EC:3.6.1.3 - FACTA Search

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)

The adeno-associated virus type 2 (AAV) Rep68 protein produced in Escherichia coli as a fusion protein with maltose-binding protein (MBP-Rep68 delta) has previously been shown to possess DNA-DNA helicase activity, as does the purified wild-type Rep68. In the present study, we demonstrate that MBP-Rep68 delta also catalyzes the unwinding of a DNA-RNA hybrid. MBP-Rep68 delta-mediated DNA-RNA helicase activity required ATP hydrolysis and the presence of Mg2+ ions and was inhibited by high ionic strength. The efficiency of the DNA-RNA helicase activity of MBP-Rep68 delta was comparable to its DNA-DNA helicase activity. However, MBP-Rep68 delta lacked the ability to unwind a blunt-ended DNA-RNA substrate and RNA-RNA duplexes. We have also demonstrated that MBP-Rep68 delta has ATPase activity which is enhanced by the presence of single-stranded DNA but not by RNA. The MBP-Rep68 delta NTP mutant protein, which has a lysine-to-histidine substitution at amino acid 340 in the putative nucleoside triphosphate-binding site of Rep68, not only lacks DNA-RNA helicase and ATPase activities but also inhibits the helicase activity of MBP-Rep68 delta. DNA-RNA helicase activity of Rep proteins might play a pivotal role in the regulation of AAV gene expression by AAV Rep proteins.
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PMID:A maltose-binding protein/adeno-associated virus Rep68 fusion protein has DNA-RNA helicase and ATPase activities. 753 73

The Hepatitis C Virus (HCV) NS3 protein contains amino acid motifs of a serine proteinase, a nucleotide triphosphatase (NTPase), and an RNA helicase based on amino acid sequence analysis. Proteinase and NTPase activities of the HCV NS3 protein were reported by several investigators. Here, we show that the recombinant HCV NS3 protein purified from a T7 promoter and His-tag expression system possesses an RNA helicase activity. The recombinant HCV NS3 protein consists of 466 amino acids from the carboxy terminal of a HCV NS3 open reading frame and 25 additional residues from the vector. The recombinant HCV NS3 protein was purified by metal-binding chromatography. The helicase activity requires ATP and divalent cations such as Mg2+ and Mn2+. The helicase activity was abolished by monoclonal antibody specific to the HCV NS3 protein.
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PMID:C-terminal domain of the hepatitis C virus NS3 protein contains an RNA helicase activity. 757 85

Helicases are essential enzymes for life because DNA replication, DNA repair, recombination, transcription, RNA splicing and translation all involve more than one helicase to unwind DNA or RNA. We have discovered, cloned and partially characterized a novel human helicase gene, SKI2W. The human SKI2W is located between the RD and RP1 genes in the class III region of the major histocompatibility complex (MHC) on chromosome 6, a genomic region associated with many malignant, genetic and autoimmune diseases. Derived amino acid sequence of human SKI2W showed an open reading frame for 1246 residues. It contains consensus sequences for structural motifs of an RNA helicase with a DEVH box. It has a leucine zipper motif that may be important for protein dimerization, and an RGD motif close to the N-terminus that might serve as a ligand for integrin or cell adhesion molecules. SKI2W shares a striking and extensive similarity to the yeast Ski2p that is involved in the inhibition of translation of poly(A) negative [poly(A)-] RNA, and plays an important role in antiviral activities. Human SKI2W fusion protein expressed in insect cells using a baculovirus vector has ATPase activity. The human SKI2W protein and the yeast Ski2p share extensive sequence similarities to another putative human protein KIAA0052, suggesting the presence of a new gene family that may be involved in translational regulation of cellular and viral RNA.
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PMID:Human helicase gene SKI2W in the HLA class III region exhibits striking structural similarities to the yeast antiviral gene SKI2 and to the human gene KIAA0052: emergence of a new gene family. 761 41

The predicted amino acid sequence of the vaccinia virus gene A18R shows significant homology to the human ERCC3 gene product, which is a member of the DEXH subfamily of the DNA and RNA helicase superfamily II and which plays a role in both RNA polymerase II transcription and nucleotide excision repair of DNA. The vaccinia virus A18R gene product is expressed throughout infection and is encapsidated in virions. Vaccinia virions containing mutant A18R gene product are defective in early viral transcription in vitro, and infection with A18R mutant virus results in aberrant viral transcription late during infection. Thus we hypothesize that the vaccinia virus A18R gene product is a helicase that plays a role in viral transcription and possibly DNA repair. As a first test of this hypothesis, we have affinity purified an amino-terminal polyhistidine-tagged A18R protein and shown that it has DNA-dependent ATPase activity. The A18R ATPase activity is stimulated by both single-stranded and double-stranded DNA and by RNA.DNA hybrids, but not by either single-stranded or double-stranded RNA.
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PMID:The vaccinia virus A18R gene product is a DNA-dependent ATPase. 782 83

The pestivirus bovine viral diarrhea virus (BVDV) p80 protein (referred to here as the NS3 protein) contains amino acid sequence motifs predictive of three enzymatic activities: serine proteinase, nucleoside triphosphatase, and RNA helicase. We have previously demonstrated that the former two enzymatic activities are associated with this protein. Here, we show that a purified recombinant BVDV NS3 protein derived from baculovirus-infected insect cells possesses RNA helicase activity. BVDV NS3 RNA helicase activity was specifically inhibited by monoclonal antibodies to the p80 protein. The activity was dependent on the presence of nucleoside triphosphate and divalent cation, with a preference for ATP and Mn2+. Hydrolysis of the nucleoside triphosphate was necessary for strand displacement. The helicase activity required substrates with an un-base-paired region on the template strand 3' of the duplex region. As few as three un-base-paired nucleotides were sufficient for efficient oligonucleotide displacement. However, the enzyme did not act on substrates having a single-stranded region only to the 5' end of the duplex or on substrates lacking single-stranded regions altogether (blunt-ended duplex substrates), suggesting that the directionality of the BVDV RNA helicase was 3' to 5' with respect to the template strand. The BVDV helicase activity was able to displace both RNA and DNA oligonucleotides from RNA template strands but was unable to release oligonucleotides from DNA templates. The possible role of this activity in pestivirus replication is discussed.
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PMID:Pestivirus NS3 (p80) protein possesses RNA helicase activity. 785 9

