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)

DNA synthesis in vitro using intact duplex T7 DNA as template is dependent on a novel group of three phage T7-induced proteins: DNA-priming protein (activity which complements a cell extract lacking the T7 gene 4-protein), T7 DNA polymerase (gene 5-protein plus host factor), and T7 DNA-binding protein. The reaction requires, in addition to the four deoxyribonucleoside triphosphates, all four ribonucleoside triphosphates and is inhibited by low concentrations of actinomycin D. Evidence is presented that the priming protein serves as a novel RNA polymerase to form a priming segment which is subsequently extended by T7 DNA polymerase. T7 RNA polymerase (gene 1-protein) can only partially substitute for the DNA-priming protein. At 30 degrees C, deoxyribonucleotide incorporation proceeds for more than 2 hours and the amount of newly synthesized DNA can exceed the amount of template DNA by 10-fold. The products of synthesis are not covalently attached to the template and sediment as short (12S) DNA chains in alkaline sucrose gradients. Sealing of these fragments into DNA of higher molecular weight requires the presence of E.coli DNA polymerase I and T7 ligase. Examination of the products in the electron microscope reveals many large, forked molecules and a few "eye"-shaped structures resembling the early replicative intermediates normally observed in vivo.
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PMID:Studies on bacteriophage T7 DNA synthesis in vitro. II. Reconstitution of the T7 replication system using purified proteins. 5 68

A DNA-binding protein has been purified from nuclei of 3T3 cells infected with polyoma virus. The assay used to detect this activity measures the amount of double-stranded DNA retained on a nitrocellulose membrane filter in the presence of binding protein. The interaction between DNA and protein is salt dependent and occurs optimally at 0.8 M NaCl. The isolated protein can bind to both circular and linear duplex DNA. Incubation of the binding protein with PM2 or polyoma DNA results in the formation of a fast sedimenting DNA structure in neutral sucrose gradients. The isolated binding protein is also capable of producing a considerable stimulation of both Escherichia coli (Pol I) and T4 DNA polymerase activities when either single-stranded or intact, native T7 DNA is used as the template. The binding protein itself is free of detectable DNA polymerase or nuclease activity.
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PMID:Partial purification and properties of a DNA-binding protein from nuclei of cells infected with polyoma virus. 17 25

Replication in vitro of the replicative form (RF) I DNA of bacteriophage varphiX174 requires the phage-induced cistron A (cisA) protein, the host rep protein, DNA-binding protein, ATP, and DNA polymerase III plus replication factors. The rep protein is a single-stranded DNA-dependent ATPase. In this paper we show that varphiX174 RF I DNA cut by the cisA protein acts as a duplex DNA cofactor for the rep protein ATPase activity, provided that DNA-binding protein is present. In this latter reaction the duplex DNA is unwound by the rep protein with concomitant hydrolysis of ATP. The extents of ATP hydrolysis, DNA unwinding, and, where appropriate, DNA synthesis are proportional to the amounts of DNA-binding protein present. Two ATP molecules are hydrolyzed per base pair unwound. We propose that the obligatory requirement for the cisA protein in the unwinding of varphiX174 RF I DNA is not simply due to its endonuclease activity but rather is due to its provision of a site for the binding of the rep protein. The rep protein in the presence of DNA-binding protein, but in the absence of cisA protein, unwinds duplex DNA when one strand extends to generate a single-stranded leader region preceding the duplex. We show that rep protein translocates along the leader single strand in a 5'-to-3' direction only and then invades the duplex DNA. The rep protein shows a directional specificity for translocation and unwinding. A model is presented to explain the mechanism of DNA unwinding catalyzed by the rep protein.
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PMID:Enzyme-catalyzed DNA unwinding: studies on Escherichia coli rep protein. 22 1

