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

A DNA-dependent ATPase has been isolated and purified from an Escherichia coli cell-free extract. The ATPase has the following characteristics: preferential dependence on single-stranded DNA, specificity for ATP hydrolysis, Km value of 1.4 X 10-4 M for ATP, and molecular weight of approximately 69,000. The ATPase can be shown to bind to single stranded DNA. The resemblance between this ATPase and that isolated from vaccinia cores is discussed.
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PMID:Purification and characterization of a DNA-dependent ATPase from Escherichia coli. 12 72

The ATP-dependent DNase from Hemophilus influenzae digests double-stranded linear DNA molecules exonucleolytically while hydrolyzing large amounts of ATP to ADP. Various cross-linked linear duplex DNA molecules are partially resistant to the exonuclease action. Vaccinia DNA, containing natural terminal cross-links (probably in the form of terminal single-stranded loops), is much more slowly degraded than comparable "open-ended" DNA molecules, and ATP is consumed at a proportionately lower rate. It is postulated that the vaccinia DNA molecules undergo slow terminal cleavage by the single strand specific endonuclease activity of the enzyme, and are then rapidly degraded by the double strand exonuclease activity. Phage T7 DNA, containing an average of 100 4',5'8-trimethylpsoralen cross-links/molecule at random internal sites, is digested only to the extent of 2 to 3%. However, ATP hydrolysis continues at a linear rate long after DNA digestion has ceased. A stable enzyme-DNA complex is formed as demonstrated by co-sedimentation of DNA and ATPase activity in sucrose gradients. The hypothesis is advanced that the enzyme digests exonucleolytically to the first cross-link at each end of the DNA molecules where further movement is prevented. The enzyme then remains bound at the cross-links and functions continuously as an ATPase.
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PMID:Action of ATP-dependent DNase from Hemophilus influenzae on cross-linked DNA molecules. 13 99

RNA triphosphatase, RNA guanylyltransferase, and RNA (guanine-N7-)-methyltransferase activities are associated with the vaccinia virus mRNA capping enzyme, a heterodimeric protein containing polypeptides of M(r) 95,000 and 31,000. Although the RNA triphosphatase and RNA guanylyltransferase domains have been localized to a M(r) 59,000 fragment of the capping enzyme large subunit, the location of the methyltransferase domain within the protein and the catalytic role of individual subunits in methyl group transfer remain unclear. In the present work, through the study of methyltransferase activity of truncated forms of capping enzyme translated in vitro in a rabbit reticulocyte lysate, we have localized the methyltransferase domain to a complex consisting of the small subunit and the carboxyl-terminal portion of the large subunit. The M(r) 31,000 subunit translated alone was not sufficient for methyltransferase activity. This requirement for both subunits may explain the tight physical association of the two polypeptides in vivo. We have recreated the association of the large and small enzyme subunits in vitro through the translation of synthetic mRNAs encoding the two polypeptides. Study of the ability of deleted versions of the large subunit to bind the small subunit, as detected by co-immunoprecipitation, defined a 347-amino acid carboxyl-terminal region of the large subunit that was sufficient for heterodimerization. Colocalization within the large subunit of the methyltransferase and subunit association domains suggests that dimerization of the subunits may be required for methyltransferase activity.
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PMID:Methyltransferase and subunit association domains of vaccinia virus mRNA capping enzyme. 132 1

Plasmid vectors capable of expressing the large and small subunits of the vaccinia virus mRNA capping enzyme were constructed and used to transform Escherichia coli. Conditions for the induction of the dimeric enzyme or the individual subunits in a soluble form were identified, and the capping enzyme was purified to near homogeneity. Proteolysis of the capping enzyme in bacteria yields a 60-kDa product shown previously to possess the mRNA triphosphatase and guanyltransferase activities (Shuman, S. (1990) J. Biol. Chem. 265, 11960-11966) was isolated and shown by amino acid sequence analysis to be derived from the NH2 terminus of D1R. The individual subunits lacked methyltransferase activity when assayed alone. However, mixing the D1R and D12L subunits permitted reconstitution of the methyltransferase activity, and this appearance in activity accompanied the association of the subunits. In contrast, mixing the D12L subunit with the D1R-60K proteolytic fragment failed to yield methyltransferase activity or result in a physical association of the two proteins. These results demonstrate that the methyltransferase active site requires the presence of the D12L subunit with the carboxyl-terminal portion of the D1R subunit. Furthermore, since the mRNA triphosphatase and guanyltransferase active sites reside in the NH2-terminal domain of the D1R subunit, and the methyltransferase activity is found in the carboxyl-terminal portion of this subunit and D12L, there must be at least two separate active sites in this enzyme.
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PMID:The vaccinia virus mRNA (guanine-N7-)-methyltransferase requires both subunits of the mRNA capping enzyme for activity. 132 2

