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)

A low molecular weight DNA polymerase which sediments at 3.3 S on sucrose gradients has been purified from total cell homogenates of rapidly dividing embryos of the sea urchin Strongylocentrotus purpuratus. In the presence of 2 mM N-ethylmaleimide, it is the major polymerase activity in whole cell homogenates when assayed with an oligo(dT)10.poly(dA)200 template; a template which it uses about 200 times more efficiently than activated DNA. The requirement for N-ethylmaleimide exists only in crude cell fractions where it acts to inhibit a template digesting nuclease activity. The polymerase is highly stable if maintained in the presence of 20% glycerol, is completely dependent on added template, and shows no end addition activity. The physical and enzymatic properties of this enzyme clearly distinguish it from the DNA polymerase previously described by Loeb (Loeb, L. A. (1969) J. Biol. Chem. 244, 1672-1681) which sediments as a high moeluclar weight (5.6 to 6.6 S) enzyme and prefers the activated DNA template. In addition, these two DNA polymerase enzymes show distinctive chromatographic properties using DEAE-cellulose and phosphocellulose columns as well as their sensitivity to N-ethylmaleimide. The properties of the low molecular weight polymerase indicate close similarity to the beta-polymerase isolated from mammalian cells. These low molecular weight enzymes are both sensitive to phosphate salt and able to utilize the artificial ribohomopolymer template oligo(dT)10.poly(rA)200. A quantitative analysis of the low molecular weight DNA polymerase during early embryonic development indicates that the activity of this enzyme increases at least 2-fold immediately following fertilization and again during early blastula stage (hatching). Such quantitative changes in a beta enzyme activity are in contrast to findings with the alpha-polymerase which remains constant during early development.
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PMID:A low molecular weight DNA polymerase beta in the sea urchin Strongylocentrotus purpurantus. Partial purification, properties, and changes in development. 71 48

A novel DNA polymerase, which could use both poly(rA) . oligo(dT) and activated calf thymus DNA efficiently as template-primers, was purified 20 000-fold from calf thymus extract. These activities were co-purified throughout successive column chromatographies and banded at the same position in either electrofocussing (pI = 6.5--7.0) or sucrose rate-zonal centrifugation (10--10.5 S). The most purified fraction (DNA-cellulose fraction) possessed specific activities of 3900 units/mg of protein with poly(rA) . oligo(dT) and 32 000 units/mg of protein with activated DNA. The poly(rA) . oligo(dT)-dependent activity differed from the previously described DNA polymerase gamma from other sources in the following ways: 1. The activity was inhibited by 100--300 mM KCl and and 80 mM potassium phosphate buffer. 2. The activity was 4-fold higher at 26 degrees C than at 37 degrees C. 3. The Km value for dTTP was 2.6--3.0 . 10(-4) M, which is several hundred-fold greater than that of DNA polymerase gamma. 4. Mn2+ was essential for the reaction and could not be replaced by Mg2+. The activated DNA-dependent activity shared many properties with DNA polymerase alpha, except that it was less sensitive to N-ethylmaleimide and anti-alpha polymerase immunoglobulin G. The 10-S DNA polymerase was dissociated into 8.5-S and 3.3-S by treatment with Triton X-100.
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PMID:10-S DNA polymerase from calf thymus which copies both poly(rA) . oligo(dT) and activated DNA. 71 38

An aqueous solution of 5'-amino-5'-deoxythymidine 5'-triphosphate, prepared by incubation of equimolar solutions of 5'-amino-5'-deoxythymidine and sodium trimetaphosphate, stimulates synthesis of acid-precipitable polynucleotides in a system containing single-strand phiX174 DNA template, random oligonucleotide primers, dATP, dCTP,dGTP, Escherichia coli DNA polymerase I, and either magnesium or manganese ion. Approximately onefold synthesis on the template can be achieved and each of the indicated reagents is essential for extensive synthesis. The reaction is slower than the corresponding reaction of dTTP as a consequence of a lower V max and a higher Km for the amino analogue. That aminodeoxythymidine phosphate is incorporated into the synthetic polynucleotides was shown by a double-labeling experiment with [14C]dATP and [32P]-5'-amino-5'-deoxythymidine 5'-triphosphate and by the unusually high lability of the phosphoramidate polynucleotides toward acid. The phosphoramidate polynucleotides range in size from about 100 nucleotide units to well over a thousand nucleotide units, and the size is increased by addition of DNA ligase to the system. These experiments indicate that synthetic polynucleotides in which oligonucleotide blocks have been joined by means of phosphoramidate bonds should prove useful as primers for enzymatic syntheses with DNA polymerase I.
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PMID:Incorporation of 5'-amino-5'-deoxythymidine5'-phosphate in polynucleotides by use of DNA polymerase I and a phiX174 DNA template. 77 32

