EC:3.6.1.25 - FACTA Search

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)

Sedimentation and high performance liquid chromatography studies show that the functional DNA replication helicase of bacteriophage T4 (gp41) exists primarily as a dimer at physiological protein concentrations, assembling from gp41 monomers with an association constant of approximately 10(6) M-1. Cryoelectron microscopy, analytical ultracentrifugation, and protein-protein cross-linking studies demonstrate that the binding of ATP or GTP drives the assembly of these dimers into monodisperse hexameric complexes, which redissociate following depletion of the purine nucleotide triphosphatase (PuTP) substrates by the DNA-stimulated PuTPase activity of the helicase. The hexameric state of gp41 can be stabilized for detailed study by the addition of the nonhydrolyzable PuTP analogs ATP gamma S and GTP gamma S and is not significantly affected by the presence of ADP, GDP, or single-stranded or forked DNA template constructs, although some structural details of the hexameric complex may be altered by DNA binding. Our results also indicate that the active gp41 helicase exists as a hexagonal trimer of asymmetric dimers, and that the hexamer is probably characterized by D3 symmetry. The assembly pathway of the gp41 helicase has been analyzed, and its structure and properties compared with those of other helicases involved in a variety of cellular processes. Functional implications of such structural organization are also considered.
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PMID:The phage T4-coded DNA replication helicase (gp41) forms a hexamer upon activation by nucleoside triphosphate. 770 92

The pestivirus bovine viral diarrhea virus (BVDV) p80 protein (referred to here as the NS3 protein) contains amino acid sequence motifs predictive of three enzymatic activities: serine proteinase, nucleoside triphosphatase, and RNA helicase. We have previously demonstrated that the former two enzymatic activities are associated with this protein. Here, we show that a purified recombinant BVDV NS3 protein derived from baculovirus-infected insect cells possesses RNA helicase activity. BVDV NS3 RNA helicase activity was specifically inhibited by monoclonal antibodies to the p80 protein. The activity was dependent on the presence of nucleoside triphosphate and divalent cation, with a preference for ATP and Mn2+. Hydrolysis of the nucleoside triphosphate was necessary for strand displacement. The helicase activity required substrates with an un-base-paired region on the template strand 3' of the duplex region. As few as three un-base-paired nucleotides were sufficient for efficient oligonucleotide displacement. However, the enzyme did not act on substrates having a single-stranded region only to the 5' end of the duplex or on substrates lacking single-stranded regions altogether (blunt-ended duplex substrates), suggesting that the directionality of the BVDV RNA helicase was 3' to 5' with respect to the template strand. The BVDV helicase activity was able to displace both RNA and DNA oligonucleotides from RNA template strands but was unable to release oligonucleotides from DNA templates. The possible role of this activity in pestivirus replication is discussed.
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PMID:Pestivirus NS3 (p80) protein possesses RNA helicase activity. 785 9

TrwC is an essential protein in conjugative DNA transfer of the broad-host-range plasmid R388. TrwC was purified in two chromatographic steps from TrwC-overproducing bacteria. The purification procedure resulted in > 90% pure TrwC protein, which was free of contaminating nuclease activities. TrwC behaved as a dimer in gel-filtration chromatography in the presence of 550 mM NaCl, and had a pI of 10.1. The purified protein showed in-vitro ssDNA-dependent nucleoside-5'-triphosphatase and DNA helicase activities. ATP was the preferred substrate for the NTP hydrolysis reaction, which required Mg2+. The helicase activity was dependent on ATP and Mg2+. The efficiency of the unwinding reaction catalyzed by TrwC ranged from > 90% of fragment displaced for a 93-nucleotide sequence to < 5% for a 365-nucleotide sequence. Unwinding was unidirectional in the 5' to 3' direction. The enzyme turned over very slowly from one DNA substrate molecule to another. TrwC is only the second DNA helicase to be described which is involved in conjugative DNA transfer. The biochemical properties of TrwC described here confirm its functional relatedness to helicase I (TraI) encoded by plasmid F of E. coli.
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PMID:Purification and biochemical characterization of TrwC, the helicase involved in plasmid R388 conjugal DNA transfer. 800 58

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

The genome of flaviviruses consists of an infectious single-stranded RNA molecule which contains a type 1 cap structure at the 5'-terminus. The cap is synthesized by RNA triphosphatase, guanylyltransferase and methyltransferase. Since flaviviruses replicate in the cytoplasm, it can be assumed that these functions are performed by virus-coded proteins. We previously showed that subtilisin treatment of membranes isolated from cells infected with the West Nile flavivirus results in release of a 50 kDa molecular weight fragment of the viral nonstructural protein NS 3. This so-called p50-S protein contains the residue gly (168) of NS 3 at the amino-terminus and represents an RNA-stimulated NTPase. In the present report we present experimental evidence which indicates that the p50-S protein also contains the active site of an RNA triphosphatase. The activity specifically cleaves the beta,gamma-triphosphate bond at the 5'-terminus of RNA. The localization of NS 3 protein sequence elements with known functions indicates that this multifunctional protein contains a protease in the amino-terminal part, a helicase in the central region and the RNA triphosphatase in the carboxy-terminal domain. An amino acid sequence element which may be involved in recognition of the 5'-terminal RNA triphosphate is tentatively identified. A homologous element may be present in the vaccinia virus-coded RNA triphosphatase.
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PMID:The NS 3 nonstructural protein of flaviviruses contains an RNA triphosphatase activity. 821 62

