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)

Storage of the dimeric (alphabeta) form of avian myeloblastosis virus (AMV) DNA polymerase in glycerol resulted in the release of the smaller alpha subunit, as detected by glycerol gradient sedimentation. Analysis by sodium dodecyl sulfate-polyacrylamide gel electrophoresis of enzyme stored in glycerol showed the concomitant appearance of several polypeptides and a lowering in the level of both beta and alpha components. This reduction appears to be the result of cleavages introduced by traces of hydrolytic activity present in glycerol samples. An enhancement of alpha subunit released, as detected by activity profile, was also achieved upon direct but limited exposure of purified avian myeloblastosis virus DNA polymerase to carboxymethyl-cellulose-bound trypsin matrix. Electrophoretic analysis of digested enzyme revealed a progressive fragmentation, with simultaneous increase in the alpha subunit and decrease in the beta subunit.
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PMID:Mechanism of release of active alpha subunit from dimeric alpha beta avian myeloblastosis virus DNA polymerase. 5 80

The effect of phenethyl alcohol on DNA synthesis was examined using several in vitro systems of Escherichia coli H560; i.e., ether-treated cells, membrane fractions and folded chromosomes fortified with DNA polymerase. In all systems, the incorporation of deoxyribonucleotides was much reduced for the phenethyl alcohol-treated cells compared with the non-treated cells. The total activity of DNA polymerases in polA1 cells (mostly DNA polymerase II) was not impaired for the phenethyl alcohol-treated cells and the reduction of the rate of DNA synthesis in vitro was ascribed to the reduction of the chromosomal template activity which was related to trypsin sensitive protein components. The analysis of chromosomes from the phenethyl alcohol-treated cells revealed the remarkable reduction of a protein component of molecular weight approx. 58 000 in contrast with a protein component of molecular weight approx. 30 000.
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PMID:The effect of phenethyl alcohol on in vitro DNA synthesis in Escherichia coli. 6 42

The DNA polymerase in crude extracts of Drosophila melanogaster embryos sedimented at 9.0, 7.3, and 5.5 S on glycerol velocity gradients. The relative proportions of these enzymes depended on the method used to prepare the extract. Extracts of whole embryos contained the 7.3S and the 5.5S DNA polymerases and extracts of dechorionated embryos contained the 9.0S and 7.3S DNA polymerases. The porportion of the 5.5S DNA polymerase increased relative to the 7.3S DNA polymerase during storage of the extract of whole embryos. The protease inhibitor, phenylmethanesulfonyl fluoride, inhibited the formation of the 5.5S DNA polymerase, suggesting that it was proteolytically produced from the 7.3S DNA polymerase. This was demonstrated directly by converting the 7.3S DNA polymerase to the 5.5S DNA polymerase by treatment in vitro with trypsin. The degradation of the enzyme occurred without significant loss of DNA polymerase activity. It is further demonstrated that endogenous proteolysis reduced the chromatographic heterogeneity of the Drosophila DNA polymerase on diethylaminoethyl-Sephadex. When endogenous proteolysis was reduced, three forms of DNA polymerase were isolated by diethylaminoethylcellulose chromatography; two of these enzymes sedimented at 7.3S and the third sedimented at 9.0S. These results demonstrate the physical heterogeneity of the Drosophila DNA polymerase and suggest its similarity to vertebrate DNA polymerase-alpha.
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PMID:Multiple forms of Drosophila embryo DNA polymerase: evidence for proteolytic conversion. 40 23

A factor which inhibited DNA polymerase [EC 2.7.7.7] activity was isolated from the cytoplasm of plasmodia of true slime mold, Physarum polycephalum. This factor was purified by DEAE-Sephadex and CM-cellulose column chromatographies, heat treatment and gel filtration. This inhibitor was heat-stable, insensitive to trypsin [EC 3.4.21.4] and was not digested by RNase [EC 3.1.4.22] or DNase [EC 3.1.4.5]. The molecular weight was 16,000 as determined by gel filtration, and the isoelectric point was determined to be pH 10.1. In the presence of the inhibitor, Km for DNA in the DNA polymerizing reaction was markedly increased. The inhibitory effect was eliminated by addition of excess DNA, but the addition of excess enzyme or deoxyribonucleoside triphosphates had no effect on the inhibition.
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PMID:A cytoplasmic inhibitor of DNA polymerase from the plasmodia of Physarum polycephalum. 103 31

