EC:3.6.3.14 - FACTA Search

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Query: EC:3.6.3.14 (ATP synthase)
7,042 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mammalian and avian muscles were examined histochemically and biochemically to determine the relative contribution of membrane bound (mitochondrial and sarcotubular) ATPases under the same conditions employed for myofibrillar ATPase. For histochemically investigated Ca+(+)-ATPase activity following incubation at pH 9.4 according to the calcium-citro-phosphate technique, avian muscle displayed distinct mitochondrial localization in both dark and light staining fibres. However, mitochondrial localization did not occur in mammalian muscle fibres. Pretreatment of unfixed frozen sections with ouabain, cyanide and acetone did not prevent the reticular distribution in avian muscle fibres. The present study demonstrates that "myofibrillar" localization is achieved by the Ca+(+)-precipitation technique: provided frozen sections are pretreated with cold acetone, fixed in a fixative containing oligomycin or azide and then incubated in a medium containing glycine-NaO H as buffer. Mitochondria prepared by successive mechanical homogenization or by Nagarse treatment plus 2 min homogenization develop different ATPase activities at pH 9.4 7.4 6.0 and 4.35 as well as stimulation by 70 mM Ca++ at these pHs compared to those ATPase activities in the homogenate of mixed hamster hind leg muscles. Glycerol-3-phosphate dehydrogenase and creatine kinase (both located at the outer surface of the inner mitochondrial membrane) and succinate dehydrogenase and glutamate dehydrogenase (localized at the inner mitochondrial membrane and in the matrix resp.) also show different activities in both mitochondria preparations indicating different membrane properties of both mitochondria. Evidence is obtained that using the calcium-citro-phosphate technique at pH 9.4 oligomycin-sensitive and -insensitive ATPases are activated by Ca++ in both mitochondria preparations. Since in muscle homogenate less than 10% of Ca+(+)-stimulated ATPase activity is oligomycin-sensitive, mitochondrial ATPase exhibit only a small portion of total ATPase from mixed hamster hind leg muscles.
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PMID:Histochemical and biochemical investigations of adenosine triphosphatase in vertebrate mixed muscles. 4 33

The effect of temperature on the activation energies of mitochondrial enzymes of the yeast Saccharomyces cerevisiae was examined. Non-linear Arrhenius plots with discontinuities in the temperature range 14-19 degrees C and 19-22 degrees C were observed for the respiratory enzymes and mitochondrial ATPase (adenosine triphosphatase) respectively. A straight-line Arrhenius plot was observed for the matrix enzyme, malate dehydrogenase. The activation energies of the enzymes associated with succinate oxidation, namely, succinate oxidase, succinate dehydrogenase and succinate-cytochrome c oxidoreductase, were in the range 60-85kJ/mol above the transition temperature and 90-160kJ/mol below the transition temperature. In contrast, the corresponding enzymes associated with NADH oxidation showed significantly lower activation energies, 20-35kJ/mol above and 40-85kJ/mol below the transition temperature. The discontinuities in the Arrhenius plots were still observed after sonication, treatment with non-ionic detergents or freezing and thawing of the mitochondrial membranes. Discontinuities for cytochrome c oxidase activity were only observed in freshly isolated mitochondria, and no distinct breaks were observed after storage at -20 degrees C. Mitochondrial ATPase activity still showed discontinuities after sonication and freezing and thawing, but a linear plot was observed after treatment with non-ionic detergents. The results indicate that the various enzymes of the respiratory chain are located in a similar lipid macroenvironment within the mitochondrial membrane.
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PMID:Phase transitions in yeast mitochondrial membranes. The effect of temperature on the energies of activation of the respiratory enzymes of Saccharomyces cerevisiae. 16 75