Poliovirus protein 2C belongs to an expanding group of proteins containing a nucleotide binding motif in their sequence. We present evidence that poliovirus 2C has nucleoside triphosphatase (NTPase) activity and binds to RNA. Poliovirus 2C was expressed in Escherichia coli cells as a fusion protein with the maltose binding protein (MBP). The fusion protein MBP-2C is efficiently cut by protease Xa within the 2C region. Thus, the fusion protein as such was used to assay for the putative activities of poliovirus 2C. Deletion mutants were constructed which lacked different portions of the 2C carboxyl terminus: mutant 2C delta 1 lacked the last 169 amino acids, whereas mutant 2C delta 2 had the last 74 amino acids deleted. The fusion proteins MBP-2C, MBP-2BC, and the mutant MBP-2C delta 2 that contained the first 255 amino acids of 2C had NTPase activity. Both ATPase and GTPase activities are inhibited by antibodies directed against the MBP-2C protein. Analysis of the ability of the different proteins to bind to labeled RNA indicates that MBP-2C and MBP-2BC form a complex, whereas none of the mutants interacted with RNA, indicating that the RNA binding domain lies beyond amino acid 255. None of the fusion proteins had detectable helicase activity. We suggest that poliovirus protein 2C shows similarities to the GTPases group involved in vesicular traffic and transports the viral RNA replication complexes. These results provide the first experimental evidence that poliovirus protein 2C is an NTPase and that this protein has affinity for nucleic acids.
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PMID:Poliovirus protein 2C has ATPase and GTPase activities. 838 38

Nucleotide sequencing of the right end of the SalIj fragment of the highly virulent Malawi Lil20/1 strain of African swine fever virus (ASFV) has revealed three adjacent genes with similarity to: serine-threonine protein kinases; members of the putative helicase superfamily SF2; and the vaccinia virus 56 kDa abortive late protein. All three genes are transcribed to the left with respect to the orientation of the ASFV genome. Gene L19IL predicts a protein similar to serine-threonine protein kinases including vaccinia virus gene B1R. Gene L19KL predicts a protein that is likely to be a nucleic acid-dependent ATPase, as it has similarity to both the poxvirus 70 kDa early transcription factor subunit and the poxvirus nucleoside triphosphatase I gene. Gene L19LL has extensive similarity to the vaccinia virus 56 kDa abortive late protein.
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PMID:Three adjacent genes of African swine fever virus with similarity to essential poxvirus genes. 839 1

The replicative proteins of Rubella virus are generated from a polyprotein that is translated from the 5'-terminal segment of the viral genome. The determination of the genome sequence and the description of amino acid sequence motifs which are proposed to be characteristic for helicase proteins have indicated that the polyprotein region located between amino acid residues 1300 and 1600 represents the Rubella virus helicase. We have expressed a segment comprising the sequences between the amino acid residues A (1225) and R (1664) as part of a glutathione S-transferase fusion protein in Escherichia coli. We show that this protein contains a nucleoside triphosphatase activity which hydrolyses all eight ribonucleoside- and deoxyribonucleoside triphosphates. The activity of the protein, determined by ATP hydrolysis, was influenced by the presence of single-stranded RNA; it was stimulated about 1.7 fold in the presence of poly(U), poly(C), or poly(dT) and inhibited to half its activity in the presence of poly(G). These functions represent characteristic helicase partial functions and provide experimental support for the predicted localization of the helicase in the nonstructural polyprotein.
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PMID:Identification of an RNA-stimulated NTPase in the predicted helicase sequence of the Rubella virus nonstructural polyprotein. 859 24

The gene 4 protein of bacteriophage T7 provides the essential helicase and primase activities for the replication of the T7 genome. In addition, it also displays a DNA-dependent deoxyribonucleoside triphosphatase activity, the preferred substrate of which is dTTP. Previous investigations have demonstrated that the translocation of the gene 4 protein along single-stranded DNA is blocked by the presence of benzo[a]pyrene-DNA adducts and that the gene 4 protein is likely to be sequestered at the sites of these adducts. In the present study, we directly show that the helicase activity of the gene 4 protein is also profoundly inhibited by the benzo[a]pyrene-DNA adducts. The inhibitory effects of these adducts are strand-specific in that they block the DNA helicase activity of the gene 4 protein only when they are located in the DNA strand where the gene 4 protein translocates when it unwinds double-stranded DNA. Consistent with the hypothesis that the gene 4 protein is sequestered at the adduct site, we also show that the complexes formed by the gene 4 protein and benzo[a]pyrene-modified DNA are far more stable than those formed by the gene 4 protein and unmodified DNA.
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PMID:Benzo[a]pyrene-DNA adducts inhibit the DNA helicase activity of the bacteriophage T7 gene 4 protein. 892 89

The NS3 protein of flaviviruses is a multifunctional polypeptide required for virus replication. Enzymic activities that have been demonstrated or predicted from the presence of sequence motifs include protease, NTPase, helicase and RNA triphosphatase. Both full-length and truncated forms of NS3 have been identified in infected cells. To examine internal cleavage of the NS3 protein of dengue virus 2 (DEN-2), infected cells or COS cells transfected with cDNA encoding NS2B/3 were radiolabelled and immunoprecipitated with antiserum against NS3 or hyperimmune mouse ascitic fluid. The polypeptides detected were NS2B/3 (Mr 83000), NS3 (Mr 69000), NS3' (Mr 50000) and NS3" (Mr 19000). The latter polypeptide has not been previously identified. For DEN-2, it has been proposed that NS3' results from cleavage at the site ...R457R / GR460... within an RNA helicase sequence motif of NS3. Our results demonstrated that cleavage occurred at this site, and that prior cleavage between NS2B/NS3 was not necessary.
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PMID:Internal proteolysis of the NS3 protein specified by dengue virus 2. 901 55

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