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 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

Highly purified DNA polymerase alpha-DNA primase from normal human tissue (human placenta) has been prepared by immunoaffinity purification on immobilized anti-human DNA polymerase alpha monoclonal antibody SJK 287-38. According to data from SDS electrophoresis this preparation consists of subunits of 180, 160, 145, 140 kDa (a cluster of DNA-polymerizing subunits), 73 kDa (function unknown) and 59, 52 kDa (corresponding to primase). Three active enzyme forms of 270, 460 and 575 kDa have been revealed using native electrophoresis followed by detection of DNA polymerase activity.
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PMID:DNA polymerase alpha-DNA primase from human placenta. Immunoaffinity purification and preliminary characterization. 292 16

Transfection of human hepatoma cell lines with cloned HBV DNA resulted in the secretion of large amounts of hepatitis B surface antigen (HBsAg) and core-related antigens (HBc/HBeAg) if well-differentiated cell lines were employed. Synthesis of both viral antigens was the highest in cell line HuH-7 and continued for approximately 25 days. Particles resembling hepatitis B virions (Dane particles) by morphology, density and by the presence of the preS1 surface antigen were released from the transfected HuH-7 cells into the culture medium. These particles produced in vitro were also indistinguishable from the naturally occurring hepatitis B virions in containing the virus-associated DNA polymerase and mature HBV genomes. Restriction analysis of these DNA molecules was compatible with the nucleotide sequence of the transfecting HBV DNA sequence. Viral surface antigens and core proteins present in the culture medium were fractionated and characterized by immunoprecipitation and SDS--PAGE after labeling with [35S]methionine. Antisera specific for X-gene products identified in cell extracts two hitherto unknown HBV gene products. This system thus provides a new approach to open questions regarding HBV-related gene function and HBV replication.
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PMID:Production of hepatitis B virus in vitro by transient expression of cloned HBV DNA in a hepatoma cell line. 303 5

Complex, multiprotein forms of bovine (calf thymus), hamster (Chinese hamster ovary cell), and human (HeLa) cell DNA polymerase alpha (Pol alpha) were analyzed for their content of calmodulin-binding proteins. The approach used an established autoradiographic technique employing 125I-labeled calmodulin to probe proteins in denaturing SDS-polyacrylamide gel electropherograms. All three Pol alpha enzymes were associated with discrete, Ca2+-dependent calmodulin-binding proteins. Conventionally purified calf thymus Pol alpha holoenzyme contained three prominent, trifluoperazine-sensitive species with apparent molecular masses of approx. 120, 80 and 48 kDa. The 120 and 48 kDa species remained associated with the polymerase.primase core of the calf enzyme during immunopurification with monoclonal antibodies directed specifically against the polymerase subunit. The patterns of the calmodulin-binding proteins displayed by conventionally purified preparations of hamster and human Pol alpha enzymes were similar to each other and distinctly different from the pattern of comparable preparations of calf thymus Pol alpha. Immunopurified preparations of the human and hamster Pol alphas retained significant calmodulin-binding activity of apparent molecular masses of approx. 55, 80 and 150-200 kDa.
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PMID:Calcium-dependent calmodulin-binding proteins associated with mammalian DNA polymerase alpha. 306 70

We have isolated a highly enriched preparation of the multienzyme complex which synthesizes deoxyribonucleoside triphosphates (dNTPs) from bacteriophage T4-infected bacteria. By a combination of SDS polyacrylamide gel electrophoresis and assays for specific enzyme activities, we have been able to identify in our final preparation ten different gene products which were previously identified as constituents of this complex, based upon studies with crude preparations. The complex dissociates at high concentrations of NaCl and MgCl2 but is stable under ionic conditions thought to exist in vivo. The purified complex catalyzes the efficient five-step conversion of dCTP to dTTP. Experiments with several T4 mutants have demonstrated that gene products encoded by cd, regA, nrdA, and nrdB are necessary to retain physical integrity of the complex throughout the preparative procedure, while gp44, gp55, and gppseT are not required. We conclude from this evidence that the T4 early gene products which function in dNTP biosynthesis are, in fact, physically linked as a multienzyme complex, and that regA contributes to the integrity of this complex. However, the dNTP-synthesizing complex as we isolate it contains no detectable DNA polymerase, nor have other known replication proteins been detected.
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PMID:T4 phage deoxyribonucleoside triphosphate synthetase: purification of an enzyme complex and identification of gene products required for integrity. 307 39

