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)

A 32,000-dalton protein (p32) located in avian retrovirus cores was immunoprecipitated from [35S]methionine-labeled avian myeloblastosis virus (AMV) propagated in cultured chicken embryo fibroblast cells by an antiserum preparation (sarc III) derived from tumor-bearing hamsters injected with cloned and passaged cells from an avian sarcoma virus-induced primary hamster tumor. Since sarc III serum apparently contained antibodies only to virus-coded proteins and not to chicken cellular proteins, the immunoprecipitation of p32 from AMV by sarc III serum strongly suggested that p32 is virus coded. The origin of p32 was more definitively established by demonstrating the existence of a structural relationship between p32 and the AMV DNA polymerase. AMV p32 cross-reacted with the beta polypeptide of AMV alphabeta DNA polymerase in radioimmunoprecipitation and radioimmunoprecipitation inhibition assays, indicating that p32 and beta share common antigenic determinants. This relationship was clarified by sodium do-decyl sulfate-polyacrylamide gel electrophoretic analysis of the peptides generated by limited proteolysis of 125I-labeled AMV DNA polymerase polypeptides and of 125I-labeled AMV p32 by chymotrypsin or Staphylococcus aureus V-8 protease. The peptides which appeared during proteolytic digestion of p32 were a subset of those produced by digestion of the beta polypeptide; however, p32 had no discernible peptides in common with the alpha polypeptide. Further, all of the peptides produced by limited proteolysis of beta were present in the digests of either p32 or alpha. Our findings suggest that p32 is apparently derived by cleavage of the beta polypeptide of AMV DNA polymerase, presumably at a site near or identical to that at which alpha is generated from beta by proteolytic cleavage.
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PMID:Virus-coded origin of a 32,000-dalton protein from avian retrovirus cores: structural relatedness of p32 and the beta polypeptide of the avian retrovirus DNA polymerase. 8 16

The single-stranded DNA binding protein RP-A is required in SV40 DNA in vitro replication. The RP-A purified from calf thymus contains 4 polypeptides with molecular weights 70kDa, 53kDa, 32kDa, and 14kDa. The p70 subunit and its proteolysed form p53 are recognized by the monoclonal antibody 70C (Kenny et al. (1990)) and bind to ssDNA. The p70 and p32 subunits of bovine RP-A are phosphorylated by CDC2-cyclin B kinase. Bovine RP-A supports the origin dependent unwinding of SV40 DNA by T antigen. Furthermore, bovine RP-A can efficiently substitute for human RP-A in SV40 DNA replication in vitro. A modified blotting technique revealed that RP-A interacts specifically and directly with the p48 subunit of DNA polymerase alpha-primase complex.
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PMID:Purification and functional characterization of bovine RP-A in an in vitro SV40 DNA replication system. 133 80

Depending on the ionic environment the replicative complex of silkworm Bombyx mori, containing DNA polymerase alpha and primase, catalyzes on single-stranded DNA of phage M13 a NTP-dependent synthesis or elongation of preformed primers. In the presence of NTPs and dNTPs at conditions optimal for the NTP-dependent synthesis the replicative complex synthesizes on M13 DNA oligoribonucleotides of 9-11 residues, which serve as primers for polymerization of DNA. The length of RNA-primers synthesized by primase of the complex depends on concentration of dNTP but does not depend on activity of DNA polymerase alpha. During elongation of exogenic primers annealed to M13 DNA the complex is processive synthesizing DNA fragments of dozens residues without dissociation from the template. Double-stranded structures in DNA such as "hairpins" appear to be barriers for driving of the complex along the template and cause pauses in elongation. DNA-binding proteins the SSB of Escherichia coli or the p32 of phage T4 destabilize double-stranded regions in DNA and eliminate elongation pauses corresponding to these regions. The replicative complex is able to fill in single-stranded gaps in DNA completely and to perform slowly the synthesis with displacement of one of parent strands in duplexes via repeated cycles of binding to the primer-template, limited elongation and dissociation.
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PMID:[RNA and DNA synthesis catalyzed by a DNA-polymerase alpha complex with primase from silkworm cells on single-stranded DNA]. 171 36

