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)

ATP concentration modulates oxygen exchange catalyzed by purified, soluble mitochondrial ATPase during ATP hydrolysis so that water oxygen incorporation into each Pi formed increases markedly as ATP concentration is lowered. This behavior is readily explained by catalytic cooperativity between subunits of the ATPase. However, other reasonable explanations also need consideration. A new approach for assessing these various explanations is used, based on measurement of the [18O]Pi species formed by hydrolysis of ATP highly labeled with 18O in the gamma-phosphoryl group. The results and other supporting data give what appears to be the most compelling evidence yet attained for alternating site catalytic cooperativity in an enzymic catalysis.
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PMID:Subunit interaction during catalysis. Alternating site cooperativity of mitochondrial adenosine triphosphatase. 15 96

1. Oleic acid at low concentrations (0--70 nmol/mg protein) stimulated mitochondrial state 4 respiration 4-fold, increased the apparent enthalpy change of the respiration per gram atom of oxygen consumed from -112 to -208 kJ/O and completely inhibited ATP synthesis without significant effect on the Mg-ATPase activity of mitochondria. 2. Similar effects on mitochondrial respiratory activities were observed with other fatty acids. 3. Bovine serum albumin (BSA) protected mitochondria from the effects of oleic acid irrespective of the order of addition of oleic acid and BSA to mitochondria. The capacity of BSA to bind oleic acid was calculated to be 3.6--7.1 (mean, 4.9) mol of oleic acid/mol of BSA. 4. The response time of mitochondrial respiration to added oleic acid or BSA was 20--25 s.
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PMID:Reversible effects of fatty acids on respiration, oxidative phosphorylation, and heat production of rat liver mitochondria. 15 4

The effects of glucose and oxygen on the formation of the plasma membrane of Staphylococcus aureus were studied. Phospholipids were consistent components of the membrane and were not affected by glucose or oxygen. Phospholipid fatty acids in cells grown in glucose containing media were rich in Ceven (C18, C20) fatty acid chains, whereas cells grown in glucose deficient media (normal broth) had anteiso Codd (C15,C17) fatty acid chains in place of Ceven chains. This may indicate increased membrane rigidity of the cells grown in glucose containing media. Cytochromes and ATPase were present in the membrane from cells grown in normal broth, but were deficient in the cells grown in glucose containing media. Polypeptide analysis of the membrane proteins showed a deficiency of the bands corresponding to these enzymes. They were not induced by the additionof oxygen to cells grown in glucose containing media. It was concluded that glucose was the dominant factor inhibiting the formation of these membrane enzymes.
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PMID:Effect of glucose and oxygen on the structure of the plasma membrane of Staphylococcus aureus. 16 Jan 85

The experiments were carried out on dogs. Experimental animals were subjected to the trauma of the thorax during operation. The localization and activity of succinic dehydrogenase, NADH2-tetrazole reductase, adenosine triphosphatase, alkaline and acid phosphates in the kidneys were examined. An increase of the activity of all the investigated enzymes takes place under the influence of the stress. On the basis of the investigations it can be supposed that the processes of oxygen phosphorylation and active transport are intensified. An increase of the activity of acid phosphates gives evidence of the intensity of phagocytosis and pinocytosis processes in the kidney.
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PMID:Histoenzymatic changes in the dog kidney in an experimentally induced crushing injury of the thorax. 16 20

