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)

Polyoma virus large tumor antigen (PyV T antigen) has been purified to near homogeneity by immunoaffinity column chromatography. We have detected DNA helicase and ATPase (nucleoside-5'-triphosphatase) activities in the purified PyV T antigen fraction and characterized these activities. The ATPase activity was stimulated about 2-fold by poly(dT), which was the most effective stimulator among the synthetic polynucleotides tested. Natural nucleic acids, such as calf thymus native and heat-denatured DNA, and single-stranded circular fd DNA were also effective, but the degree of stimulation was less than 1.5-fold. The basal and poly(dT)-stimulated ATPase activities showed similar preference for nucleoside 5'-triphosphates, requirement for divalent cations, and pH optima. The preference for nucleoside 5'-triphosphates was ATP, dATP greater than CTP, UTP much greater than GTP. The only difference observed between the two activities was salt sensitivity. The basal ATPase activity was resistant to KC1 up to 300 mM. In contrast, poly-(dT)-stimulated activity was reduced to the level of basal activity at 300 mM KC1. DNA helicase activity required divalent cations and was dependent on hydrolysis of ATP. The activity showed similar preference for nucleoside 5'-triphosphates, requirement for divalent cations, and pH optimum as the two ATPase activities, and the salt sensitivity of DNA helicase activity was similar to that of poly(dT)-stimulated ATPase activity. The helicase activity was inhibited competitively by the addition of single-stranded or double-stranded DNA, and a relatively high inhibitory activity was observed with poly [d(A-T)]. The PyV T antigen helicase was found to migrate in the 3' to 5' direction along the DNA strand to which the protein bound.
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PMID:DNA helicase and nucleoside-5'-triphosphatase activities of polyoma virus large tumor antigen. 216 Feb 69

The herpes simplex virus type 1 helicase-primase complex consists of the products of the UL5, UL8 and UL52 genes. We have expressed these proteins in insect cells using baculovirus vectors and studied the requirements for enzymatic activities associated with the DNA unwinding function of the complex. In agreement with a recent report (Dodson, M.S., Crute, J.J., Bruckner, R.C. and Lehman, I.R. 1989, J. Biol. Chem. 264, 20835-20838) we find that DNA-dependent ATPase and DNA helicase activities are assembled in vivo in insect cells triply infected with viruses expressing the UL5, UL8 and UL52 proteins. Moreover, these activities were also detected in cells in which only the UL5 and UL52 products were expressed indicating that the presence of the UL8 protein is essential for neither the ATPase nor helicase activity of the complex.
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PMID:Herpes simplex virus helicase-primase: the UL8 protein is not required for DNA-dependent ATPase and DNA helicase activities. 216 21

The Escherichia coli primosome is a mobile multiprotein DNA replication-priming apparatus that assembles at a specific site (termed a primosome assembly site (PAS] on single-stranded DNA-binding protein-coated single-stranded DNA. The PRI A protein (factor Y, protein n') is a PAS sequence-specific (d)ATPase as well as a DNA helicase and is believed to direct the assembly of the primosome at a PAS. In this report, the PRI A DNA helicase reaction is dissected in vitro, by use of a strand displacement assay, into three steps with distinct ATP requirements. First, the PRI A protein gains entry to the DNA via an ATP-independent, PAS sequence-specific binding event. Second, the PRI A protein translocates along the single-stranded DNA in the 3'----5' direction at a maximal rate of 90 nucleotides/s. DNA translocation requires ATP hydrolysis. The ATP concentration required to support half of the maximal translocation rate is 100 microM, which is identical to the Km for ATP of the PRI A protein DNA-dependent ATPase activity. Finally, the PRI A protein unwinds duplex DNA. The ATP concentration required for duplex DNA unwinding depends upon the length of the duplex region to be unwound. Displacement of a 24-nucleotide long oligomer required no more ATP than that required for the translocation of PRI A protein along single-stranded DNA, whereas displacement of a 390-nucleotide long DNA fragment required a 10-fold higher concentration of ATP than that required for oligomer displacement.
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PMID:Differential ATP requirements distinguish the DNA translocation and DNA unwinding activities of the Escherichia coli PRI A protein. 217 Mar 65

