Novel form of DNA polymerase alpha associated with DNA primase activity of vertebrates. Detection with mouse stimulating factor

With a specific stimulating factor of mouse DNA replicase for its detection, a novel form of DNA polymerase alpha (DNA replicase) associated with DNA primase activity was partially purified from several vertebrates, i.e. the cherry salmon Oncorhyncus masou, the frog Xenopus laevis, the chick, and human (HeLa cells). Activity similar to DNA replicase was also partially purified from embryos of the sea urchin Anthocidaris crassispina. In all vertebrates examined, two forms of DNA polymerase alpha were separated by chromatography on ion-exchange columns; one form (DNA replicase) was associated with DNA primase activity and could utilize unprimed single-stranded DNAs as template, and the other could not utilize unprimed single-stranded DNAs. The sedimentation coefficient of the former, the novel form, obtained from each vertebrate in a glycerol gradient at high ionic strength was slightly larger than that of the other form which had no primase activity, except in the case of chick embryos where the sedimentation coefficients of the two forms were almost the same. The initiator RNA synthesized with the DNA primase activity associated with DNA replicase obtained from salmon, chick, HeLa cells, and sea urchin was 8 to 10 nucleotides long. The stimulating factor obtained from Ehrlich ascites cells has been found to stimulate both the activities of DNA primase and DNA polymerase in DNA replicase obtained from all the vertebrates examined, when unprimed single-stranded DNA was used as template, while the factor failed to stimulate both the activities of the enzyme of sea urchin embryos. This factor thus should be an effective tool in studies on the mechanism of vertebrate DNA replication.     

AraUTP-Affi-Gel 10: a novel affinity absorbent for the specific purification of DNA polymerase alpha-primase

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.     

Purification of Epstein-Barr virus DNA polymerase from P3HR-1 cells.

The Epstein-Barr virus DNA polymerase was purified from extracts of P3HR-1 cells treated with n-butyrate for induction of the viral cycle. Sequential chromatography on DNA cellulose, phosphocellulose, and blue Sepharose yielded an enzyme preparation purified more than 1,300-fold. The purified enzyme was distinct from cellular enzymes but resembled the viral DNA polymerase in cells infected with herpes simplex virus type 1 or 2. The active enzyme had an apparent molecular weight of 185,000 as estimated by gel filtration on Sephacryl S-300. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis revealed a major polypeptide corresponding to a molecular weight of ca. 110,000. This polypeptide correlated with the catalytic function of the purified enzyme, whereas the other, less abundant polypeptides did not. By immunoblotting, the 110,000-molecular-weight polypeptide could be identified as a viral polypeptide. It could not be determined whether the native enzyme was composed of more than one polypeptide.     

Chick-embryo DNA polymerase gamma. Identity of gamma-polymerases purified from nuclei and mitochondria

The level of DNA polymerase gamma as compared to DNA polymerases alpha and beta has been determined in chick embryo by means of specific tests: the amount of gamma-polymerase in the 12-day-old chick embryo reaches about 15% of the total polymerase activity. This enzyme is mainly localized in nuclei and mitochondria, where it represents the prevailing if not the unique DNA polymerase activity. The mitochondrial DNA polymerase gamma is likely to be associated with the internal membrane or the matrix of this organelle since it is not removed by digitonin treatment. The gamma-polymerases have been purified from chick embryo nuclei and mitochondria 500-700 times by means of DEAE-cellulose, phosphocellulose and hydroxyapatite chromatographies. The purified mitochondrial DNA polymerase gamma is closely related to the homologous enzyme purified from the nuclei of the same cells. So far, they cannot be distinguished on the basis of their sedimentation, catalytical properties and response to inhibitors or denaturating agents. The purified gamma enzymes are distinct from the chick embryo DNA polymerases alpha and beta and are not inhibited by antibodies prepared against the latter enzymes. The nuclear and mitochondrial gamma-polymerases do not respond to the oncogenic RNA virus DNA polymerase assay with natural mRNAs.     

Purification and characterization of an inducible mitochondrial DNA polymerase from Tetrahymena thermophila

Treatment of the eukaryotic organism Tetrahymena with various types of DNA-damaging agents has been reported to cause a 35-fold induction of a mitochondrial DNA polymerase. We here report that the enzyme can be induced in large-scale cultures by exposure of the cells to thymine starvation and/or intercalating agents. The induced DNA polymerase has been purified to near homogeneity, with a specific activity of approx. 300,000 units/mg protein. The relative molecular mass of the active form of the enzyme is approx. 100,000, as determined by glycerol gradient sedimentation. The subunit structure has been analysed by SDS polyacrylamide gel electrophoresis of the highly purified preparation and by immunoprecipitation with a monoclonal antibody directed to the DNA polymerase. A polypeptide of Mr 47,000 has been observed to be a subunit of the enzyme. This corresponds to the size of the subunits suggested for mitochondrial DNA polymerase from chicken embryos and mouse myeloma cells.     