A number of antisera, elicited against different segments of the duck hepatitis B virus (DHBV) P-gene translation product, were used to immunoprecipitate the protein that is covalently bound to the 5'-end of the DHBV DNA minus strand. For monitoring purposes, a small DNA minus-strand fragment, carrying this protein, was radioactively labeled. All of the P-specific antisera specifically immunoprecipitated this DNA fragment demonstrating that the protein species attached to the immunoprecipitated DNA fragment were products of the DHBV P-gene. The electrophoretic behavior, in SDS gels, of the DNA minus-strand fragment-protein complex indicated that it was present mostly in the form of aggregates. However, a small fraction consisted of DNA minus-strand fragments carrying P-gene proteins, encoded solely within the 5'-region of the P-gene. This indicated that different P-gene proteins, presumably covalently bound at a common region and subsequently processed, were bound to the 5'-end of the DHBV DNA minus strand. The DHBV P-gene presumably codes for the virus-associated reverse transcriptase and DNA polymerase activities. Using the P-gene-specific antisera, it was not possible to detect putative P-gene-coded polymerase proteins in a free form, i.e., not bound to viral DNA. This may be due to insufficient sensitivity or to the polymerase protein(s) being heterogeneous and/or aggregated. In addition, it is possible that the genome-bound protein itself may have polymerase activity.
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PMID:The duck hepatitis B virus P-gene codes for protein strongly associated with the 5'-end of the viral DNA minus strand. 317 42

DNA polymerase A (I or major) and its stimulative factor were purified from 15-20 kg wet weight of baker's yeast by several procedures, which were varied in order to examine the possible occurrence of proteolysis. The extraction was carried out in the presence of 10 or 3 mM phenylmethylsulfonyl fluoride (PMSF), followed by either batchwise adsorption-elution or column chromatography on DEAE-Sepharose (rapid or time-consuming, respectively). These early steps were followed by column chromatographies on DEAE-, CM-, and heparin-Sepharoses, phosphocellulose, and Sephacryl S-300. Preparations of the polymerase obtained by all the procedures described above showed a single protein band at Mr of about 145,000 in sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE), unless they had been treated with 2-mercaptoethanol (ME). After ME treatment, however, they showed two protein bands at Mr of about 145,000 and 75,000 in SDS-PAGE, except for those obtained by the procedure involving 10 mM PMSF and the batchwise adsorption-elution. All the preparations described above showed practically the same specific activity. This indicates that in intact cells, the polymerase consisted of a single peptide with Mr of about 145,000, and that after cell disruption, it was artificially hydrolyzed in a limited fashion into two peptides with Mr of about 75,000, which were still active and were linked to each other through a disulfide bond. Preparations of the factor obtained by all the procedures described above showed a single protein band at Mr of about 20,000 in SDS-PAGE before and after ME treatment. The relative activities of the purified polymerase were (100%), 123, 21, 37, 196, and 38% with native and denatured salmon sperm DNA, native and denatured calf thymus DNA, poly(dA-dT), and poly(dA).oligo(dT)10, respectively. With the addition of the purified factor, they were 173, 272, 173, 217, 173, and 247%, respectively, i.e., significantly stimulated. The purified factor also stimulated the activity of calf thymus DNA polymerase alpha by 150% with denatured salmon sperm DNA; Km was about 5 X 10(-10)M, practically the same as that of yeast DNA polymerase A. However, it hardly influenced the activities of Escherichia coli enzyme I or Micrococcus luteus enzyme.
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PMID:DNA polymerase A and its stimulative factor of baker's yeast: purification and characterization. 332 2

