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 kinetic properties of the hydrolyses of 8-Br ATP and 8-SCH3 ATP by myosin [EC 3.6.1.3] and actomyosin were compared with those of ATP, and the following results were obtained. The Ca-NTPase activities of myosin using these two ATP analogs as substrates were smaller than that of ATPase, and the NTPase activities toward these analogs were strongly suppressed by EDTA. The Mg-NTPase activities toward these analogs were higher in a medium of high ionic strength than in a medium of low ionic strength, in contrast to the activity of Mg-ATPase. These analogs did not produce any initial burst of Pi liberation, activation of myosin NTPase by F-actin, or superprecipitation of actomyosin. The interactions between 8-Br ATP and HMM, acto-HMM, actomyosin, and myofibrils were studied in detail in the presence of Mg2+ in medium of low ionic strength. The Michaelis constant, Km, and the maximum rate, Vm, of 8-Br ATPase of HMM were 27 muM and 21 min-1, respectively. The fluorescence change of HMM induced by 8-Br ATP also followed the Michaelis-Menten equation, and the Michaelis constant, Kf1, was as low as 4 muM. Acto-HMM and acto-S-1 were fully dissociated by the addition of 8-Br ATP. The relation between the extent of dissociation of acto-HMM and the concentration of 8-Br ATP followed the Michaelis-Menten equation, and the apparent dissociation constant, Kd, was 22 muM. This Kd value is almost equal to the Km value of 8-Br ATPase of HMM described above. Myofibrillar contraction was not supported by 8-Br ATP. It was concluded that in the myosin NTPase reaction with 8-Br ATP as a substrate, M2NTP but not MNDPP is formed in route (1), while MNTP is formed in route (2). It was also concluded that the key intermediate for the actomyosin NTPase reaction is MNDPP, and that dissociation of acto-HMM is induced by the formation of M2NTP and MNTP in routes (1) and (2), respectively.
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PMID:Structure and function of the two heads of the myosin molecule. IV. Physiological functions of various reaction intermediates in myosin adenosinetriphosphatase, studied by the interaction between actomyosin and 8-bromoadenosine triphosphate. 13 80

The study deals with the interrelationship of the phosphate-transferring activities of the calcium-transporting sarcoplasmic reticulum membrane vesicles: the phosphate exchange between nucleoside triphosphate (NTP) and nucleoside diphosphate (NDP) (NTP-NDP exchange), the calcium-dependent NTase, and the phosphorylation of NDP by inorganic phosphate in the presence of NTP (NTP-Pi exchange). Different nucleotides were used as phosphate donors and acceptors. It is demonstrated for the phosphate transfer from ITP to GDP that the NTP-NDP exchange exhibits ping-pong kinetics with Mg-ITP and unliganded GDP as substrates. The apparent affinities of the enzyme for the nucleoside diphosphate and triphosphate species are deduced according to this mechanism. The enzyme's affinity for the nucleoside triphosphates and diphosphates depends on its functional state being considerably lower under conditions of NTP-NDP exchange than during NTP splitting or NTP synthesis. ATP and GTP are split with the same low rates when calcium-activated NTPase is inhibited by high internal calcium concentrations after calcium transport has reached steady state. The rates of the NTP-NDP exchange reactions, however, differ by a factor of about 10 being approximately equal to 3 mumol . mg-1 . min-1 for ATP-ADP and only approximately equal to 0.3 mumol . mg-1 . min-1 (22 degrees C) for GTP-GDP. When the sarcoplasmic reticulum vesicles are made calcium-permeable, the calcium transport ATPase is turned on and the rates of GTP and ATP splitting increase about tenfold. Yet, while the rate of ATP-ADP exchange is little reduced, the rate of GTP-GDP exchange drops by approximately 50%. The persisting exchange activity of calcium-permeable vesicles demonstrates that high internal calcium concentrations are not required for the transfer of the protein-bound phosphoryl group to NDP during NTP-NDP exchange.
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PMID:Comparison between ATP-supported and GTP-supported phosphate turnover of the calcium-transporting sarcoplasmic reticulum membranes. 16 Mar 16

Electron histochemical studies show that changes in the nucleoside triphosphatase activity in plasma membranes of cancer cells can proceed in different directions. Some cells show a high activity of magnesium-dependent NTPase over the whole membrane surface (perimeter), while others have a low enzymic activity which is present only in certain regions of the membranes, the remaining cells possessing no enzyme activity at all. These changes are not strictly characteristic of cancer cells alone.
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PMID:Hydrolysis of nucleoside triphosphate in plasma membranes of the hepatocytes of normal, regenerating and foetal livers and in cancer cells of hepatomas. 19 42