The T7gene-4 protein has been purified to near homogeneity using a complementation assay in vitro, and it is designated T7 DNA-priming protein (DNA primase). The purified enzyme enables T7 DNA polymerase to initate DNA synthesis on various circular single-stranded DNA templates by a mechanism which involes the synthesis of a very short RNA primer. The oligoribonucleotide, which is linked to the product DNA via a 3':5'-phosphodiester bond, starts with pppA-C and terminates predominantly with AMP. When only ATP and CPT are precursors, the RNA primer is found to be primarily a tetranucleotide of the sequence pppA-C-C-A. Using oligoribonucleotides in place of ribonucleoside triphosphates as chain initators, T7 DNA-priming protein drastically increases the efficiency with which T7 DNA polymerase can utilize particular tetranucleotide primers containing A and C residues. T7 DNA-priming protein also enables T7 DNA polymerase to make use of native or nicked duplex T7 DNA as template-primer. This reaction does not require ribonucleoside triphosphates, although their addition enhances DNA synthesis 2--4 fold. The product formed in their absence is covalently attached to the template DNA and is found to contain a few long branches when examined by electron microscopy. In the presence of ribonucleoside triphosphates most of the newly made product arises from imitation of DNA chains de novo. Incubation of three proteins: T7 DNA-priming protein, T7 DNA polymerase, and T7 DNA-binding protein, with ribonucleoside and deoxyribonucleoside triphosphates, and with phiX174DNA as template leads to the generation of 'rolling circle-like' structures as visualized in the electron microscope. Single-stranded regions at the tail-circle junction indicate that initations can occur de novo on the displaced complementary strand. This is consistent with a discontinuous mode of 'lagging' strand synthesis and suggests that the same proteins may also be responsible for fork propagation in vivo.
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PMID:Bacteriophage-T7-induced DNA-priming protein. A novel enzyme involved in DNA replication. 32 3

Conversion of the viral DNA of phage G4 to the duplex form provided an opportunity to isolate and determine the function of the dnaG protein, the product of a gene known to be essential for replication of the Escherichia coli chromosome. This stage of G4 DNA replication requires action of three proteins: the E. coli DNA-binding protein, the dnaG protein, and the DNA polymerase III holoenzyme. The dnaG protein has been purified approximately 25,000-fold to near-homogeneity. The native protein contains a single polypeptide of 60,000 daltons. It has been assayed for its activity on G4 DNA in three ways: (a) RNA synthesis, (b) complementation for replication of an extract of a temperature-sensitive dnaG mutant, and (c) priming of DNA replication by DNA polymerase III holoenzyme. The dnaG protein is highly specific for G4 DNA and synthesizes a unique 29-residue RNA primer to be described in the suceeding paper. Other single-stranded and duplex DNA templates are inactive. RNA primer synthesis by the dnaG protein has an apparent Km for ribonucleoside triphosphates near 10 micrometer, and a narrow optimum for Mg2+. The sharp specificity of the dnaG protein in choice of template and the utilization of either deoxyribonucleotides or ribonucleotides to produce a hybrid piece only a few residues long (as described in a succeeding paper) suggests that the dnaG protein previously named RNA polymerase by renamed primase.
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PMID:Primase, the dnaG protein of Escherichia coli. An enzyme which starts DNA chains. 34 Apr 57

A protein of 30000-35000 molecular weight was isolated from mouse ascites cells. This protein binds preferentially to single-stranded DNA. Evidence is presented that this protein maintains single-stranded DNA in an extended configuration. In the presence of single-stranded template the protein stimulates mammalian DNA polymerase alpha but not the mammalian DNA polymerase beta and not some microbial DNA polymerases. The protein is phosphorylated in vitro by a chromatin-associated protein kinase. The modified DNA-binding protein does not stimulate the DNA polymerase alpha.
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PMID:A single-strand-specific DNA-binding protein from mouse cells that stimulates DNA polymerase. 83 35

A DNA-binding protein from Xenopus laevis unfertilized eggs has been purified to apparent homogeneity. It is a heat stable, lysine-rich protein and has a molecular weight corresponding to 8,200 daltons, measured by sodium dodecyl sulphate gel electrophoresis. The protein, which is active in a monomeric form, stimulates DNA polymerase alpha, and binds to single and double stranded DNA. One egg contains about 4 x 10(12) molecules (minimum estimate) of the protein; since we calculate that 4 x 10(8) molecules are sufficient to cover the entire genome (haploid complement), there is much more protein than is needed to cover chromosomal DNA.
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PMID:Purification of a DNA-binding protein from Xenopus laevis unfertilized eggs. 90 94

