Two divalent metals bind near three aspartic acid residues implicated in the catalytic activity. In the presence of Mn2+ and dTTP, interpretable electron density is seen for two metals and the triphosphate, but not the deoxythymidine moiety. The principal interaction of the triphosphate moiety is with the bound divalent metals.
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PMID:2.3 A crystal structure of the catalytic domain of DNA polymerase beta. 813 27

Human terminal deoxynucleotidyl transferase (TdT) was overexpressed in a baculovirus system. The pure recombinant enzyme was identical in size, activity, kinetic constants, and metal effects to native enzyme. Three amino acids, within either the putative nucleotide binding domain and part of a DNA polymerase consensus sequence, YGDTDSLF, or a TdT consensus sequence, GGFRRGK, were altered by site-directed mutagenesis. The four mutant forms of terminal transferase were also overexpressed in the baculovirus expression system and purified from Trichoplusia ni larvae by a monoclonal antibody affinity column and compared with wild-type enzyme with respect to thermostabilities, secondary structure, metal effects, and kinetic parameters. Three of the four mutants retained 3-16% of wild-type activity under varying metal conditions, and one of the mutants, D343E, consistently exhibited less than 0.2% of wild-type TdT activity with dATP and no activity with dGTP. All mutants had alterations in the Km for dATP. Variations in Km for dGTP were not as consistent. The Km for the other substrate, DNA initiator (dA)50) in the presence of dATP remained essentially the same as that of wild-type TdT for all mutants except D343E. The enzyme activity of all mutants was stimulated by Zn2+ at low concentrations, and this effect was diminished and reversed at higher concentrations of ZnSO4. All mutants still retained significant amounts of the secondary structure as measured by circular dichroism. These results indicated that the aspartic acid residue at position 343 is located at or near the active site and is critical for the nucleotide binding and catalytic activity.
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PMID:Mutational analysis of residues in the nucleotide binding domain of human terminal deoxynucleotidyl transferase. 816 85

A mutant of Escherichia coli thioredoxin containing serine residues in place of the two active-site cysteines, termed C32S,C35S, previously shown to be partially able to substitute for reduced thioredoxin in certain phage systems, has been characterized by 1H NMR spectroscopy at pH values between 5.5 and 10. The 1H NMR spectrum of the mutant at pH 5.5 is very similar to that of the wild-type protein in either the reduced or oxidized state. Chemical shift changes in the vicinity of the active site serines indicate that the nearby hydrophobic pocket is somewhat changed, probably as a result of the replacement of the cysteine thiols with the smaller, more hydrophilic hydroxyl side chains and a change in the preferred chi 1 angles of the side chains. Although the pattern of amide protons persistent in 2H2O differs only slightly between the two forms of the wild-type protein, the pattern observed for the C32S,C35S mutant shows characteristic features that correspond closely with those of the reduced wild-type protein rather than with the oxidized form. The pH dependence of the mutant protein shows a single group titrating close to the active site with a pKa of 8.3, which we assign to the buried carboxyl group of Asp 26 by analogy with the behavior of wild-type thioredoxin. The pKa is significantly higher for the mutant protein, consistent with an increase in the hydrophobicity of the pocket where the carboxyl is buried, probably due to repacking caused by the removal of the cysteine thiols and the placement of the serine hydroxyls in positions where they interact better with solvent. The results demonstrate that the solution behavior of the mutant protein is similar in many ways to that of reduced wild-type thioredoxin, explaining its partial activity in the two essential roles of reduced thioredoxin as a subunit of phage T7 DNA polymerase and in the assembly of filamentous phage.
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PMID:Characterization by 1H NMR of a C32S,C35S double mutant of Escherichia coli thioredoxin confirms its resemblance to the reduced wild-type protein. 831 57

phi 29 DNA polymerase shares with other alpha-like DNA polymerases several regions of amino acid similarity. Among them, the conserved region characterized by the amino acid motif "Kx3NSxYG" has been proposed to form part of the polymerization active site of alpha-like DNA polymerases. Mutants in phi 29 DNA polymerase residue Tyr390 of this conserved motif had been previously described to be affected in DNA-dependent dNTP binding. In this paper, the functional significance of this conserved motif is further studied by the analysis of mutants in conserved residues Asn387, Ser388, and Gly391. Residue Phe393 of phi 29 DNA polymerase has also been selected as target for site-directed mutagenesis because of its conservation within the group of alpha-like DNA polymerases from genomes that replicate by a protein-priming mechanism. Mutant N387Y was shown to be affected both in initiation and polymerization reactions, showing 3-fold higher Km value for dATP and more than 11-fold lower Vmax value than the wild-type enzyme in the initiation reaction; moreover, it was affected in enzyme-DNA translocation. Mutant S388G retained initiation and polymerization activities; interestingly, this mutation significantly increased the efficiency of dNTP incorporation in non-templated reactions. Mutation Gly391 to Asp abolished template-primer binding as shown by gel retardation assays; this mutant was drastically affected in template-dependent dNTP incorporation both in initiation and polymerization reactions, but the efficiency of the non-templated phi 29 terminal protein-deoxynucleotidylation was higher than with the wild-type protein. Mutation Phe393 to Tyr severely decreased initial binding to template-primer DNA molecules, resulting in a reduced activity in DNA primer-dependent polymerization reactions but not in phi 29 terminal protein-dependent ones.
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PMID:Phi 29 DNA polymerase active site. The conserved amino acid motif "Kx3NSxYG" is involved in template-primer binding and dNTP selection. 834 56


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