A native ribonucleoprotein (RNP) complex of avian myeloblastosis virus was prepared under conditions that gave optimal cDNA synthesis. The complex was an autonomous transcriptional unit capable of synthesizing DNA complementary to the RNA virus genome in the absence of exogenous reverse transcriptase (RNA-dependent DNA nucleotidyltransferase), genomic RNA, and primer. The RNA of the RNP complex cannot be translated in an in vitro cell-free translational system. The RNP contains intact viral RNA, the two subunits of the reverse transcriptase (beta and alpha), the p32 polypeptide resulting from the cleavage of the beta subunit into the alpha subunit, and p12. The principal polypeptide constituent of the RNP complex is the highly basic protein p12, which occurs at a molar ratio of 40:1 in relation to the beta subunit of the polymerase. When examined by the electron microscope, the RNP complex appears similar to the beaded structure of chromatin fiber. A significant portion of these molecules are circular, with headlike structures attached. The circular nature of the proviral DNA and the ability of the RNP complex to generate large intact cDNA copies from the natural primer end suggest that the 5' and 3' ends of the viral RNA are in proximity when in the RNP complex.
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PMID:Native ribonucleoprotein is an efficient transcriptional complex of avian myeloblastosis virus. 615 28

The NH(2)-terminal amino acid sequences of the alpha and beta chains of avian myeloblastosis alphabeta DNA polymerase were determined by using microsequence analysis in the subnanomole range and were found to be identical up to 17 residues. The common sequence was as follows: Thr-Val-Ala-Leu-His-Leu-Ala-Ile-Pro-Leu-Lys-Trp-Lys-Pro-Asn-His-Thr-. This result provides convincing chemical evidence that the alpha chain is derived from the NH(2)-terminal region of the beta chain by proteolytic cleavage, whereas the amino acid composition for these alpha and beta subunits and p32 DNA endonuclease suggests that the latter is derived from the carboxyl-terminal region of the beta chain.
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PMID:Amino acid sequence analysis of reverse transcriptase subunits from avian myeloblastosis virus. 616 Feb 62

Human replication protein A (huRPA) is a multisubunit protein which is involved in DNA replication, repair and recombination processes. It exists as a stable heterotrimer consisting of p70, p32 and p14 subunits. To understand the contribution of huRPA subunits to DNA binding we applied the photoaffinity labeling technique. The photoreactive oligonucleotide was synthesized in situ by DNA polymerases. 5-[N-(2-nitro-5-azidobenzoyl)-trans -3-aminopropenyl-1]deoxyuridine-5'-triphosphate (NABdUTP) was used as substrate for elongation of a radiolabeled primer logical ortemplate either by human DNA polymerase alpha primase (polalpha), human DNA polymerase beta (polbeta) or Klenow fragment of Escherichia coli DNA polymerase I (KF). The polymerase was incubated with NABdUTP and radiolabeled primer-template in the presence or absence of huRPA. The reaction mixtures were then irradiated with monochromatic UV light (315 nm) and the crosslinked products were separated by SDS-PAGE. The results clearly demonstrate crosslinking of the huRPA p70 and p32 subunits with DNA. The p70 subunit appears to bind to the single-stranded part of the DNA duplex, the p32 subunit locates near the 3'-end of the primer, while the p14 subunit locates relatively far from the 3'-end of the primer. This approach opens new possibilities for analysis of huRPA loading on DNA in the course of DNA replication and DNA repair.
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PMID:Subunits of human replication protein A are crosslinked by photoreactive primers synthesized by DNA polymerases. 942 22

A new reagent for photoaffinity modification of biopolymers, 5-[E-N-(2-nitro-5-azidobenzoyl)-3-amino-1-propen-1-yl]-2',3'-dideoxyuridine 5'-triphosphate (NAB-ddUTP), was synthesized. Like a similar derivative of 2'-deoxyuridine 5'-triphosphate (NAB-dUTP), it was shown to be able to effectively substitute for dTTP in the synthesis of DNA catalyzed by eukaryotic DNA polymerase beta and to terminate DNA synthesis. A 5'-32P-labeled primer with a photoreactive group at the 3'-terminus was derived from NAB-ddUTP and used for photoaffinity labeling of the human replication protein A (RPA). The covalent attachment of RPA p32 and p70 subunits to the labeled primers was demonstrated. NAB-ddUTP is a promising tool for studying the interaction of proteins of the replicative complex with NA in cellular extracts and living cells during the termination of DNA synthesis.
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PMID:[A photoreactive analogue of 2'3'-dideoxyuridine 5'-triphosphate: preparation and use for photoaffinity modification of human replication protein A]. 1080 11

