EC:3.6.1.3 - FACTA Search

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Query: EC:3.6.1.3 (ATPase)
65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The 66-kDa cytoplasmic inclusion protein of tamarillo mosaic potyvirus was purified to near homogeneity using organic solvent clarification, differential centrifugation and sucrose density gradient centrifugation. ATPase and GTPase activities were shown to co-purify with the 66-kDa protein. ATPase activity was stimulated up to fivefold in the presence of 20 microM poly(A). The Km value for ATP hydrolysis (18 microM), was minimally affected upon addition of poly(A). In contrast, the Vmax value for ATP hydrolysis was increased fivefold by the addition of poly(A). Binding of RNA by the cytoplasmic inclusion protein was demonstrated by gel electrophoresis of ultraviolet cross-linked enzyme-RNA complexes. In the absence of added NTP, complexes between the cytoplasmic inclusion protein and single-stranded RNA species formed rapidly in the pH range 3-7, but not at pH 8 or 9. Binding to single-stranded RNA was markedly decreased by the addition of NaCl (10 mM), suggesting a weak association between RNA and enzyme. The cytoplasmic inclusion protein bound single-stranded RNA or partially double-stranded RNA duplexes with single-stranded overhangs of 35 bases and 81 bases, respectively, but did not bind 16-bp blunt-ended double-stranded RNA. RNA binding occurred in the absence of NTP (ATP, GTP, CTP or UTP), whereas dissociation of bound RNA occurred only in the presence of NTP. RNA duplex unwinding (helicase) activity of the enzyme was demonstrated in the presence of any of the above four NTPs using partially double-stranded RNA duplexes with 3' single-stranded overhangs. We propose that the cytoplasmic inclusion protein of tamarillo mosaic virus is an RNA helicase, which translocates in the 3' to 5' direction in an energy-dependent manner, unwinding double-stranded regions.
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PMID:Characterization of NTPase, RNA-binding and RNA-helicase activities of the cytoplasmic inclusion protein of tamarillo mosaic potyvirus. 792 84

80 S ribosomes from a number of higher eukaryotic organisms are able to hydrolyse ATP and GTP without the addition of soluble protein factors. ATPase seems to be an intrinsic activity of the ribosome, as indicated by the findings that ATPase activity is not diminished upon dissociation of ribosomes and reassociation of subunits, by washing with 0.66 M (KCl + NH4Cl) or 0.6 M LiCl treatment and ethanol precipitation; 1.5 M LiCl treatment removes only 40% ATPase activity. 80 S ribosomes are able to bind a variety of NTPs, NDPs and NTP analogues, with a preference for ATP. Effective inhibitors of the ribosomal ATPase are ammonium metavanadate and alcaloid emetine. The ATPase activity is present on both ribosomal subunits, which may reflect the existence of two catalytical sites for ATP on the 80 S ribosome. Ribosomal ATPase is stimulated by the occupancy of the A site, in particular with charged tRNA. The ATPase inhibitor adenylylimidodiphosphate almost completely prevents elongation-factor(EF)-1-dependent binding of Phe-tRNA(Phe) to the A site. The hydrolysis of ATP, therefore, is likely to be involved in the mechanism of tRNA binding to the A site of the 80 S ribosome. As far as wide substrate specificity and possible participation in tRNA interaction with the ribosome are concerned, the ribosomal ATPase seems to be similar to EF-3 found in fungi. A synergism in ATPase activities of yeast EF-3 and rabbit liver ribosomes at high ATP concentration and certain ribosome/EF-3 ratios have been observed. Rabbit liver ribosomes seem to stimulate the ATPase activity of yeast EF-3 similar to the mechanism in yeast ribosomes, though less efficiently.
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PMID:ATPase strongly bound to higher eukaryotic ribosomes. 792 50

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 NS-1 protein of minute virus of mice (MVM) is required for viral DNA replication and transcriptional regulation. To define the domain structure of NS-1, we have generated point mutations in its putative NTP-binding/ATPase domain. We show that all mutants were unable to support replication of MVM DNA in a transient DNA replication assay. Furthermore, all mutants, except for the K405S substitution, were able to transactivate the P38 promoter in transient transfection experiments. NS-1 proteins bearing COOH-terminal deletions of 29 and 33 amino acid residues were also transcriptionally inert. Biochemical analysis of recombinant NS-1 expressed in insect cells shows that mutations in the putative NTP-binding/ATPase domain severely reduced helicase activity in vitro. However, affinity labeling experiments indicate that none of these mutations, except for K469T, impaired NTP-binding activity. Finally, all point mutants retained significant levels of ATPase activity, except for the E444Q mutant (1%). These findings suggest that the replication and transcription activities of NS-1 reside in separate functional domains. In addition, NS-1 proteins with mutations in the putative nucleotide binding fold have lost helicase activity, whereas most retain nucleotide binding and ATPase functions, suggesting that the mutations have uncoupled the ATPase and helicase activities.
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PMID:Mutations in the NTP-binding motif of minute virus of mice (MVM) NS-1 protein uncouple ATPase and DNA helicase functions. 810 66

