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)

Epstein-Barr virus (EBV) DNA polymerase was released from phorbol ester-treated tamarin (Saguinus oedipus) cells (B95-8) and prepared for use as an antigen by sequential column chromatography with DEAE-Sephadex A-25, DEAE-cellulose, phosphocellulose, and single-stranded DNA cellulose. Proteins from single-stranded DNA cellulose with DNA polymerase activity in 100 mM ammonium sulfate were mixed with complete Freund adjuvant and injected intradermally into rats and rabbits. Immune sera that were screened for specific antibody by indirect immunofluorescence procedures reacted with approximately 3% of the cells in EBV-producer cultures (B95-8 and P3HR-1) but not with EBV genome-negative cells (BJAB). In functional enzyme assays, immune sera or the immunoglobulin fraction inhibited the activity of purified EBV DNA polymerase 90%. Inhibition of enzyme activity was not affected by absorption of immune sera with insoluble matrices of proteins prepared with tamarin and human cells which lacked the EBV genome. Cellular DNA polymerase alpha was not inhibited by immune sera to the EBV enzyme.
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PMID:Specific immune serum to the Epstein-Barr virus DNA polymerase. 304 Oct 54

Thioredoxin is a small (Mr 12,000) ubiquitous redox protein with the conserved active site structure: -Trp-Cys-Gly-Pro-Cys-. The oxidized form (Trx-S2) contains a disulfide bridge which is reduced by NADPH and thioredoxin reductase; the reduced form [Trx(SH)2] is a powerful protein disulfide oxidoreductase. Thioredoxins have been characterized in a wide variety of prokaryotic cells, and generally show about 50% amino acid homology to Escherichia coli thioredoxin with a known three-dimensional structure. In vitro Trx-(SH)2 serves as a hydrogen donor for ribonucleotide reductase, an essential enzyme in DNA synthesis, and for enzymes reducing sulfate or methionine sulfoxide. E. coli Trx-(SH)2 is essential for phage T7 DNA replication as a subunit of T7 DNA polymerase and also for assembly of the filamentous phages f1 and M13 perhaps through its localization at the cellular plasma membrane. Some photosynthetic organisms reduce Trx-S2 by light and ferredoxin; Trx-(SH)2 is used as a disulfide reductase to regulate the activity of enzymes by thiol redox control. Thioredoxin-negative mutants (trxA) of E. coli are viable making the precise cellular physiological functions of thioredoxin unknown. Another small E. coli protein, glutaredoxin, enables GSH to be hydrogen donor for ribonucleotide reductase or PAPS reductase. Further experiments with molecular genetic techniques are required to define the relative roles of the thioredoxin and glutaredoxin systems in intracellular redox reactions.
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PMID:Thioredoxin and related proteins in procaryotes. 315 90

Uracil-DNA glycosylase from rat liver mitochondria, an inner membrane protein, has been purified approximately 575,000-fold to apparent homogeneity. During purification two distinct activity peaks, designated form I and form II, were resolved by phosphocellulose chromatography. Form I constituted approximately 85% while form II was approximately 15% of the total activity; no interconversion between the forms was observed. The major form was purified as a basic protein with an isoelectric point of 10.3. This enzyme consists of a single polypeptide with an apparent Mr of 24,000 as determined by recovering glycosylase activity from a sodium dodecyl sulfate-polyacrylamide gel. A native Mr of 29,000 was determined by glycerol gradient sedimentation. The purified enzyme had no detectable exonuclease, apurinic/apyrimidinic endonuclease, DNA polymerase, or hydroxymethyluracil-DNA glycosylase activity. A 2-fold preference for single-stranded uracil-DNA over a duplex substrate was observed. The apparent Km for uracil residues in DNA was 1.1 microM, and the turnover number is about 1000 uracil residues released per minute. Both free uracil and apyrimidinic sites inhibited glycosylase activity with Ki values of approximately 600 microM and 1.2 microM, respectively. Other uracil analogues including 5-(hydroxymethyl)uracil, 5-fluorouracil, 5-aminouracil, 6-azauracil, and 2-thiouracil or analogues of apyrimidinic sites such as deoxyribose and deoxyribose 5'-phosphate did not inhibit activity. Both form I and form II had virtually identical kinetic properties, and the catalytic fingerprints (specificity for uracil residues located in a defined nucleotide sequence) obtained on a 152-nucleotide restriction fragment of M13mp2 uracil-DNA were almost identical. These properties differentiated the mitochondrial enzyme from that of the uracil-DNA glycosylase purified from nuclei of the same source.
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PMID:Purification and properties of mitochondrial uracil-DNA glycosylase from rat liver. 319 81

