EC:3.1.21.1 - FACTA Search

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Query: EC:3.1.21.1 (DNase)
7,655 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

An ADP-ribosyltransferase from turkey erythrocytes, which catalyzes the mono(ADP-ribosylation) of guanidino compounds such as arginine and of many purified and crude cellular proteins, appears to exist both in high-activity, histone-independent and low-activity, histone-dependent forms. At low salt concentrations, the activity of the transferase with agmatine as acceptor was less than 10% that observed in the presence of 200 mM NaCl. In the absence of salts, ADP-ribosylation of agmatine was stimulated greater than 10-fold by histones, and activity approached that observed with high salt concentration; under these conditions, the histones did not serve as ADP-ribose acceptors themselves. Histone also activated the highly purified ADP-ribosyltransferase from human erythrocytes. Enzyme activity was increased in the presence of salt and was then relatively independent of histones. DNA was not required for the stimulation of ADP-ribosylation by histone; incubation of the transferase and histone with DNase did not significantly decrease enzymatic activity. Additional DNA in the assay decreased the effect of histone. The erythrocyte ADP-ribosyltransferase from diverse species thus appears to exist in two forms: one is dependent on histones for activity and one which, in the presence of salt, has high intrinsic activity and is independent of histone. The fact that the active forms of the transferase generated in the presence of salt or histone have similar catalytic activity suggests that these forms of transferase may be identical. It would appear that the enzymatic activity of transferase from different species may be controlled by histones.
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PMID:Histone-dependent and histone-independent forms of an ADP-ribosyltransferase from human and turkey erythrocytes. 627 74

When permeabilized hamster fibroblasts were incubated with 4 mM-NAD+, the substrate for poly(ADP-ribose) polymerase, RNA polymerase I activity was inhibited by about 85%. This inhibition was not relieved by prior incubation of cells with 3-aminobenzamide, a potent inhibitor of the poly(ADP-ribose) polymerase. Digestion of cells with pancreatic deoxyribonuclease I resulted in the inhibition of RNA polymerase I by 80% and the activation of poly(ADP-ribose) polymerase by up to 300%; prior incubation with 3-aminobenzamide did not prevent the inhibition of the RNA polymerase activity. No radioactivity was found associated with RNA polymerase I during later stages of purification of this enzyme from permeabilized cells previously incubated with [14C]NAD+. The inhibitory effect of NAD+ on RNA polymerase I was not specific for NAD+, as other small, negatively charged molecules with a nuclear location also inhibited the enzyme. The results do not support the concept of a role for ADP-ribosylation in transcription catalysed by RNA polymerase I.
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PMID:NAD+, ADP-ribosylation and transcription in permeabilized mammalian cells. 628 Jun 77

ATP-dependent deoxyribonuclease from Micrococcus luteus was purified to near homogeneity by a procedure involving gentle cell lysis, ammonium sulfate fractionation, TEAE-cellulose chromatography, Sephadex G-150 gel filtration and DNA-cellulose chromatography. Treatment of the enzyme with 2,3-butanedione, which binds specifically to arginyl residues, caused rapid loss of enzyme activities and the effect was enhanced by borate ion. The reaction obeyed first order kinetics with respect to the butanedione concentration, indicating that at least one functional arginyl residue is involved in the inactivation reaction. The enzyme was protected from inactivation by the presence of a low concentration of ATP, but not of ADP, AMP or adenosine. These results indicate that ATP-dependent deoxyribonuclease of Micrococcus luteus has functional arginyl residue(s) at an ATP-binding site.
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PMID:Inactivation of ATP-dependent deoxyribonuclease of Micrococcus luteus by 2,3-butanedione. 629 67

Polymerization of actin induced by activation of platelets was investigated using deoxyribonuclease I inhibition assay. When platelets were activated with ADP or 5-hydroxytryptamine, actin was polymerized quickly followed by rapid depolymerization to the initial level. Reactivation with the same agonist, however, did not cause the polymerization of actin, though with different agonists actin polymerized quite normally. The mechanism for this agonist-specific desensitization of actin polymerization was investigated by the use of a calcium ionophore A23187. It was suggested that the cause for the desensitization is the inability of platelets to mobilize Ca2+ in response to specific agonist.
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PMID:Specific desensitization of actin polymerization of bovine platelets. 642