(1) The histochemical staining pattern of succinic dehydrogenase (SDH) does not show unequivocal differentiation between the type I red and type II red fibres in mammalian striated muscles. (2) Since high biochemical activity of beta-hydroxybutyric dehydrogenase (beta-HOBDH) occurs in mitochondria of the type I red fibres, the histochemical localization of this enzyme may show a pattern of staining reciprocal to that seen for myofibrillar ATPase. (3) It remains to be confirmed that the type I red fibres, which are possibly slow-twitch physiologically, possess the highest concentration of myoglobin. The histochemical correlation of myoglobin and myofibrillar ATPase in serial sections should be studied. (4) In order to achieve a more realistic picture, various glycolytic and glycogenolytic enzymes should be incubated according to the gelatin film technique, or semipermeable membrane technique or collagen polypeptide technique. A histochemical correlation of phosphorylase, LDH, PFK, alpha-glycerophosphate dehydrogenase, and myofibrillar ATPase in adjacent muscle sections may throw light on the histochemical characteristics of the different fibre-types. (5) The specific histochemical demonstration of AMPase is achieved following preincubation of tissue sections. (6) ADPase has been demonstrated by the calcium precipitation technique only (GUTH and YELLIN, 1971). A number of studies claim, however, that ADPase is not demonstrable histochemically in muscle fibres. (7) The presence of magnesium ions is a prerequisite for the adequate histochemical demonstration of mitochondrial ATPase. The latter is inhibited almost completely by 40 mM Ca++ (when Mg++ is not added) at both neutral and alkaline pH values. (8) The histochemical activity of SR-AT-Pase seen as continuous reticula but without punctuate and sub-sarcolemmal staining possibly represents the extra ATPase of SR. (9) On the basis of myofibrillar ATPase reaction, an inherent heterogeneity, between the type II red and type II white may be recognized. In addition, the above fibre-types possess their respective sub-populations. (10) Following diK+ EDTA preincubation, some type II red fibres show selective lability. These are the mitochondria-rich fibres. Thus in the total absence of both punctuate and subsarcolemmal staining, the presence of mitochondrial ATPase activity under the histochemical conditions for myofibrillar ATPase is unlikely. (11) The reaction pattern of CK/ATPase (coupled reaction) at pH 6.9 is distinctly intermyofibrillar and unlike SDH-pattern. This reticular reaction is associated mainly with the SR and hence the importance of transphosphorylation in this organelle for the Ca++ uptake and muscle relaxation. (12) The CK/ATPase reaction at pH8.0 has shown important histoenzymatic characteristics. At this pH value the type I red fibres and slow-twitch soleus show myofibrillar reaction pattern. This identical histochemical behaviour suggests that type I red fibres are possibly slow-contracting...
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PMID:Histochemical characteristics of vertebrate striated muscle: a review. 18 61

Antibodies against isolated beef-heart ubiquinol--cytochrome c reductase (complex III) have been characterized. Antibodies to complex III react strongly with isolated beef heart complex III and intact beef heart mitochondria, as shown by immunodiffusion and rocket electrophoresis experiments. The complex III content of intact mitochondria can be quantitated with rocket electrophoresis using isolated complex III as a standard. Antibodies to complex III also react with beef liver mitochondria and with both heart and liver mitochondria from rats. The latter are very weak antigens compared to beef heart material. Antibodies to complex III do not react with respiratory chain complexes I and IV, or F1-ATPase from beef heart mitochondria, but gives a slight, but variable, reaction with complex II and the membrane fraction isolated from complex V (oligomycin-sensitive ATPase). Antigenic sites are located on at least five of the seven peptides of complex III. These peptides are presumably lacking in respiratory chain complexes which do not react with antibodies to complex III, and are assumed to be uniquely located in complex III. Antiserum against complex III inhibitis duroquinol--cytochrome c reductase activity in isolated complex III and in complex III incorporated into phospholipid vesicles. Oxidation of NADH and succinate is not affected in submitochondrial particles treated with 6-times more antibody than required for complete inhibition of enzyme activity in free complex III or in complex III-phospholipid vesicles.
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PMID:Immunological studies on beef-heart ubiquinol--cytochrome c reductase (complex III) 41 53

The mitochondrial ATPase inhibitor proteins--the Pullman-Monroy inhibitor (PMI) and the Ca(2+)-binding protein (CaBI)--have a wide distribution, both being present in mitochondria of bovine heart and kidney, rat liver and brain, two mitochondrial populations of rabbit skeletal muscle, and mitochondria from human fibroblasts and the human breast cancer cell line T-47-D. The ratio of CaBI to PMI was highest in heart and skeletal muscle mitochondria. The subsarcolemmal fraction of skeletal muscle had 2.6-times as much CaBI as did the intermyofibrillar. The ratio of CaBI to PMI in the mitochondria of the other normal tissues and fibroblasts was close to 1. In contrast, mitochondria from T-47D cells had 1.5-times as much PMI as CaBI whilst mitochondria from fibroblasts from a patient with Luft's disease showed a virtual lack of PMI. The specific ATPase, ATP-synthetase and succinate dehydrogenase activities of the Luft's mitochondria were, however, in the normal range. The specific ATP synthetase activity of the T-47D cells was significantly higher than normal. We conclude that tissues like heart and skeletal muscle which experience wide fluctuations in intracellular Ca2+ have a greater need for CaBI. Why lack of PMI could lead to 'loose' coupling of oxidative phosphorylation in skeletal muscle of Luft's patients, but not in fibroblasts is discussed.
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PMID:Distribution of the ATPase inhibitor proteins of mitochondria in mammalian tissues including fibroblasts from a patient with Luft's disease. 153 26