We have resolved, by native gel electrophoresis, two intermediates in the transcription of a vaccinia virus early gene by the virus-encoded RNA polymerase. Polymerase holoenzyme containing the vaccinia virus early transcription factor (VETF) forms a complex of VETF bound to the promoter as the first step in a pathway leading to establishment of a committed ternary elongation complex. Formation of the VETF-DNA complex is stimulated by magnesium but is uninfluenced by nucleoside triphosphates. A stable binary complex of RNA polymerase bound to DNA is not detected. Assembly of a gel-stable polymerase-DNA complex depends on conditions permissive for RNA synthesis. Nucleotide omission experiments suggest that at least a tetrameric RNA must be made before a ternary complex is stabilized. RNA analysis indicates that complexes containing nascent transcripts 20 nucleotides long are stable and active. Ternary complex formation requires hydrolyzable ATP. This is consistent with an essential role for the ATPase activity of VETF at a step subsequent to DNA binding, as proposed by Broyles (S. S. Broyles, J. Biol. Chem. 266:15545-15548, 1991). The ternary complex, once formed, is resistant to dissociation by competitor DNA, as well as by salt, Sarkosyl, and heparin. The effects of these inhibitory agents on transcription complex formation suggest that they target different steps in the assembly pathway.
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PMID:Ternary complex formation by vaccinia virus RNA polymerase at an early viral promoter: analysis by native gel electrophoresis. 137 99

Protein lambda 2 of reovirus serotype 3 has been purified to homogeneity from extracts of cells infected with hybrid vaccinia virus strain WR into whose TK gene of the reovirus L2 genome segment under the control of the CPV ATI protein gene promoter had been inserted. Protein lambda 2 is formed in large amounts (final purification factor about 180) as a monomer that shows no tendency to pentamerize into the reovirus core projections/spikes. Isolated protein lambda 2 is reversibly guanylylated by GTP (that is, it carries out the GTP-PPi exchange reaction) and can transfer the -GMP moiety to GTP to form GppppG, to GDP to form GpppG, and to 5'-pp-terminated RNA to form GpppG- caps. These studies confirm previous studies on reovirus cores that indicated that protein lambda 2 is the reovirus guanylyltransferase. Protein lambda 2 possesses neither nucleoside nor RNA triphosphatase activities, nor methyltransferase activities; thus it is the reovirus capping enzyme, but provides neither the required 5'-ppG-terminated substrate nor does it methylate the cap structure. These must be functions of lambda 2 pentamers or of other individual or complexed components of reovirus cores.
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PMID:Isolation and enzymatic characterization of protein lambda 2, the reovirus guanylyltransferase. 165 91

Vaccinia virus RNA polymerase requires the vaccinia early transcription factor, VETF, for the in vitro initiation of transcription at early gene promoters in a reaction requiring ATP hydrolysis. VETF binds specifically to early gene promoters and has an associated DNA-dependent ATPase activity. The effect of ATP on the interaction of VETF with the promoter for the vaccinia growth factor gene promoter has been examined. ATP had no marked effect on the steady-state level of promoter binding but dramatically affected the kinetics of dissociation of VETF from the promoter. The half-life of the VETF-promoter complex was greatly reduced in the presence of ATP. The destabilization of the complex was specific for ATP and dATP, consistent with the substrate specificity of the VETF-associated ATPase. ADP or the non-hydrolyzable ATP analog adenylyl-imidodiphosphate did not destabilize the complex suggesting that ATP hydrolysis is obligatory for dissociation. These findings provide a link between the promoter binding and ATPase activities associated with VETF and suggest that the ATP-dependent dissociation of the VETF-promoter complex is an important event in the transcription of vaccinia virus early genes.
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PMID:A role for ATP hydrolysis in vaccinia virus early gene transcription. Dissociation of the early transcription factor-promoter complex. 186 72

