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)

The rat mitochondrial single strand DNA binding protein (SSB) P16 was purified to apparent homogeneity by elution from single strand DNA agarose with ethidium bromide. Each monomer of P16 contains two tryptophan residues, and the intrinsic fluorescence from these residues is quenched upon binding to single strand polynucleotides. From fluorescence quench titrations of ligand to fixed amounts of DNA lattice, a binding site size of 8 or 9 nucleotides per P16 monomer was found. Measurement of the affinity of P16 for isolated sites by titration with either oligo(dT)8 or 5'-dephosphorylated oligo(dT)8 indicated values on the order of 10(7) M-1. P16 exhibited a binding preference for single strand DNA, poly(dT), and poly(dC) in comparison to double strand DNA, poly(U), or poly[d(A-T)]. Although it was not possible to show that P16 destabilizes double helical DNA or even poly[d(A-T)], binding of P16 does inhibit the process of renaturation as shown by inhibition of duplex formation between poly(dA) and poly(dT). The binding of saturating amounts of P16 to single strand poly(dT).oligo(dA)50 template-primers enhanced approximately 10-fold the activity of both the homologous mitochondrial DNA polymerase and the Escherichia coli DNA polymerase I Klenow fragment. However, the mitochondrial DNA primase was nearly completely inhibited by the saturation of the poly(dT) template with P16. Amino-terminal sequence analysis of P16 and a protease-insensitive, DNA binding domain (Mr approximately 6000) revealed that the DNA binding domain residues, at least in part, in the amino-terminal third of the P16 molecule. Furthermore, the amino-terminal sequence was found to be strikingly similar to that of the Xenopus laevis mtSSB-1 and to a lesser extent similar to E. coli SSB and E. coli F sex factor SSB.
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PMID:Structural and functional studies of the rat mitochondrial single strand DNA binding protein P16. 222 14

The human single-stranded-DNA binding protein (human SSB) is required for simian virus 40 (SV40) DNA replication in vitro. SV40 large tumor antigen and human SSB can support extensive unwinding of SV40 origin-containing DNA in the presence of ATP and a topoisomerase that relieves positive superhelicity. Although SSBs from viral and prokaryotic sources substituted for human SSB in the DNA-unwinding reaction, they did not substitute in the replication of SV40 DNA. The specificity for human SSB in SV40 DNA replication can be explained, at least in part, by the finding that DNA polymerase alpha was stimulated 10-fold by human SSB but not by other SSBs. Human SSB also stimulated proliferating-cell nuclear antigen-dependent DNA polymerase delta; however, other SSBs stimulated this polymerase as well.
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PMID:Multiple functions of human single-stranded-DNA binding protein in simian virus 40 DNA replication: single-strand stabilization and stimulation of DNA polymerases alpha and delta. 255 26

Biochemical and immunological properties of structural and non-structural polypeptides of the human simplex viruses (HSV1 and HSV2) and four related herpesviruses of non-human primates [Herpesvirus simiae (B virus), H. cercopithicus (SA8), H. saimiri 1 (HVS 1), and H. ateles 1 (HVA 1)] were compared. Using a radioimmunoassay (RIA), the presence of antigenic determinants shared among all six viruses was demonstrated. The relative degree of antigenic cross-reactivity among these viruses was further assessed by competition RIA. Antigenically, HSV 1 and HSV 2 were most closely related to each other although both SA 8 and B virus were also very closely related to HSV 1. Considerably less cross-reactivity existed between either HVS 1 or HVA 1 and the other four primate herpesviruses. Cross-hybridization between simian and human herpesvirus genomes demonstrated that extensive homology exists between each of the simian viruses and both HSV1 and HSV 2. Viral polypeptides bearing common antigenic determinants were identified by immune precipitation of infected cell polypeptides and by immunoblotting. Among the polypeptides of HSV which were recognized by antisera to simian viruses were the VP 5 and p40 proteins, both of which are structural components of the virion nucleocapsid. Using recombinant plasmids containing sequences of the HSV 1 VP5, p40, DNA polymerase, major DNA binding protein, and TK enzyme genes, homologous sequences were detected in all four simian viruses. Together, these results demonstrate that HSV 1, HSV 2, SA 8, and B virus form a closely related sub-group of the primate herpesviruses; HVS 1 and HVA 1 are also related to the other four primate herpesviruses, albeit more distantly.
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PMID:Simian alphaherpesviruses and their relation to the human herpes simplex viruses. 255 32

