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 oleB gene of Streptomyces antibioticus, oleandomycin producer, encodes an ABC transporter containing two putative ATP-binding domains and is involved in oleandomycin resistance and secretion in this organism. We have overexpressed in Escherichia coli the N-terminal nucleotide-binding domain of OleB (OleB') as a fusion protein and purified the fusion protein by affinity chromatography. The fusion protein showed ATPase activity dependent on the presence of Mg2+ ions. ATPase activity was resistant to specific inhibitors of P-, F-, and V-type ATPase whereas sodium azide and 7-chloro-4-nitrobenzo-2-oxa-1,3-diazole (NBD-C1) were strong inhibitors. The change of Lys71, located within the Walker A motif of the OleB' protein, to Gln or Glu caused a loss of ATPase activity, whereas changing to Gly did not impair the activity. The results suggest that the intrinsic ATPase activity of purified fusion protein can be clearly distinguished from other ATP-hydrolysing enzymes, including ion-translocating ATPases or ABC-traffic ATPases, both on the basis of inhibition by different agents and since it hydrolyzes ATP without interacting with a hydrophobic membrane component.
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PMID:Characterization of the ATPase activity of the N-terminal nucleotide binding domain of an ABC transporter involved in oleandomycin secretion by Streptomyces antibioticus. 876 17

Residue beta-V198 of the yeast mitchondrial F1-ATPase abuts the P-loop motif and the side chain is within 3.8 A of the nucleotide as shown in the crystal structure of the bovine ATPase [J. P. Abrahams, A. G. W. Leslie, R. Lutter, and J. E. Walker (1984) Nature 370,621-628]. This study has made and analyzed 17 replacements of V198 to understand the importance of the side chain in the nucleotide binding site. In addition, a suppressor of V198S, beta-L390F, was studied in the presence of various replacements at position 198. In vivo and in vitro analyses indicate that the Val side chain is critical for forming a stable and active enzyme. Biochemical analysis of mitochondria isolated from the mutant strains indicates that amino acids with hydrophobic side chains are the most effective replacements. In addition, size is important, but a large side chain can be largely compensated for until the size reaches that of the Phe and Trp. A methyl group is the minimal side chain necessary for function, as the beta-subunit is not stable in vivo with Gly at position 198. These results indicate that V198 forms critical hydrophobic interactions with the adenine ring of the nucleotide.
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PMID:Mutagenesis of beta-V198 in the F1-ATPase of yeast Saccharomyces cerevisiae and its role in binding nucleotide. 899 Feb 64

Replacement of the F0F1 ATP synthase gamma subunit Met-23 with Lys (gammaM23K) perturbs coupling efficiency between transport and catalysis (Shin, K., Nakamoto, R. K., Maeda, M., and Futai, M. (1992) J. Biol. Chem. 267, 20835-20839). We demonstrate here that the gammaM23K mutation causes altered interactions between subunits. Binding of delta or epsilon subunits stabilizes the alpha3beta3gamma complex, which becomes destabilized by the mutation. Significantly, the inhibition of F1 ATP hydrolysis by the epsilon subunit is no longer relieved when the gammaM23K mutant F1 is bound to F0. Steady state Arrhenius analysis reveals that the gammaM23K enzyme has increased activation energies for the catalytic transition state. These results suggest that the mutation causes the formation of additional bonds within the enzyme that must be broken in order to achieve the transition state. Based on the x-ray crystallographic structure of Abrahams et al. (Abrahams, J. P., Leslie, A. G. W., Lutter, R., and Walker, J. E. (1994) Nature 370, 621-628), the additional bond is likely due to gammaM23K forming an ionized hydrogen bond with one of the betaGlu-381 residues. Two second site mutations, gammaQ269R and gammaR242C, suppress the effects of gammaM23K and decrease activation energies for the gammaM23K enzyme. We conclude that gammaM23K is an added function mutation that increases the energy of interaction between gamma and beta subunits. The additional interaction perturbs transmission of conformational information such that epsilon inhibition of ATPase activity is not relieved and coupling efficiency is lowered.
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PMID:Energy coupling, turnover, and stability of the F0F1 ATP synthase are dependent on the energy of interaction between gamma and beta subunits. 899 37