Analysis of the nucleotide tightly associated with isolated erythrocyte cytoskeletons show it to be ADP, rather then ATP. This confirms that at least a major part of the erythrocyte actin is in the F-form. A re-evaluation of the stoichiometry of spectrin and actin in the erythrocyte (taking account of a gross difference between the color responses of the two proteins on staining of electrophoretic gels) leads to values of 1x10(5) and 5x10(5) for the number of molecules of spectrin tetramer and actin respectively per cell. It has been found possible to perform spectrophotometric DNAase I assays fro actin on lysed whole cells. The concentration of monomeric actin at 0 degrees C is approximately 16 mug/ml packed cells. After washing the lysed cells the monomer pool is not re-established, indicating that only a small proportion of the actin subunits are free to dissociate. The actin monomer concentration in the cytosol remains unchanged after equilibration of the cells with cytochalasin E. The ability of actin-containing complexes in the membrane to nucleate the polymerization of added G-actin was measured fluorimetrically; it was found that membranes incubated with cytochalasin E were completely inert with respect to nucleating activity under conditions that favor appreciable growth at the slowly-growing ("pointed") ends of free actin filaments. This suggests that these ends of the actin "protofilaments" in the red cell are blocked or sterically obstructed. After treatment of the membranes with guanidine hydrochloride under conditions that dissociate F-actin, the measured concentration of actin monomer rises to approximately 180 mug/ml of packed cells, which is nearly 70 percent of the total actin content. On treatment with trypsin in the presence of DNAase, the spectrin and 4.1 are extensively degraded, but the actin remains undamaged. This treatment, followed by exposure to guanidine hydrochloride, causes a further rise in the concentration of actin responsive to the DNAase assay to 250 mug/ml of cells, compared with 270 mug/ml estimated by densitometry of stained gels. The oligomeric complex, consisting of actin, spectrin, and 4.1, that is extracted from the membrane at low ionic strength, generates no detectable actin monomer after the same treatment. From literature data on the number of cytochalasin binding sites per cell and our value for the total actin content, we obtain a number-average degree of polymerization for actin in the membrane of 12-17. The results lead to a model for the structure of the cytoskeletal network and suggest some consequences of metabolic depletion.
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PMID:Structural and dynamic states of actin in the erythrocyte. 668 9

Androgen receptors were partially purified from prostates of mature (non-castrated) rats by chromatography on 2',5'-ADP-Sepharose and labelled by exchange with 5 alpha-[3H]dihydrotestosterone. The partially purified receptor preparation was free of DNAase activity and sedimented at approx. 3 S. The specificity of the interaction of this androgen receptor with nucleotides was investigated in a competitive binding assay using inhibition of binding of the steroid receptor complex to ADP-Sepharose. Certain polyribonucleotides were strongly bound (e.g., poly(UG), poly(AU), poly(G) and poly(U] and competed more effectively for the receptor binding sites than prostate RNA. Restriction fragments of genomic clones from the genes which code for prostatic binding protein showed only moderate affinity for the 3 S receptor form. These data suggest that the 3 S form of the androgen receptor lacks the specific domain or conformation necessary for specific interaction with DNA, but retains a high affinity for certain forms of RNA. Some potent inhibitors of proteolysis (diisopropylfluorophosphate, leupeptin) did not have any effect on the form of the receptor isolated from mature intact animals. A possible function of the 3 S form in post-transcriptional processing is discussed.
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PMID:Interaction of rat prostate androgen receptors with polynucleotides, RNA, DNA and cloned DNA fragments. 669 11

Living cultured fibroblasts were microinjected with rhodamine-labeled smooth muscle alpha-actinin and visualized by video-intensified fluorescence microscopy. The alpha-actinin incorporated into the stress fibers and exhibited a regularly striped arrangement. The fluorescently labeled stress fibers remained intact despite glycerol or digitonin extraction of the cells; furthermore, these cell models contracted upon addition of MgATP. During this process, sections of alpha-actinin-labeled stress fibers contracted up to 25%; shortening proceeded in the nonfluorescent part of the stress fiber sarcomeres. In glycerol-extracted cell models, adenylylimidodiphosphate, ADP and pyrophosphate inhibited but vanadate, N-ethylmaleimide-modified heavy meromyosin, cytochalasin B, colchicine, phalloidin and DNAase I did not. Cytochalasin B was inhibitory when added to the intact cells before glycerol extraction. These morphological and biochemical findings demonstrate that stress fiber sarcomeres of fibroblasts are contractile elements and support the concept that an actomyosin system may be involved.
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PMID:Stress fiber sarcomeres of fibroblasts are contractile. 689 13

