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)

We present the nucleotide sequence of a 5207-bp-long region of the mitochondrial genome of the dermatophyte Trichophyton rubrum. This represents about 1/5th of the total genome and extends a previous study. From the 5' end of the present sequence, the order of genes is as follows: the end of the ND4 gene, the gene coding for subunit 6 of ATPase, the gene coding for the small ribosomal RNA (SSU rRNA), the tyrosyl tRNA gene, the ND6 gene, the COXIII gene, the ATPase 8 subunit gene and a cluster of tRNAs genes corresponding respectively to the lysine, glutamine, asparagine, isoleucine and tryptophan isoacceptors. The interesting features of this region are its compact organisation, the presence of subunit 8 of the ATPase gene and the secondary structure of SSU rRNA which is close to that of Aspergillus nidulans. On the basis of the order of the genes, which is essentially similar to that of A. nidulans, we can also assume that the LSU rRNA subunit gene should be just upstream of this sequenced region.
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PMID:Organisation of the mitochondrial genome of Trichophyton rubrum. DNA sequence analysis of the ND4 gene, the ATPase subunit-6 gene, the ribosomal RNA small-subunit gene, the ND6 gene, the COXIII gene, the ATPase subunit-8 gene and six tRNA genes that correspond respectively to the tyrosine, lysine, glutamine, asparagine, isoleucine and tryptophan isoacceptors. 859 86

In addition to the two usual eukaryotic elongation factors (EF-1 alpha and EF-2) fungal ribosomes need a third protein, elongation factor 3, for translation. EF-3 is essential for in vivo and in vitro protein synthesis. Functionally, EF-3 stimulates EF-1 alpha dependent binding of aminoacyl-tRNA to the ribosomal A site when E site is occupied by deacylated tRNA. EF-3 has intrinsic ATPase activity which is regulated by the functional state of the ribosome. EF-3 ATPase is activated by both 40S and 60S ribosomal subunits. However intact 80S ribosomes are needed for efficient activation of EF-3 ATPase. EF-3 appears to be an RNA binding protein with high affinity for polynucleotides containing guanosine rich sequences. To determine whether guanosine rich sequence of ribosomal RNA is involved in EF-3 binding, an antisense oligonucleotide dC6 was used to block EF-3 interaction with the ribosome. The oligonucleotide suppresses activation of EF-3 ATPase by 40S ribosomal subunit and not by the 60S or the 80S particles. Poly(U)-directed polyphenylalanine synthesis by yeast ribosomes is inhibited by dC6. To define the binding site of the oligonucleotide and presumably of EF-3 on 18S ribosomal RNA, hydrolysis of rRNA by RNase H was followed in the presence of dC6. These experiments reveal an RNase H cleavage site at 1094GGGGGG1099 sequence of 18S ribosomal RNA. This guanosine rich sequence of rRNA is suggested to be involved in EF-3 binding to yeast ribosome. Data presented in this communication suggest that the activity of EF-3 involved a direct interaction with the guanosine rich sequence of rRNA.
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PMID:Interaction of yeast elongation factor 3 with polynucleotides, ribosomal RNA and ribosomal subunits. 871 1

Elongation factor 3 (EF-3) is a unique and essential requirement of the fungal translational apparatus. The biochemical function of EF-3 has recently been defined. The protein removes deacylated tRNA from the ribosomal exit site (E-site) thus facilitating occupation of the ribosomal A-site by aa-tRNA. A functional homolog of yeast EF-3 has not been identified in non-fungal species. Yeast EF-3 is a ribosome-dependent ATPase that can also accept GTP and ITP as substrates. The function of EF-3 in ribosomal reactions requires ATP hydrolysis. An ATPase activity associated with higher eukaryotic ribosomes has been claimed to be a direct functional homolog of yeast EF-3. Comparative analysis of biochemical, immunological and functional properties of ATPase activity associated with the ribosomes isolated from the ciliated protozoan Tetrahymena pyriformis with that of yeast EF-3 ATPase indicates that these two activities are significantly different. Results reported in this communication strongly suggest that the ribosome associated ATP hydrolytic activity of Tetrahymena pyriformis is not a functional homolog of yeast EF-3.
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PMID:Comparative analysis of ATPase of yeast elongation factor 3 and ATPase associated with Tetrahymena ribosomes. 878 61

