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)

The massive widespread use of a substance to treat HSV could lead to the spread of resistant HSV strains and hence to a failure of treatment in a vital indication. In Germany, three defined substances suitable for treating HSV are available over the counter: Zinc sulfate, heparin and acyclovir. Experiments show that heparin retains its activity even after 20 passages whereas acyclovir produces a completely resistant virus after only a single passage. The inactivation of free HSV by zinc sulfate is reduced after serial passages. However, this partial resistance disappears again spontaneously and may be considered clinically irrelevant. With respect to drug efficacy and resistance, therefore, a combination of zinc sulfate and heparin would appear superior to zinc sulfate alone. The use of the genotoxic DNA polymerase inhibitor acyclovir should be restricted to severe cases of HSV.
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PMID:[Zinc sulfate and heparin for local therapy of herpes. Antiherpetic drugs, not leading to selection of HSV variants]. 760 98

We have examined the biophysical properties of DNA polymerase beta (beta-pol) in solution. Time-resolved and steady-state fluorescence were used to investigate the microenvironment of the lone tryptophanyl residue (Trp324), and a combination of sedimentation equilibrium, sedimentation velocity and fluorescence anisotropy decay measurements were used to study the hydrodynamic properties of the enzyme. Trp324 appears to be exposed to water as judged by the tryptophan emission and steady-state and lifetime quenching experiments. The fluorescence is easily quenched by a neutral quencher acrylamide (kq = 1.59 x 10(9)M-1S-1), and by a negatively charged ionic quencher, I- (kq = 1.60 x 10(9) M-1S-1), but not by a positively charged ionic quencher, Cs+ (kq = 0.2 x 10(9) M-1S-1). The fluorescence lifetime of beta-pol is best described by the sum of two exponentials with a longer lifetime component of 8.4 ns and a shorter lifetime component of 1.3 ns. Decay associated spectra (DAS) show emission maxima at 340 nm and at 345 nm for the shorter lifetime and longer lifetime components, respectively, with corresponding centers of gravity at 347 nm and 348 nm. Sedimentation equilibrium experiments show that the enzyme exists as a monomer at the KCl concentrations (> 0.05 M) studied in the absence of divalent metals. Zn2+ causes higher order aggregation, but no such aggregates are seen with Mg2+ and Mn2+. In the presence of 1 mM manganese, the average lifetime decreased approximately 10%, from 8.14 ns to 7.38 ns, with a concomitant increase of average rotational correlational time (phi) from 24 ns to 28 ns. The accessibility of the positively charged quencher (Cs+) to tryptophan also decreases approximately 50%, indicating alteration of the tryptophan microenvironment. By contrast, Mg2+ causes minor changes in fluorescence properties. The hydrodynamic shape of the intact enzyme and its single-stranded (8 kDa) and double-stranded (31 kDa) DNA binding domains were further investigated by sedimentation velocity measurements. The value of S0(20),W for the intact enzyme is 2.97 S, and the calculated axial ratio is 5.0. In contrast to the 8 kDa domain, which has a less asymmetric shape with an axial ratio of 2.3, the 31 kDa domain shows an elongated structure with an axial ratio of 5.5. These data suggest that the axial ratio of the intact enzyme may be the result of marked bending of the molecule at the flexible hinge region between the two domains.
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PMID:Characterization of the tryptophan fluorescence and hydrodynamic properties of rat DNA polymerase beta. 796 32

Human terminal deoxynucleotidyl transferase (TdT) was overexpressed in a baculovirus system. The pure recombinant enzyme was identical in size, activity, kinetic constants, and metal effects to native enzyme. Three amino acids, within either the putative nucleotide binding domain and part of a DNA polymerase consensus sequence, YGDTDSLF, or a TdT consensus sequence, GGFRRGK, were altered by site-directed mutagenesis. The four mutant forms of terminal transferase were also overexpressed in the baculovirus expression system and purified from Trichoplusia ni larvae by a monoclonal antibody affinity column and compared with wild-type enzyme with respect to thermostabilities, secondary structure, metal effects, and kinetic parameters. Three of the four mutants retained 3-16% of wild-type activity under varying metal conditions, and one of the mutants, D343E, consistently exhibited less than 0.2% of wild-type TdT activity with dATP and no activity with dGTP. All mutants had alterations in the Km for dATP. Variations in Km for dGTP were not as consistent. The Km for the other substrate, DNA initiator (dA)50) in the presence of dATP remained essentially the same as that of wild-type TdT for all mutants except D343E. The enzyme activity of all mutants was stimulated by Zn2+ at low concentrations, and this effect was diminished and reversed at higher concentrations of ZnSO4. All mutants still retained significant amounts of the secondary structure as measured by circular dichroism. These results indicated that the aspartic acid residue at position 343 is located at or near the active site and is critical for the nucleotide binding and catalytic activity.
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PMID:Mutational analysis of residues in the nucleotide binding domain of human terminal deoxynucleotidyl transferase. 816 85

