Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.6.1.25 (triphosphatase)
 1,529 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A recombinant herpes simplex 1 origin binding protein, the product of the herpes UL9 gene, has been overexpressed in mammalian cells and purified to near homogeneity. The origin binding protein shows DNA-dependent nucleoside 5'-triphosphatase and DNA helicase activities in addition to its origin binding activity. The ability to hydrolyze nucleoside 5'-triphosphates is influenced strongly by the structure and sequence of the DNA cofactor. The properties of the recombinant origin binding protein are identical to those of the protein synthesized in herpes simplex 1-infected mammalian cells.
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PMID:The herpes simplex virus 1 origin binding protein: a DNA helicase. 184 32

Nuclei from baby hamster kidney cells infected with herpes simplex virus type 1 contain a virus-specific deoxyribonucleoside triphosphate degrading activity. The reaction proceeds at 4 degrees C and can thus be distinguished from host enzymes. Under these conditions the enzyme is specific for deoxyribopyrimide triphosphates and catalyzes pyrophosphate cleavage to produce the monophosphates, dUTP being the best substrate followed by dCTP and dTTP. The appearance of the activity after infection parallels that of viral DNA-synthesis-related functions. Of a series of eight temperature-sensitive mutants tested, two (tsD and tsK) exhibit significantly decreased triphosphatase levels after infection at nonpermissive temperature, whereas a viral deoxypyrimidine kinase-deficient mutant induced wild-type levels.
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PMID:Deoxyribopyrimidine triphosphatase activity specific for cells infected with herpes simplex virus type 1. 610 41

Infection of cells with herpes simplex virus type 1 (HSV-1) induces high levels of deoxypyrimidine triphosphatase. The majority of the enzyme activity is found in infected cell nuclei. A similar activity is induced by HSV type 2 (HSV-2) which, in contrast to the HSV-1 enzyme, fractionates to more than 99% in the soluble cytoplasmic extract. Of a series of temperature-sensitive mutants of HSV-1 studied, only the immediate-early mutants in complementation group 1-2 (strain 17 mutants tsD and tsK and strain KOS mutant tsB2) induced reduced levels of triphosphatase at nonpermissive temperature. Of a series of temperature-sensitive mutants of HSV-2 strain HG52, ts9 and ts13 failed to induce wild-type levels of the enzyme at nonpermissive temperature; ts9 was the most defective mutant with regard to triphosphatase expression of both herpes simplex virus serotypes. After shift-up from permissive to nonpermissive temperature, triphosphatase activity in cells infected with ts9 decreased rapidly, whereas all other mutants continued to exhibit enzyme levels comparable with controls kept at the permissive temperature. The type 1-specific nuclear expression of the triphosphatase was mapped physically by the use of HSV-1 x HSV-2 intertypic recombinants, based on enzyme levels different by more than two orders of magnitude found in nuclei of HSV-1- and HSV-2-infected cells. The locus for the type-specific expression maps between 0.67 and 0.68 fractional length on the HSV genome.
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PMID:Control of expression of the herpes simplex virus-induced deoxypyrimidine triphosphatase in cells infected with mutants of herpes simplex virus types 1 and 2 and intertypic recombinants. 612 30

In a blind study, 21 clinical isolates of herpes simplex virus which had been typed using differential growth on guinea pig embryo versus chicken embryo cells were tested for the presence of the viral deoxyribopyrimidine triphosphatase. In all isolates of type 1, the triphosphatase was present in the nuclei of the infected cells, while none of the HSV-2 isolates induced a nuclear enzyme. In all isolates there was a complete correlation between the presence of nuclear deoxyribopyrimidine triphosphatase and sensitivity to 0.7 microgram/ml of E-5-(2-bromovinyl)-2'-deoxyuridine. The study suggests that the type-specific distribution of the triphosphatase is of general validity, including clinical isolates of herpes simplex virus, and could be used as a type-specific enzyme marker.
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PMID:Induction of nuclear deoxyribopyrimidine triphosphatase and sensitivity of clinical isolates of herpes simplex virus to (E)-5-(2-bromovinyl)-2'-deoxyuridine. 613 91

