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 have demonstrated that when the covalently joined ends of linear adeno-associated virus (AAV) DNA are resolved in vitro, the virus-encoded Rep protein becomes covalently attached to the 5' ends of the DNA. The covalent bond is between a tyrosine residue of the AAV Rep protein and a 5' phosphate of a thymidine residue in the AAV genome. Only the Rep protein encoded by the AAV p5 promoter, Rep68, was capable of becoming covalently attached to the ends of the AAV genome; the Rep proteins encoded by the p19 promoter were not. We also investigated some of the requirements for the complete in vitro resolution reaction. Inhibitor studies suggested that terminal resolution required DNA polymerase delta, ATP, and the deoxyribonucleoside triphosphates but did not require the remaining ribonucleoside triphosphates, DNA polymerase alpha, RNA polymerase II, or topoisomerases I and II. Finally, purified AAV Rep68, when added to the crude cytosol from uninfected HeLa cells, was sufficient for resolution. This suggested that terminal resolution relies on host enzymes and the virus-encoded p5 Rep proteins.
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PMID:Evidence for covalent attachment of the adeno-associated virus (AAV) rep protein to the ends of the AAV genome. 217 87

The photoaffinity compound 8-azido-dATP was used as a probe for the deoxyribonucleoside triphosphate-binding site of the large fragment of DNA polymerase I. Azido-dATP specifically modified a saturable binding site within the Klenow fragment, and each of the four natural deoxyribonucleoside triphosphate substrates competed with labeling at this site in proportion to its binding constant, as previously defined by equilibrium dialysis. Analysis of tryptic peptides after azido-dATP modification revealed five major cross-linking products, which apparently arose from five distinct photoadducts formed near Tyr-766.
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PMID:Photoaffinity labeling of the Klenow fragment with 8-azido-dATP. 218 Sep 51

The alpha-like DNA polymerases from bacteriophage phi 29 and other viruses, prokaryotes and eukaryotes contain an amino acid consensus sequence that has been proposed to form part of the dNTP binding site. We have used site-directed mutants to study five of the six highly conserved consecutive amino acids corresponding to the most conserved C-terminal segment (Tyr-Gly-Asp-Thr-Asp-Ser). Our results indicate that in phi 29 DNA polymerase this consensus sequence, although irrelevant for the 3'----5' exonuclease activity, is essential for initiation and elongation. Based on these results and on its homology with known or putative metal-binding amino acid sequences, we propose that in phi 29 DNA polymerase the Tyr-Gly-Asp-Thr-Asp-Ser consensus motif is part of the dNTP binding site, involved in the synthetic activities of the polymerase (i.e., initiation and polymerization), and that it is involved particularly in the metal binding associated with the dNTP site.
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PMID:The highly conserved amino acid sequence motif Tyr-Gly-Asp-Thr-Asp-Ser in alpha-like DNA polymerases is required by phage phi 29 DNA polymerase for protein-primed initiation and polymerization. 219 Dec 96

Transferred nuclear Overhauser effects (NOEs) and selective T1 measurements were used to determine interproton distances in the substrates Mg2+dATP and Mg2+TTP bound to the large fragment of DNA polymerase I (Pol I). The distances are consistent with high anti, O1' endo conformations for the enzyme-bound substrates, similar to nucleotides of B-DNA. These substrate conformations show little or no change when the complementary RNA templates (rU)57 or (rA)50 are bound. In contrast, multiple conformations, including syn and anti species, are required to fit the interproton distances measured on the enzyme-bound guanine nucleotide substrates Mg2+dGTP and Mg2+ddGTP. These multiple substrate conformations simplify to a single high anti, O1' endo conformation when the complementary template (rC)37 is bound, possibly due to base-pairing with the template, as in the active complex. In the presence of both template and primer, enzyme-bound Mg2+ddGTP reverts to multiple conformations. This ability of Pol I to decrease the fraction of bound substrate which is appropriate for primer elongation may be an error-preventing mechanism. In all cases, the conformations of the average nucleotide of the enzyme-bound RNA templates are also B-like. Transferred NOEs from protons of the enzyme to those of bound dNTP substrates suggest hydrophobic (Ile, Leu) and an aromatic amino acid (Tyr) at the substrate binding site. Peptide I, a synthetic 50-residue peptide based on residues 728 to 777 of the Pol I sequence, containing the conserved sequence L-I-Y-G, retains significant secondary and tertiary structure in solution as found by circular dichroism (CD) and 2D NMR. While the X-ray structure shows 48% helix in this region, the sequence specific NOESY analysis suggests 18% helix, and the preservation of two of the three beta turns. Peptide I shows tight binding of dNTP substrates, the substrate analog 2',3'-trinitrophenyl-ATP, and duplex DNA, providing direct evidence that the active site for polymerization lies in this region of the enzyme, with the substrate binding along the O-helix near Leu-764, Ile-765, and Tyr-766. Another synthetic peptide, peptide II, based on residues 840 to 888 of the Pol I sequence also retains much secondary structure as detected by CD but does not bind the substrate analog TNP-ATP.
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PMID:NMR studies of the active site of DNA polymerase I and of a 50-residue peptide fragment of the enzyme. 219 83

