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 protein product of the rep gene of Escherichia coli is required for the replication of certain bacteriophage genomes (phi X174, fd, P2) and for the normal replication of E. coli DNA. We have used a specialized transducing phage, lambda p rep+, which complements the defect of rep mutants, to identify the rep protein. The rep protein has been purified from cells infected with lambda p rep+ phage; it has a molecular weight of about 70 000 and appears similar to the protein found in normal cells. Stimulation of phi X174 replicative form DNA synthesis in vitro was observed when highly purified rep protein was supplied to a cell extract derived from phi X-infected E. coli rep cells and supplemented with replicative form DNA. The purified protein has a single-stranded DNA-dependent ATPase activity and is capable of sensitizing duplex DNA to nucleases specific for single-stranded DNA. For this reason we propose the enzyme be called DNA helicase III. We infer that the rep protein uses the energy of hydrolysis of ATP to separate the strands of duplex DNA; the E. coli DNA binding protein need not be present. The rep3 mutant appeared to make a limited amount of active rep protein.
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PMID:The rep mutation. VI. Purification and properties of the Escherichia coli rep protein, DNA helicase III. 38 40

Purified Rad3 protein from the yeast Saccharomyces cerevisiae is a single-stranded DNA-dependent ATPase and also acts as a DNA helicase on partially duplex DNA. In this study we show that the DNA helicase activity is inhibited when a partially duplex circular DNA substrate is exposed to ultraviolet (UV) radiation. Inhibition of DNA helicase activity is sensitive to the particular strand of the duplex region which carries the damage. Inhibition is retained if the single-stranded circle is irradiated prior to annealing to an unirradiated oligonucleotide, but not if a UV-irradiated oligonucleotide is annealed to unirradiated circular single-stranded DNA. UV irradiation of single-stranded DNA or deoxyribonucleotide homopolymers also inhibits the ability of these polynucleotides to support the hydrolysis of ATP by Rad3 protein. UV radiation damage apparently blocks translocation of Rad3 protein and results in the formation of stable Rad3 protein-UV-irradiated DNA complexes. As a consequence, Rad3 protein remains sequestered on DNA, presumably at sites of base damage. The sensitivity of Rad3 protein to the presence of DNA damage on the strand along which it translocates provides a potential mechanism for damage recognition during nucleotide excision repair and may explain the absolute requirement for Rad3 protein for damage-specific incision of DNA in yeast.
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PMID:The DNA helicase and adenosine triphosphatase activities of yeast Rad3 protein are inhibited by DNA damage. A potential mechanism for damage-specific recognition. 130 43

In our previous study, we identified four chromatographically distinct DNA-dependent ATPases, B, C1, C2, and C3, in mouse FM3A cells (Tawaragi, Y., Enomoto, T., Watanabe, Y., Hanaoka, F., and Yamada, M. (1984) Biochemistry 23, 529-533). The DNA-dependent ATPase C1 has been purified and characterized in detail. A divalent cation and a polynucleotide cofactor were required for the ATPase activity. Poly(dT), single-stranded circular DNA, and heat-denatured DNA were very effective. Almost no ATPase activity was observed with S1 nuclease-treated native DNA. ATPase C1 hydrolyzed ATP only among the ribo- and deoxyribonucleoside triphosphates tested, and this fact distinguished ATPase C1 from ATPases B, C2, and C3, because the latter enzymes are capable of hydrolyzing both ATP and dATP. The purified DNA-dependent ATPase C1 fraction was shown to have a DNA helicase activity that was dependent on hydrolysis of ATP. The helicase activity and DNA-dependent ATPase activity cosedimented at 5.2 S on glycerol gradient centrifugation. Both activities showed similar preferences for nucleoside 5'-triphosphates and similar requirements for divalent cations. The DNA helicase activity was inhibited by the addition of single-stranded DNAs that served as cofactor for the ATPase activity. The efficiency of a single-stranded DNA to inhibit DNA helicase activity correlated well with the capacity of the DNA to serve as cofactor for DNA-dependent ATPase activity. The helicase was shown to migrate along the DNA strand in the 5' to 3' direction, which is the same direction of migration of the mouse DNA helicase B (Seki, M., Enomoto, T., Yanagisawa, J., Hanaoka, F., and Ui, M. (1988) Biochemistry 27, 1766-1771).
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PMID:DNA-dependent adenosinetriphosphatase C1 from mouse FM3A cells has DNA helicase activity. 131 Sep 78