The herpes simplex virus type 1 (HSV) UL5, UL8, and UL52 proteins form a helicase-primase complex in infected cells. Several laboratories have demonstrated that helicase and nucleoside triphosphatase activities of the heterotrimer (UL5/8/52) are indistinguishable from that of a subassembly of UL5 and UL52 (UL5/52). Although the UL5/52 subassembly functions in coupled primase-polymerase assays on homopolymeric templates, its activity on natural DNA templates has been reported to require UL8. To determine the role of UL8 in primase assays, the activity of the UL5/52 subassembly was compared to that of the heterotrimer reconstituted by adding UL8 to UL5/52. We detected significant activity of the UL5/52 subassembly in coupled primase-polymerase and oligoribonucleotide primer synthesis assays on phi X174 and M13 virion DNAs. However the addition of UL8 to UL5/52 stimulated this activity in a dose-dependent manner. We demonstrate that stimulation occurred at the level of primer synthesis. UL8 did not affect the amount or size of primers annealed to template, their utilization by DNA polymerase, or the use of specific initiation sites within the template. In kinetic studies, the rate of primer synthesis was increased by UL8 but the Km for phi X174 DNA template was unchanged. These results suggest that a function of the UL8 component of the HSV helicase-primase complex is to increase the efficiency of primer synthesis by UL5/52.
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PMID:The UL8 component of the herpes simplex virus helicase-primase complex stimulates primer synthesis by a subassembly of the UL5 and UL52 components. 810 78

A recombinant baculovirus overexpressing the herpes simplex virus type 1 (HSV-1) origin binding protein, encoded by the UL9 gene, was constructed. The purified recombinant protein has DNA-dependent nucleoside triphosphatase activity similar to the enzyme isolated from mammalian cells. Optimal nucleoside triphosphatase activity requires low salt (< 50 mM), 2-3 mM Mg2+, alkaline pH (8.3-9.5), high temperature (45 degrees C), and a single-stranded DNA coeffector containing minimal secondary structure. Enzymatic activity is subject to product inhibition, and there appears to be a single nucleotide binding site. The minimal length of single-stranded DNA that elicits enzymatic activity is 14 nucleotides, and activity increases as the length is increased. Saturation for various single-stranded DNA coeffectors is about 10 microM in nucleotide, but the maximum velocity is reduced 2-3-fold for coeffectors containing secondary structure. The HSV-1-encoded single-stranded DNA-binding protein ICP8 specifically stimulates the DNA-dependent nucleoside triphosphatase activity. The kinetics of nucleoside triphosphate hydrolysis exhibit a substantial lag period which can be shortened, but not eliminated, by reduced secondary structure in the DNA coeffector or by increased temperature.
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PMID:The herpes simplex virus type I origin binding protein. DNA-dependent nucleoside triphosphatase activity. 838 Apr 7

The herpes simplex virus type-1 DNA helicase-primase is a heterotrimer encoded by the UL5, UL8, and UL52 genes. The core enzyme, specified by the UL5 and UL52 genes, retains DNA helicase, DNA-dependent nucleoside triphosphatase, and primase activities. The UL8 subunit has previously been implicated in increasing primer stability and in stimulating primer synthesis by the core enzyme. To further characterize the function of the UL8 subunit, we have examined its effect on the activities of the UL5/52 core enzyme using DNA templates covered by the herpes simplex virus type-1 single-strand DNA-binding protein ICP8. We found that while ICP8 stimulated the DNA helicase activity of the UL5/52 proteins up to 3-fold, maximum stimulation by ICP8 required the presence of UL8 protein. Moreover, UL8 protein was required to reverse the inhibitory effect of ICP8 on the DNA-dependent ATPase and primase activities of the UL5/52 proteins. These observations were specific for ICP8 since the heterologous Escherichia coli single-strand DNA-binding protein could not substitute for ICP8. These data suggest that UL8 protein mediates an interaction between the UL5/52 core enzyme and ICP8 that optimizes the utilization of ICP8-covered DNA templates during DNA replication.
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PMID:The UL8 subunit of the herpes simplex virus type-1 DNA helicase-primase optimizes utilization of DNA templates covered by the homologous single-strand DNA-binding protein ICP8. 870 53

The UL5, UL8, and UL52 genes of herpes simplex virus type 1 encode a multisubunit assembly that possesses primase, DNA helicase, and DNA-dependent nucleoside triphosphatase activities. A subassembly consisting of the UL5 and UL52 gene products retains these activities. The nucleoside triphosphatase activity of the UL5/UL52 subassembly is strongly stimulated by both homo- and heteropolymeric single-stranded DNA. Double-stranded DNA has little ability to stimulate the ATPase activity. The subassembly binds both double and single-stranded DNA. Nucleotides are not required for DNA-binding. The minimum length of single-stranded DNA that is bound and that stimulates enzymatic activity is about 12 nucleotides. The kinetic parameters of the ATPase activity of the subassembly are affected by the length of the oligonucleotide coeffector. The Km decreases as the coeffector length is increased up to a length of about 20 nucleotides and then remains independent of coeffector length. The first order rate constant for ATPase activity exhibits a quasihyperbolic dependence on the length of the DNA coeffector and is maximal for coeffectors of 20 nucleotides and longer.
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PMID:Interactions of a subassembly of the herpes simplex virus type 1 helicase-primase with DNA. 901 84