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 bacteriophage T4 gene 41 protein is a 5' to 3' DNA helicase which unwinds DNA ahead of the growing replication fork and, together with the T4 gene 61 protein, also functions as a primase to initiate DNA synthesis on the lagging strand. Proteolytic cleavage by trypsin approximately 20 amino acids from the COOH terminus of the 41 protein produces 41T, a 51,500-dalton fragment (possibly still associated with small COOH-terminal fragments) which still retains the ssDNA-stimulated GTPase (ATPase) activity, the 61 protein-stimulated DNA helicase activity, and the ability to act with 61 protein to synthesize pentaribonucleotide primers. In the absence of the T4 gene 32 ssDNA binding protein, the primase-helicase composed of the tryptic fragment (41T) and 61 proteins efficiently primes DNA synthesis on circular ssDNA templates by the T4 DNA polymerase and the three T4 polymerase accessory proteins. In contrast, the 41T protein is defective as a helicase or a primase component on 32 protein-covered DNA. Thus, unlike the intact protein, 41T does not support RNA-dependent DNA synthesis on 32 protein-covered ssDNA and does not stimulate strand displacement DNA synthesis on a nicked duplex DNA template. High concentrations of 32 protein strongly inhibit RNA primer synthesis with either 41 T or intact 41 protein. The 44/62 and 45 polymerase accessory proteins (and even the 44/62 proteins to some extent) substantially reverse the 32 protein inhibition of RNA primer synthesis with intact 41 protein but not with 41T protein. We propose that the COOH-terminal region of the 41 protein is required for its interaction with the T4 polymerase accessory proteins, permitting the synthesis and utilization of RNA primers and helicase function within the T4 replication complex. When this region is altered, as in 41T protein, the protein is unable to assemble a functional primase-helicase in the replication complex. An easy and rapid purification of T4 41 protein produced by a plasmid encoding this gene (Hinton, D. M., Silver, L. L., and Nossal, N. G. (1985) J. Biol. Chem. 260, 12851-12857) is also described.
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PMID:Trypsin cleavage in the COOH terminus of the bacteriophage T4 gene 41 DNA helicase alters the primase-helicase activities of the T4 replication complex in vitro. 246 40

Human immunodeficiency virus (HIV) reverse transcriptase has been purified from yeast transformed by an autoreplicating plasmid containing the retroviral DNA polymerase gene. The previously described purification procedure for the yeast-expressed reverse transcriptase [Barr, P.J., Power, M.D., Chun Ting Lee-Ng, Gibson, H. & Luciw, P. (1987) Bio/Technology 5, 486-489] has been substantially modified, leading to an increased yield and a higher degree of purity. Several biochemical properties of the enzyme are described (template specificity, effect of DNA synthesis inhibitors); interestingly, HIV reverse transcriptase is highly resistant to N-ethylmaleimide. A complex between the human retroviral enzyme and the bovine tRNALys was shown, using a direct approach, by glycerol gradient centrifugation, as well as by the protective and specific effect of the tRNALys against enzyme inactivation by thermal denaturation and trypsin digestion. A competitive type of inhibition of HIV reverse transcriptase by tRNALys, but not by tRNAVal, is observed when viral RNA or activated DNA are used as templates.
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PMID:Human immunodeficiency virus reverse transcriptase expressed in transformed yeast cells. Biochemical properties and interactions with bovine tRNALys. 247 48

A DNA polymerase alpha-primase complex, which had been purified by means of immunoaffinity column chromatography, showed little activity in a reaction mixture composed of Tris-HCl buffer, but showed full activity in potassium phosphate buffer. It was found that potassium ion is required for the reaction by the immunoaffinity-purified enzyme. On the other hand, the DNA polymerase alpha purified by the orthodox biochemical method showed full activity in both buffer systems. A protein factor, which could restore the activity of immunoaffinity-purified DNA polymerase alpha-primase complex in the potassium-free reaction mixture, was separated from biochemically purified DNA polymerase alpha. The factor, designated as factor T, was stable to heat up to 70 degrees C, but was sensitive to trypsin. It sedimented at about 4S through a glycerol gradient. SDS-polyacrylamide gel electrophoresis revealed two polypeptide bands at 56 and 54 kDa. By immunoprecipitation, the factor T was shown to be physically associated with DNA polymerase alpha-primase complex. The stimulation was also observed with poly[d(A-T)], primed M13 DNA, and heat-denatured DNA.
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PMID:A novel stimulating protein of mammalian DNA polymerase alpha. 260 93