Inhibitory effects of various 3'-deoxyribonucleotides on DNA polymerase alpha 2-primase from developing cherry salmon (Oncorhynchus masou) testes

DNA polymerase alpha 2-primase has been purified 2750 fold from developing cherry salmon (Oncorhynchus masou) testes by the following purification steps: fractional extraction, phosphocellulose (1st), ammonium sulfate fractionation, DEAE-cellulose, phosphocellulose (2nd), hydroxylapatite and single-stranded DNA-cellulose column chromatographies. Final preparation of this enzyme has a specific activity of 107,000 units/mg protein (activated salmon sperm DNA as template-primer). DNA primase activity (rGTP dependent incorporation of labelled dGMP into poly (dC) or rNTP dependent incorporation of dNMP into M13 single-stranded DNA) was tightly associated with DNA polymerase alpha activity during all stage of this purification process. Inhibition of DNA primase activity by six kinds of 3'-deoxyribonucleotides was studied by using rNTP dependent DNA synthesis on M13 DNA as template. The inhibition constants (Ki) were larger than those of DNA-dependent RNA polymerases I and II. However, Ki/Km values were very close.     

RNA-dependent DNA polymerase of an endogenous type C virus of mice: purification and partial characterization

An RNA-dependent DNA polymerase was isolated from purified virions of endogenous oncornaviruses released by the MOPC-315 murine myeloma cell line. Upon sodium dodecyl sulfate-polyacrylamide gel electrophoresis, the purified enzyme was found to consist of two major polypeptides with molecular weights of about 28,000 and 26,500. The active enzyme had a molecular weight of approximately 56,000, as calculated from its sedimentation on glycerol density gradients, indicating that it is probably a dimer of the two subunit polypeptides. The isolated MOPC-315 virus polymerase exhibited all three activities known to be found in the DNA polymerase from oncornaviruses, namely, an RNA-dependent DNA polymerase, a DNA-dependent DNA polymerase, and an RNase H. The RNA-dependent polymerase activity showed a prounced preference for Mn2+ over Mg2+, whereas the DNA-dependent and RNase H reactions were catalyzed by these two cations to an almost equal extent. The purified polymerase was found to be immunologically related to the polymerase of Rauscher murine leukemia virus.     

Partial purification and characterization of DNA-dependent RNA polymerases I and II from cherry salmon (Oncorhynchus masou)

1. DNA-dependent RNA polymerases I and II were purified approx 3900- and 13,000-fold, respectively, from sonicated nuclear extract of cherry salmon (Oncorhynchus masou) liver by DEAE-Sephadex, heparin-Sepharose and DNA-cellulose column chromatography. 2. The purified RNA polymerases exhibited a requirement for four kinds of ribonucleoside 5'-triphosphates, an exogeneous template and divalent cation. 3. The activities of RNA polymerases I and II were inhibited by Actinomycin D (24 micrograms/ml) but not by Rifampicin (200 micrograms/ml). 4. RNA polymerase I preferred native DNA as template, while polymerase II preferred single-stranded DNA. 5. RNA polymerase II was inhibited by a low concentration of alpha-amanitin (0.02 micrograms/ml). RNA polymerase I was also inhibited by the relatively high concentration of alpha-amanitin (IC50 = 100 micrograms/ml and IC70 = 750 micrograms/ml). 6. RNA polymerases from cherry salmon exhibited a higher activity at low temperature than from rat liver.     

A mitochondrial DNA polymerase from embryos of Drosophila melanogaster. Purification, subunit structure, and partial characterization

The mitochondrial DNA polymerase has been purified to near-homogeneity from early embryos of Drosophila melanogaster. Sodium dodecyl sulfate gel electrophoresis of the highly purified enzyme reveals two polypeptides with molecular masses of 125,000 and 35,000 daltons, in a ratio of 1:1. The enzyme has a sedimentation coefficient of 7.6 S and a Stokes radius of 51 A. Taken together, the data suggest that the D. melanogaster DNA polymerase gamma is a heterodimer. DNA polymerase activity gel analysis has allowed the assignment of the DNA polymerization function to the large subunit. The DNA polymerase exhibits a remarkable ability to utilize efficiently a variety of template-primers including gapped DNA, poly(rA).oligo(dT) and singly primed phi X174 DNA. Both the crude and the highly purified enzymes are stimulated by KCl, and inhibited by dideoxythymidine triphosphate and by N-ethylmaleimide. Thus, the catalytic properties of the near-homogeneous Drosophila enzyme are consistent with those of DNA polymerase gamma as partially purified from several vertebrates.     