The effect of CMNQ was studied on mitochondria isolated from S-180 ascites tumor cells. It was found that the primary metabolic event upon addition of CMNQ to S-180 mitochondria was a stimulation of oxygen uptake. The oxygen utilization rate was maximized at about 50 nmoles CMNQ/mg protein; at doses higher than this, inhibition of respiration was observed relative to the stimulation of respiration produced by CCCP. It was also up to 50 nmoles CMNQ/mg protein. S-180 ATPase activity is stimulated maximally by 125 nmoles CMNQ/mg protein; at doses higher than this, slight inhibition of the ATPase activity relative to the stimulation produced by CCCP is seen. In vivo treatment of CMNQ to tumor bearing animals leads to a significant reduction of in vitro S-180 cellular respiration rates. The data presented in this work coupled with previously published reports involving CMNQ support the proposal for a mitochondrial level of action for this bioreductive alkylating antineoplastic agent.
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PMID:Effects of the bioreductive alkylating agent 2,3-bis(chloromethyl)-1,4-naphthoquinone on coupled mitochondria isolated from sarcoma 180 ascites cells. 16 26

A20668 A, B, and C are polypeptide antibiotics that inhibit phosphorylation of ADP, Mg2t-ATPase, and the ATP-driven transhydrogenase of rat liver submitochondrial particles, but not the purified F1 ATPase. In intact mitochondria, 120668 inhibits uncoupler-induced ATPase, State 3 respiration, and phosphorylation; the A and B forms are approximately equipotent with rutamycin, whereas A20668 C is less effective. Concentrations of A20668 slightly greater than required for complete inhibition of phosphoryl transfer stimulate rapid, uncoupled respiration by mitochondria under State 3 of 4 conditions. A20668 A and B are more effective uncouplers than A20668 C. In the presence of venturicidin or ossamycin, concentrations of A20668, which alone do not uncouple, stimulate oxygen consumption of mitochondria incubated under either State 3 of 4 conditions. A20668 uncoupling is not potentiated by prior inhibition of phosphoryl transfer by venturicidin X, rutamycin, aurovertin, or efrapeptin. A20668 increases mitochondrial permeability to protons in passive swelling experiments where facilitation of proton conductance correlates well with potency to uncouple. A20668 apparently binds initially at a unique locus to inhibit mitochondrial phosphoryl transfer reactions. When this site is saturated, additional antibiotic may uncouple by increasing proton conductance of mitochondria. Binding of venturicidin or ossamycin appears to interfere with the binding of A20668 to its adjacent inhibitory site, thus effectively increasing the concentration of A20668 available to uncouple.
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PMID:Uncoupling and specific inhibition of phosphoryl transfer reactions in mitochondria by antibiotic A20668. 16 81

From transient kinetic studies of the Mg2+-dependent adenosine triphosphatase of myosin subfragment 1, prepared from rabbit skeletal muscle, a seven-step mechanism has been proposed. Features of this mechanism include two-step processes for ATP and ADP binding in which the binary complex isomerizes in addition to a rapid nucleotide association step. In the case of ATP a large negative standard free energy change is associated with the isomerization. An overall rate-limiting isomerization of the myosin-product complex prior to product release has been identified. Studies on the mechanism of cleavage of ATP bound to the active site indicate the process is readily reversible and can account for the observation that more than one oxygen of the product phosphate arises from water. This proposal has been substantiated by the finding that the oxygen atoms of the gamma-phosphoryl group of bound ATP also undergo extensive exchange with water.
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PMID:Transient kinetic and isotopic tracer studies of the myosin adenosine triphosphatase reaction. 17 37

