EC:3.6.1.3 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

Query: EC:3.6.1.3 (ATPase)
65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This study describes the first crystal structures of a complex between a DNA topoisomerase and a drug. We present the structures of a 24 kDa N-terminal fragment of the Escherichia coli DNA gyrase B protein in complexes with two different inhibitors of the ATPase activity of DNA gyrase, namely the coumarin antibiotic, novobiocin, and GR122222X, a member of the cyclothialidine family. These structures are compared with the crystal structure of the complex with an ATP analogue, adenylyl-beta-gamma-imidodiphosphate (ADPNP). The likely mechanism, by which mutant gyrase B proteins become resistant to inhibition by novobiocin are discussed in light of these comparisons. The three ligands are quite dissimilar in chemical structure and bind to the protein in very different ways, but their binding is competitive because of a small degree of overlap of their binding sites. These crystal structures consequently describe a chemically well characterized ligand binding surface and provide useful information to assist in the design of novel ligands.
...
PMID:The nature of inhibition of DNA gyrase by the coumarins and the cyclothialidines revealed by X-ray crystallography. 863 74

An ATP-dependent DNA helicase has been purified to near homogeneity from pea chloroplasts. The enzyme is a homodimer of 68-kDa subunits. The purified enzyme shows DNA-dependent ATPase activity and is devoid of DNA polymerase, DNA topoisomerase, DNA ligase or nuclease activities. The enzyme requires Mg2+ or Mn2+ for its maximum activity. ATP is the most favoured cofactor for this enzyme while other NTP or dNTP are poorly utilized. Pea chloroplast DNA helicase can unwind a 17-bp duplex whether it has unpaired single-stranded tails at both the 5' end and 3' end, at the 5' end or at the 3' end only, or at neither end. However, it fails to act on a blunt-ended 17-bp duplex DNA. The enzyme moves unidirectionally from 3' to 5' along the bound strand. The unwinding activity is inhibited by the intercalating drugs nogalamycin and daunorubicine.
...
PMID:Purification and characterization of a DNA helicase from pea chloroplast that translocates in the 3'-to-5' direction. 866 52

We have cloned and sequenced two overlapping DNA fragments (3236 bp) containing a gene encoding the ATPase subunit of a type II DNA topoisomerase from the hyperthermophilic bacterion Thermotoga maritima (Tm Top2B). The deduced protein is composed of 636 aa with a calculated molecular mass of 72415 Da. It shares significant similarities with the ATPase subunits of mesophilic bacterial DNA topoisomerases II, either DNA gyrase (GyrB) or DNA topoisomerase IV (ParE). Although the highest similarity scores are obtained with GyrB proteins (55% identity with Bacillus subtilis DNA gyrase), a detailed phylogenetic analysis of all known DNA topoisomerases II does not allow us to determine if Tm Top2B corresponds to a DNA gyrase or a DNA topoisomerase IV. This hyperthermophilic Top2B protein exhibits a larger amount of charged amino acids than its mesophilic homologues, a feature which could be important for its thermostability. No gyrA-like gene has been found near top2B. A gene coding for a transaminase B-like protein was found in the upstream region of top2B.
...
PMID:A gyrB-like gene from the hyperthermophilic bacterion Thermotoga maritima. 886 38