The gene product of the vaccinia virus open reading frame D6R was synthesized in bacteria and used to raise antiserum against the protein. Using the antiserum as a probe, we demonstrated that the D6R protein is a component of the virion particle, localized to the virus core structure. The D6R protein, purified from virions, has been shown to copurify with the vaccinia virus early transcription factor (VETF). The apparent molecular weight of the D6R polypeptide is identical to that of the smaller of the two VETF-associated polypeptides. Antibodies directed against D6R block both the early promoter-binding and DNA-dependent ATPase activities of VETF, supporting the identity of D6R as a VETF-associated polypeptide. An ATP-binding site was inferred near the amino terminus of the derived D6R amino acid sequence. Thus, the D6R polypeptide could be the source of the ATPase activity associated with VETF. The D6R gene was shown previously to belong to the late class of vaccinia virus genes. Synthesis of the VETF at late times after infection suggests a cascade model for vaccinia virus gene regulation in which class-specific transcription factors are synthesized at the previous phase of the infectious cycle.
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PMID:Vaccinia virus gene encoding a component of the viral early transcription factor. 213 81

RNA triphosphatase, RNA guanylyltransferase, and RNA (guanine-7)-methyltransferase activities are associated with the vaccinia virus mRNA capping enzyme, a heterodimeric protein containing polypeptides of Mr 95,000 and Mr 31,000. The genes encoding the large and small subunits (corresponding to the D1 and the D12 ORFs, respectively, of the viral genome) were coexpressed in Escherichia coli BL21 (DE3) under the control of a bacteriophage T7 promoter. Guanylyltransferase activity (assayed as the formation of a covalent enzyme-guanylate complex) was detected in soluble lysates of these bacteria. A 1000-fold purification of the guanylyltransferase was achieved by ammonium sulfate precipitation and chromatography using phosphocellulose and SP5PW columns. Partially purified guanylytransferase synthesized GpppA caps when provided with 5'-triphosphate-terminated poly(A) as a cap acceptor. In the presence of AdoMet the enzyme catalyzed concomitant cap methylation with 99% efficiency. Inclusion of S-adenosyl methionine increased both the rate and extent of RNA capping, permitting quantitative modification of RNA 5' ends. Guanylyltransferase sedimented as a single component of 6.5 S during further purification in a glycerol gradient; this S value is identical with that of the heterodimeric capping enzyme from vaccinia virions. Electrophoretic analysis showed a major polypeptide of Mr 95,000 cosedimenting with the guanylyltransferase. RNA triphosphatase activity cosedimented exactly with guanylyltransferase. Methyltransferase activity was associated with guanylyltransferase and was also present in less rapidly sedimenting fractions. The methyltransferase activity profile correlated with the presence of a Mr 31,000 polypeptide. These results indicate that the D1 and D12 gene products are together sufficient to catalyze all three enzymatic steps in cap synthesis. A model for the domain structure of this enzyme is proposed.
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PMID:Catalytic activity of vaccinia mRNA capping enzyme subunits coexpressed in Escherichia coli. 216 22

The E1 open reading frame (ORF) of bovine papillomavirus type 1 is required for the persistence of viral genomes as multicopy plasmid molecules in transformed rodent fibroblasts. E1 has been reported to contain two separate complementation groups (M and R, corresponding to N- and C-terminal domains, respectively) which regulate viral replication. However, E1 behaves as a single gene with respect to cell transformation and viral transcription. We examined the proteins translated from the entire ORF by using three antisera raised against E1 peptide or bacterial fusion proteins. The capacity of the whole ORF to encode a 72-kDa protein was demonstrated by translation of synthetic RNA in a reticulocyte lysate system, by microinjection of RNA into Xenopus oocytes, and by expression in recombinant baculoviruses and vaccinia viruses. In eucaryotic cells, this protein was found to be phosphorylated and targeted to the cell nucleus. In vitro translation also produced shorter peptides, containing only the E1 C-terminal domain, because of internal translation starts on the third and fourth methionine codons within E1 ORF. On the other hand, mammalian cells infected by vaccinia E1 recombinant virus contained additional larger E1 phosphoproteins (transient 85-kDa and stable 88-kDa species), likely representing processed forms of the 72-kDa species. The E1 72-kDa nuclear phosphoprotein was detected in bovine papillomavirus type 1-transformed cells. We report the biochemical characteristics of full-sized and truncated E1 proteins: (i) the C-terminal half of E1 ORF contains a phosphorylation site(s); (ii) the full-sized E1, but not the C-terminal protein, binds DNA, without indication for recognition of defined sequences, and critical determinants for this activity are likely confined to an N-terminal domain of the protein; (iii) covalent affinity labeling experiments performed on vaccinia virus-encoded E1 proteins with an ATP analog confirmed our previous observation of sequence similarities between the E1 C-terminal domain and the ATPase domain of simian virus 40 large T antigen.
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PMID:Proteins encoded by the bovine papillomavirus E1 open reading frame: expression in heterologous systems and in virally transformed cells. 217 78


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