The PriA replication protein of Escherichia coli guides the ordered assembly of the primosome, the mobile, multiprotein, bidirectional, DNA replication priming/helicase complex of which it is an integral part. Although the PriA protein is not essential for viability, primosome assembly via a PriA-dependent pathway is required for normal cellular replication and growth. The PriA protein itself is multifunctional. In addition to its role in directing primosome assembly, PriA is a site-specific, single-stranded DNA-dependent ATPase (dATPase) and a 3'-->5' DNA translocase and helicase. In an attempt to assess how each individual PriA activity is related to the others (i.e. can one activity function independently of the others or are they intrinsically coupled?), a series of site-directed mutations within priA have been created. priA encodes a cysteine-rich motif, the sequence of which suggests that this region of the protein may be involved in metal binding. Biochemical characterization of three purified cysteine to glycine substitution mutant PriA proteins revealed that these mutant proteins retained their site-specific single-stranded DNA-dependent ATPase activity. However, two of the three mutant proteins were completely incapable of any helicase activity. Residual helicase activity of the third mutant PriA protein could be stimulated 3-fold by the presence of low concentrations of Zn2+ ions. Primosomes assembled with the mutant PriA proteins were also defective in both their ability to act as bidirectional helicase complexes, as well as their ability to synthesize primers for extension by the DNA polymerase III holoenzyme. The results presented here suggest that the cysteine-rich region of PriA is indeed involved in metal binding and that single cysteine to glycine substitutions within this region result in the uncoupling of the ATPase activity of PriA from both its helicase activity and its ability to interact correctly with the DNA template and the six other primosomal proteins.
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PMID:Helicase-deficient cysteine to glycine substitution mutants of Escherichia coli replication protein PriA retain single-stranded DNA-dependent ATPase activity. Zn2+ stimulation of mutant PriA helicase and primosome assembly activities. 844 Jul 19

Analysis of 94 kb of DNA, located between map positions 88 and 182 kb in the 330-kb chlorella virus PBCV-1 genome, revealed 195 open reading frames (ORFs) 65 codons or longer. One hundred and five of the 195 ORFs were considered major ORFs. Twenty-six of the 105 major ORFs resembled genes in the databases including three chitinases, a chitosanase, three serine/threonine protein kinases, two additional protein kinases, a tyrosine protein phosphatase, two ankyrins, an ornithine decarboxylase, a copper/zinc-superoxide dismutase, a proliferating cell nuclear antigen, a DNA polymerase, a fibronectin-binding protein, the yeast Ski2 protein, an adenine DNA methyltransferase and its corresponding DNA site-specific endonuclease, and an amidase. The genes for the 105 major ORFs were evenly distributed along the genome and, except for one noncoding 1788-nucleotide stretch, the genes were close together. Unexpectedly, a 900-bp region in the 1788-bp noncoding sequence resembled a CpG island.
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PMID:Analysis of 94 kb of the chlorella virus PBCV-1 330-kb genome: map positions 88 to 182. 861 77