Poliovirus 2C is a nonstructural polypeptide proposed to function in viral RNA replication. Poliovirus 2C is a member of a rapidly expanding family of proteins containing a consensus for nucleotide binding (NTP-B). Site-directed mutagenesis of conserved residues in the consensus A and B sites have suggested a functional role for the NTP-B motif in viral RNA replication and proliferation of poliovirus. We have expressed wildtype 2C and a 2C mutant, carrying a single amino acid exchange in the NTP-B motif A (Lys135Gln) using the baculovirus system. Both wildtype and mutant proteins are membrane associated. Following membrane solubilization, we have purified wildtype and mutant proteins to near homogeneity using conventional chromatography. We present biochemical evidence that wildtype 2C copurifies with an ATPase activity that is absent in the mutant preparation.
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PMID:Biochemical studies on poliovirus polypeptide 2C: evidence for ATPase activity. 811 41

Nucleotide and DNA coeffector substrate binding site characterizations were performed on two HSV-1 DNA helicases fulfilling different roles in DNA replication. Single ATP-binding sites were identified for helicase-primase and UL9 protein (Km(ATP) 0.62 mM and 0.54 mM, respectively). Analysis of structural requirements for DNA-dependent NTP hydrolysis revealed comparatively stringent requirements for helicase-primase in accommodating base-modified NTP analogs whereas the UL9 protein was much more permissive in this respect; neither enzyme was dependent on the ribose 2' or 3' hydroxyls for NTP hydrolysis. Both helicase-primase and UL9 protein ATPase activities were inhibited by ADP or GDP; this effect was competitive rather than allosteric. The enhancement of ATPase activity on a single stranded (ss) DNA substrate as opposed to double stranded (ds) DNA was much more marked for helicase-primase than for the UL9 protein (Km(dsDNA)/Km(ssDNA) 60 and 9, respectively). The triphosphates of the antiviral agents acyclovir and penciclovir were not effective substrates for either helicase-primase or UL9 protein.
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PMID:Characterisation of the nucleotide and DNA coeffector binding sites of the herpes simplex virus type 1 (HSV-1) encoded helicase-primase complex and UL9 origin binding protein. 814 77

The genomic RNA of pestiviruses contains a single large open frame coding for virion structural proteins and viral nonstructural polypeptides. Based on the presence of specific amino acid sequence motifs, pestivirus nonstructural protein p80 was predicted to be both a serine-type proteinase and a nucleoside triphosphatase (NTPase)/RNA helicase. We previously demonstrated p80 possesses the former activity (Wisherchen and Collett, Virology 184, 341-350, 1991). Here, we provide experimental evidence that this protein is also an RNA-stimulated NTPase. Employing immunoaffinity chromatography, we partially purified a p80 protein analog (p87) from recombinant baculovirus-infected insect cells. We show this preparation contained a specific NTPase activity. This activity was not found in material similarly purified from lysates of baculovirus-infected insect cells not expressing the p87 protein. That the NTPase activity was associated with the p87 polypeptide was demonstrated in two ways. First, the NTPase activity was shown to be completely inhibited by monoclonal antibodies specific to the p80 polypeptide, but was unaffected by monoclonal antibodies to unrelated antigens. Second, radiolabeled ATP could be specially cross-linked to the p87 polypeptide. NTP hydrolysis by the p87 protein was stimulated by the presence of particular single-strand RNA molecules. Initial enzymologic characterization of the pestivirus p80 NTPase is presented, and the presumptive role of this activity in pestivirus replication is discussed.
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PMID:RNA-stimulated NTPase activity associated with the p80 protein of the pestivirus bovine viral diarrhea virus. 838 92

