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Enzyme
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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)
Intracellular DNA-protein complexes ('virosomes') of vaccinia virus have been isolated. The solubilization of the 'virosome'-bound
DNA polymerase
activity was attempted by a variety of high-salt extraction procedures. The most efficient of these used 0.3 M-
ammonium
sulphate followed by brief sonication. The solubilized
DNA polymerase
activity from the 'virosomes', together with the DNA polymerases from 100000 g supernatant fluids from the cytoplasm of infected and uninfected cells were chromatographed on DEAE-cellulose and their properties compared. The 'virosome'
DNA polymerase
activity differed from the soluble vaccinia virus-induced
DNA polymerase
activity in its requirements for divalent cations and in respect of pH optimum, Km for the deoxyribonucleoside triphosphates and the effect of N-ethylmaleimide.
...
PMID:The DNA polymerase activity of vaccinia virus 'virosomes': solubilization and properties. 670 15
An enzymatic activity that synthesizes oligoribonucleotides in lengths of 9-10 nucleotides and multiples thereof has been purified over 10,000-fold from mouse hybridoma cells. The oligoribonucleotides serve as primers to initiate DNA synthesis, and the activity has properties expected of mammalian DNA primase. The most highly purified fraction has two major protein components, as determined by polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate, of 56,000 and 46,000 Da. These proteins co-purify in a 1:1 stoichiometry along with oligoribonucleotide synthesis activity and with an activity that initiates the synthesis of DNA by
DNA polymerase alpha
. The sedimentation coefficient on glycerol gradients is 5.5 S, and this is consistent with one 56,000- and one 46,000-Da subunit/native enzyme. No
DNA polymerase
activity was detected in the most highly purified fraction. Poly(dIT) is the most active template, whereas a variety of single-stranded DNA templates are 10-15% as active and double-stranded DNA templates are 10-15% as active and double-stranded DNA is less than 1%. rATP is an absolute requirement as is Mg2+. No ATPase activity was detected with or without addition of DNA, single- or double-stranded. (
NH4
)2SO4 and NaPO4 buffer, pH 7.6, are inhibitory above 20 mM, whereas KCl is inhibitory above 80 mM. beta-D-arabinose-CTP is a strong inhibitor of primase; approximately 50% inhibition is observed when present at one-fifth the concentration of rCTP.
...
PMID:A DNA primase from mouse cells. Purification and partial characterization. 688 74
DNA polymerase alpha
was purified from a chick embryo extract by
ammonium
sulfate fractionation and successive column chromatographies. The final preparation had a specific enzyme activity of 39,000 units/mg of protein with activated calf thymus DNA as a template.primer. Electrophoresis in nondenaturing polyacrylamide gel showed that the preparation contained two proteins, one of which was associated with
DNA polymerase
activity. On sodium dodecyl sulfate-polyacrylamide gel electrophoresis, the electrophoretically pure enzyme gave two clusters of polypeptide bands. One was composed of 3-4 polypeptides with similar electrophoretic mobilities corresponding to Mr = 130,000-155,000, and the other consisted of four distinct polypeptide bands corresponding to Mr = 59,000, 56,000, 54,000, and 51,000. Two-dimensional tryptic peptide mapping analysis of these polypeptides after 125I-iodination indicated that the structures of all four Mr = 51,000-59,000 polypeptides were very similar. In addition, polypeptides in the Mr = 145,000-155,000 region had almost identical structure with those in the Mr = 130,000-140,000 region. No significant structural homology was observed between the high molecular weight polypeptides and low molecular weight polypeptides. These findings indicate that the four polypeptides of Mr = 51,000-59,000 are generated by minor modification(s) of a single polypeptide. Similarly, the heterogeneity of the high molecular weight polypeptides is brought about by minor modification(s). Thus, chick embryo
DNA polymerase alpha
is basically composed of two kinds of subunit polypeptides.
...
