UNIPROT:Q07644 - FACTA Search

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Query: UNIPROT:Q07644 (polypeptide)
72,197 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have isolated a new DNA-dependent ATPase from E. coli. The enzyme has been purified to greater than 90% purity. It appears to be composed of two identical polypeptide chains of molecular weight 20,000. The enzyme catalyzed the hydrolysis of ATP in the presence, but not in the absence, of single-stranded DNA. Double-stranded DNA is not a cofactor. The products of hydrolysis are ADP and Pi. The enzyme also catalyzed strand separation of duplex DNA in the presence of ATP and E. coli DNA binding protein. Two E. coli proteins capable of promoting strand separation have been reported previously and have been termed helicase I and II (Abdel-Monem, M., and Hoffmann-Berling, H. (1977) Eur. J. Biochem. 79, 33-38). Accordingly, this protein is named helicase III.
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PMID:Enzyme-catalyzed DNA unwinding. A DNA-dependent ATPase from E. coli. 22 86

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

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

Three distinct nucleic acid-dependent ATPases are packaged within infectious vaccinia virus particles; one of these enzymes (nucleoside triphosphate phosphohydrolase II or NPH-II) is activated by single-stranded RNA. Purified NPH-II is now shown to be an NTP-dependent RNA helicase. RNA unwinding requires a divalent cation and any one of the eight common ribo- or deoxyribonucleoside triphosphates. The enzyme acts catalytically to displace an estimated 10-fold molar excess of duplex RNA under in vitro reaction conditions. NPH-II binds to single-stranded RNA. Turnover of the bound enzyme is stimulated by and coupled to hydrolysis of NTP. Photocrosslinking of radiolabeled RNA to NPH-II results in label transfer to a single 73-kDa polypeptide. The sedimentation properties of the helicase are consistent with NPH-II being a monomer of this protein. Immunoblotting experiments identify NPH-II as the product of the vaccinia virus I8 gene. The I8-encoded protein displays extensive sequence similarity to members of the DE-H family of RNA-dependent NTPases. Mutations in the NPH-II gene [Fathi, Z. & Condit, R.C. (1991) Virology 181, 258-272] define the vaccinia helicase as essential for virus replication in vivo. Encapsidation of NPH-II in the virus particle suggests a role for the enzyme in synthesis of early messenger RNAs by the virion-associated transcription machinery.
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PMID:Vaccinia virus RNA helicase: an essential enzyme related to the DE-H family of RNA-dependent NTPases. 133 61

A mismatch-binding protein has been purified an estimated 4500-fold from HeLa nuclear extracts using four different chromatographic steps. Two polypeptides of apparent molecular weight of 160,000 and 100,000 were present in the final affinity-purified fraction as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Partial proteolytic clipping of the protein-DNA complexes visualized after UV treatment indicated that the 100-kDa polypeptide is most likely a degradation product of the 160-kDa polypeptide. UV cross-linking experiments have shown that both these polypeptides bind specifically to oligonucleotide duplexes containing G/T mismatches. Direct DNA binding studies and band-shift competition assays showed that although the mismatch-binding protein binds with highest affinity to oligonucleotides containing G/T mismatches, it is also capable of binding to oligonucleotides containing other mispairs. The purified protein has an associated Mg(2+)-dependent ATPase activity, which is markedly enhanced in the presence of single-stranded DNA. A helicase capable of unwinding a 34-mer oligonucleotide, annealed to a complementary sequence in single-stranded M13, also copurified with the mismatch-binding protein. This reaction occurs in an ATP- and magnesium-dependent manner.
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PMID:The purification of a human mismatch-binding protein and identification of its associated ATPase and helicase activities. 142 25

Previously the human nucleotide excision repair gene ERCC3 was shown to be responsible for a rare combination of the autosomal recessive DNA repair disorders xeroderma pigmentosum (complementation group B) and Cockayne's syndrome (complementation group C). The human and mouse ERCC3 proteins contain several sequence motifs suggesting that it is a nucleic acid or chromatin binding helicase. To study the significance of these domains and the overall evolutionary conservation of the gene, the homolog from Drosophila melanogaster was isolated by low stringency hybridizations using two flanking probes of the human ERCC3 cDNA. The flanking probe strategy selects for long stretches of nucleotide sequence homology, and avoids isolation of small regions with fortuitous homology. In situ hybridization localized the gene onto chromosome III 67E3/4, a region devoid of known D.melanogaster mutagen sensitive mutants. Northern blot analysis showed that the gene is continuously expressed in all stages of fly development. A slight increase (2-3 times) of ERCC3Dm transcript was observed in the later stages. Two almost full length cDNAs were isolated, which have different 5' untranslated regions (UTR). The SD4 cDNA harbours only one long open reading frame (ORF) coding for ERCC3Dm. Another clone (SD2), however, has the potential to encode two proteins: a 170 amino acids polypeptide starting at the optimal first ATG has no detectable homology with any other proteins currently in the data bases, and another ORF beginning at the suboptimal second startcodon which is identical to that of SD4. Comparison of the encoded ERCC3Dm protein with the homologous proteins of mouse and man shows a strong amino acid conservation (71% identity), especially in the postulated DNA binding region and seven 'helicase' domains. The ERCC3Dm sequence is fully consistent with the presumed functions and the high conservation of these regions strengthens their functional significance. Microinjection and DNA transfection of ERCC3Dm into human xeroderma pigmentosum (c.g. B) fibroblasts and group 3 rodent mutants did not yield detectable correction. One of the possibilities to explain these negative findings is that the D.melanogaster protein may be unable to function in a mammalian repair context.
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PMID:Cloning and characterization of the Drosophila homolog of the xeroderma pigmentosum complementation-group B correcting gene, ERCC3. 145 18

