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)

We isolated fractions by Mono Q chromatography that inhibited the activity of Escherichia coli DNA polymerase III holoenzyme using an assay system with a primed single-stranded DNA template coated with single-stranded DNA binding protein (SSB). The inhibitory activities were inactivated by heat-treatment at 100 degrees C for 10 min, suggesting that they are proteins. The factors did not inhibit the activity of RNA polymerase of Escherichia coli. The inhibitory effects were less potent for the activities of the large (Klenow) fragment of DNA polymerase I and T4 DNA polymerase than for DNA polymerase III holoenzyme. No degradation of single- or double-stranded DNA was observed in the fractions, indicating that inhibition was not due to degradation of the DNA.
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PMID:Isolation and characterization of inhibitory factors of DNA polymerase III holoenzyme from Escherichia coli. 764 43

Human replication protein A (RPA; also known as human single-stranded DNA binding protein, or HSSB) is a multisubunit complex involved in both DNA replication and repair. While the role of RPA in replication has been well studied, its function in repair is less clear, although it is known to be involved in the early stages of the repair process. We found that RPA interacts with xeroderma pigmentosum group A complementing protein (XPAC), a protein that specifically recognizes UV-damaged DNA. We examined the effect of this XPAC-RPA interaction on in vitro simian virus 40 (SV40) DNA replication catalyzed by the monopolymerase system. XPAC inhibited SV40 DNA replication in vitro, and this inhibition was reversed by the addition of RPA but not by the addition of DNA polymerase alpha-primase complex, SV40 large tumor antigen, or topoisomerase I. This inhibition did not result from an interaction between XPAC and single-stranded DNA (ssDNA), or from competition between RPA and XPAC for DNA binding, because XPAC does not show any ssDNA binding activity and, in fact, stimulates RPA's ssDNA binding activity. Furthermore, XPAC inhibited DNA polymerase alpha activity in the presence of RPA but not in RPA's absence. These results suggest that the inhibitory effect of XPAC on DNA replication probably occurs through its interaction with RPA.
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PMID:Human xeroderma pigmentosum group A protein interacts with human replication protein A and inhibits DNA replication. 766 1

A number of DNA helicases have been isolated from mammalian cells, but their abilities to stimulate DNA replication accompanied with DNA unwinding have not been addressed so far. We constructed a model DNA replication system using the yeast autonomously replicating sequence (ARS) as the replication origin. In this system, SV40 T antigen as a DNA helicase assembles to the replication origin where the DNA duplex is unwound by torsional stress due to the negative supercoiling of template DNA, which leads to bidirectional DNA replication from the origin. We report here that DNA helicase B isolated from mouse FM3A cells can greatly stimulate DNA synthesis in this replication system in place of SV40 T antigen. DNA synthesis was dependent on the presence of single-stranded DNA binding protein (RP-A), DNA polymerase alpha/primase from mouse cells, and Escherichia coli DNA gyrase. DNA gyrase was required not only at elongation as a DNA swivelase but also at initiation to increase negative superhelical density of template DNA with the assistance of RP-A. A mammalian DNA fragment containing a replication initiation zone upstream of the c-myc gene as well as the yeast ARS fragment acted as a cis-element in this system using DNA helicase B. Both DNA helicase B and SV40 T antigen have the ability to extensively unwind the template DNA in the presence of RP-A and DNA gyrase, which may be crucial for stimulation of DNA synthesis in this system.
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PMID:Stimulation of DNA synthesis by mouse DNA helicase B in a DNA replication system containing eukaryotic replication origins. 779 3

