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 H+-ATPase, located in the yeast plasma membrane and encoded by the PMA1 gene, provides energy for the active transport of nutrients and regulates intracellular pH. Expression of the PMA1 gene is essential for cell growth and development. In this study, progressive deletions of the PMA1 promoter fused to the beta-galactosidase gene have identified two upstream activating sequences. These upstream activating sequences have high homologies with the consensus sequence known to control the expression of the ribosomal protein genes (RPG). In vivo deletion of these RPG sequences from the PMA1 gene results in slower growth and reduces ATPase activity to one-third of its original value. The RPG sequences from PMA1 interact with the promoter binding factor TUF. Thus, PMA1 belongs to the RPG-TUF system which includes many constitutive genes encoding nonrelated functions such as ATP metabolism, transcription, translation, and active transport.
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PMID:The yeast H+-ATPase gene is controlled by the promoter binding factor TUF. 252 95

Transgenic mice that contain the simian virus 40 (SV40) enhancer-promoter and large tumor (T) antigen gene develop papillomas of the choroid plexus. The tumors remain well differentiated on histological examination and express normal levels of tissue-specific mRNAs for transthyretin (TTR) and the 5-HT1C serotonin receptor, two differentiated cell markers. Both Northern (RNA) blot analysis and in situ cytohybridization have been used to monitor the steady-state levels of the mRNAs from the viral oncogene (T antigen) and from several cellular oncogenes. In situ hybridization demonstrated, in serial sections, increased levels of both T antigen mRNA and p53 mRNA localized in the tumor tissue but not in the normal brain tissue. The ratios of the steady-state levels of mRNA for p53/TTR and p53/L32, a ribosomal protein gene, were 2- to 20-fold higher in the tumor tissue than in the normal choroid plexus tissue. Several other oncogenes did not show elevated levels of mRNA in these tumors. p53 protein levels were not detectable in normal brain tissue, but p53 levels were very high in tumor tissue in which all of the p53 was found in a complex with the SV40 large T antigen. These data continue to show a close relationship between SV40 T-antigen-mediated tumorigenesis and the role of p53 in these tumors.
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PMID:Cellular gene expression in papillomas of the choroid plexus from transgenic mice that express the simian virus 40 large T antigen. 264 78

It has been found that preparations of Escherichia coli (MRE-600) ribosomes can display GTPase and ATPase activities independent of elongation factors EF-Tu and EF-G. The GTPase and ATPase are localized on ribosomal 50S subparticles, whereas 30S subparticles are free of the activities and do not stimulate them upon association with the 50S subparticles to form complete ribosomes. The GTPase and ATPase can be removed from the ribosomes and their 50S subparticles by treatment with 1 M NH4Cl or 50% ethanol in the cold. Ribosomal preparations freed from the factor-independent GTPase and ATPase retain their basic functional features. The data obtained do not permit to solve finally whether the factor-independent GTPase and ATPase revealed are components of ribosomes or represent a contamination rather firmly bound to the ribosomes. However, in any case this finding can contribute to an uncoupled hydrolysis of GTP and should be considered when studying the stoichiometry of triphosphate expenditure in the process of ribosomal protein synthesis.
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PMID:[Stoichiometry of GTP hydrolysis during peptide synthesis on the ribosome. I. Factor-independent GTPase and ATPase of ribosomal preparations]. 611 12

In the framework of the mycobacterial genome sequencing project, a continuous 37,049 bp sequence from the Mycobacterium leprae chromosome has been determined. Computer analysis revealed 10 complete open reading frames, and nine of their products show similarity to known proteins. Seven of these were identified as the enzyme isocitrate lyase, two P-type ATPase cation transporters, two AMP-binding proteins, the ribosomal protein S1, and DNA polymerase I. Interestingly, the polA gene, encoding DNA polymerase, is flanked by two inverted copies of a new class of the M. leprae specific repetitive sequence, RLEP, and this structure resembles a transposable element. A second copy of this element was found at another locus in the genome, but the two copies were not present in equal amounts and could not be found in all isolates of M. leprae. This is the first evidence for genomic variability in the leprosy bacillus and might ultimately be useful for developing a molecular test capable of distinguishing between strains of M. leprae.
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PMID:The Mycobacterium leprae genome: systematic sequence analysis identifies key catabolic enzymes, ATP-dependent transport systems and a novel polA locus associated with genomic variability. 747 88

