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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 modification of Klenow fragment of DNA polymerase I E. coli was investigated by the affinity reagents d(Tp)2C[Pt2+(NH3)2OH](pT)7 and d(pT)2pC[Pt2+(NH3)2OH](pT)7. The template binding site of the enzyme was modified by these reagents in the presence of NaF (5 mM), which inhibits selectively the 3'----5'-exonuclease activity of the enzyme and therefore prevents the reagent from degradation. NaCN destroyed covalent bonds between reagents and enzyme, restoring activity of the Klenow fragment. The affinity of different ligands (inorganic phosphate, nucleoside monophosphates, oligonucleotides) to the template binding site of Klenow fragment was estimated. Minimal ligands capable to bind with the template site were shown to be triethylphosphate (Kd 290 microM) and phosphate (Kd 26 microM). Ligand affinity increases by the factor 1.76 per an added (monomer unit from phosphate to d(pT) and then for oligonucleotides d(Tp)nT (n 1 to 19-20). At n greater than 19-20, the ligand affinity remained constant. The complete ethylation of phosphodiester groups lowers affinity of the oligothymidylates to the enzyme by approximately 10 times, and comparable decrease of Pt2+-oligonucleotide affinity to polymerase is caused by the absence of Mn2+-ions. The data obtained led to suggestion that one Me2+-dependent electrostatic contact of the template phosphodiester group with the enzyme takes place (delta G = -1.45...-1.75 kcal/mole). Formation of a hydrogen bond with the oxygen atom of P = O group of the same template phosphate is also assumed (delta G = -4.8...-4.9 kcal/mole). Other template internucleotide phosphates do not interact with the enzyme but the bases of oligonucleotides take part in hydrophobic interactions with the template binding site. Gibbs energy changes by -0.34 kcal/mole when the template is lengthened by one unit.
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PMID:[Klenow fragment of DNA-polymerase I from E. coli. III. The role of internucleotide phosphate groups of the matrix in its binding with the enzyme]. 266 77

The values of Kd and Gibbs energy (delta G degrees) have been measured for complexes of the template site of DNA polymerase I Klenow fragment with the homo-oligonucleotides d(pC)n, d(pT)n, and d(pA)n and hetero-oligonucleotides of various structures and lengths. These parameters were evaluated from the protective effect of the oligonucleotide on enzyme inactivation by the affinity reagents d(Tp)2C[Pt2+ (NH3)2OH](pT)7 and d[(Tp2)C(Pt2+(NH3)2OH)p]3T of the template site. The present results and previously reported data [(1985) Biorg. Khim. 13, 357-369] indicate that the nucleoside components of the template form complexes as a result of their hydrophobic interactions with the enzyme. Only one template internucleotide phosphate forms an Me2+-dependent electrostatic contact and a hydrogen bond with the enzyme. The 19-20-nucleotide fragments of the template appear to interact with the protein molecule.
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PMID:DNA polymerase I (Klenow fragment): role of the structure and length of a template in enzyme recognition. 272 84

Using polysomal immunoselected rat liver glutathione S-transferase mRNAs, we have constructed cDNA clones using DNA polymerase I, RNase H, and Escherichia coli ligase (NAD+)-mediated second strand cDNA synthesis as described by Gubler and Hoffman (Gubler, U., and Hoffman, B. S. (1983) Gene 25, 263-269). Recombinant clone, pGTB42, contained a cDNA insert of 900 base pairs whose 3' end showed specificity for the Yc mRNA in hybrid-select translation experiments. The nucleotide sequence of pGTB42 has been determined, and the complete amino acid sequence of a Yc subunit has been deduced. The cDNA clone contains an open reading frame of 663 nucleotides encoding a polypeptide comprising 221 amino acids with a molecular weight of 25,322. The NH2-terminal sequence deduced from pGTB42 is in agreement with the first 39 amino acids determined for a Ya-Yc heterodimer by conventional protein-sequencing techniques. A comparison of the nucleotide sequence of pGTB42 with the sequence of a Ya clone, pGTB38, described previously by our laboratory (Pickett, C. B., Telakowski-Hopkins, C. A., Ding, G. J.-F., Argenbright, L., and Lu, A.Y.H. (1984) J. Biol. Chem. 259, 5182-5188) reveals a sequence homology of 66% over the same regions of both clones; however, the 5'- and 3'-untranslated regions of the Ya and Yc mRNAs are totally divergent in their sequences. The overall amino acid sequence homology between the Ya and Yc subunits is 68%, however, the NH2-terminal domain is more highly conserved than the middle or carboxyl-terminal domains. Our data suggest that the Ya and Yc subunits of the rat liver glutathione S-transferases are products of two different mRNAs which are derived from two related yet different genes.
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PMID:Rat liver glutathione S-transferases. Construction of a cDNA clone complementary to a Yc mRNA and prediction of the complete amino acid sequence of a Yc subunit. 298 14