The barley stripe mosaic virus (BSMV) beta(b) gene product is the major viral nonstructural protein synthesized during early stages of the infection cycle and is required for systemic movement of the virus. To examine the biochemical properties of beta(b), a histidine tag was engineered at the amino terminus and the protein was purified from BSMV-infected barley tissue by metal affinity chromatography. The beta(b) protein bound ATPs in vitro, with a preference for ATP over dATP, and also exhibited ATPase activity. In addition, beta(b) bound RNA without detectable sequence specificity. However, binding was selective, as the beta(b) protein had a strong affinity for both single-stranded (ss) and double-stranded (ds) RNAs but not for tRNA or DNA substrates. Mutational analyses of beta(b) purified from Escherichia coli indicated that the protein has multiple RNA binding sites. These sites appear to contribute differently, because mutants that were altered in their binding affinities for ss and ds RNA substrates were recovered.
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PMID:The barley stripe mosaic virus 58-kilodalton beta(b) protein is a multifunctional RNA binding protein. 899 80

To obtain a better molecular definition of patients with syndromic retinitis pigmentosa, we screened for mitochondrial DNA (mtDNA) alterations of the two ATPase genes and 22 tRNA-coding sequences in 10 patients whose features resembled NARP (neuropathy, ataxia, and retinitis pigmentosa) syndrome. In two patients, one of whom showed features mimicking Kearns-Sayre syndrome, we identified a heteroplasmic T8993G mutation (average 80%) in the mitochondrial ATPase 6 gene. There was no mutated mtDNA in muscle and leukocytes from the mother of one patient or in leukocytes from his brother, suggesting a rapid segregation of the mutated nucleotide. MtDNA analysis should be considered in the differential diagnosis of patients with syndromic retinitis pigmentosa.
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PMID:Heterogeneous clinical presentation of the mtDNA NARP/T8993G mutation. 922 7

Three tRNA binding sites have been found in organisms of all domains (former kingdoms) with only one exception: Four binding sites have been reported for cytoplasmic 80S ribosomes from rabbit liver. Therefore, the issue was reconsidered, and the data revealed that rabbit liver ribosomes contain three tRNA binding sites, underlining the universal character of this ribosomal feature. Furthermore, a first analysis of the role of the ribosome intrinsic ATPase was performed. This ATPase is found in ribosomes of higher eukarya but not in lower eukarya such as yeast or ribosomes of the domains archea and bacteria. The results suggest that the intrinsic ATPase fulfills the same function as the essential third elongation factor EF-3, an ATPase in higher fungi (yeast etc.), that facilitates the release of the deacylated tRNA from the E site.
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PMID:Three tRNA binding sites in rabbit liver ribosomes and role of the intrinsic ATPase in 80S ribosomes from higher eukaryotes. 926 29

Mitochondrial defects can be caused by mutations in nuclear or mitochondrial DNA. Large deletion/duplication and point mutations are the two major types of mitochondrial DNA (mtDNA) mutations. Comprehensive molecular diagnosis requires the analysis of multiple point mutations. We developed an effective multiplex PCR/allele-specific oligonucleotide (ASO) method to simultaneously screen multiple point mutations in mtDNA. The system involved three pairs of primers to amplify mutation "hot spots" at tRNA(leu(UUR)), tRNA(lys)/ATPase, and ND4 regions, followed by detection of point mutations with ASO probes. Over 2000 specimens were analyzed and the results were compared with those from previous studies with the PCR/restriction fragment length polymorphism method. Our data demonstrate that the multiplex PCR/ASO method is much more sensitive in the detection of low mutant heteroplasmy. It is simple and cost effective, especially if a large number of samples are to be screened for multiple point mutations.
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PMID:Direct detection of multiple point mutations in mitochondrial DNA. 934 4