Isolation of the DNA polymerase alpha core enzyme from mouse cells

DNA polymerase alpha has been purified from mouse hybridoma cells approximately 30,000-fold using a combination of conventional and high performance liquid chromatography. In contrast to previous characterizations of mammalian DNA polymerase alpha, this enzyme has a single high molecular mass polypeptide (185 kDa) in tight association with a 68-kDa polypeptide and this structure appears to be the core DNA polymerase of the mouse cells. The biochemically purified enzyme, with a specific activity of approximately 200,000 units/mg protein, has an estimated molecular mass by gel filtration chromatography of 240 kDa and sedimentation value of 9 S, consistent with the enzyme being a heterodimer of 185 and 68 kDa. The enzyme is sensitive to both N-ethylmaleimide and aphidicolin and insensitive to ddTTP. Using an activated DNA template, the apparent Km values for the deoxynucleotide triphosphates are approximately 0.5-1 microM. The purified DNA polymerase has neither exonuclease nor primase activities and is the predominant DNA polymerase alpha activity in the mouse cells.     

Human prolyl hydroxylase. Purification, partial characterization and preparation of antiserum to the enzyme.

Prolyl hydroxylase was purified from human foetal skin and from a mixture of human foetal tissues by the affinity chromatography procedure using poly(L-proline). The enzyme from both sources was pure, when examined by polyacrylamide gel electrophoresis, as a native protein or in the presence of sodium dodecylsulphate, and enzyme activity recovery varied from 38% to 70% with seven enzyme preparations. The enzyme synthesized from 61.0 mumol to 82.7 mumol hydroxyproline mg protein-1 h-1 degrees C with a saturating concentration of (Pro-Pro-Gly)5 as substrate. The molecular weight of the enzyme was identical with that of the chick prolyl hydroxylase when studied by gel filtration, and the molecular weights of the subunits of the enzyme were about 61000 and 64000 as determined by sodium dodecylsulphate-polyacrylamide gel electrophoresis. The amino acid composition of the human enzyme was very similar to that of the chick prolyl hydroxylase. Antisera to human and chick prolyl hydroxylases were prepared in rabbits. A single precipitin line was seen between the antiserum to human prolyl hydroxylase and the human enzyme in double immunodiffusion, and no cross-reactivity was detected between the human chick enzymes by this technique. However, a distinct cross-reactivity was observed between the human and chick enzymes in inhibition experiments.     

On the DNA polymerase III of mouse myeloma: partial purification and characterization.

A high molecular weight membrane-bound DNA polymerase from the mouse myeloma, MOPC-104E, has been purified extensively, and characterized with regard to physical and reaction properties. This enzyme, which is readily distinguishable from other myeloma enzymes that are analogous to the recognized forms of cellular DNA polymerase, is ddesignated DNA polymerase III. DNA polymerase III activity in whole homogenates from MOPC-104E was solubilized and then prurifed using a series of ion-exchange chromatographic procedures followed by DNA-cellulose chromatography and glycerol gradient centrifugation; the enzyme activity as measured with poly(rA)-(dT)12-18 as template-primer and Mn2+ as divalent cation, was purified as much as 18,000-fold. In the final stages of the pruification, DNA polymerase III possessed no detectable RNA polymerase activity, nucleoside diphosphokinase activity, or nucease activity toward DNA or single- and double-stranded RNA...     

Purification and subunit structure of deoxyribonucleic acid-dependent ribonucleic acid polymerase II from the mouse plasmacytoma, MOPC 315.

