Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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)

DNA polymerase alpha/primase (Pol alpha) is the key replication enzyme in eukaryotic cells. This enzyme synthesizes and elongates short RNA primers at an unwound origin of replication. Pol alpha was used as an affinity ligand to identify cellular replication factors interacting with it. Protein complexes between Pol alpha and cellular factors were analyzed by co-immunoprecipitations with monoclonal antibodies directed against Pol alpha and by protein affinity chromatography of cell extracts derived from pure G1- and S-phase cell populations on Pol alpha affinity columns. Co-immunoprecipitations resulted in the identification of a polypeptide with a molecular weight of 46 kDa. For Pol alpha affinity chromatography, the ligand was purified from insect cells infected with a recombinant baculovirus encoding the catalytic subunit (p180) of Pol alpha (Copeland and Wang, 1991). With 5 x 10(8) infected Sf9 cells, a rapid one step purification protocol was used which yielded in five hours 0.6 mg pure enzyme with a specific activity of 140,000 units/mg. The G1- and S-phase cell populations were generated by block, release and counterflow centrifugal elutriation of exponentially growing human MANCA cells. Starting with 2 x 10(9) non synchronous cells, 5 x 10(8) G1-phase cells were isolated. Chromatography of cell extracts derived from G1- or S-phase cells on Pol alpha affinity columns resulted in identifying several polypeptides in the range of 40-70 kDa. Some of these polypeptides are more abundant in eluates derived from S-phase extracts than from G1-phase extracts.
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PMID:Protein affinity chromatography reveals cell cycle dependent association of cellular factors with human DNA polymerase alpha. 129 Dec 32

The expression of DNA polymerase alpha, a principal chromosome replication enzyme, is constitutive during the cell cycle. We show in this report that DNA polymerase alpha catalytic polypeptide p180 is phosphorylated throughout the cell cycle and is hyperphosphorylated in G2/M phase. The p70 subunit is phosphorylated only in G2/M phase. This cell cycle-dependent phosphorylation is due to cell cycle-dependent kinase(s) and not to phosphatase(s). In vitro evidence indicates the involvement of p34cdc2 kinase in the mitotic phosphorylation of DNA polymerase alpha. Tryptic phosphopeptide maps demonstrate that peptides phosphorylated in vitro are identical to those phosphorylated in vivo. DNA polymerase alpha from mitotic cells is found to have lower affinity for single-stranded DNA than does polymerase alpha from G1/S phase cells. These results imply that the mitotic phosphorylation of polymerase alpha may affect its physical interaction with other replicative proteins and/or with DNA at the replication fork.
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PMID:Cell cycle-dependent phosphorylation of human DNA polymerase alpha. 190 30

The fidelity of DNA synthesis catalyzed by the 180-kDa catalytic subunit (p180) of DNA polymerase alpha from Saccharomyces cerevisiae has been determined. Despite the presence of a 3'----5' exonuclease activity (Brooke et al., 1991, J. Biol. Chem., 266, 3005-3015), its accuracy is similar to several exonuclease-deficient DNA polymerases and much lower than other DNA polymerases that have associated exonucleolytic proofreading activity. Average error rates are 1/9900 and 1/12,000, respectively, for single base-substitution and minus-one nucleotide frameshift errors; the polymerase generates deletions as well. Similar error rates are observed with reactions containing the 180-kDa subunit plus an 86-kDa subunit (p86), or with these two polypeptides plus two additional subunits (p58 and p49) comprising the DNA primase activity required for DNA replication. Finally, addition of yeast replication factor-A (RF-A), a protein preparation that stimulates DNA synthesis and has single-stranded DNA-binding activity, yields a polymerization reaction with 7 polypeptides required for replication, yet fidelity remains low relative to error rates for semiconservative replication. The data suggest that neither exonucleolytic proofreading activity, the beta subunit, the DNA primase subunits nor RF-A contributes substantially to base substitution or frameshift error discrimination by the DNA polymerase alpha catalytic subunit.
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PMID:The fidelity of DNA synthesis by the catalytic subunit of yeast DNA polymerase alpha alone and with accessory proteins. 194 34