The location of the protein in the open circular DNA form of the ColE1 DNA-protein relaxation complex, induced by treatment with sodium dodecyl sulfate, has been studied using several enzymes of DNA metabolism. Escherichia coli exonucleases I and III are able to degrade extensively the nicked strand of the relaxed complex from the 3' end. DNA polymerase I can initiate synthesis using the relaxed complex as template-primer and specifically extends the 3' end of the nicked strand. The 5' end of the sodium dodecyl sulfate-relaxed complex, however, is blocked to the 5'-3' hydrolitic action T7 exonuclease. This block remains after trypsin treatment of the sodium dodecyl sulfate-relaxed complex but is removed by Pronase treatment. T4 DNA ligase is unable to seal either the sodium dodecyl sulfate-relaxed complex or the Pronase-treated relaxed complex even after pretreatment of the relaxed complex with T4 DNA polymerase and polynucleotide kinase. However, pretreatment with DNA polymerase I and the four deoxyribonucleoside triphosphates facilitates ligase closure of the Pronase-treated relaxed complex but not the sodium dodecyl sulfate-relaxed complex. These studies indicate that the protein in the relaxed ColE1 complex is located at or near the 5' end of the nicked strand.
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PMID:Relaxation complexes of poasmid DNA and protein. III. Association of protein with the 5' terminus of the broken DNA strand in the relaxed complex of plasmid ColE1. 110 45

The 125- and 48-kDa subunits of bovine DNA polymerase delta have been isolated by SDS-polyacrylamide gel electrophoresis and demonstrated to be unrelated by partial peptide mapping with N-chlorosuccinimide. A 116-kDa polypeptide, usually present in DNA polymerase delta preparations, was shown to be a degraded form of the 125-kDa catalytic subunit. Amino acid sequence data from Staphylococcus aureus V8 protease, cyanogen bromide, and trypsin digestion of the 125- and 116-kDa polypeptides were used to design primers for the polymerase chain reaction to determine the nucleotide sequence of a full-length cDNA encoding the catalytic subunit of bovine DNA polymerase delta. The predicted polypeptide is 1106 amino acids in length with a calculated molecular weight of 123,707. This is in agreement with the molecular weight of 125,000 estimated from SDS-polyacrylamide gel electrophoresis. Comparison of the deduced amino acid sequence of the catalytic subunit of bovine DNA polymerase delta with that of its counterpart from Saccharomyces cerevisiae showed that the proteins are 44% identical. The catalytic subunit of bovine DNA polymerase delta contains the seven conserved regions found in a number of bacterial, viral, and eukaryotic DNA polymerases. It also contains five additional regions that are highly conserved between bovine and yeast DNA polymerase delta, but these regions share little or no homology with the alpha polymerases. Four of these additional regions are also highly homologous to the herpes virus family of DNA polymerases, whereas one region is not homologous to any other DNA polymerase that has been sequenced thus far.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Primary structure of the catalytic subunit of calf thymus DNA polymerase delta: sequence similarities with other DNA polymerases. 172 37

Phage T7 DNA polymerase consists of a strong 1:1 complex of T7 gene 5 protein (80 kDa) and the reduced form of Escherichia coli thioredoxin (12 kDa). Immobilization of E. coli thioredoxin on the agarose matrix Affi-Gel retained both its redox activity and its ability to bind T7 gene 5 protein. This was used to develop a simple and fast high-yield purification method. Cloned T7 gene 5 protein, expressed in a thioredoxin-negative host cell, was isolated in pure and highly active form after elution from Affi-Gel--thioredoxin with a pH gradient from 10 to 12. This purification step separated gene 5 protein from variable amounts of two sets of reconstituting large polypeptide fragments without catalytic activity. Proteolytic cleavage in vivo probably gave rise to the fragments, the generation of which was mimicked by trypsin cleavage of pure gene 5 protein. The gene 5 protein preparation had an inherent low DNA polymerase and double-stranded 3'-exonuclease activity, which was stimulated at least 30-fold by the presence of reduced thioredoxin. Highly active and pure T7 DNA polymerase was obtained by reconstitution of gene 5 protein with thioredoxin and was isolated by phosphocellulose or FPLC Mono Q chromatography. The gene 5 protein and T7 DNA polymerase preparations are suitable for further physicochemical characterization and as reagents in DNA sequencing.
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PMID:Rapid isolation of homogeneous cloned T7 gene 5 protein and T7 DNA polymerase by affinity chromatography on immobilized thioredoxin. 182 98