The RecB subunit of the Escherichia coli RecBCD enzyme has previously been reported to possess DNA-dependent ATPase activity (Hickson, I. D., Robson, C. N., Atkinson, K. E., Hutton, L., and Emmerson, P. T. (1985) J. Biol. Chem. 260, 1224-1229). Here we demonstrate that a specific interaction between RecB protein and ATP can also be shown by photoaffinity labeling with the ATP analogue 8-azido-ATP. Furthermore, the capacity of the RecB protein to support ATP hydrolysis varies with the structure and length of the DNA cofactor. Single-stranded linear and circular DNA are markedly better in promoting ATP hydrolysis than duplex DNA. The purified RecB protein can function as a DNA helicase, displacing oligonucleotides annealed to viral M13 DNA in an ATP-dependent and orientation-specific manner.
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PMID:The RecB subunit of the Escherichia coli RecBCD enzyme couples ATP hydrolysis to DNA unwinding. 131 26

The PriA replication protein of Escherichia coli (formerly replication factor Y or protein n') is multifunctional. It is a site-specific, single-stranded DNA-dependent ATPase (dATPase), a 3'----5' DNA helicase, and guides the ordered assembly of the primosome, a mobile, multiprotein DNA replication priming/helicase complex. Although PriA is not absolutely required for viability, priA null mutant cells grow very slowly, have poor viability, and form extensive filaments. In order to assess which of the multiple activities of PriA are required for normal replication and growth, site-directed mutagenesis was employed to introduce single amino acid substitutions for the invariant lysine within the consensus nucleotide-binding motif found in PriA. Biochemical characterization of the representative purified mutant PriA proteins revealed them to be completely deficient in nucleotide hydrolysis, incapable of translocation along a single-stranded DNA binding protein-coated single-stranded DNA template, and unable to manifest the 3'----5' DNA helicase activity of wild-type PriA. These mutant proteins were, however, capable of catalyzing the assembly of active primosomes in vitro. Furthermore, when supplied in trans to insertionally inactivated priA cells, plasmids containing a copy of these mutant priA genes restored the wild-type growth rate, viability, and cell morphology. Based on these results, a model for PriA function in vivo is discussed.
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PMID:ATPase-deficient mutants of the Escherichia coli DNA replication protein PriA are capable of catalyzing the assembly of active primosomes. 131 26

A DNA helicase (delta helicase) which partially copurifies with DNA polymerase delta has been highly purified from fetal calf thymus. delta helicase differs in physical and enzymatic properties from other eukaryotic DNA helicases described thus far. The enzyme has an apparent mass of 57 kDa by gel filtration and is associated with polypeptides of 56 and 52 kDa by SDS-polyacrylamide gel electrophoresis. Photo-cross-linking of the purified enzyme with [alpha-32P]ATP resulted in labeling of a polypeptide of approximately 58 kDa, suggesting that the active site is present on the larger polypeptide. Unwinding of a partial duplex requires a nucleoside triphosphate which can be either ATP or dATP but not a nonhydrolyzable analogue of ATP. Other ribo- and deoxyribonucleoside triphosphates have little or no activity as cofactors. delta helicase also has DNA-dependent ATPase activity which has a relatively low Km for ATP (40 microM). delta helicase binds to single-stranded DNA but has little or no affinity for double-stranded DNA or single-stranded RNA. Similar to replicative DNA helicases from prokaryotes and the herpes simplex virus type 1 helicase-primase, delta helicase translocates in the 5'-3' direction along the strand to which it is bound and preferentially unwinds DNA substrates with a forklike structure.
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PMID:Purification and characterization of delta helicase from fetal calf thymus. 131 98

Rad3 protein from the yeast Saccharomyces cerevisiae is a single-stranded DNA-dependent ATPase which catalyzes the unwinding of DNA.DNA duplexes. In the present studies we have demonstrated that the purified enzyme additionally catalyzes the displacement of RNA fragments annealed to complementary DNA. Quantitative comparisons using otherwise identical partially duplex DNA.DNA and DNA.RNA substrates indicate a significant preference for the latter. Competition for ATPase or DNA helicase activity by various homopolymers suggests that Rad3 protein does not discriminate between ribonucleotide and deoxyribonucleotide homopolymers with respect to binding. However, neither single-stranded RNA nor various ribonucleotide homopolymers supported the hydrolysis of nucleoside 5'-triphosphates. Additionally, Rad3 protein was unable to catalyze the displacement of oligo(dA) annealed to poly(U), suggesting that the catalytic domain of the enzyme is exquisitely sensitive to chemical and/or or conformational differences between DNA and RNA. Hence, it appears that Rad3 protein is not an RNA helicase.
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PMID:Substrate specificity of the Rad3 ATPase/DNA helicase of Saccharomyces cerevisiae and binding of Rad3 protein to nucleic acids. 131 9