The immunoaffinity-purified subunits of the yeast DNA primase-DNA polymerase protein complex and subunit-specific monoclonal antibodies were used to explore the structural relationships of the subunits in the complex. The reconstituted four-subunit complex (180-, 86-, 58-, and 49-kDa polypeptides) behaved as a single species, exhibiting a Stokes radius of 80 A and a sedimentation coefficient of 8.9 S. The calculated molecular weight of the reconstituted complex is 312,000. We infer that the stoichiometry of the complex is one of each subunit per complex. The complex has a prolate ellipsoid shape with an axial ratio of approximately 16. When the 180-kDa and DNA primase subunits were recombined in the absence of the 86-kDa subunit, a physical complex formed, as judged by immunoprecipitation of DNA primase activity and polypeptides with an anti-180-kDa monoclonal antibody. While the 86-kDa subunit readily forms a physical complex with the 180-kDa DNA polymerase catalytic subunit, we have not detected a complex containing 86-kDa and the DNA primase subcomplex (49- and 58-kDa subunits). The 86-kDa subunit was not required for DNA primase-DNA polymerase complex formation; the 180-kDa subunit and DNA primase heterodimer directly interact. However, the presence of the 86-kDa subunit increased the rate at which the DNA primase and 180-kDa polypeptides formed a complex and increased the total fraction of DNA primase activity that was associated with DNA polymerase activity. The observations demonstrate that the DNA primase p49.p58 heterodimer and the DNA polymerase p86.p180 heterodimer interact via the 180-kDa subunit. The four-subunit reconstituted complex was sufficient to catalyze the DNA chain extension coupled to RNA primer synthesis on a single-stranded DNA template, as previously observed in the conventionally purified complex isolated from wild type cells.
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PMID:Reconstitution of the Saccharomyces cerevisiae DNA primase-DNA polymerase protein complex in vitro. The 86-kDa subunit facilitates but is not required for complex formation. 203 67

We describe the polypeptide structure and some of the catalytic properties of a DNA polymerase alpha.DNA primase complex that can be prepared from KB cells by immunoaffinity purification. The procedure is based on monoclonal antibodies that were raised against a biochemically purified, catalytically active core protomer of the polymerase. In all respects tested, the basic mechanism of substrate recognition and binding by the immunoaffinity-purified polymerase is qualitatively identical to that of the core protomer. The immunoaffinity-purified KB cell polymerase alpha X DNA primase is structurally complex. On the basis of extensive immunochemical analyses with five independent monoclonal antibodies, three of which are potent neutralizers of polymerase alpha activity, peptide mapping studies, and the application of a sensitive immunoassay that permits detection of polymerase alpha antigens in crude cell lysates, we have established that the principal form of catalytically active DNA polymerase alpha in KB cells is a phosphoprotein with a molecular mass of 180 kilodaltons. This protein is stable in vivo, with an estimated half-life of greater than or equal to 15 h. In contrast, the polypeptide is extremely fragile in vitro and generates partial degradation products of p165, p140, and p125 that explain the "microheterogeneity" typically exhibited by polymerase alpha peptides in denaturing polyacrylamide gels. In addition to the catalytically active polymerase alpha polypeptide(s), the immunopurified enzyme fraction typically contains three other proteins, p77, p55, and p49, the functions of which have not yet been established. These proteins do not display polymerase alpha epitopes and have been shown by peptide mapping to be independent species that are unrelated either to the large polymerase peptides or to one another. The polypeptide p77 is also a phosphoprotein, and in both p180 and p77 the phosphorylated amino acids are exclusively serine and threonine.
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PMID:Structural and enzymological characterization of immunoaffinity-purified DNA polymerase alpha.DNA primase complex from KB cells. 242 27

The yeast DNA polymerase-primase complex is composed of four polypeptides designated p180, p74, p58 and p48. All the genes coding for these polypeptides have now been cloned. By protein sequence comparison we found that yeast DNA polymerase I (alpha) shares three major regions of homology with several DNA polymerases. A fourth region, called region P, is conserved in yeast and human DNA polymerase alpha. The site of a temperature-sensitive mutation in the POL1 gene which causes decreased stability of the polymerase-primase complex has been sequenced and falls in this region. We hypothesize that region P is important for protein-protein interactions. Highly selective biochemical methods might be similarly important to distinguish functional domains in the polymerase-primase complex. An autocatalytic affinity labeling procedure has been applied to map the active center of yeast DNA primase. From this approach we conclude that both primase subunits (p48 and p58) participate in the formation of the catalytic site of the enzyme.
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PMID:The yeast DNA polymerase-primase complex: genes and proteins. 306 69

An immunoaffinity chromatographic procedure was developed to purify DNA polymerase-DNA primase complex from crude soluble extracts of yeast cells. The immunoabsorbent column is made of mouse monoclonal antibody to yeast DNA polymerase I covalently linked to Protein A-Sepharose. Purification of the complex involves binding of the complex to the immunoabsorbent column and elution with concentrated MgCl2 solutions. After rebinding to the monoclonal antibody column free primase activity is selectively eluted with a lower concentration of MgCl2. Polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate showed the presence of five major peptides, p180, p140, p74, p58, and p48 in the immunoaffinity-purified DNA polymerase-DNA primase complex. Free primase and free polymerase fractions obtained by fractionation on the immunoabsorbent column were analyzed on activity gels and immunoblots. These analyses showed that p180 and p140 are DNA polymerase peptides. Two polypeptides of 58 and 48 kDa co-fractionated with the free yeast DNA primase. From sucrose gradient analysis we estimate a molecular weight of 110 kDa for the native DNA primase.
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PMID:Polypeptide structure of DNA primase from a yeast DNA polymerase-primase complex. 388 95