Replication protein A (RPA), also known as human single-stranded DNA-binding protein, is a three-subunit protein complex with multiple functions. Here, we investigated the role of the 70-kDa RPA subunit (p70) in DNA replication, by generating a series of deletion mutants. Mutant p70, which lacked 50 amino acids at the C-terminus, failed to interact with the 11-kDa RPA subunit (p11) and, when deleted further at the C terminus, was unable to interact with either the 34-kDa subunit (p34) or with p11, suggesting that p70 directly interacts with both p34 and p11. Studies with purified RPA mutants indicated that deletions at the N-terminal domain of p70 had very little effect on RPA's single-stranded DNA (ssDNA) binding activity, whereas deletion of amino acids 169-246 significantly weakened the DNA binding ability of RPA. By deleting amino acids 296-373 or 374-458, we totally abolished p70's ssDNA binding activity, suggesting that multiple p70 domains are involved in DNA binding. Two p70 domains, the N-terminal domain and the DNA binding domain, were required to stimulate DNA polymerase (pol) alpha, yet the DNA binding domain alone supported pol delta activity. Interestingly, RPA containing p70 with a zinc-finger domain deletion retained its DNA binding activity, but inhibited pol alpha and delta activity. RPA that lacked ssDNA binding activity failed to support simian virus 40 (SV40) DNA replication in vitro, whereas mutant RPA that lacked pol alpha stimulatory activity (including the zinc-finger p70 mutant) functioned normally. We conclude that RPA's DNA binding activity, but not its pol alpha stimulatory activity, is required for DNA replication.
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PMID:Role of the 70-kDa subunit of human replication protein A (I). Single-stranded dna binding activity, but not polymerase stimulatory activity, is required for DNA replication. 866 11

We report the crystal structure of an NH2-terminal 388-residue fragment of T4 DNA polymerase (protein N388) refined at 2.2 A resolution. This fragment contains both the 3'-5' exonuclease active site and part of the autologous mRNA binding site (J. D. Karam, personal communication). The structure of a complex between the apoprotein N388 and a substrate, p(dT)3, has been refined at 2.5 A resolution to a crystallographic R-factor of 18.7%. Two divalent metal ion cofactors, Zn(II) and Mn(II), have been located in crystals of protein N388 which had been soaked in solutions containing Zn(II), Mn(II), or both. The structure of the 3'-5' exonuclease domain of protein N388 closely resembles the corresponding region in the Klenow fragment despite minimal sequence identity. The side chains of four carboxylate residues that serve as ligands for the two metal ions required for catalysis are located in geometrically equivalent positions in both proteins with a rms deviation of 0.87 A. There are two main differences between the 3'-5' exonuclease active site regions of the two proteins: (I) the OH of Tyr-497 in the Klenow fragment interacts with the scissile phosphate in the active site whereas the OH of the equivalent tyrosine (Tyr-320) in protein N388 points away from the active center; (II) different residues form of the binding pocket for the 3'-terminal bases of the substrate. In the protein N388 complex the 3'-terminal base of p(dT)3 is rotated approximately 60 degrees relative to the position that the corresponding base occupies in the p(dT)3 complex with the Klenow fragment. Finally, a separate domain (residues 1-96) of protein N388 may be involved in mRNA binding that results in translational regulation of T4 DNA polymerase (Pavlov & Karam, 1994).
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PMID:Crystal structures of an NH2-terminal fragment of T4 DNA polymerase and its complexes with single-stranded DNA and with divalent metal ions. 867 62

When crystals of human DNA polymerase beta (pol beta) complexed with DNA [Pelletier, H., Sawaya, M. R., Wolfle, W., Wilson, S. H., & Kraut, J. (1996) Biochemistry 35, 12742-12761] are soaked in the presence of dATP and Mn2+, X-ray structural analysis shows that nucleotidyl transfer to the primer 3'-OH takes place directly in the crystals, even though the DNA is blunt-ended at the active site. Under similar crystal-soaking conditions, there is no evidence for a reaction when Mn2+ is replaced by Mg2+, which is thought to be the divalent metal ion utilized by most polymerases in vivo. These results suggest that one way Mn2+ may manifest its mutagenic effect on polymerases is by promoting greater reactivity than Mg2+ at the catalytic site, thereby allowing the nucleotidyl transfer reaction to take place with little or no regard to instructions from a template. Non-template-directed nucleotidyl transfer is also observed when pol beta-DNA cocrystals are soaked in the presence of dATP and Zn2+, but the reaction products differ in that the sugar moiety of the incorporated nucleotide appears distorted or otherwise cleaved, in agreement with reports that Zn2+ may act as a polymerase inhibitor rather than as a mutagen [Sirover, M. A., & Loeb, L. A. (1976) Science 194, 1434-1436]. Although no reaction is observed when crystals are soaked in the presence of dATP and other metal ions such as Ca2+, Co2+, Cr3+, or Ni2+, X-ray structural analyses show that these metal ions coordinate the triphosphate moiety of the nucleotide in a manner that differs from that observed with Mg2+. In addition, all metal ions tested, with the exception of Mg2+, promote a change in the side-chain position of aspartic acid 192, which is one of three highly conserved active-site carboxylate residues. Soaking experiments with nucleotides other than dATP (namely, dCTP, dGTP, dTTP, ATP, ddATP, ddCTP, AZT-TP, and dATP alpha S) reveal a non-base-specific binding site on pol beta for the triphosphate and sugar moieties of a nucleotide, suggesting a possible mechanism for nucleotide selectivity whereby triphosphate-sugar binding precedes a check for correct base pairing with the template.
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PMID:A structural basis for metal ion mutagenicity and nucleotide selectivity in human DNA polymerase beta. 884 Nov 19

