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)

The delta subunit of DNA polymerase III holoenzyme has been purified extensively with an assay for phi X174 DNA synthesis using core (pol III) and beta and gamma subunits. Either the purified delta subunit or the purified DNA polymerase III holoenzyme can complement a defective enzyme fraction from the conditional replication mutant SG133 described by Sevastopoulos et al. [Sevastopoulas, C.G., Wehr, C.T. & Glaser, D. A. (1977) Proc. Natl. Acad. Sci. USA 74, 3485-3489]. It has been established by Henson et al. [Henson, J.M., Chu, H., Irwin, C.A. & Walker, J.R. (1979) Genetics 92, 1,41-1059] that SG133 has two temperature-sensitive mutations, called dnaX and dnaY. The crude enzyme source from dnaX can be complemented by the delta subunit and by DNA polymerase III holoenzyme. By contrast, the core DNA polymerase III and the beta and gamma subunits are unable to complement this defective enzyme fraction. Thus, the delta subunit of DNA polymerase III holoenzyme appears to be the dnaX gene product of Escherichia coli.
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PMID:The delta subunit of Escherichia coli DNA polymerase III holoenzyme is the dnaX gene product. 16 May 63

Several newly synthesized boron betaine analogs had antitumor activity in Ehrlich ascites, Walker 256 ascites carcinosarcoma, and Lewis lung screens and marginal activity in the B-16 melanotic melanoma screen. In vivo testing demonstrated that trimethylamine-cyanoborane inhibied Ehrlich ascites cell DNA and protein syntheses as well as gene modulation by chromatin protein phosphorylation and methylation. Trimethylamine-cyanoborane increased cyclic-AMP levels. In vitro testing showed that nuclear DNA polymerase, thymidylate synthetase, S-adenosylmethyltransferase, nonhistone chromatin methylation, deoxyribonuclease, ribonuclease, and cathepsin were inhibited by the boron analogs. These compounds did not demonstrate high antitumor activity at the doses employed, but blockage of methyl transfer from S-adenosylmethionine was established as a feasible method for controlling cell proliferation.
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PMID:Boron betaine analogs: antitumor activity and effects on Ehrlich ascites tumor cell metabolism. 22 87

Evidence is presented that a number of sesquiterpene lactones isolated from plants and synthesized pyrimidines containing the alpha-methylene-gamma-lactone moiety are potent inhibitors of Walker 256 carcinosarcoma and Ehrlich ascites tumor growth and marginal inhibitors of P-388 lymphocytic leukemia and Lewis lung tumor growth. In vitro aerobic basal respiration and oxidative phosphorylation processes of Ehrlich ascites cells were inhibited by these agents as well as deoxyribonucleic acid polymerase and thymidylate synthetase enzymatic activities. These studies indicate that the alpha-methylene-gamma-lactone moiety, the beta-unsubstituted cyclopentenone ring, and the alpha-epoxycyclopentanone system are the essential moieties for inhibition of these biochemical parameters.
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PMID:Antitumor agents XXX: Evaluation of alpha-methylene-gamma-lactone-containing agents for inhibition of tumor growth, respiration, and nucleic acid synthesis. 69 Aug 26

The tau and gamma subunits of the DNA polymerase III holoenzyme of Escherichia coli were each isolated in large quantities as oligomers from overproducing cells in which their genes (dnaZ and X) were under the control of a T7 phage promoter. The 52-kDa gamma subunit (encoded by the dnaZ sequence) contains three-forths of the N-terminal residues of the 71-kDa tau subunit (encoded by the dnaX sequence). Both gamma and tau share a binding site for ATP (or dATP). A DNA-dependent ATPase activity (Lee, S.H., and Walker, J.R. (1987) Proc. Natl. Acad. Sci. U. S. A. 84, 2713-2717) exhibited only by the tau subunit, presumably requires a DNA-binding site in the C-terminal domain lacking in the gamma subunit. Among ATPases dependent on single-stranded DNA, the tau activity is remarkable in the failure of homopolymers (e.g. poly(dA) or poly(dT)) to replace natural DNAs. The presumed need for certain secondary structures may reflect a feature of template binding in the crucial contribution that tau makes to the high processivity of polymerase III holoenzyme. Limited tryptic digestion of tau generates a fragment that resembles gamma in: (i) size, (ii) binding of ATP without ATPase activity, and (iii) a level of complementing holoenzyme activity in extracts of dnaZ-mutant cells that is higher than that of tau.
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PMID:ATP interactions of the tau and gamma subunits of DNA polymerase III holoenzyme of Escherichia coli. 268 Nov 83