Protein candidates for the attachment of DNA within eukaryotic cell nuclei were identified by isolating nuclear matrix proteins and determining which of those proteins co-sedimented with DNA within a 5.7 M CsCl gradient. The presence of attached nucleic acid was detected after the proteins were subjected to the denaturing conditions of isoelectric focusing/sodium dodecyl sulfate two-dimensional polyacrylamide gel electrophoresis. The attached nucleic acid was detected with silver staining, ethidium bromide, and Amido Black binding. The nucleic acid was identified as DNA based on its ability to be labeled in vitro by terminal deoxynucleotidyltransferase and DNA polymerase I (Klenow). Three proteins were identified as containing attached DNA, one of which was vimentin. The proteins had apparent Mr and pI values of 70,000, 4.3; 70,000, 5.3; and 57,000, 4.8, respectively. We propose that these proteins are within a class of nuclear proteins containing firmly attached DNA and have referred to them as DNA attachment proteins.
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PMID:Identification of attachment proteins for DNA in Chinese hamster ovary cells. 319 45

For the specific purification of eukaryotic DNA-dependent DNA polymerase alpha, we prepared two novel affinity resins bearing 5-(E)-(4-aminostyryl) araUTP as a ligand. One of them was araUTP-Sepharose 4B which was coupled directly with the ligand and the other was araUTP-Affi-Gel 10 which was coupled with the ligand through a spacer. No DNA polymerase alpha-primase activity from cherry salmon (Oncorhynchus masou) testes was bound on the araUTP-Sepharose 4B in all cases examined. On the other hand, the araUTP-Affi-Gel 10 retains this enzyme activity when poly(dA) or poly(dA)-oligo(dT)12-18 is present. The retained enzyme activity was sharply eluted around 100-mM KCl concentrations as a single peak, and this fraction showed a specific activity of about 170,000 units/mg as alpha-polymerase activity. The highly purified DNA polymerase alpha-primase isolated using the araUTP-Affi-Gel 10 contained only three polypeptides, which showed Mr values of 120,000, 62,000, and 58,000, respectively, as judged using sodium dodecyl sulfate-polyacrylamide gel electrophoresis.
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PMID:AraUTP-Affi-Gel 10: a novel affinity absorbent for the specific purification of DNA polymerase alpha-primase. 321 43

Yeast cells from a wild type or protease-deficient strain were lysed in the absence or presence of protease inhibitors and the extracts analyzed by analytical high pressure liquid chromatography on diethylaminoethyl silica gel. Conditions that inhibited protease action caused elution of a novel DNA polymerase activity at a position in the gradient distinct from the elution positions of both DNA polymerase I and II. In large scale purifications, this DNA polymerase, called DNA polymerase III, copurified with a single-stranded DNA dependent 3'-5' exonuclease activity, exonuclease III, to near homogeneity. Glycerol gradient centrifugation partially dissociated the complex to yield two peaks of exonuclease III activity, one at 7.7 S together with the DNA polymerase, and one at 4.0 S without polymerase activity. Gel filtration indicated that the complex has a molecular mass greater than 400 kDa. Polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate indicated that the complex consists of several subunits: 140, 62, 55, and 53 kilodaltons, some of which may be proteolysis products. The exonuclease component of the complex can excise single nucleotide mismatches providing a base-paired primer-template which can be elongated by the DNA polymerase. Under replication conditions, the complex exhibits a measurable turnover rate of dTTP to dTMP and it contains no primase activity. The enzymatic activities of the 3'-5' exonuclease are consistent with a proofreading function during in vivo DNA replication. A second exonuclease activity, exonuclease IV, separated from the complex late in the purification scheme. It degrades both single-stranded and double-stranded DNA in the 5'----3' direction.
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PMID:DNA polymerase III from Saccharomyces cerevisiae. I. Purification and characterization. 327 61