The VirB11 ATPase is a putative component of the transport machinery responsible for directing the export of nucleoprotein particles (T complexes) across the Agrobacterium tumefaciens envelope to susceptible plant cells. Fractionation and membrane treatment studies showed that approximately 30% of VirB11 partitioned as soluble protein, whereas the remaining protein was only partially solubilized with urea from cytoplasmic membranes of wild-type strain A348 as well as a Ti-plasmidless strain expressing virB11 from an IncP replicon. Mutations in virB11 affecting protein function were mapped near the amino terminus (Q6L, P13L, and E25G), just upstream of a region encoding a Walker A nucleotide-binding site (F154H;L155M), and within the Walker A motif (P170L, K175Q, and delta GKT174-176). The K175Q and delta GKT174-176 mutant proteins partitioned almost exclusively with the cytoplasmic membrane, suggesting that an activity associated with nucleotide binding could modulate the affinity of VirB11 for the cytoplasmic membrane. The virB11F154H;L155M allele was transdominant over wild-type virB11 in a merodiploid assay, providing strong evidence that at least one form of VirB11 functions as a homo- or heteromultimer. An allele with a deletion of the first half of the gene, virB11 delta1-156, was transdominant in a merodiploid assay, indicating that the C-terminal half of VirB11 contains a protein interaction domain. Products of both virB11 delta1-156 and virB11 delta158-343, which synthesizes the N-terminal half of VirB11, associated tightly with the A. tumefaciens membrane, suggesting that both halves of VirB11 contain membrane interaction determinants.
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PMID:Characterization of membrane and protein interaction determinants of the Agrobacterium tumefaciens VirB11 ATPase. 900 8

Type I restriction endonucleases are composed of three subunits, HsdR, HsdM and HsdS. The HsdR subunit is absolutely required for restriction activity; while an independent methylase is composed of HsdM and HsdS subunits. DNA cleavage is associated with a powerful ATPase activity during which DNA is translocated by the enzyme prior to cleavage. The presence of a Walker type I ATP-binding site within the HsdR subunit suggested that the subunit may be capable of independent enzymatic activity. Therefore, we have, for the first time, cloned and over-expressed the hsdRgene of the type IC restriction endonuclease EcoR124II. The purified HsdR subunit was found to be a soluble monomeric protein capable of DNA- and Mg2+-dependent ATP hydrolysis. The subunit was found to have a weak nuclease activity both in vivo and in vitro, and to bind plasmid DNA; although was not capable of binding a DNA oligoduplex. We were also able to reconstitute the fully active endonuclease from purified M. EcoR124I and HsdR. This is the first clear demonstration that the HsdR subunit of a type I restriction endonuclease is capable of independent enzyme activity, and suggests a mechanism for the evolution of the endonuclease from the independent methylase.
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PMID:The HsdR subunit of R.EcoR124II: cloning and over-expression of the gene and unexpected properties of the subunit. 901 88

Phosphorescence and fluorescence energy transfer measurements have been used to locate the epsilon-subunit within the know structural frame of the mitochondrial soluble part of F-type H(+)-ATPase complex (F1). The fluorescence probe 2'-O-(trinitrophenyl)adenosine-5'-triphosphate was bound to the nucleotide binding sites of the enzyme, whereas the probe 7-diethylamino-3'-(4'-maleimidylphenyl)-4-methylcoumarin was attached to the single sulfhydryl residue of isolated oligomycin sensitivity-conferring protein (OSCP), which was then reconstituted with F1. Fluorescence and phosphorescence resonance energy transfer yields from the lone tryptophan residue of F1 present in the epsilon-polypeptide and the fluorescence labels attached to the F1 complex established that tryptophan is separated by 3.7 nm from Cys-118 of OSCP in the reconstituted OSCP-F1 complex, by 4.9 nm from its closest catalytic site and by more than 6.4 nm from the two other catalytic sites, including the lowest affinity ATP site. These separations together with the crystallographic coordinates of the F1 complex (Abrahams, J.P., A. G. W. Leslie, R. Lutter, and J.E. Walker. 1994. Structure at 2.8 A resolution of F1-ATPase from bovine heart mitochondria. Nature. 370:621-628) place the epsilon-subunit in the stem region of the F1 molecule in a unique asymmetrical position relative to the catalytic sites of the enzyme.
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PMID:Structural mapping of the epsilon-subunit of mitochondrial H(+)-ATPase complex (F1). 908 86