The functional interaction of simian virus 40 (SV40) large tumor antigen (T antigen) with DNA polymerase alpha (pol alpha)-primase complex, human single-stranded DNA binding protein (HSSB), and DNA polymerase delta (pol delta) holoenzyme, which includes pol delta, activator I (also called replication factor C), and proliferating cell nuclear antigen, at the replication fork was examined using the purified components that support SV40 DNA replication. Dilution of reaction mixtures during RNA primer synthesis revealed that T antigen remained associated continuously with the fork, while the pol alpha-primase complex dissociated from the complex during oligoribonucleotide synthesis. T antigen unwound duplex DNA from the SV40 core origin at a rate of 200 base pairs/min. Pol alpha-primase complex inhibited the rate of the unwinding reaction, and HSSB, pol alpha, and primase were all required for this effect. These requirements are the same as those essential for DNA primase-catalyzed oligoribonucleotide synthesis (Matsumoto, T., Eki, T., and Hurwitz, J. (1990) Proc. Natl. Acad. Sci. U. S. A. 87, 9712-9716). This result suggests that the pol alpha-primase complex interacts with T antigen and HSSB during the unwinding reaction to synthesize RNA primers and that the interaction decreases the rate of T antigen movement. While pol delta holoenzyme can elongate primed DNA chains at a rate of 400-600 nucleotides/min on singly primed phi X174 DNA, the rate of the leading strand synthesis catalyzed by pol delta holoenzyme in the SV40 replication system in vitro was about 200 nucleotides/min. This rate was similar to the unwinding rate catalyzed by T antigen. Thus, the rate of leading strand synthesis catalyzed by pol delta holoenzyme in vitro appears to be limited by the unwinding reaction catalyzed by T antigen.
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PMID:Functional interactions between SV40 T antigen and other replication proteins at the replication fork. 809 7

Replication protein A (RP-A) is an essential single-stranded DNA binding protein (SSB) involved in the initiation and elongation phases of eukaryotic DNA replication. It has the ability to bind single-stranded DNA extremely tightly and possesses a characteristic hetero-trimeric structure. Here we present a method for the purification of RP-A from Drosophila melanogaster embryos. Drosophila RP-A (dRP-A) has subunits of about 66, 31 and 8 kDa, in line with analogues from other species. It binds single-stranded DNA very tightly via the large subunit. The complete protein has at least a 10- to 20-fold preference for single-stranded DNA over double-stranded DNA and it appears that binding is only weakly co-operative. Band shift experiments suggest that it has an approximate site covering the size of 16 nucleotides or less, however, it shows a greater affinity for long oligonucleotides than for short ones. We also demonstrate that dRP-A can stimulate the activity of its homologous DNA polymerase alpha in excess of 20 fold. Analysis of the protein's abundance during embryo development indicates that it varies in a manner akin to other replication proteins.
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PMID:Purification and characterisation of dRP-A: a single-stranded DNA binding protein from Drosophila melanogaster. 814 66

Physical and functional interactions of simian virus 40 (SV40) and polyomavirus large-T antigens with DNA polymerase alpha-primase were analyzed to elucidate the molecular basis for the species specificity of polymerase alpha-primase in viral DNA replication. SV40 T antigen associated more efficiently with polymerase alpha-primase in crude human extracts than in mouse extracts, while polyomavirus T antigen interacted preferentially with polymerase alpha-primase in mouse extracts. The apparent species specificity of complex formation was not observed when purified polymerase alpha-primases were substituted for the crude extracts. Several functional interactions between T antigen and purified polymerase alpha-primase, including stimulation of primer synthesis and primer elongation on M13 DNA in the presence or absence of the single-stranded DNA binding protein RP-A, also proved to be independent of the species from which polymerase alpha-primase had been purified. However, the human DNA polymerase alpha-primase was specifically required for primosome assembly and primer synthesis on SV40 origin DNA in the presence of T antigen and RP-A.
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PMID:Species-specific functional interactions of DNA polymerase alpha-primase with simian virus 40 (SV40) T antigen require SV40 origin DNA. 816 73

The product of gene 2.5 of bacteriophage T7, a single-stranded DNA binding protein, physically interacts with the phage-encoded gene 5 protein (DNA polymerase) and gene 4 proteins (helicase and primase) and stimulates their activities. Genetic analysis of T7 phage defective in gene 2.5 shows that the gene 2.5 protein is essential for T7 DNA replication and growth. T7 phages that contain null mutants of gene 2.5 were constructed by homologous recombination. These gene 2.5 null mutants contain either a deletion of gene 2.5 (T7 delta 2.5) or an insertion into gene 2.5 and cannot grow in Escherichia coli (efficiency of plating, < 10(-8)). After infection of E. coli with T7 delta 2.5, host DNA synthesis is shut off, and phage DNA synthesis is reduced to < 1% of phage DNA synthesis in wild-type T7-infected E. coli cells as measured by incorporation of [3H]thymidine. In contrast, RNA synthesis is essentially normal in T7 delta 2.5-infected cells. The defects in growth and DNA replication are overcome by wild-type gene 2.5 protein expressed from a plasmid harboring the T7 gene 2.5.
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PMID:Bacteriophage T7 gene 2.5 protein: an essential protein for DNA replication. 823 73