PMID:Chick embryo DNA polymerase alpha. Polypeptide components and their microheterogeneity. 706 47
Oltipraz (5-pyrazinyl-4-methyl-1,2-dithiole-3-thione), which is undergoing clinical evaluation as an anticarcinogen, also inhibits HIV-1 replication (IC50 approximately equal to 10 microM). The inactivation of RT appears to be a relevant antiviral mechanism since oltipraz blocks viral replication in acutely infected T-cell lines, but is ineffective in chronically infected ACH-2 cells (H. J. Prochaska, W. G. Bornmann, P. Baron, and B. Polsky (1995) Mol. Pharmacol. 48, 15-20). Since a nucleophilic amino acid is a likely target for oltipraz, we assessed whether the conserved cysteine residues of HIV-1 RT (38Cys or 280Cys) were the target(s) for oltipraz, and we synthesized [Me 14C]oltipraz to determine if oltipraz forms a stable adduct with RT. Thus, HIV-2 RT as well as wild-type, 38Cys-->Ser, 280Cys-->Ser, and the Cys-->Ser double mutant of HIV-1 RT were purified from the lysates of transformed Escherichia coli strain DH5 alpha (A. Hizi, M. Shaharabany, R. Tal, and S. H. Hughes (1992) J. Biol. Chem. 267, 1293-1297) via a purification procedure that included (
NH4
)2SO4 fractionation followed by gel filtration, dye-ligand, and ion-exchange chromatographies. Procion yellow H4R was chosen as the dye-ligand chromatography since it was the most potent and selective inhibitor of RT among seventy reactive dyes that were screened. Mono Q anion-exchange chromatography with diethanolamine (pH 9) resulted in the generation of heterodimeric RT from a predominantly homodimeric enzyme preparation. Because the instability of dilute RT preparations at room temperature rendered the kinetic evaluation of inactivation difficult, we sought to identify conditions that prevent denaturation of these enzymes. High concentrations (25 mM) of MgCl2 had a stabilizing effect. Oltipraz behaved kinetically as an irreversible inhibitor of all RTs purified, and the kinetic constants for the inactivation of these enzymes were not significantly different from wild-type HIV-1 RT (Ki = 17.0 +/- 4.1 microM; k3 = 0.214 +/- 0.051 h-1). In stark contrast, oltipraz neither inhibited nor inactivated the
Klenow fragment
of
DNA polymerase I
, whose subdomain structure is similar to the p66 subunit of RT. Wild-type RT was incubated with 60 microM [Me 14C]oltipraz for 4 h and was then subjected to gel filtration chromatography. The [14C] label comigrated with RT with a stoichiometry of binding of 0.88 +/- 0.05 oltipraz per inactivated RT subunit (N = 3 experiments), and the [14C] label remained bound after treatment with 4 M urea.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Inactivation of human immunodeficiency virus type 1 reverse transcriptase by oltipraz: evidence for the formation of a stable adduct. 750 49
The Epstein-Barr virus (EBV) BMRF1 gene product is necessary for
DNA polymerase
catalytic subunit (BALF5) activity in 100 mM
ammonium
sulfate. To map regions of BMRF1 necessary for polymerase accessory function, linker insertion and deletion mutant BMRF1 polypeptides were expressed by in vitro transcription-translation and assayed for
DNA polymerase
elongation activity and binding to double-stranded DNA (dsDNA)-cellulose. Amino-terminal deletions up to residue 303 were defective for stimulation of elongation. Deletions between residues 44 and 194 and residues 238 and 303 abolished binding to dsDNA-cellulose. The region from residues 194 to 238, therefore, is necessary for stimulation of BALF5 elongation but dispensable for dsDNA-cellulose binding. Deletion analysis also localized reactive epitopes of two neutralizing monoclonal antibodies to BMRF1 to a carboxy-terminal region which is dispensable for activity. These data suggest that a bipartite DNA-binding region is an essential component of the
DNA polymerase
accessory function and that the two noncontiguous regions are separated by a region (residues 194 to 217) which is essential for stimulation; therefore, it may interact with the BALF5 catalytic subunit of EBV
DNA polymerase
. Both EBV BMRF1 and herpes simplex virus UL42 gene products are
DNA polymerase
accessory proteins which bind dsDNA and increase the processivity of their corresponding catalytic components. Outstanding similarities between their primary amino acid sequences are not evident. However, it appears that their structural organizations are similar.
...