The adeno-associated virus (AAV) Rep protein is required for both viral DNA replication and transactivation of the AAV promoters. Here we report the effects of mutations in the rep gene on transcription and replication in vivo and terminal repeat binding and terminal resolution site (trs) endonuclease activities in vitro. In all, we examined 10 in-frame deletions and 14 amino acid substitution mutations at eight positions. The point mutations were targeted to regions that are highly conserved among the parvovirus nonstructural proteins and include the extended ATPase domain of the AAV Rep protein. The mutations identify at least two noncontiguous regions of Rep which are essential for terminal repeat binding (amino acids 134 to 242 and amino acids 415 to 490). Mutations in either region render the protein inactive for both DNA replication and transactivation. In addition, mutations within a putative ATPase region also cause defects in replication and transactivation in vivo as well as in the ATP-dependent trs endonuclease activity in vitro. These results suggest that Rep transactivates via a novel mechanism which may require both DNA binding and an enzymatic activity, namely, ATPase or DNA helicase activity.
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PMID:Analysis of mutations in adeno-associated virus Rep protein in vivo and in vitro. 131 96

We report the purification and characterization of a novel DNA helicase from calf thymus tissue. This enzyme partially copurifies with DNA polymerase epsilon* through many of the chromatographic procedures used to isolate it. The enzyme contains an intrinsic DNA-dependent ATPase activity. It can displace short oligonucleotides annealed to long single stranded substrates, in an ATP-dependent reaction. Use of this assay indicates that the DNA helicase translocates in a 3' to 5' direction with respect to the substrate strand to which it is bound. Maximal efficiency of displacement is accomplished by hydrolysis of (d)ATP as cofactor, however, (d)CTP can also be utilized resulting in a 5-fold decrease in the level of displacement. Displacement activity is enhanced by the presence of saturating amounts of Escherichia coli single stranded DNA-binding protein, not affected by the presence of phage T4 gene 32 protein, and inhibited by human replication factor A. The DNA helicase has a molecular mass of approximately 104 kDa as measured by denaturing gel electrophoresis, and an S value of 5.4 obtained from glycerol gradient sedimentation. Direct [alpha-32P]ATP cross-linking labels a protein of molecular mass approximately 105 kDa, providing further evidence that this polypeptide contains the helicase active site. In view of the differences in the properties of this helicase from four others recently identified in calf and designated A through D, we propose the name helicase E.
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PMID:A novel DNA helicase from calf thymus. 132 24

The herpes simplex virus (HSV) type 1 helicase-primase is a three-protein complex, consisting of a 1:1:1 association of UL5, UL8, and UL52 gene products (J.J. Crute, T. Tsurumi, L. Zhu, S. K. Weller, P. D. Olivo, M. D. Challberg, E. S. Mocarski, and I. R. Lehman, Proc. Natl. Acad. Sci. USA 86:2186-2189, 1989). We have purified this complex, as well as a subcomplex consisting of UL5 and UL52 proteins, from insect cells infected with baculovirus recombinants expressing the appropriate gene products. In confirmation of previous reports, we find that whereas UL5 alone has greatly reduced DNA-dependent ATPase activity, the UL5/UL52 subcomplex retains the activities characteristic of the heterotrimer: DNA-dependent ATPase activity, DNA helicase activity, and the ability to prime DNA synthesis on a poly(dT) template. We also found that the primers made by the subcomplex are equal in length to those synthesized by the UL5/UL8/UL52 complex. In an effort to uncover a role for UL8 in HSV DNA replication, we have developed a model system for lagging-strand synthesis in which the primase activity of the helicase-primase complex is coupled to the activity of the HSV DNA polymerase on ICP8-coated single-stranded M13 DNA. Using this assay, we found that the UL8 subunit of the helicase-primase is critical for the efficient utilization of primers; in the absence of UL8, we detected essentially no elongation of primers despite the fact that the rate of primer synthesis on the same template is undiminished. Reconstitution of lagging-strand synthesis in the presence of UL5/UL52 was achieved by the addition of partially purified UL8. Essentially identical results were obtained when Escherichia coli DNA polymerase I was substituted for the HSV polymerase/UL42 complex. On the basis of these findings, we propose that UL8 acts to increase the efficiency of primer utilization by stabilizing the association between nascent oligoribonucleotide primers and template DNA.
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PMID:The UL8 subunit of the herpes simplex virus helicase-primase complex is required for efficient primer utilization. 132 Dec 75

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