Analogues of dUTP bearing a photoreactive 2-nitro-5-azidobenzoyl (NAB) group linked via spacers of varying length (n = 2, 4, 7-13 atoms) to the 5-position of the uridine ring (NAB-n-dUTP) were synthesized and characterized. DNA polymerase beta efficiently incorporated these analogues into synthetic primer-template substrates in place of TTP, which allowed us to selectively introduce a photoreactive group at the 3' primer terminus. After completing photoreactive primer synthesis, the reaction mixtures were irradiated with monochromatic UV light (315 nm) in the presence of human replication protein A (RPA), a heterotrimer consisting of three subunits with molecular mass 70 kDa (p70), 32 kDa (p32), and 14 kDa (p14), and were separated by SDS-PAGE. The photoreactive primers cross-linked directly with p70 and p32, but cross-linking of p14 was not achieved even by varying the length of the spacer group. The data speak in favor of the protection of p14 by other RPA subunits from the interaction with 3'-end of the primer. Cross-linking of substrates to pol beta is inhibited when the analogue bears a short spacer (n = 2, 4, 7, and 8), but this is abrogated somewhat when longer spacers (n = 9-13) are examined. On the basis of these observations, we suggest that RPA and pol beta form a complex on primer-template substrates.
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PMID:Synthesis of base-substituted dUTP analogues carrying a photoreactive group and their application to study human replication protein A. 1089 64

Replication protein A (RPA) is a heterotrimeric protein that has high affinity for single-stranded (ss) DNA and is involved in DNA replication, repair, and recombination in eukaryotic cells. Photoaffinity modification was employed in studying the interaction of human RPA with DNA duplexes containing various gaps, which are similar to structures arising during DNA replication and repair. A photoreactive dUMP derivative was added to the 3' end of a gap-flanking oligonucleotide with DNA polymerase beta, and an oligonucleotide containing a 5'-photoreactive group was chemically synthesized. The 5' end predominantly interacted with the large RPA subunit (p70) regardless of the gap size, whereas interactions of the 3' end with the RPA subunits depended both on the gap size and on the RPA concentration. Subunit p32 was mostly labeled in the case of a larger gap and a lower RPA concentration. The results confirmed the model of polar RPA-DNA interaction, which has been advanced earlier.
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PMID:[Interaction of human replication protein A with DNA-duplexes, containing gaps of varying sizes]. 1160 36

The heterotrimeric replication protein A (RPA) has multiple essential activities in eukaryotic DNA metabolism and in signaling pathways. Despite extensive analyses, the functions of the smallest RPA subunit p14 are still unknown. To solve this issue we produced and characterized a dimeric RPA complex lacking p14, RPADeltap14, consisting of p70 and p32. RPADeltap14 was able to bind single-stranded DNA, but its binding mode and affinity differed from those of the heterotrimeric complex. Moreover, in the RPADeltap14 complex p32 only minimally recognized the 3'-end of a primer in a primer-template junction. Partial proteolytic digests revealed that p14 and p32 together stabilize the C terminus of p70 against degradation. Although RPADeltap14 efficiently supported bidirectional unwinding of double-stranded DNA and interacted with both the simian virus 40 (SV40) large T antigen and cellular DNA polymerase alpha-primase, it did not support cell-free SV40 DNA replication. This inability manifested itself in a failure to support both the primer synthesis and primer elongation reactions. These data reveal that efficient binding and correct positioning of the RPA complex on single-stranded DNA requires all three subunits to support DNA replication.
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PMID:Coordinated regulation of replication protein A activities by its subunits p14 and p32. 1520 63

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