Temperature-sensitive mutations (ts10, ts18, and ts39) of the vaccinia virus RNA helicase nucleoside triphosphate phosphohydrolase II (NPH-II) result in the production of noninfectious progeny virions at the restrictive temperature. The noninfectious mutant particles contain the wild-type complement of virion core and envelope polypeptides, as judged by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The results of Western blot (immunoblot) analysis indicate that these particles lack NPH-II, whereas other enzymatic components of the virus core are present. These components include the following: DNA-dependent RNA polymerase subunits rpo147, rpo132, rpo94, rpo35, rpo30, rpo22, and rpo18; early transcription initiation factor subunits A8 and D6; mRNA capping enzyme subunits D1 and D12; RNA cap 2'-O-methyltransferase; A18 DNA helicase; DNA-dependent ATPase NPH-I; and DNA topoisomerase. Although RNA polymerase is encapsidated by the mutant viruses, mRNA synthesis in vitro by permeabilized mutant virions is only 5 to 20% that of the wild-type virus, as judged by nucleoside monophosphate incorporation into acid-insoluble material. Moreover, the transcripts synthesized by the mutant particles are longer than normal and remain virion associated. Transcription initiation by mutant virions occurs accurately at an endogenous genomic promoter, albeit at reduced levels (1 to 7%) compared with that of wild-type virions. In contrast, extracts of the mutant virions catalyze the wild-type level of transcription from an exogenous template containing an early promoter. We conclude that NPH-II is required for early mRNA synthesis uniquely in the context of the virus particle. Possible roles in transcription termination and RNA transport are discussed.
...
PMID:Vaccinia virions lacking the RNA helicase nucleoside triphosphate phosphohydrolase II are defective in early transcription. 897 Sep 79

We have constructed clones encoding N-terminal fragments of human DNA topoisomerase IIalpha. We show that the N-terminal domain (approximately 50 kDa) has an intrinsic ATPase activity that can be stimulated by DNA. The enzyme obeys Michaelis-Menten kinetics showing a approximately 6-fold increase in kcat in the presence of DNA. Cross-linking studies indicate that the N-terminal domain is a dimer in the absence and presence of nucleotides. Using site-directed mutagenesis, we have identified the catalytic residue for ATP hydrolysis as Glu86. Phosphorylation of the N-terminal domain with protein kinase C does not affect the ATPase activity. The ATPase domain of human topoisomerase IIalpha shows significant differences from its counterpart in DNA gyrase and we discuss the mechanistic implications of these data.
...
PMID:The N-terminal domain of human topoisomerase IIalpha is a DNA-dependent ATPase. 983 94

Clones for DNA topoisomerase IIalpha and beta (topo-IIalpha and beta) were isolated from a cDNA expression library of chicken MSB-1 cells by immunoscreening. The deduced sequences of chicken topo-IIalpha and beta were about 80% identical for the N-terminal ATPase domain and the central core domain but only 37% for the C-terminal domain. Polyclonal antibodies were raised against C-terminal polypeptides specific to topo-IIalpha and beta. Indirect immunofluorescence with these antibodies to chicken embryonic fibroblasts demonstrated that topo-IIalpha was distributed in discrete intranuclear spots, which coincided with sites of DNA replication as indicated by incorporation of 5-bromo-2'-deoxyuridine, whereas topo-IIbeta was distributed rather uniformly within a nucleus. Examination of intranuclear distribution patterns of chimeric constructs between topo-IIalpha and beta suggested that a sequence region (residues 1280-1294) in the C-terminal domain of topo-IIalpha was effective in co-localization with sites of DNA replication. This region consists of a QTxhxF motif (x, any residue; h, hydrophobic residue) followed by a KR-rich sequence, which resembles those found in several proteins known to associate with proliferating cell nuclear antigen (PCNA) or targeted to the replication factory. An in vitro pull-down assay with glutathione-S-transferase-PCNA and (His)6-tagged truncated forms of topo-IIalpha demonstrated that polypeptides containing the above region (residues 1158-1553 or 1158-1294) bound to PCNA in vitro.
...
PMID:Co-localization of chicken DNA topoisomerase IIalpha, but not beta, with sites of DNA replication and possible involvement of a C-terminal region of alpha through its binding to PCNA. 1145 53

We have constructed a series of clones encoding N-terminal fragments of human DNA topoisomerase IIalpha. All fragments exhibit DNA-dependent ATPase activity. Fragment 1-420 shows hyperbolic dependence of ATPase on DNA concentration, whereas fragment 1-453 shows hyperstimulation at low ratios of DNA to enzyme, a phenomenon found previously with the full-length enzyme. The minimum length of DNA found to stimulate the ATPase activity was approximately 10 bp; fragments >or=32 bp manifest the hyperstimulation phenomenon. Molecular mass studies show that fragment 1-453 is a monomer in the absence of nucleotides and a dimer in the presence of nucleotide triphosphate. The results are consistent with the role of the N-terminal domain of topoisomerase II as an ATP-operated clamp that dimerises in the presence of ATP. The hyperstimulation effect can be interpreted in terms of a "piggy-back binding" model for protein-DNA interaction.
...
PMID:The ATP-operated clamp of human DNA topoisomerase IIalpha: hyperstimulation of ATPase by "piggy-back" binding. 1207 77