DNA-dependent RNA polymerase II was purified from the mouse plasmacytoma, MOPC 315. Soluble enzyme was obtained from a nucleoplasmic fraction and subjected to chromatography on phosphocellulose, DEAE-cellulose, and DEAE-Sephadex ion exchange resins and was subjected to sedimentation in sucrose density gradients. A chromatographically homogeneous enzyme was obtained which was purified about 25,000-fold relative to whole cell extracts and which had a specific activity (on native DNA) similar to those reported for other purified eukaryotic class II RNA polymerase preparations. Analysis of purified RNA polymerase II by polyacrylamide gel electrophoresis under nondenaturing conditions revealed three protein bands, designated II-O, II-A, and II-B in order of electrophoretic mobility. The subunit compositions of these nondenatured bands were subsequently analyzed by electrophoresis under denaturing conditions. Each enzyme II form contained subunits with molecular weights of 140,000 (II-c), 41,000 (II-d), 30,000 (II-e), 25,000 (II-f), 22,000 (II-g), 20,000 (II-h), and 16,000 (II-i). Molar ratios were unity for all subunits except subunit II-h which had a molar ratio of 2. Each enzyme form was distinguished by its highest molecular weight subunit. II-O contained subunit II-o (molecular weight 240,000), II-A contained subunit II-a (molecular weight 205,000), and II-B contained subunit II-b (molecular weight 170,000). Total molecular weights for II-O, II-A, and II-B were calculated as 554,000, 519,000, and 484,000, respectively. In addition, the number of RNA polymerase II molecules per MOPC 315 tumor cell was calculated to be about 5 times 10-4.     

Purification and properties of nuclear and cytoplasmic DNA polymerases from JLS-V9 cells.

Four DNA polymerases, two enzymes from the nucleus and two from the cytoplasm, were purified 2000- to 7000-fold from continuous mouse cell-line (JLS-V9), by sequential column chromatography. Each of these polymerases require all the deoxynucleoside-5′-triphosphates in order to synthesize DNA, using activated DNA as a primer-template, and can copy the ribonucleotide strand of hybrid templates, but their rate of efficiency varies. The molecular weights of these DNA polymerases range from 35,000 to 160,000, as estimated by Sephadex column chromatography. Three out of the four DNA polymerases are probably a single polypeptide chain, since they have a single major band in polyacrylamide gel electrophoresis as well as one enzymatically active peak in guanidine hydrochloride gel filtration. The highly purified preparation of the high molecular weight cytoplasmic DNA polymerase contains two major bands in sodium dodecyl sulfate polyacrylamide gel electrophoresis and two enzymatically active peaks in guanidine hydrochloride gel filtration.     

Characterization of messenger RNA for chick-embryo DNA polymerase beta and its translation product in vitro

A specific immunoprecipitation method, using rabbit anti-(chick DNA polymerase beta) IgG was applied to detect the polypeptide of DNA polymerase beta among translation products obtained in vitro with mRNA extracted from chick embryos. A polypeptide of Mr = 40 000 was specifically immunoprecipitated from [35S]methionine-labeled translation products and was competitive with the purified DNA polymerase beta for the antibody. Furthermore, the 40 000-Mr translation product obtained in vitro had DNA polymerase activity, which was detected by assay in situ after electrophoresis in a polyacrylamide gel containing DNA. The mRNA for DNA polymerase beta was polyadenylated and its content was estimated as the range of 0.001% of total poly(A)-rich RNA on the basis of [35S]methionine incorporation in the translation in vitro. The size of this mRNA was determined to be about 1800 nucleotides by zone sedimentation and agarose gel electrophoresis under denaturating conditions.     

Coprecipitation of 3'----5' exonuclease and DNA polymerase gamma with anti-DNA polymerase gamma antibody

Highly purified preparations of chick embryo DNA polymerase gamma contained 3'----5' exonuclease activity which might be responsible for the exonucleolytic proofreading during DNA synthesis [Kunkel, T.A. & Soni, A. (1988) J. Biol. Chem. 262, 4450-4459]. A rabbit antibody produced against highly purified chick DNA polymerase gamma precipitated 3'----5' exonuclease activity to the same extent as DNA polymerase gamma activity. Furthermore, the antibody neutralized the two enzyme activities to an equal extent. However, the exonuclease activity was more resistant than DNA polymerase gamma activity to thermal treatment at 50 degrees C, although both activities were partially protected with polynucleotides. The results obtained suggest that these two enzymes are associated as a single enzyme complex or that the two activities reside in a single molecule, and the active site of DNA polymerase gamma and 3'----5' exonuclease are, although not identical, closely correlated.     

DNA polymerases of rat liver. Partial characterization and effect of various inhibitors.