Fungi appear to be unique in their requirement for a third soluble translation elongation factor. This factor, designated elongation factor 3 (EF-3), exhibits ribosome-dependent ATPase and GTPase activities that are not intrinsic to the fungal ribosome but are nevertheless essential for translation elongation in vivo. The EF-3 polypeptide has been identified in a wide range of fungal species and the gene encoding EF-3 (YEF3) has been isolated from four fungal species (Saccharomyces cerevisiae, Candida albicans, Candida guillermondii, and Pneumocystis carinii). Computer-assisted analysis of the predicted S. cerevisiae EF-3 amino acid sequence was used to identify several potential functional domains; two ATP binding/catalytic domains conserved with equivalent domains in members of the ATP-Binding Cassette (ABC) family of proteins, an amino-terminal region showing significant similarity to the E. coli S5 ribosomal protein, and regions of predicted interaction with rRNA, tRNA, and mRNA. Furthermore, EF-3 was also found to display amino acid similarity to myosin proteins whose cellular function is to provide the motive force of muscle. The identification of these regions provides clues to both the evolution and function of EF-3. The predicted functional regions are conserved among all known fungal EF-3 proteins and a recently described homologue encoded by the Chlorella virus CVK2. We propose that EF-3 may play a role in the ribosomal optimization of the accuracy of fungal protein synthesis by altering the conformation and activity of a ribosomal "accuracy center," which is equivalent to the S4-S5-S12 ribosomal protein accuracy center domain of the E. coli ribosome. Furthermore, we suggest that EF-3 represents an evolving ribosomal protein with properties analogous to the intrinsic ATPase activities of higher eukaryotic ribosomes, which has wider implications for the evolutionary divergence of fungi from other eukaryotes.
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PMID:Translation elongation factor-3 (EF-3): an evolving eukaryotic ribosomal protein? 756 24

The nucleotide sequence of a 12.5 kbp segment of the left arm of chromosome IV is described. Five open reading frames (ORFs) longer than 100 amino acids were detected, all of which are completely confined to the 12.5 kbp region. Two ORFs (D1271 and D1286) correspond to previously sequenced genes (PPH22 and VMA1 or TFP1, respectively). ORF D1298 shows the characteristics of alpha-isopropylmalate and homocitrate synthase genes and is similar to the nifV gene of Azotobacter vinelandii. Two more ORFs have no apparent homologue in the data libraries. Conversely, two smaller ORFs of 25 and 85 amino acids encoding the ribosomal protein YL41A and an ATPase inhibitor, respectively, were detected. Although a substantial part of the 12.5 kbp fragment apparently lacks protein-coding characteristics, no other elements, such as tRNA genes or transposons, were found.
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PMID:New open reading frames, one of which is similar to the nifV gene of Azotobacter vinelandii, found on a 12.5 kbp fragment of chromosome IV of Saccharomyces cerevisiae. 853 71

The complete 27,694-bp mitochondrial (mt) DNA sequence of Hansenula wingei, which is a typical budding yeast and contains circular mitochondrial DNA, has been determined. The mt sequence contains genes encoding large and small ribosomal RNAs, 25 tRNAs, three subunits of cytochrome c oxidase (subunits 1, 2 and 3), three subunits of ATPase (subunits 6, 8 and 9), apocytochrome b, seven subunits of NADH dehydrogenase (subunits 1, 2, 3, 4, 4L, 5 and 6), and a ribosomal protein, VAR1. The VAR1 gene is considered to be a typical yeast type. This is consistent with data on DNA and the deduced amino-acid sequence homology comparisons of genes ubiquitous in yeast and fungi. However, we have identified seven genes encoding NADH dehydrogenase subunits, which are not found in other yeast mitochondrial genomes, thus placing the H. wingei mitochondrial genome in a unique position. In addition the H. wingei mitochondrial genome also encodes one tRNA pseudogene and one short unidentified ORF. The genome is compact with only two introns both of which contain an ORF. One intron lies in the large rRNA gene while the other is situated in the cytochrome c oxidase subunit-1 gene. The conserved nonanucleotide motif (A/T)TATAAG (T/A)(A/T), which is a transcription start signal in Saccharomyces cerevisiae mitochondria, has also been found in the H. wingei mitochondrial genome. The codon assignments for ATA and CTN in H. wingei mitochondria are different from those in S. cerevisiae mitochondria. These results indicate a unique and novel structure for the H. wingei mitochondrial genome in terms of characteristics which are typical for both yeast and for filamentous fungi. This is the first complete mt DNA sequence report in yeast.
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PMID:The complete mitochondrial DNA sequence of Hansenula wingei reveals new characteristics of yeast mitochondria. 853 12