Two sisters presented with severe insulin resistance and markedly decreased insulin binding to erythrocytes, cultured fibroblasts and transformed lymphocytes. The dose-response curve of insulin-stimulated amino acid uptake in the fibroblasts was shifted to the right. The molecular weight of the insulin receptor on the transformed lymphocytes from the patients was 210,000 and could not be dissociated to alpha- and beta-subunits by dithiothreitol treatment. However, the proreceptor was cleaved by trypsin and this led to the production of alpha-subunit with normal insulin binding. We performed cDNA sequence analysis of the cleavage site of the insulin proreceptor from the patients. The polymerase chain reaction was used to obtain a large amount of cDNA coding for the region including the interconnecting site. A thermostable DNA polymerase, Taq polymerase, successfully produced enough cDNA for the region to be sequenced. The results showed an AGG (Arg) to AGT (Ser) point mutation, resulting in the change of the interconnecting sequence of the two subunits from -Arg-Lys-Arg-Arg- to -Arg-Lys-Arg-Ser-. These results suggest that the tertiary structure change of the cleavage site leads to production of unprocessed insulin proreceptors.
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PMID:Unprocessed insulin proreceptors due to point mutation at the cleavage site. 268 Mar 65

The DNA replicase activity of the complex between bovine thymus DNA polymerase alpha and RNA primase was markedly decreased after the purification by ssDNA-cellulose column chromatography. In an attempt to restore the activity by supplementing some fractions eliminated from the purified enzyme, we found that a fraction eluted from the column by increasing salt concentration and 30% ammonium sulfate precipitates of the phosphocellulose-step enzyme possessed a high ability to restore the replicase activity. Thus, the factors were purified to near homogeneity from the two sources and the properties were examined. Both factors were heat-labile and trypsin-sensitive, possessed a native molecular mass of approximately 150-200 kDa as judged by Sephacryl S-200 column chromatography, and were composed of two polypeptides of 146 kDa and 47 kDa on SDS/polyacrylamide gel electrophoresis, indicating that they were an identical protein. The factor, which did not show any DNA polymerase or primase activities by itself, stimulated approximately 20-fold the replicase activity of purified DNA-polymerase-alpha-primase at a very low concentration (10 ng/50 microliter). The factor did not affect the deoxyribonucleotide polymerizing activity of the enzyme complex at all, but specifically stimulated the primase activity only. Thus, we designated the factor as primase-stimulating factor. Although varying the template concentration did not significantly affect the mode of stimulation, increasing the concentration of substrate for primer synthesis (ATP) markedly decreased the extent of stimulation. Thus, the stimulating factor seems to decrease the substrate concentration required for the primase reaction as well as increasing threefold the maximum activity attained by varying the substrate concentration. So far, no ATPase activity has been detected in the factor.
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PMID:Purification and properties of a specific primase-stimulating factor of bovine thymus. 283 71

A tumor-derived factor that inhibits cellular DNA synthesis was identified. The factor was extractable from a small-cell lung carcinoma cell line grown in either chemically defined medium or nu/nu mice and inhibited tritiated thymidine ([3H]dThd) incorporation by tumor cell lines of autologous, allogeneic, and xenogeneic origins. The viability of nonproliferating cells from normal tissue was not affected. Tumor extract inhibitory activity was trypsin labile but was resistant to other proteases, neuraminidase, lipase, DNase, RNase, glucosidase, extremes of pH-temperature, and reducing conditions. Inhibitory activity was reversibly bound to helix pomatia lectin but not to lentil, wheat germ, or concanavalin A lectins. Purification by size-exclusion high-performance liquid chromatography yielded a bioactive unimodal 12-kilodalton (kd) peak. The bioactive 12-kd moiety could be eluted from sodium dodecyl sulfate-polyacrylamide gels. Redosing of populations of the T-lymphoblastoid cell line CEM achieved an early (24 hr) sustained depression of pulse [3H]dThd incorporation and ultimately led to decreased population density of factor-treated populations. DNA histogram analysis demonstrated no change in cell cycle phase distribution after factor treatment. 5-Bromo-2'-deoxyuridine (BrdUrd) vs. propidium iodide with the two-parameter Fluorescence-Activated Cell Sorter analysis showed relative inhibition of non-S-phase BrdUrd uptake at 24 hours. A cell-free DNA polymerase assay demonstrated significant inhibition of non-alpha-polymerase-associated DNA synthesis in factor-treated cells. These studies suggest that this tumor-derived inhibitor of DNA synthesis represents a class of cellular products involved in the autoregulation of growth by regulation of DNA synthetic activity.
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PMID:Inhibition of DNA synthesis by a small-cell lung carcinoma-derived protein. 302 Mar 1