Processive DNA synthesis, a property of DNA polymerase III holoenzyme of Escherichia coli, was not achieved by combining the pol III core (alpha, epsilon, and theta subunits) and the beta and gamma subunits. An activity that restored processivity to these subunits was found in crude extracts and was overproduced 4-fold in cells with plasmids amplifying the tau and gamma subunits. Purified to homogeneity, the activity, assayed by reconstitution of processivity, was represented by five polypeptides which were copurified. Judged by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, these correspond to the known subunits gamma (52 kDa) and delta (35 kDa) and to three new polypeptides: delta' (33 kDa), chi (15 kDa), and psi (12 kDa). The five polypeptides form a tight complex with a native molecular weight of about 200 kDa and a subunit stoichiometry of two gamma subunits to one each of the others. Processive DNA synthesis, now achieved with only three components (pol III core, beta, and the auxiliary complex), provides the opportunity to assess the functions of each and the contribution that the remaining auxiliary tau subunit makes to reconstitute a holoenzyme.
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PMID:DNA polymerase III holoenzyme of Escherichia coli. II. A novel complex including the gamma subunit essential for processive synthesis. 328 26

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

Immunoaffinity-purified DNA polymerase alpha-primase complex from calf thymus consists of subunits with molecular weights of 148,000-180,000, 73,000, 59,000, and 48,000 (Nasheuer, H.-P., and Grosse, F. (1987) Biochemistry 26, 8458-8466). Primase activity was separated from the immobilized complex by washing extensively with 2 M KCl or, alternatively, by shifting to pH 11.5 in the presence of 1 M KCl. From both elution procedures, the primase activity was found to be associated with the polypeptides with molecular weights of 59,000 and 48,000. The specific activity, using either elution procedure, was 30,000 units/mg. Both polypeptides sedimented together at 5.7 S upon zonal centrifugation on a sucrose gradient. Primase activity was found in the flow-through fraction after DEAE-cellulose chromatography of the free primase. Analysis of this fraction by sodium dodecyl sulfate gel electrophoresis revealed only one band with a Mr of 48,000. Polyclonal antibodies were raised against the Mr 59,000 and 48,000 polypeptides. The anti-Mr 59,000 antibody affected the primase activity only marginally, whereas the anti-Mr 48,000 antibody inhibited the primase activity nearly completely. UV cross-linking of the DNA polymerase alpha-primase complex with alpha-32P-labeled GTP revealed a binding site at the Mr 48,000 polypeptide, but none at the other subunits of the complex. Taken together, these results suggest that the Mr 48,000 polypeptide bears the active site of the DNA primase activity. The Mr 59,000 polypeptide stabilizes the primase activity.
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PMID:DNA polymerase alpha-primase from calf thymus. Determination of the polypeptide responsible for primase activity. 337 56

Five major polypeptides are found in immunoaffinity-purified calf thymus DNA polymerase-DNA primase complex: 185, 160, 68, 55, and 48 kDa. Individual polypeptides purified by sodium dodecyl sulfate-polyacrylamide gel electrophoresis were used to produce antibodies in rabbits to aid in identifying the relationships between these polypeptides by immunoblotting and enzyme neutralization procedures. Immunoblot analyses showed that the 160-kDa peptide is derived from the 185-kDa peptide and the 48-kDa peptide is derived from the 68-kDa peptide while antibodies to the 55-kDa peptide do not cross-react with other peptides found in the complex. Direct enzyme neutralization studies demonstrated that antibodies to 185- and 160-kDa peptides inhibit DNA polymerase activity in the complex, confirming earlier suggestions that these peptides are the catalytic peptides for DNA polymerase. DNA primase activity in the complex is inhibited by antibodies to 68-, 55-, and 48-kDa peptides and to a lesser extent by antibodies to the 160-kDa peptide. Free DNA primase isolated from the complex was estimated to have a native molecular weight of about 110,000. The 55- and 48-kDa peptides are found to be associated with the free primase activity. Rabbit antibodies to both 55- and 48-kDa peptides are inhibitory to this primase activity. From these results we suggest that the native calf thymus DNA polymerase-DNA primase complex contains only three unique peptides with the 185-kDa peptide as the catalytic peptide of DNA polymerase and the 55- and 68-kDa peptides constituting the primase peptides. A model illustrating the roles of these peptides in initiation and replication of DNA is presented.
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PMID:Immunological analysis of the polypeptide structure of calf thymus DNA polymerase-primase complex. 374 72

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