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)

eIF-4A is a translation initiation factor that exhibits bidirectional RNA unwinding activity in vitro in the presence of another translation initiation factor, eIF-4B and ATP. This activity is thought to be responsible for the melting of secondary structure in the 5' untranslated region of eukaryotic mRNAs to facilitate ribosome binding. eIF-4A is a member of a fast growing family of proteins termed the DEAD family. These proteins are believed to be RNA helicases, based on the demonstrated in vitro RNA helicase activity of two members (eIF-4A and p68) and their homology in eight amino acid regions. Several related biochemical activities were attributed to eIF-4A: (i) ATP binding, (ii) RNA-dependent ATPase and (iii) RNA helicase. To determine the contribution of the highly conserved regions to these activities, we performed site-directed mutagenesis. First we show that recombinant eIF-4A, together with recombinant eIF-4B, exhibit RNA helicase activity in vitro. Mutations in the ATPase A motif (AXXXXGKT) affect ATP binding, whereas mutations in the predicted ATPase B motif (DEAD) affect ATP hydrolysis. We report here that the DEAD region couples the ATPase with the RNA helicase activity. Furthermore, two other regions, whose functions were unknown, have also been characterized. We report that the first residue in the HRIGRXXR region is involved in ATP hydrolysis and that the SAT region is essential for RNA unwinding. Our results suggest that the highly conserved regions in the DEAD box family are critical for RNA helicase activity.
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PMID:Mutational analysis of a DEAD box RNA helicase: the mammalian translation initiation factor eIF-4A. 137 97

PRP16 is an RNA-dependent ATPase required for the second catalytic step of splicing in vitro. A dominant suppressor of a branchpoint mutation in Saccharomyces cerevisiae, the prp16-1 allele, contains a Tyr to Asp change in the nucleotide-binding site consensus sequence. We now find that cells harboring the prp16-1 allele have a general growth defect that is exacerbated at cold temperatures. The mutant is dominant over the wild-type gene when overexpressed. Purified Prp16-1 protein binds to the spliceosome with apparently wild-type affinity; however, it only weakly complements the second-step block in a PRP16-depleted extract. Analysis of purified Prp16-1 revealed that the rate of ATP hydrolysis is greatly reduced. These results can account for the dominant negative growth phenotype and argue that the ATPase activity of PRP16 is essential for its role in splicing. Moreover, since PRP16 is a member of the DEAD/H box families, these findings have important implications for a large class of proteins.
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PMID:A dominant negative mutation in a spliceosomal ATPase affects ATP hydrolysis but not binding to the spliceosome. 138 54

The human p68 protein, an SV40 large T related antigen, is an RNA dependent ATPase and RNA helicase. It belongs to a new large and highly conserved gene family, the DEAD box proteins, whose members are involved in a variety of processes requiring manipulation of RNA secondary structure such as translation and splicing. Multiple DEAD box genes are present in S.cerevisiae, but only one has previously been described in E.coli. Low stringency screening of an E.coli genomic library with a p68 cDNA probe led to the identification of dbpA, a new E.coli DEAD box gene located at 29.6 minutes on the W3110 chromosome. We report here the nucleotide and deduced amino acid sequences of the gene. We have overexpressed dbpA from its own promoter on a high copy number plasmid and identified the gene product as a approximately 50 kD protein by immunoblotting with an anti-DEAD antibody.
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PMID:Identification of a putative RNA helicase in E.coli. 221 14

The human nuclear antigen p68 cross reacts with a monoclonal antibody to SV40 large-T antigen. Its deduced amino acid sequence contains short motifs which place it in a large superfamily of proteins of known or putative helicase activity. Recently, a p68 subfamily (DEAD box proteins) which share more extensive regions of homology has been identified in mouse, Drosophila, Saccharomyces cerevisiae and Escherichia coli. These proteins are involved in translation, ribosome assembly, mitochondrial splicing, spermatogenesis and embryogenesis. We show here that immunopurified human p68 has RNA dependent ATPase activity. In addition, we show that the protein undergoes dramatic changes in cellular location during the cell cycle.
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PMID:Nuclear protein p68 is an RNA-dependent ATPase. 252 46

Human p68 RNA helicase is a nuclear RNA-dependent ATPase that belongs to a family of putative helicases known as the DEAD box proteins. These proteins have been implicated in aspects of RNA function including translation initiation, splicing, and ribosome assembly in a variety of organisms ranging from Escherichia coli to humans. While members of this family are believed to function in the manipulation of RNA secondary structure, little is known about the regulation of these enzymes. By immunological methods and sequence comparison, we have found that p68 possesses a region of sequence similarity to the conserved protein kinase C phosphorylation site and calmodulin binding domain (also known as the IQ domain) of the neural-specific proteins neuromodulin (GAP-43) and neurogranin (RC3). We report that p68 is phosphorylated by protein kinase C in vitro and binds calmodulin in a Ca(2+)-dependent manner. Both phosphorylation and calmodulin binding inhibited p68 ATPase activity, suggesting that the RNA unwinding activity of p68 may be regulated by dual Ca2+ signal transduction pathways through its IQ domain.
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PMID:Regulation of p68 RNA helicase by calmodulin and protein kinase C. 752 83

CDC54 is a gene essential for initiation of DNA replication in Saccharomyces cerevisiae, and which is known to genetically interact with other regulators of the S-phase, including CDC46. We describe the isolation and sequencing of CDC54 and show that it encodes a protein structurally related to Cdc46p, Mcm2p and Mcm3p by the presence of a conserved domain of 145 amino acids which is internal to each polypeptide. This conserved domain resembles the DEAD box of RNA helicases and is similar to the conserved domain associated with a group of transcription and replication factors with known or assumed DNA-dependent ATPase activity, suggesting it may be involved in nucleic-acid recognition. Comparison of Cdc54p to related proteins from other species revealed that it closely resembles cdc21p from Schizosaccharomyces pombe.
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PMID:Cdc54 belongs to the Cdc46/Mcm3 family of proteins which are essential for initiation of eukaryotic DNA replication. 769 53