Monobutyryl adenosine 3',5' monophosphate (mbcAMP) caused an inhibition of the thymidylate synthetase activity of Walker rat mammary carcinoma cells in tissue culture, which could be reversed by concomitant treatment with N2,O2' dibutyryl guanosine 3',5' monophosphate (dbcGMP). There was no effect on thymidine kinase activity. The DNA polymerase activity of whole cells, but not broken-cell preparations was markedly inhibited by a dose of mbcAMP (100 micrograms/ml) having little effect on growth rate. This inhibition could be reversed to some extent by simultaneous treatment of the cells with caffeine. Treatment with mbcAMP produced a decrease in the level of dTTP and a concomitant rise in the levels of dATP, dGTP and dCTP. This situation was reversed in combination with dbcGMP, with levels of the deoxyribonucleoside triphosphates tending to revert back to control values. The effect of mbcAMP on thymidylate synthetase and DNA polymerase may account for its growth inhibitory effect.
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PMID:The effect of cyclic nucleotides on DNA polymerase, thymidylate synthetase, thymidine kinase and deoxynucleoside levels of Waler carcinoma. 718 96

Strand Displacement Amplification (SDA) is an isothermal, in vitro method of amplifying DNA that is based upon the combined action of a DNA polymerase and restriction enzyme. Previously, a form of SDA was developed which utilizes the exonuclease deficient Klenow fragment of E. coli polymerase I (exo Klenow) and the restriction enzyme HincII to achieve 10(8)-fold amplification in 2 h at 37 degrees C (Walker, G.T., 1993, PCR Methods and Applications 3; 1-6). A new thermophilic form of SDA is reported here which uses a restriction endonuclease from Bacillus stearothermophilus (BsoBI) and a 5'-->3' exonuclease deficient polymerase from Bacillus caldotenax (exo Bca). SDA was used to amplify DNA from Mycobacterium tuberculosis. An amplification factor of 10(10)-fold was achieved after 15 min of SDA at 60 degrees C. The new thermophilic system is much more specific than the previous mesophilic system as evidenced by a dramatic decrease in background amplification products. Thermophilic SDA was also optimized with dUTP substituted for TTP to enable amplicon decontamination using uracil-DNA glycosylase.
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PMID:Detection of M. tuberculosis DNA using thermophilic strand displacement amplification. 886 73

SOS mutagenesis in Escherichia coli requires the participation of a specialized system involving the activated form of UmuD (UmuD'), UmuC, RecA, and DNA polymerase III proteins. We have used a set of monocysteine derivatives of UmuD (M. H. Lee, T. Ohta, and G. C. Walker, J. Bacteriol. 176:4825-4837, 1994) and the cysteine-specific photoactive cross-linker p-azidoiodoacetanilide (AIA) to study not only the interactions of intact UmuD in the homodimer but also the interactions of UmuD with activated RecA. The reactivities of the individual UmuD monocysteine derivatives with AIA were similar to their reactivities with iodoacetate. The relative efficiencies of cross-linking of the AIA-modified monocysteine UmuD derivatives in the homodimer form are also consistent with our previous conclusions concerning the relative closeness of various UmuD residues to the dimer interface. With respect to the UmuD-RecA interface, the AIA-modified VC34 and SC81 monocysteine derivatives cross-linked most efficiently with RecA, indicating that positions 34 and 81 of UmuD are closer to the RecA interface than the other positions we tested. The AIA-modified SC57, SC67, and SC112 monocysteine derivatives cross-linked moderately efficiently with RecA. Neither C24, the wild-type UmuD that has a cysteine located at the Cys-24-Gly-25 cleavage site, nor SC60, the UmuD monocysteine derivative with a cysteine substitution at the position of the putative active-site residue, was able to cross-link with RecA, suggesting that RecA need not directly interact with residues involved in the cleavage reaction. SC19, located in the N-terminal fragment of UmuD that is cleaved, and LC44 also did not cross-link efficiently with RecA.
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PMID:Interactions of Escherichia coli UmuD with activated RecA analyzed by cross-linking UmuD monocysteine derivatives. 895 14