The acyclic adenosine analogue (S)-9-(3-hydroxy-2-phosphonylmethoxypropyl)adenine [S]-HPMPA) is a potent and selective inhibitor of adenovirus (Ad) replication in cell culture. We studied the mechanism of inhibition using a reconstituted in vitro DNA replication system. The diphosphoryl derivative (S)-HPMPApp, but not (S)-HPMPA, inhibited the DNA replication of origin containing fragments strongly. The inhibitory effect was exerted at the level of elongation, while initiation was resistant to the drug. Remarkably, the elongation of short strands was only slightly impaired, while inhibition was maximal upon synthesis of long DNA fragments. (S)-HPMPApp appeared to be competitive with dATP, suggesting that the Ad DNA polymerase is the prime target for the drug. We purified the Ad DNA polymerase in complex to the precursor terminal protein to homogeneity from cells infected with overproducing recombinant vaccinia viruses. Employing gapped DNA or poly(dT).oligo(dA) templates, only a weak inhibition was observed. However, inhibition was strongly enhanced in the presence of the adenovirus DNA binding protein (DBP). We interpret this to mean that the increased processivity of the polymerization reaction in the presence of DBP leads to increased drug sensitivity.
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PMID:Mechanism of inhibition of adenovirus DNA replication by the acyclic nucleoside triphosphate analogue (S)-HPMPApp: influence of the adenovirus DNA binding protein. 258 48

Adenovirus type 2 cores can function effectively as templates in an in vitro replication system. Viral DNA replication assays using cores as templates do not differ in their requirements to the well characterized assays using DNA-complex templates, i.e. there is a dependence on terminal protein precursor (pTP), DNA polymerase and DNA binding protein and the assay is greatly stimulated by certain host transcription factors. The products of initiation and limited elongation are easily distinguishable and, in the system described, there is specific proteolysis of the pTP adducts as a function of the adenovirus-coded protease, present in the nuclear extracts from infected cells, or the core templates. Substitution of Mn2+ ions for Mg2+ ions in the replication assay has a dramatic effect on the nature of the replication events, in most cases resulting in the stimulation of initiation without elongation. Similar results can be achieved by utilizing subviral particles as templates, obtained by dialysis of purified adenovirus in a hypotonic buffer at pH 6.4. Restriction enzyme analysis of the replicated products confirmed that DNA synthesis proceeds from the adenovirus termini using both the core and subviral templates. By adding an ATP-regenerating system elongation can be further stimulated, particularly in the case of the subviral templates. Quantification of nucleotide incorporation into the appropriate restriction fragments indicates that for the subviral templates replication can proceed for at least 2000 to 3000 bases from either terminus. These results suggest that the adenovirus genome is packaged in the virion in a conformation readily available for at least the initial replication events. Such a conformation might also be appropriate for early transcription.
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PMID:Adenovirus subviral particles and cores can support limited DNA replication. 260 37

DNA mismatch correction is a strand-specific process involving recognition of noncomplementary Watson-Crick nucleotide pairs and participation of widely separated DNA sites. The Escherichia coli methyl-directed reaction has been reconstituted in a purified system consisting of MutH, MutL, and MutS proteins, DNA helicase II, single-strand DNA binding protein, DNA polymerase III holoenzyme, exonuclease I, DNA ligase, along with ATP (adenosine triphosphate), and the four deoxynucleoside triphosphates. This set of proteins can process seven of the eight base-base mismatches in a strand-specific reaction that is directed by the state of methylation of a single d(GATC) sequence located 1 kilobase from the mispair.
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PMID:DNA mismatch correction in a defined system. 266 76

An in situ assay has been adapted to the herpes simplex virus type 1 (HSV-1) system which can detect alkaline nuclease activity in infected cell lysates following sodium dodecylsulfate polyacrylamide gel electrophoresis. Lysates of cells infected with HSV-1 temperature-sensitive (ts) mutants possessing mutations in the genes for an immediate-early transcriptional regulatory protein (ICP4), viral DNA polymerase (pol), and the major HSV-1 DNA binding protein (ICP8) exhibited altered alkaline nuclease profiles relative to that of wild-type virus-infected cells at 39 degrees C. Infections with a control mutant defective in the gene for glycoprotein B yielded wild-type nuclease profiles. The diverse effects on alkaline nuclease expression of mutants with lesions in different viral proteins involved directly in viral DNA synthesis provides evidence for the cooperative interaction between HSV-encoded viral DNA replication components.
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PMID:Alkaline nuclease activity in cells infected with herpes simplex virus type 1 (HSV-1) and HSV-1 temperature-sensitive mutants. 282 Apr 99