1. Cells of the hydrogen bacterium Alcaligenes eutrophus are broken by gentle lysis using lysozyme treatment in hypertonic sucrose followed by osmotic shock. By this method, 93% of the in vivo activity of the H2 oxidase is recovered and the ATPase remains particle bound. In contrast, cell disruption in a French pressure cell diminishes the in vivo activity of the H2 oxidase by 50% and solubilizes the bulk of the ATPase. 2. The bacterium contains a periplasmic cytochrome c with bands at 418, 521 and 550 nm (difference spectrum). In addition to cytochrome aa3, b-560, c-553 and o, low temperature difference spectra of membranes show the presence of two further cytochromes (shoulders at 551 and 553 nm). 3. The unsupplemented membrane fraction catalyses the oxidation of hydrogen, NADH, NADPH, succinate, formate and endogenous substrate (NAD linked) at rates 2--3-fold higher than membranes obtained from cells disrupted in a French pressure cell. With the exception of the H2 oxidase all oxidase activities in lysozyme membranes are sensitive to carbonylcyanide m-chlorophenylhydrazone (20-100% stimulation of oxygen uptake). 4. The cytoplasmic fraction contains a B-type cytochrome with absorption maxima at 436 and 560 nm, capable of combining with CO; it contains non-covalently bound protohaem. In alkaline solutions a spectral transition to the haemochrome type with bands at 423, 526 and 556 nm occurs. The addition of NADH to an aerobic suspension of this cytochrome elicits new absorption maxima at 418, 545 and 577 nm (difference spectrum), which are believed to represent an oxygenated form of the reduced cytochrome.
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PMID:Respiratory components and oxidase activities in Alcaligenes eutrophus. 18 46

Changes in steady-state levels of reduced pyridine nucleotide (PN) recorded by continuous monitoring of surface fluorescence were correlated with changes in physiological function of perfused rat kidneys when subjected to anoxia, ischemia, hypothermia, variations in perfusion pressure, inhibition of Na-K ATPase, and uncoupling of oxidative phosphorylation. Biphasic responses of PN reduction and oxidation during ischemic cycles at varying temperatures and anoxic cycles at different perfusion pressures demonstrated the presence of two different cell populations in the kidney cortex, those with sufficient oxygen and those without. The magnitude of PN fluorescence change during ischemia increased with decreasing temperature demonstrating better tissue oxygenation during hypothermia. The measurement of mitochondrial NADH oxidation in the perfused kidney during transitions from CO anoxia to normoxia was made possible by flash photolytic activation of mitochondrial electron transport. The half time for NADH oxidation (125 ms) was independent of the rate of oxygen delivery while the initial rate and extent of reaction was faster and steeper, respectively, at higher perfusion pressure, due to a better tissue oxygenation and faster CO washout.
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PMID:Oxygen delivery in perfused rat kidney: NADH fluorescence and renal functional state. 18 9

Spectrophotometric and fluorometric techniques were used to monitor the proportion of reduced to oxidized cytochrome (cyt) and levels of reduced pyridine nucleotide in preparations of whole toad brain in vitro. In resting, well-oxygenated brain, levels of reduction for cyt a3 ranged between 5% and 23%; for cyt a, 17-23%; for cyt c, 18-32%, and for cyt b, 25-42%. These levels of reduction cannot be due to functional hypoxia since hemoglobin in resting brains is 100% oxygenated. In brains treated with 10(-4) M ouabain, stimulant of brain respiration, the cytochromes first become more oxidized, then more reduced; ultimately there is a tendency to return to the initial levels of reduction. In brains bathed with solutions containing 30 mM potassium, also a stimulant of brain respiration, the response is an immediate pulse of reduction in all cytochromes, followed by a tendency to return to the initial levels. Short trains of pulses of electrical field stimulation result in a biphasic change in the level of reduction of cyt a3, an initial slight reduction being followed by a transient of increased oxidation. This response can be abolished by low-sodium bathing solution but not by ouabain. Cytochromes a, b and c show a simple oxidative response to electrical stimulation; the kinetics of this oxidative response are similar to those of the oxidative transient of the cyt a3 response. Pyridine nucleotides, as measured by their fluorescence, respond to electrical stimulation with a transient oxidation which exhibits slower kinetics than the response of the cytochromes. The high resting levels of reduction of cyt a and cyt a3, the reductive response to ouabain and potassium, and the oxidative response of all cytochromes to electrical stimulation suggest a tighter coupling between oxygen utilization and neuronal function than would be expected if mitochondrial redox states simply reflected changes in phosphate acceptor potential resulting from activity of Na+-K+ ATPase.
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PMID:Response of toad brain respiratory chain enzymes to ouabain, elevated potassium, and electrical stimulus. 18 53

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