A cDNA encoding a human ortholog of mouse DNA helicase B, which may play a role in DNA replication, has been cloned and expressed as a recombinant protein. The predicted human DNA helicase B (HDHB) protein contains conserved helicase motifs (superfamily 1) that are strikingly similar to those of bacterial recD and T4 dda proteins. The HDHB gene is expressed at low levels in liver, spleen, kidney, and brain and at higher levels in testis and thymus. Purified recombinant HDHB hydrolyzed ATP and dATP in the presence of single-stranded DNA, displayed robust 5'-3' DNA helicase activity, and interacted physically and functionally with DNA polymerase alpha-primase. HDHB proteins with mutations in the Walker A or B motif lacked ATPase and helicase activity but retained the ability to interact with DNA polymerase alpha-primase, suggesting that the mutants might be dominant over endogenous HDHB in human cells. When purified HDHB protein was microinjected into the nucleus of cells in early G(1), the mutant proteins inhibited DNA synthesis, whereas the wild type protein had no effect. Injection of wild type or mutant protein into cells at G(1)/S did not prevent DNA synthesis. The results suggest that HDHB function is required for S phase entry.
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PMID:A dominant-negative mutant of human DNA helicase B blocks the onset of chromosomal DNA replication. 1218 27

Following DNA damage to Escherichia coli bacteria, RecA protein is activated by binding to single stranded DNA and cleaves its own gene repressor (LexA protein). Two papers from Graham Walker's laboratory showed that several bacterial genes in addition to RecA are repressed by the LexA repressor and are inducible following DNA damage [C.J. Keyon, G.C. Walker, DNA-damaging agents stimulate gene expression at specific loci in Escherichia coli, in: Proceedings of the National Academy of Sciences of the United States of America 77, 1980, pp. 2819--2823] and predicted that one of them (UmuD) might itself be subject to activation by a further cleavage reaction involving activated RecA protein [K.L. Perry, S.J. Elledge, B.B. Mitchell, L. Marsh, G.C. Walker, umuD,C and mucA,B operans whose products are required for UV light- and chemical-induced mutagenesis: UmuD, MucA, and LexA proteins share homology, in: Proceedings of the National Academy of Sciences of the United States of America 82, 1985, pp. 4331--4335]. The processed form of UmuD, termed UmuD', later proved to be a subunit of DNA polymerase V, a key enzyme involved in translesion synthesis.
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PMID:Error-prone repair and translesion synthesis III: the activation of UmuD (or less is more). 1619 26

Ring-shaped sliding clamps encircle DNA and bind to DNA polymerase, thereby preventing it from falling off during DNA replication. In eukaryotes, sliding clamps are loaded onto DNA by the replication factor C (RFC) complex, which consists of five distinct subunits (A-E), each of which contains an AAA+ module composed of a RecA-like alpha/beta ATPase domain followed by a helical domain. AAA+ ATPases mediate chaperone-like protein remodeling. Despite remarkable progress in our understanding of clamp loaders, it is still unclear how recognition of primed DNA by RFC triggers ATP hydrolysis and how hydrolysis leads to conformational changes that can load the clamp onto DNA. While these questions can, of course, only be resolved experimentally, the design of such experiments is itself non-trivial and requires that one first formulate the right hypotheses based on preliminary observations. The functional constraints imposed on protein sequences during evolution are potential sources of information in this regard, inasmuch as these presumably are due to and thus reflect underlying mechanisms. Here, rigorous statistical procedures are used to measure and compare the constraints imposed on various RFC clamp-loader subunits, each of which performs a related but somewhat different, specialized function. Visualization of these constraints, within the context of the RFC structure, provides clues regarding clamp-loader mechanisms--suggesting, for example, that RFC-A possesses a triggering component for DNA-dependent ATP hydrolysis. It also suggests that, starting with RFC-A, four RFC subunits (A-D) are sequentially activated through a propagated switching mechanism in which a conserved arginine swings away from a position that disrupts the catalytic Walker B region and into contact with DNA thread through the center of the RFC/clamp complex. Strong constraints near regions of interaction between subunits and with the clamp likewise provide clues regarding possible coupling of hydrolysis-driven conformational changes to the clamp's release and loading onto DNA.
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PMID:Evolutionary clues to eukaryotic DNA clamp-loading mechanisms: analysis of the functional constraints imposed on replication factor C AAA+ ATPases. 1608 78

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