To sequence the entire 800 kilobase pair genome of the bacterium Mycoplasma pneumoniae, a plasmid library was established with contained the majority of the EcoR1 fragments from M.pneumoniae. The EcoR1 fragments were subcloned from an ordered cosmid library comprising the complete M.pneumoniae genome. Individual plasmid clones were sequenced in an ordered fashion mainly by primer walking. We report here the initial results from the sequence analysis of -56 kb comprising the dnaA region as a potential origin of replication, the ATPase operon and a region coding for a cluster of ribosomal protein genes. The data were compared with the corresponding genes/operons from Bacillus subtilis, Escherichia coli, Mycoplasma capricolum and Mycoplasma gallisepticum.
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PMID:Sequence analysis of 56 kb from the genome of the bacterium Mycoplasma pneumoniae comprising the dnaA region, the atp operon and a cluster of ribosomal protein genes. 860 3

We have determined the complete nucleotide sequence of the circular mitochondrial DNA (mtDNA) of the chytridiomycete fungus, Allomyces macrogynus (57,473 bp; A + T content 60.5%). The identified genes that are typical for most fungal mitochondria include those for the large (rnl) and small subunit (rns) ribosomal RNAs, a complete set of 25 tRNAs, three ATPase subunits (atp6, atp8 and atp9), apocytochrome b(cob), three subunits of the cytochrome oxidase complex (cox1, cox2 and cox3), and seven subunits of the NADH dehydrogenase complex (nad1, nad2, nad3, nad4, nad4L, nad5 and nad6). A total of 28 introns of both groups are found, some of which contain open reading frames (ORFs) coding for potential endonucleases (group I) or reverse-transcriptases (group II). All mitochondrial genes are transcribed from the same DNA strand, as is the case in many other eufungi. Particular features of the A. macrogynus mtDNA include: (1) the first documented case of a fungal mitochondrial ribosomal protein gene (rps3) that is clearly identified by similarity with bacterial homologues; (2) four unique ORFs; (3) the presence of an insert in the atp6 gene that may have been acquired by interspecific transfer; (4) more than 67 short, highly structured and conserved DNA elements inserted in intergenic spacers, introns, and variable regions of the rnl and rns genes: these elements are unusually G + C rich; (5) rRNA structures that resemble more closely those of eubacteria than their counterparts in other fungal mitochondria. The high degree of conservation of the A. macrogynus mitochondrial rRNA secondary structures, the existence of a mitochondrial rps3 gene (common to protist but unique in fungal mtDNAs), and phylogenetic relationships inferred from highly conserved protein genes, demonstrate consistently the ancestral character of this fungal mitochondrial genome.
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PMID:The mitochondrial DNA of Allomyces macrogynus: the complete genomic sequence from an ancestral fungus. 863 71

Differentially expressed cDNA clones were isolated from salt-adapted Aspergillus nidulans (FGSC #359). Poly (A)+ RNA from adapted mycelia was used to construct a lambda Uni-ZAP cDNA library. The library was screened with mixed subtracted cDNA probes. Three-hundred and fifty-seven positive plaques were isolated in the primary screening. Sixty-two randomly selected plaques were purified and placed into eight different cross-hybridization groups. A representative cDNA from each group was used to study expression under unadapted, salt-adapted and salt-shock conditions. These clones, representing eight different genes, displayed enhanced expression under salt stress. Exploratory nucleotide sequencing was performed, and the predicted amino-acid sequence was compared with known gene sequences in the data-bank. Five of the cDNA clones were identified as a mitochondrial (mt) ATPase beta subunit, a mt ATPase subunit 9, a mt transport protein, a ubiquitin-extension protein and a ribosomal protein. Three cDNA clones could not be identified due to lack of adequate homology with known sequences. These results suggest that at least five genes with known function in cellular processes like ATP generation and protein synthesis, and three other genes of unknown identity, are greatly induced in salt-adapted conditions.
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PMID:Isolation of differentially expressed cDNA clones from salt-adapted Aspergillus nidulans. 882 59

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