The in vitro replication of adenovirus (Ad) DNA covalently attached to the 55-kDa terminal protein requires at least five proteins including the 80-kDa preterminal protein, the Ad DNA polymerase, the Ad DNA binding protein, nuclear factor I, and topoisomerase I. The replication of Ad DNA templates devoid of the terminal protein requires an additional protein, designated factor pL, which has been purified from uninfected HeLa cell nuclei (Guggenheimer, R. A., Nagata, K., Kenny, M., and Hurwitz, J. (1984) J. Biol. Chem. 259, 7815-7825). Factor pL has been found to contain an intrinsic 5'----3' exonuclease activity. When Ad DNA templates lacking the terminal protein were pretreated with factor pL, the requirement for factor pL in the replication reaction was abolished. Synthetic partially duplex oligonucleotide templates containing Ad origin sequences were constructed in order to determine the structure of the DNA molecules that are active in the absence of factor pL. These experiments indicated that factor pL degrades the 5'-end of the nontemplate (displaced) strand of the Ad origin thereby creating a single-stranded region at the 3'-end of the template strand. Such DNAs are competent for initiation of Ad DNA replication in the absence of factor pL but remain dependent on nuclear factor 1.
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PMID:Initiation of adenovirus DNA replication. I. Mechanism of action of a host protein required for replication of adenovirus DNA templates devoid of the terminal protein. 283 79

The replication of DNA containing either the polyoma or SV40 origin has been done in vitro. Each system requires its cognate large-tumour antigen (T antigen) and extracts from cells that support its replication in vivo. The host-cell source of DNA polymerase alpha - primase complex plays an important role in discriminating between polyoma T antigen and SV40 T antigen-dependent replication of their homologous DNA. The SV40 origin- and T antigen-dependent DNA replication has been reconstituted in vitro with purified protein components isolated from HeLa cells. In addition to SV40 T antigen, HeLa DNA polymerase alpha - primase complex, eukaryotic topoisomerase I and a single-strand DNA binding protein from HeLa cells are required. The latter activity, isolated solely by its ability to support SV40 DNA replication, sediments and copurifies with two major protein species of 72 and 76 kDa. Although crude fractions yielded closed circular monomer products, the purified system does not. However, the addition of crude fractions to the purified system resulted in the formation of replicative form I (RFI) products. We have separated the replication reaction with purified components into multiple steps. In an early step, T antigen in conjunction with a eukaryotic topoisomerase (or DNA gyrase) and a DNA binding protein, catalyses the conversion of a circular duplex DNA molecule containing the SV40 origin to a highly underwound covalently closed circle. This reaction requires the action of a helicase activity and the SV40 T antigen preparation contains such an activity. The T antigen associated ability to unwind DNA copurified with other activities intrinsic to T antigen (ability to support replication of SV40 DNA containing the SV40 origin, poly dT-stimulated ATPase activity and DNA helicase).
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PMID:In vitro replication of DNA containing either the SV40 or the polyoma origin. 289 81

The adenovirus-encoded 140-kDa DNA polymerase (Ad Pol) and the 59-kDa DNA binding protein (Ad DBP) are both required for the replication of viral DNA in vivo and in vitro. Previous studies demonstrated that, when poly(dT).oligo(dA) was used as a template-primer, both proteins were required for poly(dA) synthesis. In this report, the interaction between the Ad Pol and Ad DBP was further investigated using poly(dT).oligo(dA) as well as a linear duplex molecule containing 3' poly(dT) tails. DNA synthesis with the tailed template required Ad Pol, Ad DBP, and an oligo(dA) primer hydrogen bonded to the poly(dT) tails. Incorporation was stimulated 8-10-fold by ATP; however, no evidence of ATP hydrolysis to ADP was observed. Synthesis was initiated at either end of the tailed molecule and proceeded through the duplex region to the end of the molecule. This ability to translocate through duplex DNA and to synthesize long poly(dA) chains suggests that the Ad Pol.Ad DBP complex can act efficiently in the elongation reactions involved in the replication of Ad DNA (both type I and type II). During the replication reaction, substantial hydrolysis of deoxynucleoside triphosphates to the corresponding deoxynucleoside monophosphates occurred. This reaction required DNA synthesis and most likely reflects an idling reaction similar to that observed with other DNA polymerases containing 3'----5' exonuclease activity in which the polymerase first incorporates and then hydrolyzes a dNMP.
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PMID:The adenovirus DNA binding protein and adenovirus DNA polymerase interact to catalyze elongation of primed DNA templates. 294 38

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