PMID:Bipartite DNA-binding region of the Epstein-Barr virus BMRF1 product essential for DNA polymerase accessory function. 785 3
We have investigated whether or not ATP or other nucleoside di- and trisphosphates (including some nonhydrolysable ATP analogues) can stimulate the activity and/or the processivity of
DNA polymerase alpha
associated with the nuclear matrix obtained from HeLa S3 cell nuclei that had been stabilized at 37 degrees C prior to subfractionation, as has been reported previously for
DNA polymerase alpha
bound to the nuclear matrix prepared from 22-h regenerating rat liver. We have found that HeLa cell matrix-associated
DNA polymerase alpha
activity could not be stimulated at all by ATP or other nucleotides, a behaviour which was shared also by
DNA polymerase alpha
activity that solubilizes from cells during the isolation of nuclei and that is thought to be a form of the enzyme not actively engaged in DNA replication. Moreover, the processivity of matrix-bound
DNA polymerase alpha
activity was low (< 10 nucleotides). These results were obtained with the matrix prepared with either 2 M NaCl or 0.25 M (
NH4
)2SO4 and led us to consider that a 37 degree incubation of isolated nuclei renders resistant to high-salt extraction a form of
DNA polymerase alpha
which is unlikely to be involved in DNA replication in vivo.
...
PMID:Catalytic properties of DNA polymerase alpha activity associated with the heart-stabilized nuclear matrix prepared from HeLa S3 cells. 804 89
The Epstein-Barr virus (EBV)
DNA polymerase
catalytic subunit, BALF5 gene product, possesses an intrinsic 3'-to 5' proofreading exonuclease activity in addition to 5'-to-3'
DNA polymerase
activity (T. Tsurumi, A. Kobayashi, K. Tamai, T. Daikoku, R. Kurachi, and Y. Nishiyama, J. Virol. 67:4651-4658, 1993). The exonuclease hydrolyzed both double-and single-stranded DNA substrates with 3'-to-5' directionality, releasing deoxyribonucleoside 5'-monophosphates. The double-strand exonucleolytic activity catalyzed by the BALF5 polymerase catalytic subunit was very sensitive to high ionic strength, whereas the single-strand exonucleolytic activity was moderately resistant. The addition of the BMRF1 polymerase accessory subunit to the reaction enhanced the double-strand exonucleolytic activity in the presence of high concentrations of
ammonium
sulfate (fourfold stimulation at 75 mM
ammonium
sulfate). Optimal stimulation was obtained when the molar ratio of BMRF1 protein to BALF5 protein was 2 and higher, identical to the values required for reconstituting the optimum DNA polymerizing activity (T. Tsurumi, T. Daikoku, R. Kurachi, and Y. Nishiyama, J. Virol. 67:7648-7653, 1993). Furthermore, product size analyses revealed that the polymerase catalytic subunit alone excised a few nucleotides from the 3' termini of the primer hybridized to template DNA and that the addition of the BMFR1 polymerase accessory subunit stimulated the nucleotide excision several times. In contrast, the hydrolysis of single-stranded DNA by the BALF5 protein was not affected by the addition of the BMRF1 polymerase accessory subunit at all. These observations suggest that the BMRF1 polymerase accessory subunit forms a complex with the BALF5 polymerase catalytic subunit to stabilize the interaction of the holoenzyme complex with the 3'-OH end of the primer on the template DNA during exonucleolysis. On the other hand, challenger DNA experiments revealed that the BALF5 polymerase catalytic subunit alone stably binds to the primer terminus in a stationary state, whereas the reconstituted polymerase holoenzyme is unstable. The instability of the initiation complex of the EBV
DNA polymerase
would allow the rapid removal of the EBV
DNA polymerase
holoenzyme from the lagging strand after it has replicated up to the previous Okazaki fragment. This feature of the EBV
DNA polymerase
holoenzyme in a stationary state is in marked contrast to the moving holoenzyme complex tightly bound to the primer end during polymerization and exonucleolysis.
...