We report for the first time an analysis of the ATPase activity of human DNA topoisomerase (topo) IIbeta. We show that topo IIbeta is a DNA-dependent ATPase that appears to fit Michaelis-Menten kinetics. The ATPase activity is stimulated 44-fold by DNA. The k(cat) for ATP hydrolysis by human DNA topo IIbeta in the presence of DNA is 2.25 s(-1). We have characterised a topo IIbeta derivative which carries a mutation in the ATPase domain (S165R). S165R reduced the kcat for ATP hydrolysis by 7-fold, to 0.32 s(-1), while not significantly altering the apparent K(m). The specificity constant for the interaction between ATP and topo IIbeta (kcat/K(mapp)) showed a 90% reduction for betaS165R. The DNA binding affinity and ATP-independent DNA cleavage activity of the enzyme are unaffected by this mutation. However, the strand passage activity is reduced by 80%, presumably due to reduced ATP hydrolysis. The mutant enzyme is unable to complement ts yeast topo II in vivo. We have used computer modelling to predict the arrangement of key residues at the ATPase active site of topo IIbeta. Ser165 is predicted to lie very close to the bound nucleotide, and the S165R mutation could thus influence both ATP binding and ADP dissociation.
...
PMID:Characterisation of the DNA-dependent ATPase activity of human DNA topoisomerase IIbeta: mutation of Ser165 in the ATPase domain reduces the ATPase activity and abolishes the in vivo complementation ability. 1249 Jul 10

DNA gyrase is a DNA topoisomerase indispensable for cellular functions in bacteria. We describe a novel, hitherto unknown, mechanism of specific inhibition of Mycobacterium smegmatis and Mycobacterium tuberculosis DNA gyrase by a monoclonal antibody (mAb). Binding of the mAb did not affect either GyrA-GyrB or gyrase-DNA interactions. More importantly, the ternary complex of gyrase-DNA-mAb retained the ATPase activity of the enzyme and was competent to catalyse DNA cleavage-religation reactions, implying a new mode of action different from other classes of gyrase inhibitors. DNA gyrase purified from fluoroquinolone-resistant strains of M.tuberculosis and M.smegmatis were inhibited by the mAb. The absence of cross-resistance of the drug-resistant enzymes from two different sources to the antibody-mediated inhibition corroborates the new mechanism of inhibition. We suggest that binding of the mAb in the proximity of the primary dimer interface region of GyrA in the heterotetrameric enzyme appears to block the release of the transported segment after strand passage, leading to enzyme inhibition. The specific inhibition of mycobacterial DNA gyrase with the mAb opens up new avenues for designing novel lead molecules for drug discovery and for probing gyrase mechanism.
...
PMID:A monoclonal antibody that inhibits mycobacterial DNA gyrase by a novel mechanism. 1593 Jan 58

Type IIA DNA topoisomerases play multiple essential roles in the management of higher-order DNA structure, including modulation of topological state, chromosome segregation, and chromatin condensation. These diverse physiologic functions are all accomplished through a common molecular mechanism, wherein the protein catalyzes transient cleavage of a DNA duplex (the G-segment) to yield a double-stranded gap through which another duplex (the T-segment) is passed. The overall process is orchestrated by the opening and closing of molecular "gates" in the topoisomerase structure, which is regulated by ATP binding, hydrolysis, and release of ADP and inorganic phosphate. Here we present two crystal structures of the ATPase domain of human DNA topoisomerase IIalpha in different nucleotide-bound states. Comparison of these structures revealed rigid-body movement of the structural modules within the ATPase domain, suggestive of the motions of a molecular gate.
...
PMID:Nucleotide-dependent domain movement in the ATPase domain of a human type IIA DNA topoisomerase. 1610 Jan 12

<< Previous 1 2 3 4 Next >>