A rapid purification procedure produces milligram amounts of the T7 gene 4A' primase/helicase, 4B helicase, and the wild-type 4AB proteins expressed from the clones described in the accompanying paper (Rosenberg, A. H., Patel, S. S., Johnson, K. A., and Studier, F. W. (1992) J. Biol. Chem. 267, 15005-15012). Purified 4A' protein (in which the wild-type methionine at amino acid 64 has been replaced by leucine to eliminate the 4B initiation codon) appears to be equivalent to the wild-type 4A protein in primase, helicase, and NTPase activities. Gel filtration chromatography and polyacrylamide gel electrophoresis of native proteins indicate that the 4A' and 4B proteins form homodimers and heterodimers in solution. Heterodimer formation presumably accounts for an observed 3-fold increase in the primase activity of 4A' upon addition of 4B that lacks primase activity of its own. Steady-state k(cat) and Km values for hydrolysis of the nucleoside triphosphates ATP, dATP, dTTP, and dGTP were measured for 4A', 4B, 4A'B (1:1), and wild-type 4AB (1:2) proteins. The dependence of the dNTPase activities on the concentration was hyperbolic, suggesting single or noncooperative binding sites, whereas ATPase activity was sigmoidal, suggesting more than one ATP binding site. The k(cat)/Km ratios for hydrolysis of the dNTPs by the four protein preparations were within a factor of 6 of each other. The 1:1 mixture of 4A'B had the highest k(cat)/Km ratios, with a preference for dATP and dTTP.
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PMID:Large scale purification and biochemical characterization of T7 primase/helicase proteins. Evidence for homodimer and heterodimer formation. 132 24

The interaction of the Rev protein from human immunodeficiency virus type 1 (HIV-1) with the nucleocytoplasmic mRNA-transport system was investigated. In gel-shift assay, the recombinant Rev protein used in this study selectively bound to the Rev-responsive element (RRE) region of HIV-1 env-specific RNA. Nitrocellulose-filter-binding studies and Northern/Western-blotting experiments revealed an association constant of approximately 1 x 10(10) M-1. The Rev protein also strongly bound to isolated nuclear envelopes from H9 cells, containing the poly(A)-binding site (= mRNA carrier) and the nucleoside triphosphatase (= NTPase), which are thought to be involved in nuclear export of poly(A)-rich mRNA. Binding of 125I-Rev to a 110-kDa nuclear-envelope protein, the putative mRNA carrier, could be demonstrated in in vitro experiments. Both efflux of cellular poly(A)-rich RNA, such as actin RNA [but not efflux of poly(A)-free RNA] from isolated nuclei and the nuclear-envelope NTPase activity were strongly inhibited by Rev protein. On the other hand, transport of viral env RNA, containing the Rev-responsive element, was increased in the presence of Rev. Studying the release of RNA from closed nuclear-envelope vesicles containing entrapped RNA, the action of Rev was found to occur at the level of translocation of RNA through the nuclear pore. Evidence is presented that Rev down-regulates the NTPase-driven transport of mRNA lacking the RRE, most likely via binding to the mRNA carrier within the envelope. In contrast to the efflux of RRE-free RNA, ATP-dependent efflux of RRE-containing RNA from resealed nuclear-envelope vesicles was found to be increased, if the RNA was entrapped in the vesicles together with Rev protein. In addition, it was found that phosphorylated Rev, which is transported together with RRE-containing RNA out of the vesicles, becomes dephosphorylated during transport. In the vesicle experiments it is demonstrated for the first time that a protein selectively channels a specific mRNA across the nuclear-envelope pore complex.
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PMID:Evidence for a direct interaction of Rev protein with nuclear envelop mRNA-translocation system. 164 87

The RAD3 gene of Saccharomyces cerevisiae is required for excision repair of UV-damaged DNA and is essential for cell viability. The RAD3 protein exhibits a remarkable degree of sequence homology to the human excision repair protein ERCC2. The RAD3 protein is a single-stranded DNA-dependent ATPase and a DNA helicase capable of denaturing long regions of duplex DNA. Here, we demonstrate that RAD3 also possesses a potent DNA.RNA helicase activity similar in efficiency to its DNA helicase activity. The rad3 Arg-48 mutant protein, which binds but does not hydrolyze ATP, lacks the DNA.RNA unwinding activity, indicating a dependence on ATP hydrolysis. RAD3 does not show any RNA-dependent NTPase activity and, as expected, does not unwind duplex RNA. This observation suggests that RAD3 translocates on DNA in unwinding DNA.RNA duplexes. That the rad3 Arg-48 mutation inactivates the DNA and DNA.RNA helicase activities and confers a substantial reduction in the incision of UV-damaged DNA suggests a role for these activities in incision. We discuss how RAD3 helicase activities could function in tracking of DNA in search of damage sites and effect enhanced excision repair of actively transcribed genes.
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PMID:DNA.RNA helicase activity of RAD3 protein of Saccharomyces cerevisiae. 171 38