The activity of DNA polymerase was determined in gradient-purified mitochondria from yeast cells grown under a variety of conditions. The specific enzyme activity was found to be dependent on the degree of aeration of the cells, and on the carbon source used for the medium. It was sensitive to glucose repression, and was enhanced about two-fold by the growth of yeast cells in the presence of ethidium bromide. Mitochondria DNA polymerase was highly purified and several properties were determined. Sucrose density gradient centrifugation, and dodecylsulfate-polyacylamide gel electrophoresis revealed the following structure: a monomer of molecular weight around 60 000 aggregated under relatively high salt concentration (0.2 M phosphate buffer) to a dimer of about 120 000 which under low salt concentration (0.2 M Tris-HCl buffer) formed higher aggregates. For optimal activity an Mg2+ ion concentration of 50 mM was found necessary, Mn ions did not promote activity at any concentration tested (0.5--50 mM). Indeed, if added to Mg2+-containing assays, Mn2+ strongly inhibited enzyme activity at low concentrations. This might be an explanation for the inducation of mitochondrial mutants in yeast cells grown in the presence of Mn2+ ions. Mitochondrial DNA polymerase activity was strongly inhibited by low concentrations of the -SH reagent p-chloromercuribenzoate, the nucleotide analogue cytosine arabinoside triphosphate also exerted an inhibitory effect. An about 50% decrease of activity was observed in the presence of 1 mM o-phenanthroline in assay mixture containing DNA at about the Km concentration. The enzyme preferred a gapped template primer, poly(dA) - (dT)10, over nicked DNA and was unable to use a polyribonucleotide template, poly(rA) - (dT)10. In the purest preparations no exonuclease activity could be detected.
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PMID:DNA-dependent DNA polymerase from yeast mitochondria. Dependence of enzyme activity on conditions of cell growth, and properties of the highly purified polymerase. 78 35

A pyrimidine octanucleotide complementary to one of the cohesive ends of P2 DNA was chemically synthesized. Its sequence, d(C-T-T-T-C-C-C-C-OH), was verified by labeling it at the 5' end, followed by partial enzyme digestion and separation by a two-dimensional fingerprinting system. A single ribo-G residue was added to its 3' end using calf thymus deoxynucleotidyl terminal transferase. The resulting nonanucleotide primer was used in a detailed study on the stability of the duplexes formed in the partial as well as complete repair synthesis catalyzed by DNA polymerase I, at 5 degrees C in the presence of 70 mM potassium phosphate and 70 mM NaCl. The nonanucleotide primer was able to form a stable duplex with P2 DNA template only in the presence of DNA polymerase I. When the chain lengths of pyrimidine oligonucleotides were varied from 4 to 8 to test their abilities to serve as primers for the enzymatic repair synthesis, it was revealed that the minimum length required for the primer function is 8. Using the nonanucleotide as the primer and the right-hand cohesive end of the DNA as the template, repair synthesis was initiated simultaneously at the 3' end of the primer as well as at the right-hand 3' end of the DNA. This resulted in a decrease in the efficiency of repair synthesis at the 3' end of the primer, possibly due to the displacement of the primer by the enzyme. The enzyme was unable to displace the primer, when the primer was extended to a 13-mer prior to the initiation of repair synthesis at the 3'-OH end of the DNA. These data suggest that the strand displacement by DNA polymerase I at 5 degrees C in the presence of 70 mM potassium phosphate and 70 mM NaCl is not significant when the duplex is at least 13 nucleotides long. The efficiency of the repair synthesis at the 3'-OH end of the DNA-primer duplex could be increased by blocking the repair synthesis at the 3'-OH end of the DNA by converting it to 3'- phosphate. This method could be useful in DNA sequence analysis, where such specific repair synthesis is desired.
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PMID:Chemical synthesis of an octanucleotide complementary to a portion of the cohesive end of P2 DNA and studies on the stability of duplex formation with P2 DNA. 85 84

The deoxyribonucleoside triphosphate substrates for DNA synthesis were hydrolysed during the DNA polymerase (EC 2.7.7.7) assay with cytoplasmic subcellular fractions of rat intestinal mucosa. Presumably because of phosphatase (EC 3.1.3.2) activity in these fractions, inorganic phosphate was liberated from the nucleotides, and radioactive thymidine triphosphate was shown to be degraded to thymidine di-and mono-phosphate, thymidine, and thymine. Addition of ATP to the postmicrosomal supernatant increased its DNA polymerase activity by sparing the deoxyribonucleotide precursors from enzymatic degradation.
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PMID:Effect of ribonucleotides on substrate availability for DNA polymerase assays in cytoplasmic fractions of rat intestinal mucosa. 87 Jan 54