Mouse cell extracts support vigorous replication of polyomavirus (Py) DNA in vitro, while human cell extracts do not. However, the addition of purified mouse DNA polymerase alpha-primase to human cell extracts renders them permissive for Py DNA replication, suggesting that mouse polymerase alpha-primase determines the species specificity of Py DNA replication. We set out to identify the subunit of mouse polymerase alpha-primase that mediates this species specificity. To this end, we cloned and expressed cDNAs encoding all four subunits of mouse and human polymerase alpha-primase. Purified recombinant mouse polymerase alpha-primase and a hybrid DNA polymerase alpha-primase complex composed of human subunits p180 and p68 and mouse subunits p58 and p48 supported Py DNA replication in human cell extracts depleted of polymerase alpha-primase, suggesting that the primase heterodimer or one of its subunits controls host specificity. To determine whether both mouse primase subunits were required, recombinant hybrid polymerase alpha-primases containing only one mouse primase subunit, p48 or p58, together with three human subunits, were assayed for Py replication activity. Only the hybrid containing mouse p48 efficiently replicated Py DNA in depleted human cell extracts. Moreover, in a purified initiation assay containing Py T antigen, replication protein A (RP-A) and topoisomerase I, only the hybrid polymerase alpha-primase containing the mouse p48 subunit initiated primer synthesis on Py origin DNA. Together, these results indicate that the p48 subunit is primarily responsible for the species specificity of Py DNA replication in vitro. Specific physical association of Py T antigen with purified recombinant DNA polymerase alpha-primase, mouse DNA primase heterodimer, and mouse p48 suggested that direct interactions between Py T antigen and primase could play a role in species-specific initiation of Py replication.
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PMID:The mouse DNA polymerase alpha-primase subunit p48 mediates species-specific replication of polyomavirus DNA in vitro. 786 63

DNA-polymerase-alpha--primase complex contains four subunits, p180, p68, p58, and p48, and comprises a minimum of two enzymic functions. We have cloned cDNAs encoding subunits of DNA-polymerase-alpha--primase from human and mouse. Sequence comparisons showed high amino acid conservation among the mammalian proteins. We have over-expressed the single polypeptides and co-expressed various subunit complexes using baculovirus vectors, purified the proteins and investigated their biochemical properties. The purified mouse p48 subunit (Mp48) alone had primase activity. Purification of co-expressed Mp48 and Mp58 subunits yielded stable DNA primase of high specific activity. Co-expression of all four subunits yielded large quantities of tetrameric DNA-polymerase-alpha--primase. The p180, p58 and p48 polypeptides were also co-expressed and immunoaffinity purified as a trimeric enzyme complex. The tetrameric and trimeric DNA-polymerase-alpha--primase complexes showed both DNA primase and DNA polymerase activities. The tetrameric recombinant DNA-polymerase-alpha--primase synthesized double-stranded M13 DNA and replicated polyoma viral DNA in vitro efficiently.
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PMID:DNA replication in vitro by recombinant DNA-polymerase-alpha-primase. 802 92

Persistent infection by papillomaviruses involves the maintenance of viral DNA as a nuclear plasmid, the replication of which requires host DNA polymerases. The role of the cellular DNA polymerase alpha-primase holoenzyme was probed by using soluble extracts from rodent cells that replicate bovine papilloma virus 1 and human papilloma virus 6b DNA in the presence of the viral E1 helicase and the E2 transcription factor. Monoclonal antibodies directed against the catalytic 180-kDa subunit of polymerase alpha inhibit DNA synthesis in this system. Addition of purified human polymerase alpha-primase holoenzyme to neutralized extracts restores their DNA synthetic activity. The amino-terminal 424 amino acids of E1 forms a specific protein complex with the p180 polymerase subunit. Immune complexes can be isolated with antibodies directed against E1 that contain a DNA polymerase activity. Moreover, this polymerase activity can be neutralized by anti-polymerase alpha antibodies. Permissivity barriers were not encountered in this in vitro system, as bovine E1 can interface with the murine and human replication apparatus. Although the large tumor antigens encoded by simian virus 40 and polyoma share limited primary sequence homology with the papillomavirus E1 proteins, the organization of functional motifs at the level of primary protein structure is remarkably similar. In addition to their origin-specific DNA-binding activity, each of these helicases may function to help recruit the cellular polymerase alpha-primase complex to the viral replication origin.
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PMID:The cellular DNA polymerase alpha-primase is required for papillomavirus DNA replication and associates with the viral E1 helicase. 807 45


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