The mutation in the temperature-sensitive tsA58 mutant T antigen (Ala-438----Val) lies within the presumptive ATP-binding fold. We have constructed a recombinant baculovirus that expresses large quantities of the tsA58 T antigen in infected insect cells. The mutant T antigen mediated simian virus 40 origin-containing DNA (ori-DNA) synthesis in vitro to nearly the same extent as similar quantities of wild-type T antigen at 33 degrees C. However, if wild-type and tsA58 T antigens were heated at 41 degrees C in replication extracts prior to addition of template DNA, the tsA58 T antigen but not the wild type was completely inactivated. The mutant protein displayed greater thermosensitivity for many of the DNA replication activities of T antigen than did the wild-type protein. Some of the replication functions of tsA58 T antigen were differentially affected depending on the presence or absence of ATP during the preheating period. When tsA58 T antigen was preheated in the presence of ATP at 41 degrees C for a time sufficient to completely inactivate its ability to replicate ori-DNA in vitro, it displayed substantial ATPase and normal DNA helicase activities. Conversely, when preheated in the absence of nucleotide, it completely lost both ATPase and helicase activities. Preheating tsA58 T antigen, even in the presence of ATP, led to drastic reductions in its ability to bind to and unwind DNA containing the replication origin. The mutant T antigen also displayed thermosensitivity for binding to and unwinding nonspecific double-stranded DNA in the presence of ATP. Our results suggest that the interactions of T antigen with ATP that are involved in T-antigen DNA binding and DNA helicase activities are different. Moreover, we conclude, consistent with its phenotype in vivo, that the tsA58 T antigen is defective in the initiation but not in the putative elongation functions of T antigen in vitro.
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PMID:Thermally inactivated simian virus 40 tsA58 mutant T antigen cannot initiate viral DNA replication in vitro. 217 89

The bacteriophage T4 gene 41 protein is a 5' to 3' DNA helicase which unwinds DNA ahead of the growing replication fork and, together with the T4 gene 61 protein, also functions as a primase to initiate DNA synthesis on the lagging strand. Proteolytic cleavage by trypsin approximately 20 amino acids from the COOH terminus of the 41 protein produces 41T, a 51,500-dalton fragment (possibly still associated with small COOH-terminal fragments) which still retains the ssDNA-stimulated GTPase (ATPase) activity, the 61 protein-stimulated DNA helicase activity, and the ability to act with 61 protein to synthesize pentaribonucleotide primers. In the absence of the T4 gene 32 ssDNA binding protein, the primase-helicase composed of the tryptic fragment (41T) and 61 proteins efficiently primes DNA synthesis on circular ssDNA templates by the T4 DNA polymerase and the three T4 polymerase accessory proteins. In contrast, the 41T protein is defective as a helicase or a primase component on 32 protein-covered DNA. Thus, unlike the intact protein, 41T does not support RNA-dependent DNA synthesis on 32 protein-covered ssDNA and does not stimulate strand displacement DNA synthesis on a nicked duplex DNA template. High concentrations of 32 protein strongly inhibit RNA primer synthesis with either 41 T or intact 41 protein. The 44/62 and 45 polymerase accessory proteins (and even the 44/62 proteins to some extent) substantially reverse the 32 protein inhibition of RNA primer synthesis with intact 41 protein but not with 41T protein. We propose that the COOH-terminal region of the 41 protein is required for its interaction with the T4 polymerase accessory proteins, permitting the synthesis and utilization of RNA primers and helicase function within the T4 replication complex. When this region is altered, as in 41T protein, the protein is unable to assemble a functional primase-helicase in the replication complex. An easy and rapid purification of T4 41 protein produced by a plasmid encoding this gene (Hinton, D. M., Silver, L. L., and Nossal, N. G. (1985) J. Biol. Chem. 260, 12851-12857) is also described.
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PMID:Trypsin cleavage in the COOH terminus of the bacteriophage T4 gene 41 DNA helicase alters the primase-helicase activities of the T4 replication complex in vitro. 246 40

Large T antigen, the regulatory protein encoded by simian virus 40, has DNA helicase activity and unwinds double-stranded DNA at the expense of ATP. T antigen also functions as an RNA helicase separating duplex regions in partially double-stranded RNA substrates. Surprisingly, T antigen RNA helicase activity requires UTP, CTP, or GTP as a cofactor, whereas ATP is an inefficient energy source for the RNA unwinding reaction. Accordingly, T antigen has both an intrinsic non-ATP NTPase activity that is stimulated by single-stranded RNA and an ATPase activity stimulated by single-stranded DNA. Thus, it appears that the bound nucleotide determines whether T antigen acts as an RNA helicase or as a DNA helicase.
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PMID:RNA unwinding activity of SV40 large T antigen. 247 17

