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)

By site-directed mutagenesis we have changed the serine residue 232 of the phi 29 terminal protein, involved in the covalent linkage to dAMP for the initiation of replication, into a threonine residue. The mutant terminal protein has been purified to homogeneity and shown to be inactive in the formation of the initiation complex; nevertheless, the mutant protein retains its ability to interact with the phi 29 DNA polymerase and with the DNA. The results obtained indicate a high specificity in the linking site of the terminal protein.
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PMID:Site-directed mutagenesis in the DNA linking site of bacteriophage phi 29 terminal protein: isolation and characterization of a Ser232----Thr mutant. 313 31

We propose a model to describe the frequencies of site-specific base substitution errors by DNA polymerase. In the model, nucleotide misinsertion frequencies are determined by 5'-nearest-neighbor base stacking and 3'-exonucleolytic proofreading efficiencies are governed by the relative proportions of G . C base pairs in the region surrounding the misinserted nucleotide. The model is used to analyze the frequency of replacing dAMP by 2-aminopurine deoxyribonucleotide with purified bacteriophage T4 L141 antimutator DNA polymerase at 57 sites on phi X174 DNA (Pless, R. C., and Bessman, M.J. (1983) Biochemistry 22, 4905-4915). A linear least-squares fit yields a correlation coefficient of 0.83 and a standard deviation of 2.8% between predicted and observed results. Four to five base pairs on each side of the 2-aminopurine incorporation site, approximately one double-helical turn, are found to exert a maximal influence on proofreading. Thermal melting data on native and synthetic DNA are used to deduce base-stacking energies for nearest-neighbor doublets including those involving 2-aminopurine. The inclusion of base-stacking energies in the model calculations leads to predictions similar to those based on the use of empirical parameters for individual base pairs.
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PMID:Influence of neighboring bases on DNA polymerase insertion and proofreading fidelity. 315 58

5-Bromo-2'-deoxyuridine triphosphate (Br-dUTP) and dTTP are used interchangeably for DNA synthesis in vitro by the Klenow fragment of Escherichia coli DNA polymerase I. When DNA containing Br-dUMP instead of dTMP at a few preselected sites is transfected into competent bacteria, no mutation occurs, indicating that in vivo E. coli DNA polymerase always places a dAMP residue in front of any unrepaired Br-dUMP residue. On the other hand, in vitro Br-dUTP can also replace dCTP, but only with difficulty: when dCTP is absent, Br-dUMP can be forced in front of a dGMP residue, but the Klenow polymerase pauses before and after addition of Br-dUMP. Transfection into E. coli of the substituted DNA leads to the expected G----A transitions. These mutations can easily be targeted by using a suitable primer and the correctly chosen mix of deoxynucleoside triphosphates containing Br-dUTP. When Br-dUMP has been placed in front of a dGMP residue, the mutation yield is not 100%, showing a partial repair of the transfected DNA before it is replicated. Advantage can be taken of this partial repair to prepare a set of different mutations within a target region in a single experiment.
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PMID:Pairing properties of bromouracil and repair of bromouracil-containing DNA. Possible utilization of bromodeoxyuridine triphosphate for site-directed mutagenesis. 317 34

The modification of tyrosine residues of DNA polymerase I Klenow fragment from E. coli by acetylimidazole has been investigated. This reagent was shown to inactivate both polymerization and 3',5'-exonuclease activities but with different velocity. The poly(dT)-template and r(pA)10-primer each added separately to the enzyme have no notable influence on the rate of enzyme inactivation. Simultaneous presence of both template and primer increases the rate of inactivation. In the presence of poly(dT).r(pA) 10 there is not effect of dCTP and dTTP (noncomplementary to the template) on the rate of inactivation of polymerization activity. However, dATP complementary to the template, provides a complete protection. A weak protective action is detected in the presence of dADP. Orthophosphate, pyrophosphate and dAMP each taken separately increase the rate and the level of the enzyme inactivation. dAMP together with either ortho- or pyrophosphate have the same protective action as ATP. All data obtained allow to suggest the functional significance for polymerization activity of tyrosine located in the dNTP binding site of DNA polymerase I.
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PMID:[Modification of tyrosine residues of the Klenow fragment of DNA-polymerase I from Escherichia coli by acetylimidazole]. 329 95