A novel DNA helicase has been isolated from Saccharomyces cerevisiae. This DNA helicase co-purified with replication factor C (RF-C) during chromatography on S-Sepharose, DEAE-silica gel high performance liquid chromatography (HPLC), Affi-Gel Blue-agarose, heparin-agarose, single-stranded DNA-cellulose, fast protein liquid chromatography MonoS, and hydroxyapatite HPLC. Surprisingly, the helicase could be separated from RF-C by sedimentation on a glycerol gradient in the presence of 200 mM NaCl. The helicase is probably a homodimer of a 60-kDa polypeptide, which by UV cross-linking has been shown to bind ATP. It has a single-stranded DNA-dependent ATPase activity, with a Km for ATP of 60 microM. The DNA helicase activity depends on the hydrolysis of NTP (dNTP), with ATP and dATP the most efficient cofactors, followed by CTP and dCTP. The DNA helicase has a 5' to 3' directionality and is only marginally stimulated by coating the single-stranded DNA with the yeast single-stranded DNA-binding protein RF-A.
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PMID:A Saccharomyces cerevisiae DNA helicase associated with replication factor C. 146 28

Raspberry bushy dwarf virus (RBDV) has isometric, 33 nm diameter particles and a bipartite RNA genome. Sequencing of the larger component (RNA-1) showed that it consists of 5449 nucleotides and contains one large open reading frame encoding a putative translation product with a calculated M(r) of 190,000. Comparisons of this polypeptide with non-structural proteins of other plant viruses revealed significant homologies with those of alfalfa mosaic virus (AlMV), brome mosaic virus (BMV), cucumber mosaic virus (CMV) and tobacco mosaic virus (TMV). Thus RBDV belongs to the supergroup of 'Sindbis-like' plant viruses. The translation product of RBDV RNA-1 contains motifs characteristic of proteins with polymerase, methyltransferase and helicase activities, suggesting that this protein is involved in the replication of the viral RNA. Thus in RBDV, as in TMV, all three functional domains are combined in the single protein, whereas in AlMV, BMV and CMV these domains are distributed over the proteins encoded by RNA-1 and RNA-2. These findings support the idea that RBDV should be placed in a distinct virus genus for which the name idaeovirus has been proposed.
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PMID:The nucleotide sequence of RNA-1 of raspberry bushy dwarf virus. 146 59

DNA helicase I, the traI gene product of the Escherichia coli F factor, was shown to be associated with endonuclease activity specific for the transfer origin of the F plasmid, oriT. In the presence of Mg2+, the purified enzyme forms a complex, stable in the presence of sodium dodecylsulfate (SDS) with a negatively superhelical chimeric plasmid containing oriT. The enzyme nicks and, after this, apparently binds to the 5' nick terminus when this complex is heated in the presence of SDS and/or EDTA or treated with proteinase K. Dideoxy sequencing locates the nick site in the F DNA strand transferred during bacterial conjugation after nucleotide 138 clockwise of the mid-point of the BglII site at 66.7 kb of the F genetic map. A sequencing stop after nucleotide 137 of this strand (where oriT-nicking seems to occur in vivo) is possibly an artefact caused by helicase I protein attached to the 5' terminal nucleotide. Deletion in the amino-terminal part of the traI polypeptide abolishes the oriT-nicking activity while leaving the strand-separating activity intact. These results confirm the prediction from genetic studies that helicase I is bifunctional with site-specific endonuclease and strand-separating activities.
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PMID:Endonuclease activity of Escherichia coli DNA helicase I directed against the transfer origin of the F factor. 165 Dec 33

The gene encoding the major nonstructural (NS-1) protein of minute virus of mice (MVM) has been expressed in insect cells using a baculovirus expression system. This 83-kDa polypeptide was found to be localized in the soluble (cytosolic) fraction in insect cells, in contrast with the nuclear localization of NS-1 expressed in MVM-infected mouse LA-9 cells. The protein was purified by immunoaffinity chromatography using a monoclonal antibody (MAb) prepared to an NS-1 fusion peptide [(Yeung et al., Virology 185, 35-45 (1991)]. Recombinant NS-1 was eluted using either low pH or a synthetic peptide corresponding to the epitope of the MAb. The peptide-eluted material is greater than 95% pure and biologically active in that it has ATPase activity and ATP-dependent helicase activity as determined by a strand displacement assay.
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PMID:Expression of minute virus of mice major nonstructural protein in insect cells: purification and identification of ATPase and helicase activities. 183 78

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