A soluble extract prepared from T7-infected E. coli is able to initiate DNA synthesis on an exogenous T7 DNA template. We have developed a fractionation procedure to resolve and identify the proteins required for T7 DNA synthesis. By this method we have purified the following T7 replication-related proteins (each greater than 50% pure as judged by sodium dodecyl sulfate gel electrophoresis): T7 DNA-binding protein (27,000 daltons), T7 RNA polymerase (105,000 daltons), T7 DNA polymerase (gene 5-protein, 85,000 daltons, plus host-factor), T7 DNA ligase (40,000 daltons), and T7 DNA-priming protein (65,000 daltons). The T7 DNA-priming protein, synthesized between 7.5 and 15 min following infection, was not detectable if the infecting phage carried an amber mutation in gene 4. Using an in vitro complementation assay which specifically measures the stimulation of DNA synthesis in an extract prepared from T7 gene 4-mutant infected cells, we have purified the DNA-priming protein about 2,000-fold. The purified priming protein preparations are essentially free of endonuclease, exonuclease, DNA ligase and DNA polymerase activity, but they do contain measurable DNA-dependent RNA synthetic acitvity. The enzyme is rapidly inactivated by heating to 46 degrees C and by treatment with N-ethylmalemide. In the presence of T7 DNA-binding protein and all four ribonucleoside triphosphates, the DNA-priming protein enables T7 DNA polymerase to initiate DNA synthesis on intact duplex T7 DNA. Closer studies of its enzymatic function as well as of the possible roles of the other proteins in the T7 replication system will be presented in the accompanying paper.
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PMID:Studies on bacteriophage T7 DNA synthesis in vitro. I. Resolution of the T7 replication system into its components. 110 17

We report the purification and characterization of a novel DNA helicase from calf thymus tissue. This enzyme partially copurifies with DNA polymerase epsilon* through many of the chromatographic procedures used to isolate it. The enzyme contains an intrinsic DNA-dependent ATPase activity. It can displace short oligonucleotides annealed to long single stranded substrates, in an ATP-dependent reaction. Use of this assay indicates that the DNA helicase translocates in a 3' to 5' direction with respect to the substrate strand to which it is bound. Maximal efficiency of displacement is accomplished by hydrolysis of (d)ATP as cofactor, however, (d)CTP can also be utilized resulting in a 5-fold decrease in the level of displacement. Displacement activity is enhanced by the presence of saturating amounts of Escherichia coli single stranded DNA-binding protein, not affected by the presence of phage T4 gene 32 protein, and inhibited by human replication factor A. The DNA helicase has a molecular mass of approximately 104 kDa as measured by denaturing gel electrophoresis, and an S value of 5.4 obtained from glycerol gradient sedimentation. Direct [alpha-32P]ATP cross-linking labels a protein of molecular mass approximately 105 kDa, providing further evidence that this polypeptide contains the helicase active site. In view of the differences in the properties of this helicase from four others recently identified in calf and designated A through D, we propose the name helicase E.
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PMID:A novel DNA helicase from calf thymus. 132 24

A sequence of 3299 nt, contiguous with the previously sequenced quinate permease-encoding (qutD) gene and encompassing the dehydroshikimate dehydratase-encoding (qutC) gene, has been determined. Northern-blot analysis detected (i) a quinate-inducible mRNA of the expected size for the qutC gene, and (ii) a quinate-inducible mRNA of 1.45 kb divergently transcribed away from qutC towards qutD. Computer-aided sequence analysis identified an ORF of 1047 nt corresponding to the qutC gene encoding dehydroshikimate dehydratase. In addition, a genetically uncharacterized 1188-nt gene, designated qutH and containing a putative intron of 61 nt, was identified between qutC and qutD. The inferred protein sequence encoded by qutH contains a putative 'zinc cluster' motif and has a low (16%) but significant similarity with the DNA-directed DNA polymerase of hepatitis B virus. The results are interpreted as being consistent with the view that the qutH gene encodes a DNA-binding protein, possibly involved in the regulation of genes essential for the utilisation of protocatechuic acid.
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PMID:A second gene (qutH) within the Aspergillus nidulans-quinic-acid utilisation gene cluster encodes a protein with a putative zinc-cluster motif. 133 61

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