Single-strand circular DNA from bacteriophage M13mp9 was chemically modified with osmium tetroxide to introduce specifically cis-thymine glycol lesions, a major type of DNA damage produced by ionizing radiation. An oligonucleotide primer was extended on damaged and undamaged templates using either the large fragment of E. coli pol I or T4 DNA polymerase. The reaction products were analysed by electrophoresis alongside a DNA sequence ladder. Synthesis on the damaged templates terminated at positions opposite thymine bases in the template. These results indicate that cis-thymine glycol lesions in single-strand DNA constitute blocks to synthesis by DNA polymerases in vitro. Surprisingly, replication halts after the correct nucleotide, dAMP, is inserted opposite the lesion. These results imply that the primary effect of the thymine glycol lesion is suppression of DNA synthesis and that the lesion is not a potent mutagen.
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PMID:Thymine glycol lesions terminate chain elongation by DNA polymerase I in vitro. 351 47

To test whether vinyl chloride-induced mutagenesis might involve ambiguous base pairing of 1,N6-etheno-adenine (epsilon A) during DNA synthesis, we examined the base pairing potential of epsilon dATP during DNA synthesis catalyzed by Escherichia coli DNA polymerase I (Klenow fragment). An electrophoretic assay of chain elongation was used to assess the degree to which epsilon dATP could substitute for each of the normal dNTPs during elongation of a primer annealed to a bacteriophage template. Despite the fact that the etheno bridge completely blocks normal Watson-Crick pairing of epsilon A with T, we observed that epsilon dATP could substitute for dATP during primer elongation (although inefficiently). In addition, detectable substitution of epsilon dATP for dGTP and dCTP occurred, indicating that epsilon A exhibits ambiguous base pairing properties. The relative ease of epsilon dAMP incorporation (opposite template T, C and G) appeared to vary considerably at different positions along the template. The major form of epsilon A incorporation (replacement of A) was confirmed by measurements of epsilon dATP----epsilon dAMP turnover (a commonly used method for detecting misincorporation), and also by the demonstration that epsilon A was present in enzymatic hydrolysates prepared from DNA that was synthesized with epsilon dATP replacing dATP. A model for ambiguous base pairing of epsilon dATP is proposed, in which incorporation occurs via the protonated, syn form of epsilon dATP.
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PMID:Utilization of 1,N6-etheno-2'-deoxyadenosine 5'-triphosphate during DNA synthesis on natural templates, catalyzed by DNA polymerase I of Escherichia coli. 352 67

Thymine glycol, a DNA lesion produced by ionizing radiation, has been introduced site specifically at high frequency into a synthetic oligonucleotide by chemical oxidation of the single thymine residue within the sequence. The lesion-containing template was then annealed to a complementary synthetic primer and used to study the effects of cis-thymine glycol lesions on DNA polymerase function in vitro. Synthesis by polymerase I (Klenow fragment), T4 DNA polymerase, and polymerase alpha 2 was arrested quantitatively at the site of the lesion. AMV reverse transcriptase was less inhibited and was able to synthesize past a significant fraction of the lesions. Changing the template base immediately 5' to thymine glycol from A to C did not significantly alter the pattern of synthesis arrest for any of the polymerases. The correct nucleotide, dAMP, was inserted opposite the lesion more than 90% of the time by all four polymerases, suggesting that thymine glycol forms a reasonably stable base pair with adenine. However, the 3'-5' exonuclease activity of polymerase I removed a 3'-terminal dAMP residue more rapidly from an A . thymine glycol base pair than from an A.T base pair. These results suggest that increased nucleotide turnover at the site of the lesion contributes to the inhibitory effects of thymine glycol lesions on DNA synthesis in vitro, at least for polymerases such as polymerase I that have intrinsic or associated editing exonuclease functions.
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PMID:Functional effects of cis-thymine glycol lesions on DNA synthesis in vitro. 367 59