A superfamily of ATPases is described with its members sharing three distinct conserved amino acid sequence motifs. The superfamily includes numerous proteins involved in active partitioning of bacterial plasmids and chromosomes, nitrogenase iron proteins (nifH gene products), the anion pump ATPase ArsA, and VirC1 proteins encoded by Agrobacterium Ti plasmids and apparently involved in formation of single-stranded plasmid DNA. A database search identified partial sequences of genes encoding putative human and archaebacterial chromosome partitioning ATPases, suggesting that these proteins fulfil a universal function in cell division. The proteins belonging to this superfamily show the transition from the classical fingerprint of the A type purine NTP-binding motif, GXXGXGK[ST], to a significantly modified signature, KGGXXK[ST], with the apparent preservation of the loop conformation typical of this motif. It is speculated that the ancestral form of the A motif might have comprised a loop rich in Gly residues, GXGGXGK[ST], resembling that in NifH proteins and ArsA. Some of the Gly residues might have been differentially substituted in various evolutionary lineages of NTPases. The functional diversity of the proteins of this ATPase superfamily is comparable with the range of functions described previously for the superfamily of "UvrA-related" ATPases.
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PMID:A superfamily of ATPases with diverse functions containing either classical or deviant ATP-binding motif. 844 45

Semliki Forest virus-specific polypeptide nsP2 is a nonstructural protein involved in multiple steps during viral RNA replication. It was recently shown to possess single-stranded RNA-stimulated ATPase and GTPase activities. Replacement of the highly conserved lysine (Lys-192) within the classical nucleotide-binding motif A/GXXGXGKS/T with asparagine abolished its NTP-hydrolyzing activity. Also, about half of nsP2 is transported into the nucleus during viral infection. Substitution of the second arginine in its nuclear localization signal (P648RRRV) with aspartic acid rendered nsP2 totally cytoplasmic. To assess the functional importance of these sequence motifs, the same mutations were introduced into a cDNA clone of Semliki Forest virus, from which infectious RNA can be produced in vitro. Transfection of an RNA encoding Lys-192 --> Asn mutation into BHK cells did not promote viral infection. However, revertants encoding the wild-type amino acid were obtained. Cells transfected with RNA coding for Arg-649 --> Asp mutation gave rise to infectious virus termed SFV-RDR. Indirect immunofluorescence and subcellular fractionation of SFV-RDR-infected cells confirmed the cytoplasmic localization of nsP2. Measurement of host DNA synthesis late in infection revealed that infection with the parental virus inhibited DNA synthesis to 10% of control cells. In contrast, infection with SFV-RDR led only to a partial shutoff of cellular DNA synthesis. Mice experiments indicated that the pathogenicity of SFV-RDR was attenuated.
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PMID:Functional significance of the nuclear-targeting and NTP-binding motifs of Semliki Forest virus nonstructural protein nsP2. 861 Apr 62

D1R1-545, an active subdomain of the large subunit of vaccinia virus mRNA capping enzyme possessing ATPase, RNA 5'-triphosphatase, and guanylyltransferase activities, was expressed in Escherichia coli and shown to be functionally equivalent to the heterodimeric enzyme (Myette, J. R., and Niles, E. G. (1996) J. Biol. Chem. 271, 11936-11944). A detailed characterization of the phosphohydrolytic activities of D1R1-545 demonstrates that, in addition to ATPase and RNA 5'-triphosphatase activities, the capping enzyme also possesses a general nucleoside triphosphate phosphohydrolase activity that lacks a preference for the nucleoside base or sugar. Nucleoside triphosphate and mRNA saturation kinetics are markedly different, with RNA exhibiting a Km and turnover number 100- and 10-fold less, respectively, than those values measured for any NTP. The linear competitive inhibition of RNA 5'-triphosphatase activity by ATP, and the relative manner by which both ATPase and RNA 5'-triphosphatase activities are inhibited by specific oligonucleotides, kinetically demonstrate that each activity is carried out at a common active site. Direct UV photo-cross-linking of either 32P-radiolabeled ATP or 23-mer triphosphorylated RNA, followed by cyanogen bromide cleavage of the photo-linked enzyme, localizes the major binding site for both ATP and RNA to a region between amino acids 1 and 221. The inability of ATP to competitively inhibit either E approximately GMP formation or the transfer of GMP to RNA kinetically differentiates the phosphohydrolase active site from the guanylyltransferase active site.
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PMID:Characterization of the vaccinia virus RNA 5'-triphosphatase and nucleotide triphosphate phosphohydrolase activities. Demonstrate that both activities are carried out at the same active site. 866 36

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