The seven-protein bacteriophage T4 DNA replication complex can be manipulated in vitro to study mechanistic aspects of the elongation phase of DNA replication. Under physiological conditions, the processivity of DNA synthesis catalyzed by the T4 polymerase (gp43) is greatly increased by the interaction of this enzyme with its accessory proteins (gp44/62 and gp45) and the T4 single-stranded DNA binding protein (gp32). The assembly of this T4 holoenzyme requires hydrolysis of ATP by the gp44/62 complex. We demonstrate here that processive T4 holoenzyme-like DNA synthesis can be obtained without hydrolysis of ATP by simply adding gp45 to the T4 DNA polymerase at extremely high concentrations, effectively bypassing the ATPase subunits (gp44/62) of the accessory protein complex. The amount of gp45 required for the gp43-gp45 heteroassociation event is reduced by addition of the macromolecular crowding agent polyethylene glycol (PEG) as well as gp32. A chromatographic strategy involving PEG has been used to demonstrate the gp43-gp45 interaction. These results suggest that gp45 is ultimately responsible for increasing the processivity of DNA synthesis via a direct and functionally significant interaction with the T4 DNA polymerase. A corollary to this notion is that the specific role of the gp44/62 complex is to catalytically link gp45 to gp43.
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PMID:Assembly of a functional replication complex without ATP hydrolysis: a direct interaction of bacteriophage T4 gp45 with T4 DNA polymerase. 847 61

We describe the purification to near homogeneity of a single-stranded DNA binding protein from 0-18-h embryos of Drosophila melanogaster. Drosophila SSB (D-SSB) is a heterotrimer with subunits of molecular weight of 70,000, 30,000, and 8000. It has a Stokes radius of 48.6 +/- 2 A and s20,w = 5.0 +/- 0.2 S. The interaction of D-SSB with ssDNA was examined by the quenching of intrinsic protein fluorescence. The binding site size was determined to be n = 22 +/- 4 nucleotides with a maximum quenching Qm = 35 +/- 3%. Equilibrium titrations indicate that D-SSB binds with low cooperativity, omega = 10-300, and high apparent affinity, K omega = (0.7-5) x 10(7) M-1, at 225 mM NaCl. Sedimentation of D-SSB bound to small oligonucleotides demonstrates that D-SSB does not require protein association for binding. D-SSB stimulates the extent and processivity of DNA synthesis of its cognate DNA polymerase alpha. On the basis of these properties, we conclude that D-SSB is the Drosophila cognate of the human and yeast SSB/RP-A proteins.
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PMID:A single-stranded DNA binding protein from Drosophila melanogaster: characterization of the heterotrimeric protein and its interaction with single-stranded DNA. 849 3

We established a modified cell-free system for polyomavirus (PyV) DNA replication, which was supplemented with Escherichia coli single-stranded DNA binding protein (SSB). DNA synthesis in this system was enhanced by 1.4- to over 15-fold depending upon the amount of cell extracts contained in the reaction mixture. By supplementing with E. coli SSB, we were able to reduce the amount of cell extracts in the reaction mixture, and to lower the concentrations of creatine phosphate and Tris, rendering this system more resistant to salts than the conventional PyV DNA replication system. The modified system was characterized using mutant cell extracts which had heat-inactivated DNA polymerase alpha. DNA synthesis in the system was dependent on PyV T antigen, the PyV origin of DNA replication, mutant cell extracts, and DNA polymerase alpha-primase complex purified from wild-type cells. The DNA polymerase alpha-primase complex was not replaced by DNA polymerase alpha, indicating that this system requires a functional DNA polymerase alpha-primase complex. This system exhibited species-specificity in the requirement for DNA polymerase alpha-primase; only mouse DNA polymerase alpha-primase but not human DNA polymerase alpha-primase functioned in this system.
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PMID:Efficient replication of polyomavirus DNA in a cell-free system supplemented with Escherichia coli single-stranded DNA binding protein, which exhibits species-specificity in the requirement for DNA polymerase alpha-primase. 854 82


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