The enzymatic domains of the avian retrovirus polymerase (pol) gene have been mapped by the use of peptide antibodies and COOH-terminal amino acid analysis. The processed pol beta polypeptide is cleaved in vivo to yield alpha and pp32. Rabbit antibodies were directed against synthetic peptides whose sequence was deduced from the known pol sequence of Rous sarcoma virus, Prague C (Schwartz, D.E., Tizard, R., and Gilbert, W. (1983) Cell 32, 853-869). The RNase H active site of pol was located in the NH2-terminal region of the alpha DNA polymerase subunit. The COOH terminus of the alpha subunit was found to be immediately adjacent to the NH2 terminus of the pp32 pol protein. COOH-terminal amino acid analysis of pp32 revealed that this protein is also processed. From the deduced amino acid sequence of pol, it appears likely that pol encodes an additional 4100-dalton polypeptide located at its extreme COOH terminus. The enzymatic domains on beta appear to map in the following order: RNase H-DNA polymerase-DNA endonuclease. Hydrophilicity analysis and secondary structure predictions of wild type Rous sarcoma virus pol products and mutated pp32 possessing single amino acid changes permit further structural evaluation of the multifunctional pol protein.
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PMID:Structural characterization of the avian retrovirus reverse transcriptase and endonuclease domains. 298 84

A number of nucleoside 5'-triphosphate analogs were tested with Escherichia coli DNA polymerase I and Klenow fragment of the enzyme, bacteriophage T4 DNA polymerase and calf thymus DNA polymerase alpha. It was shown that 3'-amino-2',3'-dideoxynucleoside 5'-triphosphates as well as a number of 3'-derivatives of dTTP(3'NH2) are able to terminate DNA synthesis catalyzed by each enzyme if the reaction is performed in the absence of natural substrates. ddNTP and dNTP(3'F) were found to be inactive with DNA polymerase alpha only, but araNTP(3'NH2) was inactive with E. coli DNA polymerase I. dTTP(3'N3), dGTP(3'N'3), dCTP(3'N3), araNTP(3'N3) and (alpha-thio)dTTP(3'F) were unable to inhibit any of the above-mentioned DNA polymerases, in contrast to reverse transcriptase, accessible to the most nucleotide analogs tested.
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PMID:Nucleoside 5'-triphosphates with modified sugars as substrates for DNA polymerases. 302 Dec 25

A phi 29 DNA fragment containing gene 6, required for DNA replication, has been cloned in plasmid pPLc28 under the control of the PL promoter of phage lambda. A polypeptide with an electrophoretic mobility close to that of p6 was labelled with 35S-methionine after heat induction. This protein, representing about 4% of the total E. coli protein after 1 h of induction, was obtained in a highly purified form. The protein was characterized as p6 by amino acid analysis and NH2-and COOH-terminal sequence determination. Protein p6 has an apparent molecular weight of 23,600, suggesting that the native form of the protein is a dimer. The purified protein p6 stimulated the protein-primed initiation of phi 29 DNA replication when added to purified proteins p2 (phi 29-coded DNA polymerase) and p3 (terminal protein).
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PMID:Overproduction and purification of protein P6 of Bacillus subtilis phage phi 29: role in the initiation of DNA replication. 315 84

3'-Amino-2',3'-dideoxycytidine (3'-NH2-dCyd) produced an S-phase-specific block in exponentially growing L1210 leukemia cells. The monophosphate and triphosphate forms of the drug were detected within a few hours of 3'-NH2-dCyd treatment of intact cells. No significant change in the deoxynucleoside triphosphate levels was observed during the early stages of treatment. However, by 24 h a 2-fold increase in the amount of the deoxynucleoside triphosphates was seen. The triphosphate form of the drug competitively inhibited dCTP incorporation into calf thymus DNA using highly purified DNA polymerase alpha. The Ki was determined to be 9.6 microM with respect to dCTP. Incorporation of the analogue into DNA was not detected. On the other hand, sucrose gradient analysis suggested that incorporation of the analogue into actively synthesized DNA may account for the biological activity of this compound. Treatment with 3'-NH2-dCyd induced single-strand breaks in actively synthesized DNA, but no double-strand breaks were observed in the presence of the analogue. The data indicate that 3'-amino-2',3'-dideoxycytidine specifically interferes with DNA replication at the level of DNA polymerase by inhibiting chain elongation.
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PMID:Specific inhibition of DNA biosynthesis induced by 3'-amino-2',3'-dideoxycytidine. 324 12