The structural gene for DNA polymerase II was cloned by using a synthetic inosine-containing oligonucleotide probe corresponding to 11 amino acids, which were determined by sequencing the amino terminus of the purified protein. The labeled oligonucleotide hybridized specifically to the lambda clone 7H9 from the Kohara collection as well as to plasmid pGW511 containing the SOS-regulated dinA gene. Approximately 1400 base pairs of dinA sequence were determined. The predicted amino-terminal sequence of dinA demonstrated that this gene encoded DNA polymerase II. Sequence analysis of the upstream region localized a LexA binding site overlapping the -35 region of the dinA promoter, and this promoter element was found to be only two nucleotides downstream from the 3' end of the araD gene. These results demonstrate that the gene order is thr-dinA (pol II)-ara-leu on the Escherichia coli chromosome and that the DNA polymerase II structural gene is transcribed in the same direction as the araBAD operon. Based on the analysis of the predicted protein, we have identified a sequence motif Asp-Xaa-Xaa-Ser-Leu-Tyr-Pro-Ser in DNA polymerase II that is highly conserved among a diverse group of DNA polymerases, which include those from humans, yeast, Herpes and vaccinia viruses, and phages T4 and PRD1. The demonstration that DNA polymerase II is a component of the SOS response in E. coli suggests that it plays an important role in DNA repair and/or mutagenesis.
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PMID:DNA polymerase II is encoded by the DNA damage-inducible dinA gene of Escherichia coli. 221 98

Determination of the primary structure of abnormal Hbs on the basis of DNA sequencing of the globin gene obtained from a carrier of abnormal Hb was performed. DNA obtained from the leukocytes of the peripheral blood was amplified by the polymerase chain reaction (PCR) using the proper amplification primer set. Amplified DNA was digested with two different restriction endonucleases and cloned to vector M 13 mp 18 or mp 19, which had been digested with the same enzymes. DNA sequencing was done by the dideoxy chain termination method using T 7 DNA polymerase, and the abnormal Hbs whose primary structure was determined were as follows: Hb Fukuoka [beta 2 His(CAC/T)----Tyr(TAT)], Hb Machida [beta 6 Glu(GAG)----Gln (CAG)], Hb Hope [beta 136 Gly(GGT)----Asp(GAT)], Hb Hiroshima [beta 146 His(CAC)----Asp(GAC)] and Hb Kodaira [beta 146 His(CAC)----Gln(CAA)]. This method for determining the primary structure of abnormal Hbs might be more effective than the ordinary method, which involves amino acid analysis and amino acid sequencing of the abnormal peptide obtained from abnormal Hb.
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PMID:[Structural analysis of abnormal hemoglobin by the polymerase chain reaction (PCR) of genomic DNA]. 223 67

Spot 42 RNA of Escherichia coli, a 109-nucleotide RNA that influences the level of DNA polymerase I, has an AUG triplet preceded by a purine-rich potential ribosome-binding site and is followed by a short (14-triplet) potential open reading frame. Although the RNA bound to ribosomes, it did so inefficiently and nonproductively. When fused to lacZ sequences, spot RNA did not support the synthesis of beta-galactosidase. Also, the biological effects of spot 42 RNA were not altered by mutation of the tyrosine UAU codon to the chain termination UAG. We conclude that the effects of spot 42 RNA are mediated by the RNA itself and not by a spot 42 RNA-encoded peptide.
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PMID:Spot 42 RNA of Escherichia coli is not an mRNA. 244 Aug 52