The 63-kDa gene 4 primase of bacteriophage T7 recognizes a core trinucleotide sequence, 5'-GTC-3', on single-stranded DNA at which it catalyzes the synthesis of the ribodinucleotide pppAC. The dinucleotide is extended to a tetranucleotide primer at the sites 5'-(G/T)GGTC-3' and 5'-GTGTC-3'. In the presence of T7 primase, T7 DNA polymerase extends the synthetic ribotetranucleotide pACCA (1 microM), but not pCACA, on M13 DNA templates. The reaction is specific for T7 DNA polymerase and depends on dTTP and translocation of the gene 4 protein. T7 primase extends the dinucleotide AC and trinucleotide ACC to ACCC in the presence of CTP and an appropriate template, whereas other dinucleotides are extended less efficiently; the deoxyribodinucleotide dAC is not extended. The Cys4 zinc motif of the primase is essential for extension of the dinucleotides. The 5'-cryptic cytidine of the recognition sequence is essential for extension of the dinucleotide AC to tri- and tetranucleotides. At a preformed replication fork, the dinucleotide AC provides for primer synthesis on the lagging strand. The synthesis of all Okazaki fragments is initiated by primers arising from the recognition sequence 5'-GGGTC-3'; none arise at an adjacent 5'-GGGTT-3' sequence. If ADP or AMP replaces ATP in the primase reaction, primers terminating in di- or monophosphate, respectively, are synthesized.
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PMID:Gene 4 DNA primase of bacteriophage T7 mediates the annealing and extension of ribo-oligonucleotides at primase recognition sites. 913 92

We have constructed a plasmid that induces in bacteria the synthesis of an enzymically active reverse transcriptase (RT) of mouse mammary tumour virus (MMTV), a retrovirus with a typical B-type morphology. The highest catalytic activity was detected only when 27 residues from the C-terminus of the protease were included in the N-terminus of the recombinant RT, after an extra deoxyadenosine was added between the pro and pol genes to overcome the -1 frameshift event (which occurs naturally in virus-infected cells). The recombinant protein with a six-histidine tag was purified to homogeneity by a two-column purification procedure, Ni2+ nitriloacetic acid/agarose followed by carboxymethyl-Sepharose chromatography. Unlike most RTs, the purified MMTV RT is enzymically active as a monomer even after binding a DNA substrate. Like all RTs studied, the recombinant MMTV RT possesses RNA-dependent and DNA-dependent DNA polymerase activities as well as RNase H activity, all of which show a preference for Mg2+ over Mn2+ ions. Other features of these enzymic activities, such as extension of DNA primers, processivity of DNA synthesis, pH dependence, steady-state kinetic constants, effects of Na+ or K+ ions and sensitivity to a thiol-specific reagent and to a zinc chelator, have been evaluated. The catalytic properties of MMTV RT were compared with those of the well-studied RT of HIV-1, the causative agent of AIDS. Interestingly, MMTV RT exhibits a high sensitivity to nucleoside triphosphate analogues (which are known to be potent inhibitors of HIV RTs and are being used as the major anti-AIDS drugs), as high as that of HIV-1 and HIV-2 RTs. Furthermore the recombinant MMTV RT shows a processivity of DNA synthesis higher than that of HIV-1 RT.
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PMID:Reverse transcriptase of mouse mammary tumour virus: expression in bacteria, purification and biochemical characterization. 944 85


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