Three distinct DNA-dependent DNA polymerase activities have been partially purified from normal rat liver. Soluble activities are separable into two distinct fractions (P1 and P2) by phosphocellulose chromatography. A low-molecular-weight DNA polymerase was isolated from purified nuclei. The enzymes were characterized according to chromatographic and sedimentation behavior, enzymological properties, and response to various inhibitors. The results indicate that fraction P1 corresponds to the high-molecular-weight enzyme and suggest that polymerase P2 may be derived from partial dissociation of the high-molecular-weight enzyme. The molecular weight of polymerase P1 was estimated to be about 250 000 by Sephadex column chromatography. Both fraction P2 and nuclear DNA polymerase appeared to be low-molecular-weight enzymes. However, the molecular size of these activities was apparently different. The estimated molecular weights of nuclear and P2 enzyme are about 40 000 and 25 000, respectively. As with the nuclear enzyme, polymerase P2 (but not P1) appeared to be free of detectable exonuclease activity. All of these polymerases showed a marked preference for initiated polydeoxyribonucleotide templates. The rat liver polymerases differed in their ability to use poly[d(A-T)-A1 primer-template, as is shown by the ratios of their activity with this synthetic polymer to that with activated DNA: 0.5, 2.75, and 1.34 for P1, P2, and nuclear polymerase, respectively. Denatured DNA was a poor template for both enzymes P1 and P2, but it was inert as template for the nuclear enzyme. Although each of these polymerases required all four deoxynucleoside triphosphates for maximal activity, they catalyzed a high rate of synthesis in the absence of one or more deoxynucleoside triphosphates. Such a 'limited' synthesis was much more extensive for polymerase P2 and nuclear enzyme than for P1 was the most sensitive of the three to sulphydryl reagents, ehtidium bromide, heparin, and single-stranded DNA. The responses of P2 and nuclear enzymes to various inhibitors were very similar. However, these two enzymes respond differently to heat and high ionic strength.     

Two forms of DNA polymerase delta from mouse cells. Purification and properties

A procedure is described for the purification from cultured mouse cells of two DNA polymerase "delta-like" enzymes, as defined by intrinsic 3'-exonuclease activity, inhibition by aphidicolin, and relative insensitivity to N2-(p-n-butylphenyl)-dGTP. One of the two enzymes has been purified to near homogeneity and, similar to the DNA polymerase delta from calf thymus described by Lee et al. (Lee, M. Y. W. T., Tan, C. K., Downey, K. M., and So, A. G. (1984) Biochemistry 23, 1906-1913), it has a total molecular mass of 178 kDa (from sedimentation velocity of 8.0 S and Stokes radius of 54 A) and is composed of one each of 125- and 50-kDa polypeptides. It also resembles the DNA polymerase delta of Lee et al. in being stimulated by proliferating cell nuclear antigen (PCNA). It is the first clear structural and functional counterpart of the calf thymus enzyme. The major difference between the mouse DNA polymerase delta and the calf thymus enzyme of Lee et al. is that, under specific conditions, the mouse enzyme is active with poly(dA).oligo(dT) in the absence of PCNA, whereas the activity of the calf thymus enzyme with this template is reported to be completely dependent on PCNA. The reason for this difference is not known at this time. The second mouse cell enzyme has a molecular mass of 112 kDa (from sedimentation velocity of 6.3 S and Stokes radius of 43.0 A) and consists of a single polypeptide of 123-125 kDa in denaturing gels (p125). On the basis of its apparent formation by dissociation of DNA polymerase delta, and multiple similarities with DNA polymerase delta in enzymatic properties, the p125 is provisionally identified as the 125-kDa polypeptide of DNA polymerase delta. The p125 does not respond to PCNA, suggesting that the 50-kDa polypeptide is required for the stimulation of DNA polymerase delta by PCNA. The presence of the p125 in cell extracts would explain reports that DNA polymerase delta consists of a single polypeptide of approximately 125 kDa and/or thast it has a smaller molecular mass than DNA polymerase delta of Lee et al. and is not affected by PCNA (this does not apply to PCNA-independent DNA polymerase delta-like enzymes with higher molecular mass than the polymerase delta of Lee et al., which have recently been named DNA polymerases epsilon).     

Changes in the acid-soluble nucleotide composition of red cells of cattle at various ages.

DNA polymerase was extracted from HeLa cell mitochondria with high salt concentrations (1M) and Nonidet-P 40 (0.2%). Subsequently the enzyme was purified stepwise by DEAE-cellulose-, phosphocellulose-, hydroxyapatite-Ultrogel-, DNA-cellulose chromatography and preparative polyacrylamide gel electrophoresis. The purified enzyme exhibited a molecular weight between 100 000 – 110 000 and was devoid of endonuclease activity. Sodium dodecyl sulfate polyacrylamide gel electrophoresis of this enzyme preparation revealed two protein bands suggesting that the mitochondrial DNA polymerase might consist of two subunits with the molecular weights of 45 000 and 60 000.