We have purified and characterized a single-stranded DNA binding protein (N4 SSB) induced after coliphage N4 infection. It has a monomeric molecular weight of 31,000 and contains 10 tyrosine and 1-2 tryptophan amino acid residues. Its fluorescence spectrum is dominated by the tyrosine residues, and their fluorescence is quenched when the protein binds single-stranded DNA. Fluorescence quenching was used as an assay to quantitate binding of the protein to single-stranded nucleotides. The N4 single-stranded DNA binding protein binds cooperatively to single-stranded nucleic acids and binds single-stranded DNA more tightly than RNA. The binding involves displacement of cations from the DNA and anions from the protein. The apparent binding affinity is very salt-dependent, decreasing as much as 1,000-fold for a 10-fold increase in NaCl concentration. The degree of cooperativity (omega) is relatively independent of salt concentration. At 37 degrees C in 0.22 M NaCl, the protein has an intrinsic binding constant for M13 viral DNA of 3.8 x 10(4) M-1, a cooperativity factor omega of 300, and binding site size of 11 nucleotides per monomer. The protein lowers the melting point of poly(dA.dT).poly(dA-dT) by greater than 60 degrees C but cannot lower the melting transition or assist in the renaturation of natural DNA. N4 single-stranded DNA binding protein enhances the rate of DNA synthesis catalyzed by the N4 DNA polymerase by increasing the processivity of the N4 DNA polymerase and melting out hairpin structures that block polymerization.
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PMID:Purification and characterization of the coliphage N4-coded single-stranded DNA binding protein. 266 66

A series of antisera directed against amino acid sequences from different segments of the duck hepatitis B virus (DHBV) P-gene were shown to immunoprecipitate DHBV DNA molecules that were covalently linked to the DHBV DNA terminal protein. Restriction analysis and sizing after protease treatment demonstrated that the P-gene proteins were bound to the 5'-end of the DHBV DNA minus-strand which was mapped to a G-residue in the centre of the repeat sequence DR1. Resistance to alkali treatment indicated a phosphodiester linkage to tyrosine between protein and DNA. Limited protease treatment prior to immunoprecipitation cleaved C-terminal P-proteins from the viral DNA, indicating that the terminal protein forms a separate domain encoded in the N-terminal part of the P-gene. Functional analysis of a deletion mutant confirmed the notion that a non-essential spacer separates the terminal protein from the polymerase domain residing in the C-terminal half of the P-gene. Thus, the major proteins required for hepadnaviral reverse transcription, namely the primer, DNA polymerase, and possibly also RNase H, appear to be synthesized as a polyprotein precursor which is at least initially linked as such to its first DNA product.
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PMID:The amino-terminal domain of the hepadnaviral P-gene encodes the terminal protein (genome-linked protein) believed to prime reverse transcription. 285 56

An aphidicolin-resistant (Aphr) mutant of herpes simplex virus (HSV) type 2 strain 186 previously has been shown to induce an altered viral DNA polymerase that is more resistant to aphidicolin and more sensitive to phosphonoacetic acid (PAA) than is wild-type DNA polymerase. In this study the mutation responsible for the aphidicolin-resistant phenotype was physically mapped by marker transfer experiments. The physical map limits for the Aphr mutation were contained in a 1.1-kilobase pair region within the HSV DNA polymerase locus. The 1.1-kilobase-pair fragment of the Aphr mutant also conferred hypersensitivity to PAA, and DNA sequence analysis revealed an AT to GC transition within this fragment of the Aphr mutant. Analysis of the three potential open reading frames within the 1,147-base-pair fragment and comparison with the amino acid sequence of DNA polymerase of HSV type 1 indicated that the Aphr mutant polymerase had an amino acid substitution from a tyrosine to a histidine in the well-conserved region of the DNA polymerase. These results indicate that this single amino acid change can confer altered sensitivity to aphidicolin and PAA and suggest that this region may form a domain that contains the binding sites for substrates, PPi, and aphidicolin.
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PMID:A single-base change within the DNA polymerase locus of herpes simplex virus type 2 can confer resistance to aphidicolin. 302 69


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