The ATPase activity of rat liver 30S-5SRNP particles prepared by EDTA treatment of 80S ribosomes, and that of 40S subunits were investigated in correlation with polypeptide elongation. The ATPase activity of 30S-5SRNP particles was higher than that of 40S subunits. Poly(U) and TMV RNA stimulated the ATPase activity of 30S-5SRNP particles more markedly than that of 40S subunits. These two kinds of particles also showed intrinsic GTPase. Poly(U) enhanced the GTPase activity of 30S-5SRNP particles but not that of 40S subunits. An elongation factor (EF-1alpha, EF-2, or EF-1alphabetagamma) alone or in combination with poly(U) and/or other elongation factors stimulated the ATPase activities of both particles. The extent of stimulation of the ATPase activity by a combination of these components was usually somewhat higher than or similar to the sum of those with the individual components. The extents of stimulation by these components were higher in the case of 30S-5SRNP particles than that of 40S subunits, indicating the importance of the 5SRNP moiety in the former particles. The intactness of 18SrRNA was required for promotion of the ATPase activity of 30S-5SRNP particles by Phe(+), (-)tRNA(Phe). The ATPase activities of the two kinds of particles by themselves or those observed with the combinations of the components mentioned above were inhibited by several kinds of translation inhibitors. The degrees of inhibition were generally higher for 30S-5SRNP particles. The ATPase activity of 40S subunits was enhanced by spermidine, suggesting the importance of the conformational change induced by it. These results imply the participation of the intrinsic ATPase of 30S-5SRNP particles and 40S subunits in polypeptide elongation, and the important role of the 5SRNP moiety of 30S-5SRNP particles in the ATPase activity.
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PMID:ATPase associated with ribosomal 30S-5SRNP particles and 40S subunits of rat liver. 953 6

Protein families often are characterized by conserved sequence patterns or motifs. A researcher frequently wishes to evaluate the significance of a specific pattern within a protein, or to exploit knowledge of known motifs to aid the recognition of greatly diverged but homologous family members. To assist in these efforts, the pattern-hit initiated BLAST (PHI-BLAST) program described here takes as input both a protein sequence and a pattern of interest that it contains. PHI-BLAST searches a protein database for other instances of the input pattern, and uses those found as seeds for the construction of local alignments to the query sequence. The random distribution of PHI-BLAST alignment scores is studied analytically and empirically. In many instances, the program is able to detect statistically significant similarity between homologous proteins that are not recognizably related using traditional single-pass database search methods. PHI-BLAST is applied to the analysis of CED4-like cell death regulators, HS90-type ATPase domains, archaeal tRNA nucleotidyltransferases and archaeal homologs of DnaG-type DNA primases.
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PMID:Protein sequence similarity searches using patterns as seeds. 970 9

The adenosinetriphosphatase (ATPase) activity of the Escherichia coli DEAD protein DbpA is unusual in that it is specifically stimulated by 23S ribosomal RNA (rRNA). A coupled spectroscopic ATPase assay was used to investigate the interaction of DbpA with RNA and ATP. A 153-base fragment of domain V of 23S rRNA is kinetically identical to intact, native rRNA in activating DbpA: kcat = 600 min-1, Kapp(RNA) = 10 nM, and Km(ATP) = 120 microM. The ATPase turnover in the absence of RNA is 0.25 min-1. Fragments of 23S rRNA lacking this site (nucleotides 2454-2606) are essentially inactive, as are other RNAs such as poly(A) and tRNA. The relative RNA specificity of DbpA ranges from 10(3) to 10(6) [kmax/Kapp(RNA)]. The interaction with this small RNA fragment was further investigated with regard to stoichiometry, pH, salt and temperature. DbpA is not activated by E. coli ribosomes, nor by large subunits, while denatured ribosomes stimulate full ATPase activity. Taken together with the tight, site-specific binding to naked, unmodified 23S rRNA, this suggests a role for DbpA in ribosome biogenesis rather than translation.
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PMID:Kinetic analysis of the RNA-dependent adenosinetriphosphatase activity of DbpA, an Escherichia coli DEAD protein specific for 23S ribosomal RNA. 983 93

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