When tritiated ATP is incubated with a membrane-enriched fraction prepared from the eukaryotic microorganism Dictyostelium discoideum significant levels of radioactivity can be precipitated with cold, 10% trichloroacetic acid. Reaction product was formed from ATP and dATP but not from GTP, CTP and UTP. Other studies showed that the maximum amount of the acid-insoluble product was formed about 1 min after the addition of the membranes and that, with further incubation, this reaction product was degraded. The rate of degradation of the reaction product was greatly reduced when the temperature was reduced to 4 degrees C, and when either NaF, Na2SO4 or dithiothreitol was added to the reaction mixture. These additions or conditions had no effect on the product-formation reaction. The rate of degradation was also reduced following the addition of adenosine to the reaction and this result did not occur following the addition of ADP, AMP or cyclic AMP. The acid-insoluble reaction product could be solubilized with SDS and analysis by gel-filtration chromatography on Sephadex G-75 revealed that the radioactivity was associated with a macromolecule that was not sensitive to RNAase or DNAase but was degraded by pronase. The nucleotide-protein complex was stable at room temperature but radioactivity was released in hot acid, which, after analysis by thin-layer chromatography, was found to co-migrate with authentic AMP, suggesting the formation of an adenylyl-protein complex as the reaction intermediate. The complex bond was stable at neutral and alkaline pH, suggesting a phosphoamide linkage between the protein and the adenylyl moiety.
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PMID:Isolation and characterization of an adenylyl-protein complex formed during the incubation of membranes from Dictyostelium discoideum with ATP. 727 42

The state of actin in the erythrocyte membrane cytoskeleton has been examined. The presence of ADP, rather than ATP, as the predominant nucleotide species reinforces the view that actin occurs in the polymerized form. Redeterminations of the amounts of the three cytoskeletal proteins, spectrin, actin and 4.1, present in the cell allow evaluation of some of the stoichiometric constraints on the construction of the cytoskeleton. The available evidence is compatible with a network consisting of spectrin tetramers as the structural members, attached at both ends to junctions consisting of 4.1 and short filaments (or 'protofilaments') of actin. Electron micrographs of isolated cytoskeletons support such a picture. The dynamic state of the actin has been studied, using the DNAase assay method. The results indicate that whereas native monomeric actin is present in the cell, only a small proportion of the subunits of the protofilament can enter into an equilibrium with this pool. A considerable proportion of the cytoskeletal actin is not liberated under conditions that dissociate F-actin and is evidently tightly associated with spectrin and 4.1. Attention is drawn to the possible consequences of ATP depletion on the state of the actin and thus of the cytoskeleton.
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PMID:The construction of the red cell cytoskeleton. 729 Nov 95

We reported previously on ADP-ribosylation of actins by chicken arginine-specific ADP-ribosyltransferase in vitro and in situ and the inhibition of actin polymerization by this modification [Terashima, M., Mishima, K., Yamada, K., Tsuchiya, M., Wakutani, T. & Shimoyama, M. (1992) Eur. J. Biochem. 204, 305-311]. In the present study, we determined amino acid residues of ADP-ribosylation site(s) in globular (G-) and filamentous (F-) actins and examined the molecular basis of the modification of actin. Arginine-specific ADP-ribosylation occurred at Arg28 and Arg206 in G-actin, but only at Arg28 in F-actin. ADP-ribosylation of Arg206, located on the pointed end of the actin molecule, significantly blocked the interaction with deoxyribonuclease I. These results indicate that Arg206 in G-actin may be involved in actin polymerization. ADP-ribosylation of Arg28, located on the outer surface of actin molecule, did not affect the binding activity with myosin subfragment-1, that is thought to interact through the N-terminal amino acid residues of G-actin. ADP-ribosylation at both Arg28 and Arg206 of G-actin had no apparent effect on the intrinsic ATPase activity. We concluded from this study that ADP-ribosylation of Arg206 in G-actin causes the inhibition of actin polymerization, and that ADP-ribosylation of Arg28 occurs in F-actin.
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PMID:ADP-ribosylation of Arg28 and Arg206 on the actin molecule by chicken arginine-specific ADP-ribosyltransferase. 762 77

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