The Escherichia coli rho 026 mutation that alters the transcription termination protein Rho prevents growth of wild-type bacteriophage T4. Among the consequences of this mutation are delayed and reduced T4 DNA replication. We show that these defects can be explained by defective synthesis of certain T4 replication-recombination proteins. Expression of T4 gene 41 (DNA helicase/primase) is drastically reduced, and expression of T4 genes 43 (DNA polymerase), 30 (DNA ligase), 46 (recombination nuclease), and probably 44 (DNA polymerase-associated ATPase) is reduced to a lesser extent. The compensating T4 mutation goF1 partially restores the synthesis of these proteins and, concomitantly, the synthesis of T4 DNA in the E. coli rho mutant. From analyzing DNA synthesis in wild-type and various multiply mutant T4 strains, we infer that defective or reduced synthesis of these proteins in rho 026-infected cells has several major effects on DNA replication. It impairs lagging-strand synthesis during the primary mode of DNA replication; it delays and depresses recombination-dependent (secondary mode) initiation; and it inhibits the use of tertiary origins. All three T4 genes whose expression is reduced in rho 026 cells and whose upstream sequences are known have a palindrome containing a CUUCGG sequence between the promoter(s) and ribosome-binding site. We speculate that these palindromes might be important for factor-dependent transcription termination-antitermination during normal T4 development. Our results are consistent with previous proposals that the altered Rho factor of rho 026 may cause excessive termination because the transcription complex does not interact normally with a T4 antiterminator encoded by the wild-type goF gene and that the T4 goF1 mutation restores this interaction.
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PMID:Impaired expression of certain prereplicative bacteriophage T4 genes explains impaired T4 DNA synthesis in Escherichia coli rho (nusD) mutants. 254 60

The Rad3 ATPase/DNA helicase was purified to physical homogeneity from extracts of yeast cells containing overexpressed Rad3 protein. The DNA helicase can unwind duplex regions as short as 11 base pairs in a partially duplex circular DNA substrate and does so by a strictly processive mechanism. On partially duplex linear substrates, the enzyme has a strict 5'----3' polarity with respect to the single strand to which it binds. Nicked circular DNA is not utilized as a substrate, and the enzyme requires single-stranded gaps between 5 and 21 nucleotides long to unwind oligonucleotide fragments from partially duplex linear molecules. The enzyme also requires duplex regions at least 11 base pairs long when these are present at the ends of linear molecules. Rad3 DNA helicase activity is inhibited by the presence of ultraviolet-induced photoproducts in duplex regions of partially duplex circular molecules.
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PMID:Purification and characterization of Rad3 ATPase/DNA helicase from Saccharomyces cerevisiae. 255 62

Herpes simplex virus type 1 (HSV-1) encodes a helicase-primase that consists of three polypeptides encoded by the UL5, UL8, and UL52 genes (Crute, J.J., Tsurumi, T., Zhu, L., Weller, S.K., Olivo, P.D., Challberg, M.D., Mocarski, E.S., and Lehman, I.R. (1989) Proc. Natl. Acad, Sci, U.S.A. 86, 2186-2189). To obtain sufficient quantities of the enzyme for study, we have overexpressed the three genes using the baculovirus expression system. We find that the fully active enzyme can be assembled in vivo by triply infecting Spodoptera frugiperda SF9 cells with a baculovirus recombinant for each gene. The recombinant enzyme which we have purified to near homogeneity from the insect cells has a molecular weight of 270,000 and is composed of the three polypeptides encoded by the UL5, UL8, and UL52 genes. The enzyme possesses DNA-dependent ATPase, DNA-dependent GTPase, DNA helicase, and DNA primase activities that are essentially identical to the enzyme isolated from HSV-1-infected cells.
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PMID:Overexpression and assembly of the herpes simplex virus type 1 helicase-primase in insect cells. 255 83

It has been clarified that basic mechanism of deoxyribonucleic acid (DNA) replication is conserved from bacteria to higher cells. What distinguishes prokaryotic and eukaryotic modes of DNA replication most clearly is that bacterial chromosomes form a single replicon copied from a single initiation point and eukaryotic chromosomes consist of multiple replicons that initiate at multiple points. Thus, eukaryotes have to coordinate orderly replication of the genome. In order to understand this complex problem as a whole, three approaches were chosen. First approach is a genetic one. Certain number of temperature-sensitive (ts) mutants were isolated from mouse FM3A cells. One of the ts mutants, designated as tsFT20, was shown to contain heat-labile DNA polymerase alpha (pol. alpha). By the use of this mutant strain, it was proved that pol. alpha is essential for mammalian DNA replication. In addition, the human gene for pol. alpha on the X chromosome was assigned. Second approach is an enzymological one. FM3A cells were used for the identification and characterization of enzymes and proteins supposed to be involved in DNA replication. Four DNA-dependent ATPases, three pol. alpha stimulation factors, DNA topoisomerases I and II have been identified, as well as a stimulation factor for the assembly of nucleosome. DNA helicase activity was detected in two of the DNA-dependent ATPase (B and C1). Third approach is the reconstitution of DNA replication in cell-free system. By use of polyoma virus DNA as a template, cell-free extract from FM3A cells supported DNA replication in the presence of polyoma virus large T-antigen. This cell-free system will be useful for the analysis of the function of replication enzymes and proteins as well as the characterization of ts mutants.
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PMID:[Genetic and biochemical studies on the mechanism of mammalian chromosome replication]. 255 87

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