DNA polymerase gamma has been purified over 60 000-fold from HeLa cells which contain no detectable type C viral particles. This purified enzyme shows a specific activity of 25 000 units/mg of protein which is comparable to the known specific activity of homogeneous preparations of human alpha and beta polymerases. The isolated enzyme shows apparent molecular weights ranging from 160 000 to 330 000 according to the method of analysis. The enzyme exhibits optimal activity for copying poly(A) in the presence of 50 mM KPO4 and 130 mM KCl and, under these conditions, copies poly(A) 20 times more rapidly than activated DNA. These assay conditions permit a clear distinction between the gamma-polymerase and DNA polymerase beta which is markedly inhibited by phosphate at this concentration. A comparison of the copying of activated DNA, poly(dA) and poly(A) by DNA polymerases alpha, beta, and gamma under optimal assay conditions for each enzyme is presented. Studies with synthetic and natural nucleic acid templates also show the gamma-polymerase to behave differently that the reverse transcriptases of avian myeloblastosis virus or Rauscher leukemia virus.
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PMID:HeLa cell DNA polymerase gamma: further purification and properties of the enzyme. 97 75

DNA has been covalently linked to insoluble matrices of agarose (Sepharose) in high yield using cyanogen bromide activation. Both double-stranded and single-stranded DNA have been coupled with yields up to 225 nmol/mg dry weight Sepharose or 3-8 mumol nucleotide phosphate/ml bed volume. The DNA-Sepharose has been used for (a) the affinity chromatography of various enzymes (Escherichia coli DNA polymerase I and RNA polymerase) from crude extracts or after initial purification steps, resulting in high yields and degrees of purification, and for (b) nucleic acid hybridization. The DNA-Sepharose is stable to high temperature, prolonged storage, and in the case of single-stranded DNA, can be washed with NaOH to destroy nuclease activity and to release any digested oligonucleotides or mononucleotides.
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PMID:Covalent attachment of DNA to agarose. Improved synthesis and use in affinity chromatography. 110 Mar 76

Incorporation of labeled thymidine into testicular DNA of hypophysectomized rats began to increase after the administration of testosterone propionate and choriogenic gonadotrophin. While the thymidine incorporation reached maximum in 4 days, the DNA polymerase activity did not culminate until 8 days after the initiation of hormone treatment. The high molecular weight (6--8 S), presumably cytoplasmic DNA polymerase accounted almost entirely for this increase. Administration of testosterone propionate and chorionic gonadotrophin to hypophysectomized rats results in an increase of testicular RNA polymerase and chromatin templating activity. Chain elongation and initiation studies revealed that the increased templating capacity of androgen-stimulated testicular chromatin was almost entirely caused by the increase in the number of initiation sites. While the nuclear polymerase I responded relatively rapidly to hormone stimulation and reached a prominent maximum in about three days, the activity of polymerase II was more sluggish and not as prominent. The in vivo incorporation of ortho[32P]phosphate into chromosomal phosphoproteins occurred early during the androgen treatment and reached a maximum in about 20 h. The protein phosphokinase activity peaked later, approx. 72 h after the first administration of hormones.
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PMID:Testicular chromatin activation in hypophysectomized rats. 127 99

(S)-1-[3-Hydroxy-2-(phosphonylmethoxy)propyl]cytosine (HPMPC) is an antiviral phosphonate nucleotide analogue that displays activity against a range of herpesviruses. Anion exchange high performance liquid chromatography analysis of the 60% methanol extract from [14C]HPMPC-treated cells reveals the formation of three major metabolites. Two of these were identified as phosphorylated forms of HPMPC, HPMPC phosphate, and HPMPC diphosphate, by liberation of HPMPC upon acid digestion and coelution with synthetic standards on high performance liquid chromatography. The third metabolite, which is resistant to alkaline phosphatase cleavage but sensitive to phosphodiesterase, is proposed to be an HPMPC phosphate adduct. In herpes simplex virus-1-infected cells the same three metabolites are detected, at concentrations comparable to those in uninfected cells. When HPMPC is removed from the medium, the concentrations of the metabolites in cells decrease slowly, with half-lives of approximately 6, 17, and 48 hr for HPMPC phosphate, HPMPC diphosphate, and the HPMPC phosphate adduct, respectively. HPMPC diphosphate inhibits herpes simplex virus-1 and -2 DNA polymerases with a lower Ki than that for DNA polymerase alpha, and enzyme inhibition is competitive in each case. The formation and the persistence of HPMPC phosphates in cells and the selective inhibition of viral DNA polymerases by HPMPC diphosphate can explain why cells pretreated with HPMPC remain refractory to viral infection even long after HPMPC is removed from the medium.
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PMID:Intracellular metabolism of the antiherpes agent (S)-1-[3-hydroxy-2-(phosphonylmethoxy)propyl]cytosine. 131 Jan 43


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