To identify the DNA binding site(s) in Escherichia coli DNA polymerase I (pol I) (Klenow fragment), we have used an active-site-directed reagent, phenylglyoxal (PG), which specifically reacts with arginine residues. Preincubation of DNA pol I with PG resulted in the loss of polymerase, 3'-5'-exonuclease, and DNA binding functions. Furthermore, the presence of DNA but not deoxynucleoside triphosphates protected the enzyme from inactivation. Labeling studies with [7-14C]PG indicated that two arginine residues were modified per mole of enzyme. In order to locate the site of PG modification, we digested the PG-treated enzyme with trypsin and V-8 protease. The resulting peptides from each digest were then resolved on reverse-phase hydrophobic columns. An appearance of a new peptide peak was observed in both tryptic and V-8 protease digests. Since inclusion of template-primer during PG modification of enzyme blocks the appearance of these peaks, these peptides were concluded to represent the template-primer binding domain of pol I. Indeed, the extent of inactivation of enzyme by PG treatment correlated very well with the quantitative increase in the new tryptic peptide peak. Amino acid composition analysis of both tryptic peptide and V-8 peptide revealed that the two peptides were derived from the same general region; tryptic peptide spanned between residues 837 and 857 while V-8 peptide spanned between residues 841 and 870 in the primary sequence of pol I. Sequence analysis of tryptic peptide further identified arginine-841 as the site of PG modification, which implicates this residue in the DNA binding function of pol I.
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PMID:DNA binding domain of Escherichia coli DNA polymerase I: identification of arginine-841 as an essential residue. 328 17

Factor D, a DNA binding protein that enhances the activities of diverse DNA polymerases with a common restricted set of templates, was initially characterized in mouse liver but has resisted extensive purification. In this paper, we report that a similar stimulatory activity can be obtained in highly purified form from nuclei of rabbit hepatocytes. The rabbit liver protein increases the rates at which several DNA polymerases copy sparsely primed natural DNA templates and primed synthetic poly(dT), but it has no effect on the rates of copying of activated DNA or of poly(dG), poly(dA), and poly(dC). Direct binding of the purified stimulatory protein to an oligomer that contains a (dT)16 base stretch is visualized by retardation of the nucleoprotein complex on nondenaturing electrophoretograms. In the presence of the enhancing factor, Michaelis constants, Km, of responsive polymerase for singly primed bacteriophage M13 DNA and for poly(dT), but not for poly(dA), are decreased. Product analysis of M13 DNA primer extension indicates that the rabbit factor augments the apparent processivity of DNA polymerase by decreasing the extent of enzyme pausing at a tract of four consecutive thymidine residues in the template. Gel filtration of the native stimulatory protein yields an apparent relative molecular size of 58 +/- 2 kilodaltons. Stimulatory activity is readily inactivated by heat or by trypsin digestion, but it is resistant to micrococcal nuclease, N-ethyl-maleimide, or calcium ions.
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PMID:Rabbit liver factor D, a poly(thymidine) template stimulatory protein of DNA polymerases: purification and characterization. 340 61

Nuclear protein factor type 1 (NPF-1) that simulates IMR-32 primase-associated DNA polymerase alpha 1 and alpha 2 activities has been purified from a high-salt extract of liver chromatin from 6-month-old rats. The final purified factor lacks DNA polymerase alpha, RNA polymerase, and DNA-unwinding or topoisomerase type I activities. The stimulatory activity is destroyed by trypsin (60 min at 37 degrees C), DNase II (60 min at 37 degrees C), and heat treatment (2 min at 68 degrees C). The 125I-labeled NPF-1 does not bind to activated calf thymus DNA or poly(dC). However, it forms a ternary complex with DNA in the presence of DNA polymerase alpha-primase complex (alpha 1 and alpha 2). The ternary complex sediments on sucrose density gradient as a heavier band (11S). The NPF-1 also stimulates (2.5-fold) primase-catalyzed incorporation of GMP and dGMP from the corresponding triphosphates on poly(dC) template even in the presence of a high concentration of alpha-amanitin (400 micrograms/ml). The labeled duplex containing the poly(dC) template, [32P]-GTP, and [3H]dGTP loses 80% of the 32P label and 70% of the 3H label after treatment with 0.3 M KOH and DNase I, respectively. The products were isolated from reaction mixtures incubated with and without NPF-1 and subjected to alkaline sucrose-density-gradient sedimentation analysis. The results suggest that the rate of synthesis of DNA short chains is increased in the presence of NPF-1 without a concomitant increase in the chain length of the newly synthesized products.
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PMID:Stimulation of human neuroblastoma DNA polymerase alpha and primase activities by a protein factor isolated from rat liver chromatin. 354 Sep 37

The in vitro DNA synthesis of nuclei isolated from rabbit mammary gland was stimulated by a cytosol fraction from the same tissue. Time-course of this phenomenon was followed during rabbit pregnancy at 5-day intervals. The stimulation was shown to be physiological state-dependent in that it could be detected only in the case of cytosols prepared on day-10 of pregnancy and from day-20 or 25 of pregnancy through day-5 of lactation. Moreover, only nuclei isolated on days-15 or -30 of pregnancy responded to the exogenously added cytosol. The DNA-stimulating activity was partially characterized. It was shown to be protein-like since it was heat-labile, mostly non-dialysable and sensitive to N-ethylmaleimide and trypsin treatment. Sedimentation analysis on sucrose density gradients separated this activity into 3-4 peaks, distinct from the cytoplasmic DNA polymerase.
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PMID:Effect of cytosol on DNA synthesis in isolated mammary gland nuclei from rabbits during pregnancy and early lactation. 383 3

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