Bacteriophage T4 UvsW protein is involved in phage recombination, repair and the regulation of replication origins. Here, we provide evidence that UvsW functions as a helicase. First, expression of UvsW allows growth of an (otherwise inviable) Escherichia coli recG rnhA double mutant, consistent with UvsW being a functional analog of the RecG helicase. Second, UvsW contains helicase sequence motifs, and a substitution (K141R) in the Walker 'A' motif prevents growth of the E.coli recG rnhA double mutant. Third, UvsW, but not UvsW-K141R, inhibits replication from a T4 origin at which persistent RNA-DNA hybrids form and presumably trigger replication initiation. Fourth, mutations that inactivate UvsW and endonuclease VII (which cleaves DNA branches) synergistically block repair of double-strand breaks. These in vivo results are consistent with a model in which UvsW is a DNA helicase that catalyzes branch migration and dissociation of RNA-DNA hybrids. In support of this model, a partially purified GST/UvsW fusion protein, but not a GST/UvsW-K141R fusion, displays ssDNA-dependent ATPase activity and is able to unwind a branched DNA substrate.
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PMID:Bacteriophage T4 UvsW protein is a helicase involved in recombination, repair and the regulation of DNA replication origins. 923 23

The nucleotide sequence of a DNA gyrase B subunit gene (gyrB) from Treponema pallidum has been determined. Southern blot analysis of T. pallidum chromosomal DNA indicated that this gene is present as a single copy. The organization of genes flanking the gyrB gene is unique in comparison to that of other bacteria. The gyrB gene encodes a 637 amino acid protein whose deduced sequence has a high degree of homology with type-II topoisomerase ATPase subunits (GyrB and ParE). Five type-II topoisomerase motifs, an ATP-binding site (Walker A), and amino acid residues that putatively interact with ATP, are highly conserved in the T. pallidum GyrB protein.
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PMID:Identification and characterization of the gyrB gene from Treponema pallidum subsp. pallidum. 925 82

The Agrobacterium tumefaciens VirB11 ATPase is postulated to assemble with VirB proteins and the VirD4 protein into a transport system which is dedicated to the export of oncogenic nucleoprotein particles to plant cells. To gain genetic evidence for interactions between VirB11 and other subunits of this transport system, we screened a PCR-mutagenized virB11 library for alleles that diminish the virulence of the wild-type strain A348. Two classes of alleles displaying negative dominance were identified. One class failed to complement a delta virB11 mutation, indicating that the corresponding mutant proteins are nonfunctional. The second class complemented the delta virB11 mutation, indicating that the mutant proteins are fully functional in strains devoid of native VirB11. Mutations of both classes of alleles were in codons for residues clustered in two regions of VirB11, both located outside the Walker A nucleotide binding motif. All dominant alleles were suppressed at least to some extent by multicopy expression of the virB9, virB10, and/or virB11 genes. Taken together, results of these investigations indicate that (i) a functional T-complex transporter is composed of more than one VirB11 subunit and (ii) VirB11 undergoes complex formation with VirB9 and VirB10 during transporter biogenesis.
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PMID:Suppression of mutant phenotypes of the Agrobacterium tumefaciens VirB11 ATPase by overproduction of VirB proteins. 929 42

A 1.7-kilobase pair segment from the conjugative transfer region of plasmid R388 DNA was cloned and sequenced. It contained trwD, a gene essential for plasmid R388 conjugation, for expression of the conjugative W-pilus and for sensitivity to phage PRD1. The deduced amino acid sequence of TrwD showed homology to the PulE/VirB11 superfamily of potential ATPases involved in various types of transport processes. A fusion of trwD with the glutathione S-transferase (GST) was constructed, and the resulting fusion protein was purified from overproducing bacteria. Factor Xa hydrolysis of GST-TrwD and further purification rendered TrwD protein with more than 95% purity. Antibodies raised against TrwD localized it both in the soluble fraction and in the outer membrane of Escherichia coli. TrwD is probably a peripheral outer membrane protein because it could be solubilized by increasing salt concentration to 0.5 M NaCl in the lysis buffer. Both purified GST-TrwD and TrwD could hydrolize ATP. ATPase activity increased 2-fold in the presence of detergent-phospholipid mixed micelles. To study the importance of the nucleotide-binding site, Walker box A (GXXGXGK(T/S)), present in TrwD, the conserved lysine residue was replaced by glutamine. The mutant protein, expressed and purified under the same conditions as the wild type, did not exhibit ATPase activity. TrwD(K203Q) was not able to complement the mutation in trwD of the R388 mutant plasmid, suggesting the essentiality of the ATPase activity of the protein in the conjugative process. Furthermore, the dominant character of this mutation suggested that GST-TrwD(K432Q) was still able to interact either with itself or with other component(s) of the conjugative machinery.
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PMID:TrwD, a protein encoded by the IncW plasmid R388, displays an ATP hydrolase activity essential for bacterial conjugation. 932 77

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