Terminal deoxynucleotidyl transferase (terminal transferase) was specifically modified in the DNA binding site by a photoactive DNA substrate (hetero-40-mer duplex containing eight 5-azido-dUMP residues at one 3' end). Under optimal photolabeling conditions, 27-40% of the DNA was covalently cross-linked to terminal transferase. The specificity of the DNA and protein interaction was demonstrated by protection of photolabeling at the DNA binding domain with natural DNA substrates. In order to recover high yields of modified peptides from limited amounts of starting material, protein modified with 32P-labeled photoactive DNA and digested with trypsin was extracted 4 times with phenol followed by gel filtration chromatography. All peptides not cross-linked to DNA were extracted into the phenol phase while the photolyzed DNA and the covalently cross-linked peptides remained in the aqueous phase. The 32P-containing peptide-DNA fraction was subjected to amino acid sequence analysis. Two sequences, Asp221-Lys231 (peptide B8) and Cys234-Lys249 (peptide B10), present in similar yield, were identified. Structure predictions placed the two peptides in an alpha-helical array of 39 A which would accommodate a DNA helix span of 11 nucleotides. These peptides share sequence similarity with a region in DNA polymerase beta that has been implicated in the binding of DNA template.
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PMID:Interactions of photoactive DNAs with terminal deoxynucleotidyl transferase: identification of peptides in the DNA binding domain. 200 41

DNA polymerase epsilon, formerly known as a proliferating cell nuclear antigen-independent form of DNA polymerase delta, has been shown elsewhere to be catalytically and structurally distinct from DNA polymerase delta. The catalytic activity of HeLa DNA polymerase epsilon, an enzyme consisting of greater than 200- and 55-kDa polypeptides, was assigned to the larger polypeptide by polymerase trap reaction. This catalytic polypeptide was cleaved by incubation with trypsin into two polypeptide fragments with molecular masses of 122 and 136 kDa, the former of which was relatively resistant to further proteolysis and possessed the polymerase activity. The cleavage increased the polymerase and exonuclease activities of the enzyme some 2-3-fold. DNA polymerase epsilon was also purified in a smaller 140-kDa form from calf thymus. The digestion of this form of the enzyme by trypsin also generated a 122-kDa polypeptide. These results suggest that the catalytic core of DNA polymerase epsilon is a 258-kDa polypeptide that is composed of two segments linked with a protease-sensitive area. One of the segments harbors both DNA polymerase and 3'----5' exonuclease activities. In spite of the different polypeptide structures, the catalytic properties of the HeLa enzyme, its trypsin-digested form, and the calf thymus enzyme remained essentially the same.
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PMID:Identification and tryptic cleavage of the catalytic core of HeLa and calf thymus DNA polymerase epsilon. 200 86

The core promoter for human DNA polymerase beta contains discrete binding sites for mammalian nuclear proteins, as revealed by DNasel footprinting and gel mobility shift assays. Two sites correspond to sequences identical with the Sp1 factor binding element, and a third site includes an eight residue palindromic sequence, TGACGTCA, known as the CRE element of several cAMP responsive promoters; the 5 to 10 residues flanking this palindrome on each side have no apparent sequence homology with known elements in other promoters. Nuclear extract from a variety of tissues and cells were examined; these included rat liver and testes and cultured cells of human and hamster origin. The DNasel footprint is strong over and around the palindromic element for each of the extracts and is equivalent in size (approximately 22 residues); footprinting over the Sp1 binding sites is seen also. Two potential tissue-specific binding sites, present in liver but not in testes, were found corresponding to residues -13 to -10 and +33 to +48, respectively. Protein binding to the palindromic element was confirmed by an electrophoretic mobility shift assay with the core promoter as probe. Binding specificity of the 22 residue palindromic element, as revealed by oligonucleotide competition, is different from that of AP-1 binding element. Controlled proteolysis with trypsin was used to study structural properties of proteins forming the mobility shift bands. Following digestion with trypsin, most of the palindrome binding activity of each extract corresponded to a sharp, faster migrating band, potentially representing a DNA binding domain of the palindrome binding protein.
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PMID:Protein binding elements in the human beta-polymerase promoter. 231 44


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