PMID:Further characterization of the interaction between the Epstein-Barr virus DNA polymerase catalytic subunit and its accessory subunit with regard to the 3'-to-5' exonucleolytic activity and stability of initiation complex at primer terminus. 815 94
The Epstein-Barr virus (EBV)
DNA polymerase
catalytic subunit (BALF5 protein) and its accessory subunit (BMRF1 protein) have been independently overexpressed and purified (T. Tsurumi, A. Kobayashi, K. Tamai, T. Daikoku, R. Kurachi, and Y. Nishiyama, J. Virol. 67:4651-4658, 1993; T. Tsurumi, J. Virol. 67:1681-1687, 1993). In an investigation of the molecular basis of protein-protein interactions between the subunits of the EBV
DNA polymerase
holoenzyme, we compared the
DNA polymerase
activity catalyzed by the BALF5 protein in the presence or absence of the BMRF1 polymerase accessory subunit in vitro. The
DNA polymerase
activity of the BALF5 polymerase catalytic subunit alone was sensitive to high ionic strength on an activated DNA template (80% inhibition at 100 mM
ammonium
sulfate). Addition of the polymerase accessory subunit to the reaction greatly enhanced
DNA polymerase
activity in the presence of high concentrations of
ammonium
sulfate (10-fold stimulation at 100 mM
ammonium
sulfate). Optimal stimulation was obtained when the molar ratio of BMRF1 protein to BALF5 protein was 2 or more. The
DNA polymerase
activity of the BALF5 protein along with the BMRF1 protein was neutralized by a monoclonal antibody to the BMRF1 protein, whereas that of the BALF5 protein alone was not, suggesting a specific interaction between the BALF5 protein and the BMRF1 protein in the reaction. The processivity of nucleotide polymerization of the BALF5 polymerase catalytic subunit on singly primed M13 single-stranded DNA circles was low (approximately 50 nucleotides). Addition of the BMRF1 polymerase accessory subunit resulted in a strikingly high processive mode of deoxynucleotide polymerization (> 7,200 nucleotides). These findings strongly suggest that the BMRF1 polymerase accessory subunit stabilizes interaction between the EBV
DNA polymerase
and primer template and functions as a sliding clamp at the growing 3'-OH end of the primer terminus to increase the processivity of polymerization.
...
PMID:Functional interaction between Epstein-Barr virus DNA polymerase catalytic subunit and its accessory subunit in vitro. 823 Apr 84
We have examined the association of
DNA polymerase alpha
activity with the nuclear matrix prepared by different techniques from mouse erythroleukemia cells. At variance with the data obtained using other cell types we have found that only a small amount (less than 2%) of nuclear
DNA polymerase alpha
activity resisted extraction with high-ionic strength buffers, even if nuclei were heat-stabilized by incubation at 37 degrees C for 45 min prior to subfractionation. The recovery of
DNA polymerase alpha
activity bound to the matrix was unaffected by the type of extracting agent used (NaCl or (
NH4
)2 SO4), by the extraction sequence or by the method employed for obtaining nuclei. These results could indicate that in some types of cells the nuclear matrix is not involved in DNA replication.
...
PMID:Absence of high levels of DNA polymerase alpha activity in the nuclear matrix prepared from mouse erythroleukemia cells. 837 95
A recombinant baculovirus containing the complete sequence for the Epstein-Barr virus (EBV)
DNA polymerase
catalytic subunit, BALF5 gene product, under the control of the baculovirus polyhedrin promoter was constructed. Insect cells infected with the recombinant virus produced a protein of 110 kDa, recognized by anti-BALF5 protein-specific polyclonal antibody. The expressed EBV
DNA polymerase
catalytic polypeptide was purified from the cytosolic fraction of the recombinant virus-infected insect cells. The purified protein exhibited both
DNA polymerase
and 3'-to-5' exonuclease activities, which were neutralized by the anti-BALF5 protein-specific antibody. These results indicate that the 3'-to-5' exonuclease activity associated with the EBV
DNA polymerase
(T. Tsurumi, Virology 182:376-381, 1991) is an inherent feature of the polymerase catalytic polypeptide. The
DNA polymerase
and the exonuclease activities of the EBV
DNA polymerase
catalytic subunit were sensitive to
ammonium
sulfate in contrast to those of the polymerase complex purified from EBV-producing lymphoblastoid cells, which were stimulated by salt. Furthermore, the template-primer preference for the polymerase catalytic subunit was different from that for the polymerase complex. These observations strongly suggest that the presence of EBV
DNA polymerase
accessory protein, BMRF1 gene product, does influence the enzymatic properties of EBV
DNA polymerase
catalytic subunit.
...
PMID:Functional expression and characterization of the Epstein-Barr virus DNA polymerase catalytic subunit. 839 5
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