Diadenosine 5',5'''-P1,P4-tetraphosphate (Ap4A) binding protein specifically binds Ap4A. The protein has been purified from Xenopus laevis oocytes and presents an estimated molecular weight of 100,000 by gel filtration. In the first stages of the purification, the Ap4A binding activity is found associated to DNA polymerase alpha-DNA primase, forming heterogeneous high molecular weight complexes. A monoclonal antibody has been prepared against the purified Ap4A binding protein. The antibody partially neutralizes the Ap4A binding activity. Using the immunoblot technique, it has been shown that the antibody is able to recognize either native or SDS-denatured Ap4A binding protein. The monoclonal antibody immunoreacted with a polypeptide of 90,000 which coincides with the molecular weight obtained by gel chromatography and indicates that the native Ap4A binding protein from Xenopus oocytes is probably a monomeric protein.
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PMID:Purification, immunological and biochemical characterization of Ap4A binding protein from Xenopus laevis oocytes. 336 11

Scheduled (SDS) and unscheduled (UDS) DNA synthesis as well as nucleoid sedimentation was investigated in vitro under the influence of novobiocin (NB) and nalidixic acid (NA) using intact thymic (T-cells) and splenic (S-cells) rat cells and cells which were exposed to X-rays, UV irradiation, methyl methanesulfonate (MMS), and DNA polymerase inhibitors. At concentrations of greater than or equal to 56.25 (S-cells) and greater than or equal to 225 micrograms/ml (T-cells), respectively, NB inhibited SDS in a dose-dependent manner. Within a concentration range of greater than or equal to 225-900 micrograms NB/ml, UDS of S-cells decreased to values far below the tracer ([3H-methyl]-thymidine) incorporation of control cells, whereas UDS of T-cells increased by at least 200%. Within a concentration range of 450-1800 micrograms/ml, NA enhanced SDS and UDS by about 30% in S-cells and by 100% in T-cells. The stimulating activity of NB and/or NA could be eliminated specifically by the DNA polymerase beta inhibitor 2',3'-dideoxythymidine. Enhanced nucleoid sedimentation was observed at NB concentrations greater than or equal to 750 micrograms/ml; S-cells revealed a higher sedimentation rate than T-cells. It is suggested that NB (and NA) influence DNA topology in a rather cell specific manner, stimulating UDS of T-cells by a DNA polymerase beta - dependent repair-like mechanism.
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PMID:Stimulation of DNA repair synthesis of rat thymocytes by novobiocin and nalidixic acid in vitro without detectable DNA damage. 363 53

[35S]Methionine-labeled proteins from total or cytoplasmic extracts of Vero cells infected with African swine fever virus were chromatographed on native and denatured DNA-cellulose and DNA-binding proteins were analyzed by SDS-polyacrylamide gel electrophoresis (SDS-PAGE), by DNA binding to Western blots, or by two-dimensional electrophoresis. Thirteen virus-specific DNA-binding proteins were detected by one-dimensional analysis. Major species have molecular mass 44,000 (44K), 38K, 20K, 18K, 14K, 13K, and 12K. The remaining DNA-binding proteins are proteins with molecular mass 130K, 110K, 35K, 33K, 17K, and 14.5K. When viral DNA used in the binding assay the results were very similar but the 13K protein did not bind viral DNA. Seven other minor virus-specific DNA-binding proteins could be detected by two-dimensional analysis. This technique also enabled the assignment of virus-specific proteins. Seven of the virus-specific DNA-binding proteins are structural proteins. Twelve are late proteins, the remaining being early proteins synthesized before viral DNA replication. Most of the virus-specific DNA-binding proteins bind both to double-stranded and to single-stranded DNA. The 110K, 29K, and 18K DNA-binding proteins bind only to single-stranded DNA. Two virus-specific enzymatic activities, DNA polymerase and RNA polymerase, were present in the fractions separated by DNA-cellulose chromatography. The virus-specific single-stranded DNA nuclease did not bind to DNA.
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PMID:DNA-binding proteins specified by African swine fever virus. 368 26

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