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

The replication of Semliki Forest virus requires four nonstructural proteins (nsP1 to nsP4), all derived from the same polyprotein. One of these, nsP2, is a multifunctional protein needed in RNA replication and in the processing of the nonstructural polyprotein. On the basis of amino acid sequence homologies, nsP2 was predicted to possess nucleoside triphosphatase and RNA helicase activities. Here, we report the engineered expression in Escherichia coli of nsP2 and of an amino-terminal fragment of it by use of the highly efficient T7 expression system. Both polypeptides were produced as fusion proteins with a histidine tag at the amino terminus and purified by immobilized-metal affinity chromatography. The two recombinant proteins exhibited ATPase and GTPase activities, which were further stimulated by the presence of single-stranded RNA. The activities were not found in similarly prepared fractions from uninduced control cells or cells expressing an unrelated polypeptide. Radiolabeled ribonucleoside triphosphates could be cross-linked to both the full-length and the carboxy-terminally truncated nsP2 protein, and both polypeptides had RNA-binding capacity. We also expressed and purified an nsP2 variant which had a single amino acid substitution in the nucleotide-binding motif (Lys-192-->Asn). No nucleoside triphosphatase activity was associated with this mutant protein.
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PMID:ATPase and GTPase activities associated with Semliki Forest virus nonstructural protein nsP2. 805 61

When expression of the vaccinia virus gene encoding RAP94 (a protein that is associated with the viral multisubunit RNA polymerase and confers transcriptional specificity for early promoters) was repressed, the infectious virus yield was reduced by more than 99%. Nevertheless, intermediate- and late-stage viral gene expression and formation of ultrastructurally mature, membrane-enveloped virions occurred under the nonpermissive conditions. The RAP94-deficient particles contained the viral genome, structural proteins, early transcription factor, and certain enzymes but, unlike normal virions, had low or undetectable amounts of the viral RNA polymerase, capping enzyme/termination factor, poly(A) polymerase, DNA-dependent ATPase, RNA helicase, and topoisomerase. The presence of these viral enzymes in the cytoplasm indicated that RAP94 is required for targeting a complex of functionally related proteins involved in the biosynthesis of mRNA.
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PMID:Targeting of a multicomponent transcription apparatus into assembling vaccinia virus particles requires RAP94, an RNA polymerase-associated protein. 810 1

To characterize sequences in the RNA helicase-like PRP2 protein of Saccharomyces cerevisiae that are essential for its function in pre-mRNA splicing, a pool of random PRP2 mutants was generated. A dominant negative allele was isolated which, when overexpressed in a wild-type yeast strain, inhibited cell growth by causing a defect in pre-mRNA splicing. This defect was partially alleviated by simultaneous co-overexpression of wild-type PRP2. The dominant negative PRP2 protein inhibited splicing in vitro and caused the accumulation of stalled splicing complexes. Immunoprecipitation with anti-PRP2 antibodies confirmed that dominant negative PRP2 protein competed with its wild-type counterpart for interaction with spliceosomes, with which the mutant protein remained associated. The PRP2-dn1 mutation led to a single amino acid change within the conserved SAT motif that in the prototype helicase eIF-4A is required for RNA unwinding. Purified dominant negative PRP2 protein had approximately 40% of the wild-type level of RNA-stimulated ATPase activity. As ATPase activity was reduced only slightly, but splicing activity was abolished, we propose that the dominant negative phenotype is due primarily to a defect in the putative RNA helicase activity of PRP2 protein.
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PMID:A dominant negative mutation in the conserved RNA helicase motif 'SAT' causes splicing factor PRP2 to stall in spliceosomes. 811 1

The RNA helicase-like splicing factor PRP2 interacts only transiently with spliceosomes. To facilitate analysis of interactions of PRP2 with spliceosomal components, PRP2 protein was stalled in splicing complexes by two different methods. A dominant negative mutant form of PRP2 protein, which associates stably with spliceosomes, was found to interact directly with pre-mRNAs, as demonstrated by UV-crosslinking experiments. The use of various mutant and truncated pre-mRNAs revealed that this interaction requires a spliceable pre-mRNA and an assembled spliceosome; a 3' splice site is not required. To extend these observations to the wild-type PRP2 protein, spliceosomes were depleted of ATP; PRP2 protein interacts with pre-mRNA in these spliceosomes in an ATP-independent fashion. Comparison of RNA binding by PRP2 protein in the presence of ATP or gamma S-ATP showed that ATP hydrolysis rather than mere ATP binding is required to release PRP2 protein from pre-mRNA. As PRP2 is an RNA-stimulated ATPase, these experiments strongly suggest that the pre-mRNA is the native co-factor stimulating ATP hydrolysis by PRP2 protein in spliceosomes. Since PRP2 is a putative RNA helicase, we propose that the pre-mRNA is the target of RNA displacement activity of PRP2 protein, promoting the first step of splicing.
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PMID:The splicing factor PRP2, a putative RNA helicase, interacts directly with pre-mRNA. 811 2

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