Acid nucleoside triphosphatase (Acid NTPase), an enzyme which catalyzes the hydrolysis of all nucleoside triphosphates to the corresponding diphosphates was purified from human serum with a purification factor of 190 and a recovery of 31%. The molecular weight was 75,000 as estimated by gel filtration. Gel-electrophoresis revealed an Rf-value of 0.11, and the isoelectric point was determined at pH 4.4. It exhibited a temperature optimum of 44 degrees C and the activation energy was estimated to be 41.6 kJ/mol. The enzyme was active in the absence of divalent cations, since activity was not inhibited by EDTA. The presence of this chelator reduced the Km-value from 70 to 40 microM. Inhibitor experiments revealed that tartrate was a weak mixed-type noncompetitive inhibitor, Ki = 88 mM. The enzyme was specific for the hydrolysis of nucleoside triphosphates. P-nitrophenyl phosphate was not accepted as a substrate. The enzyme revealed optimum activity at the exceptionally acid pH of 3.0. These unique characteristics indicate the presence of a novel enzyme.
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PMID:Acid nucleoside triphosphatase: partial purification and characterization of a new enzyme from human serum. 215 8

Large T antigen, the regulatory protein encoded by simian virus 40, has DNA helicase activity and unwinds double-stranded DNA at the expense of ATP. T antigen also functions as an RNA helicase separating duplex regions in partially double-stranded RNA substrates. Surprisingly, T antigen RNA helicase activity requires UTP, CTP, or GTP as a cofactor, whereas ATP is an inefficient energy source for the RNA unwinding reaction. Accordingly, T antigen has both an intrinsic non-ATP NTPase activity that is stimulated by single-stranded RNA and an ATPase activity stimulated by single-stranded DNA. Thus, it appears that the bound nucleotide determines whether T antigen acts as an RNA helicase or as a DNA helicase.
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PMID:RNA unwinding activity of SV40 large T antigen. 247 17

Toxoplasma gondii expresses high levels of an active nucleoside triphosphate hydrolase (NTPase; EC 3.6.1.3) with several unique properties. It has been detected as a circulating antigen in mice, making it an ideal candidate for diagnostic tests for toxoplasmosis. A cDNA library constructed from T. gondii poly(A)+RNA was made in lambda gt11. One hundred thousand members of this library were immunoscreened with a rabbit polyclonal antibody to the purified NTPase. Six positive clones were subcloned into the plasmid, pGEX-IN, and the inserts were restriction-mapped. All clones had identical partial restriction enzyme maps. One insert was subcloned into M13mp18 and sequencing by the deoxy/dideoxy method showed an NTPase-encoding gene (ntp) fragment of 571 bp. The insert was also purified, radiolabelled, and used to hybridize to Northern blots of tachyzoite RNA and quantitative Southern blots of tachyzoite DNA. Northern blotting revealed that the NTPase mRNA was in great abundance and had a length of about 2800 nucleotides. Southern blotting showed a gene copy number of between one and five, and the possibility that ntp is tandemly repeated over a large length of DNA. The NTPase was expressed as a glutathione S-transferase (EC 2.5.1.18) fusion protein of about 50 kDa, which reacted with polyclonal rabbit antibody on Western blotting.
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PMID:Cloning, expression and nucleotide sequence of the gene fragment encoding an antigenic portion of the nucleoside triphosphate hydrolase of Toxoplasma gondii. 248 26

A study was made of the activity of nucleoside diphosphatase (NDPase, EC 3.6.1.16) and nucleoside triphosphatase (NTPase, EC 3.6.1.15) that catalyze enzymatic dephosphorylation of UDP, CDP, UTP, and CTP in mitochondria and postmitochondrial supernatant fraction of rat liver 30 min, 1, 3, 6 and 24 h following 60Co-gamma-irradiation with a dose of 774 mC/kg. The observed phase changes in the enzyme activity depended on the times of exposure, a cell fraction, and nucleotides under study. Both uridylic and cytidylic nucleotides exhibited a significant increase in the their enzymatic disintegration being more pronounced at a comparatively later times, that is, 6 h, and particularly, 24 h after irradiation.
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PMID:[Catabolism of pyrimidine nucleotides in the liver of irradiated animals]. 283 67

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