Ammonium ions stimulated the formation of the phi diameter 29 protein p3-dAMP initiation complex by decreasing the Km value for dATP in a purified system containing the viral terminal protein p3, the viral DNA polymerase p2, and the phi 29 DNA-protein p3 complex as a template. In addition, NH4+ ions stimulated the amount of p3-dAMP complex elongation and increased by about twofold the rate of elongation. The stimulatory effect of NH4+ ions on in vitro phi 29 DNA replication is probably related to the formation of a stable complex between the terminal protein and the DNA polymerase, which was detected only in the presence of NH4+ ions.
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PMID:Effect of NH4+ ions on phi 29 DNA-protein p3 replication: formation of a complex between the terminal protein and the DNA polymerase. 368 63

Studies of the spatial organization of DNA replication have provided increasing evidence of the importance of the nuclear matrix. We have previously reported a relationship between rates of DNA synthesis and the differential binding of DNA polymerase alpha to the nuclear matrix over the S-phase. We now report the detection of DNA primase bound to the HeLa nuclear matrix. Matrix-bound primase was measured both indirectly, by the incorporation of [32P]dAMP into an unprimed single-stranded template, poly(dT), and directly, by the incorporation of [3H]AMP into matrix DNA. Characteristics of this system include a requirement for ATP, inhibition by adenosine 5'-O-(thiotriphosphate), a primase inhibitor, and insensitivity to aphidicolin and alpha-amanitine, inhibitors of polymerase alpha and RNA polymerase, respectively. Subcellular quantification of primase and polymerase alpha activity revealed that while most (approximately 72%) primase activity is bound to the matrix, only a minority (approximately 32%) of polymerase alpha activity is matrix-bound. Treatment of the nuclear matrix with beta-D-octylglucoside allowed the solubilization of approximately 54% of primase activity and approximately 39% of the polymerase alpha activity. This data provides further evidence of a structural and functional role for the nuclear matrix in DNA replication. The ability to solubilize matrix-bound replicative enzymes may prove to be an important tool in the elucidation of the spatial organization of DNA replication.
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PMID:Preferential binding of DNA primase to the nuclear matrix in HeLa cells. 371 Oct 79

The activities of DNA polymerase alpha and key enzymes of gluconeogenesis and glycolysis were measured in different segments of the rat nephron at various times (up to 96 hrs) following a unilateral nephrectomy (UNx). Tubule fragments were obtained after collagenase treatment followed by centrifugation on a Percoll gradient. The DNA polymerase alpha activity in control rats showed moderate and similar values in different segmental extracts as well as in the whole kidney extract (1700-1800 mumumole [3H] dAMP/mg DNA). In UNx rats, activity in proximal tubules (PT) measured at 24, 48, 72 and 96 hrs after nephrectomy represented an increase of 60%, 200%, 420% and 370% respectively over control values. Distal tubule fragments (DT) showed only minor increases. The results demonstrate that the proximal tubule accounts for most of the compensatory renal growth (CRG) in the remaining kidney. The gluconeogenic and glycolytic enzymes were confined to the PT and those of glycolysis to the DT fragments. Following UNx, the specific activities of these enzymes were not modified in the remaining kidney; however, the overall activity of gluconeogenesis was increased as a result of the cell hyperplasia occurring in the PT. Our work also illustrates that biochemical studies of CRG on the whole organ may provide misleading information due to the presence of heterogenous cell populations in the mammalian kidney and to their uneven response in CRG.
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PMID:Segmental heterogeneity of enzymatic response during compensatory renal growth. 383 6


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