Bacteriophage T4 gene 43 codes for the viral DNA polymerase. We report here the sequence of gene 43 and about 70 nucleotides of 5'- and 3'-flanking sequences, determined by both DNA and RNA sequencing. We have also purified T4 DNA polymerase from T4 infected Escherichia coli and from E. coli containing a gene 43 overexpression vector. A major portion of the deduced amino acid sequence has been verified by peptide mapping and sequencing of the purified DNA polymerase. All these results are consistent with T4 DNA polymerase having 898 amino acids with a calculated Mr = 103,572. Comparison of the primary structure of T4 DNA polymerase with the sequence of other procaryotic and eucaryotic DNA polymerases indicates that T4 DNA polymerase has regions of striking similarity with animal virus DNA polymerases and human DNA polymerase alpha. Surprisingly, T4 DNA polymerase shares only limited similarity with E. coli polymerase I and no detectable similarity with T7 DNA polymerase. Based on the location of specific mutations in T4 DNA polymerase and the conservation of particular sequences in T4 and eucaryotic DNA polymerases, we propose that the NH2-terminal half of T4 DNA polymerase forms a domain that carries out the 3'----5' exonuclease activity whereas the COOH-terminal half of the polypeptide contains the dNTP-binding site and is necessary for DNA synthesis.
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PMID:Primary structure of T4 DNA polymerase. Evolutionary relatedness to eucaryotic and other procaryotic DNA polymerases. 328 35

The affinity of different ligands (phosphate, nucleoside monophosphates, oligonucleotides) to the template binding site of DNA polymerase alpha from human placenta was estimated. To this goal, dependences of rate of the enzyme inactivation by the affinity reagent d(pT)2pC[Pt2+(NH3)2OH](pT)7 on the concentration of these ligands as competitive inhibitors were determined. Minimal ligands capable to bind with the template site of DNA polymerase alpha were shown to be triethylphosphate (Kd 600 microM) and phosphate (Kd 53 microM). Ligand affinity increases by the factor 1.71 per added monomer unit from phosphate to d(pT) and then for oligothymidylates d(Tp)nT (n 1 to 14). The partial ethylation of phosphodiester groups does not change the efficiency of the oligothymidylate binding with the enzyme. However, the complete ethylation of these groups lowers affinity of the oligothymidylates to the enzyme by 7-9 times. The decrease is comparable with the change of Pt2+-decathymidylate affinity to the enzyme caused by Mn2+-ions. The data obtained led to suggestion that an electrostatic contact (most likely, Me2+-dependent) of phosphodiester group with the enzyme takes place. The type of contact is confirmed by Gibbs' energy change 1.1-1.4 kcal/mole. Formation of a hydrogen bond with the oxygen atom of P = O group of the same phosphate is also assumed (delta G =--4.4 . . .--4.5 kcal/mole). The other internucleotide phosphates and all bases of oligonucleotides form neither hydrogen bonds nor electrostatic contacts with the template binding site. Gibbs' energy changes by 0.32 kcal/mole when the template is lengthened by one unit. We suppose that this value characterizes the energy gain in the transition of oligonucleotide template from aquous medium to the hydrophobic environement of the enzyme active site. Comparison of Km values of oligothymidylates and their partially or completely ethylated analogues as templates in the reaction of DNA polymerization catalysed by DNA polymerase alpha from human placenta and Klenow's fragment of E. coli DNA polymerase I suggests a similar mechanism of template recognition by both enzymes.
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PMID:[Eukaryotic and prokaryotic DNA-polymerase. II. The role of internucleotide phosphate groups of a template in its binding with the enzyme]. 355 64

Affinity labelling of human placenta DNA polymerase alpha (EC 2.7.7.7) with the reactive oligodeoxyribonucleotide d(pT)2pC[Pt2+(NH3)2OH](pT)7 was used for quantitative analysis of enzyme interaction with oligodeoxyribonucleotides as templates. Dissociation constants and Gibb's energy values for different oligothymidylates d(pT)nT where n = 1-14 have been evaluated by competitive experiments of these ligands with Pt2+ reagent. The data obtained prove the formation of one Me2+-dependent electrostatic contact and a hydrogen bond between the enzyme and one phosphate of these templates. One may suppose that the hydrophobic interaction of any other monomeric link of oligodeoxyribonucleotides with the enzyme template site takes place.
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PMID:Role of nucleoside components and internucleotide phosphate groups of oligodeoxyribonucleotide template in its binding to human DNA polymerase alpha. 358 74

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