The Escherichia coli protein DbpA is a member of the 'DEAD box' family of putative RNA-dependent ATPases and RNA helicases, so called because they share the highly conserved motif Asp-Glu-Ala-Asp, together with several other conserved elements. We have investigated DbpA expression under conditions where an endogenous promoter is used. In this context, translation initiation does not occur at the previously identified AUG, but at an upstream, in-frame GUG. Mutation of the GUG initiation codon to AUG virtually abolishes DbpA expression, suggesting an unusual translation initiation mechanism. Using an inducible overexpression plasmid, we have purified milligram quantities of DbpA to homogeneity and shown that the purified protein hydrolyses ATP in an RNA-dependent manner. This ATPase activity is interesting in that, unlike that of other DEAD box proteins investigated to date, it absolutely requires a specific bacterial RNA, which we have identified as 23S rRNA. This observation is particularly significant since DbpA will bind other RNAs and DNA, but will only hydrolyse ATP in the presence of 23S rRNA.
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PMID:DbpA: a DEAD box protein specifically activated by 23s rRNA. 825 85

eIF-4A is a eukaryotic translation initiation factor that is required for mRNA binding to ribosomes. It exhibits single-stranded RNA-dependent ATPase activity, and in combination with a second initiation factor, eIF-4B, it exhibits duplex RNA helicase activity. eIF-4A is the prototype of a large family of proteins termed the DEAD box protein family, whose members share nine highly conserved amino acid regions. The functions of several of these conserved regions in eIF-4A have previously been assigned to ATP binding, ATPase, and helicase activities. To define the RNA-binding region of eIF-4A, a UV-induced cross-linking assay was used to analyze binding of mutant eIF-4A proteins to RNA. Mutants carrying mutations in the ATP-binding region (AXXXXGKT), ATPase region (DEAD), helicase region (SAT), and the most carboxy-terminal conserved region of the DEAD family, HRIGRXXR, were tested for RNA cross-linking. We show that mutations, either conservative or not, in any one of the three arginines in the HRIGRXXR sequence drastically reduced eIF-4A cross-linking to RNA. In addition, all the mutations in the HRIGRXXR region abrogate RNA helicase activity. Some but not all of these mutations affect ATP binding and ATPase activity. This is consistent with the hypothesis that the HRIGRXXR region is involved in the ATP hydrolysis reaction and would explain the coupling of ATPase and RNA-binding/helicase activities. Our results show that the HRIGRXXR region, which is QRXGRXXR or QXXGRXXR in the RNA and DNA helicases of the helicase superfamily II, is involved in ATP hydrolysis-dependent RNA interaction during unwinding. We also show that mutations in other regions of eIF-4A that abolish ATPase activity sharply decrease eIF-4A cross-linking to RNA. A model is proposed in which eIF-4A first binds ATP, resulting in a change in eIF-4A conformation which allows RNA binding that is dependent on the HRIGRXXR region. Binding of RNA induces ATP hydrolysis, leading to a more stable interaction with RNA. This process is then linked to unwinding of duplex RNA in the presence of eIF-4B.
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PMID:The HRIGRXXR region of the DEAD box RNA helicase eukaryotic translation initiation factor 4A is required for RNA binding and ATP hydrolysis. 841 73

The Escherichia coli DEAD (Asp-Glu-Ala-Asp) box protein DbpA is a putative RNA helicase and established RNA-dependent ATPase and is the only member of the DEAD box protein family for which a specific RNA substrate, bacterial 23S rRNA, has been identified. We have investigated the nature of this specificity in depth and have localized by deletion mutagenesis and PCR a single region of 93 bases (bases 2496-2588) in 23S rRNA that is both necessary and sufficient for complete activation of ATPase activity of DbpA. This target region forms part of the peptidyltransferase center and includes many bases involved in interaction with the 3' terminal adenosines of both A- and P-site tRNAs. Deletion of stem loops within the 93-base segment abolished ATPase activation. Similarly, point mutations that disrupt base pairing within stem structures ablated stimulation of ATPase activity. These data are consistent with roles for DbpA either in establishing and/or maintaining the correct three-dimensional structure of the peptidyltransferase center in 23S rRNA during ribosome assembly or in the peptidyltransferase reaction.
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PMID:The "DEAD box" protein DbpA interacts specifically with the peptidyltransferase center in 23S rRNA. 852 28

P72, a novel human member of the DEAD box family of putative RNA-dependent ATPases and ATP-dependent RNA helicases was isolated from a HeLa cDNA library. The predicted amino acid sequence of p72 is highly homologous to that of the prototypic DEAD box protein p68. In addition to the conserved core domains characteristic of DEAD box proteins, p72 contains several N-terminal RGG RNA-binding domains and a serine/glycine rich C-terminus likely involved in mediating protein-protein interactions. A p72-specific probe detects two mRNAs of approximately 5300 and 9300 bases which, although ubiquitously expressed, show variability in their expression levels in different tissues. Purified recombinant p72 exhibits ATPase activity in the presence of a range of RNA moieties. Immunocytochemical studies of p68 and p72 show that these proteins localise to similar locations in the nucleus of HeLa cells, suggesting their involvement in a nuclear process.
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PMID:p72: a human nuclear DEAD box protein highly related to p68. 887 53

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