Mitochondria are the main site of ATP synthesis in aerobic cells, using the free energy of the oxidation of metabolic fuels by oxygen. They have a matrix space containing the enzymes of the citrate cycle and beta-oxidation, enclosed by an inner membrane containing the 4 complexes of the electron transport chain, ATP synthase and specific carriers for metabolites. Mitochondria also have a relatively permeable outer membrane and an intermembrane space. ATP synthesis (oxidative phosphorylation) is critically dependent on the structural integrity of the mitochondrion. Electrons from substrate oxidations feed into the electron transport chain at complex I or complex II, and then successively flow to complex III, complex IV and finally to oxygen. Complexes I, III and IV are redox pumps and electron transport causes extrusion of protons from the matrix generating an electrochemical proton gradient (proton motive force) across the inner membrane. Protons return to the matrix 'through' ATP synthase driving the synthesis of ATP. The stoichiometry of proton extrusion and the yield of ATP are still uncertain. Mitochondria have genetic continuity and are inherited maternally. They possess a small amount of DNA which codes for some, but not all, of the subunits of complexes I, III, IV of ATP synthase. mtDNA also codes for mitochondrial ribosomal and messenger RNAs involved in the synthesis of mitochondrially coded subunits. All other mitochondrial peptides are synthesised on cytosolic ribosomes and are imported and targeted to their specific intramitochondrial locations, often after proteolytic removal of leader sequences.
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PMID:Mitochondria: structure and function. 196 47

The effects of amiodarone on the respiration of isolated mouse liver mitochondria have been determined. Amiodarone (200 microM) had a biphasic effect on state 4 respiration supported by either glutamate plus malate or succinate. Initially, the respiratory rate was increased. This stimulatory effect was not prevented by oligomycin (an inhibitor of ATP synthase). It was associated with marked accumulation of amiodarone in the mitochondria, and with collapse of the mitochondrial membrane potential. This initial uncoupling effect was followed by a progressive decrease in the state 4 respiration rate, leading eventually to marked inhibition. Preincubation for 5 min with amiodarone (200 microM) also decreased markedly ADP-stimulated (state 3) respiration, ATP production and dinitrophenol-stimulated (uncoupled) respiration supported by glutamate plus malate (which donate electrons to complex I), and respiration supported by succinate (which donate electrons to complex II), but did not affect respiration supported by duroquinol (donating electrons to complex III) or by ascorbate plus N,N,N',N'-tetramethyl-p-phenylenediamine (donating electrons to cytochrome c). Preincubation with amiodarone (150-200 microM) decreased markedly respiration mediated by fatty acids of various chain length and respiration mediated by citrate, a tricarboxylic acid cycle substrate. We conclude that amiodarone has a dual effect on mitochondrial respiration. The initial uncoupling effect is probably due to the entry of protonated amiodarone, releasing a proton in the matrix. Accumulation of amiodarone soon leads to inhibition of the respiratory chain at the levels of complex I and complex II and to decreased ATP formation.
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PMID:Dual effect of amiodarone on mitochondrial respiration. Initial protonophoric uncoupling effect followed by inhibition of the respiratory chain at the levels of complex I and complex II. 197 17

In this paper we have examined the effect of cold exposure on hepatic mitochondrial state 3 respiration and ATP synthesis, using succinate as the substrate, in euthyroid, hypothyroid and hyperthyroid rats. The results show that cold exposure does not elicit any variation in the above parameters in euthyroid and hyperthyroid rats, whereas when hypothyroid rats are exposed to cold, a significant increase (about +45%) occurs in state 3 respiration and ATP synthesis. We have also measured succinic dehydrogenase specific activity and uncoupled respiration during cold exposure in various thyroid states. The finding that cold exposure elicits no variation in the above parameters indicates that there is some control on ATP synthase and/or adenine nucleotide translocator. The above findings, as a whole, suggest that cold exposure acts on oxidative phosphorylation only if triiodothyronine is lacking, by controlling ATP synthase and/or adenine nucleotide translocator.
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PMID:The effect of thyroid state and cold exposure on rat liver oxidative phosphorylation. 205 Feb 63

Oxidative phosphorylation can be treated as two groups of reactions; those that generate protonmotive force (dicarboxylate carrier, succinate dehydrogenase and the respiratory chain) and those that consume protonmotive force (adenine nucleotide and phosphate carriers. ATP synthase and proton leak). Mitochondria from hypothyroid rats have lower rates of respiration in the presence of ADP (state 3) than euthyroid controls. We show that the kinetics of the protonmotive-force generators are unchanged in mitochondria from hypothyroid animals, but the kinetics of the protonmotive-force consumers are altered, supporting proposals that the important effects of thyroid hormone on state 3 are on the ATP synthase or the adenine nucleotide translocator.
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PMID:Thyroid-hormone control of state-3 respiration in isolated rat liver mitochondria. 230 10

Isolated rat liver mitochondria were split into three fractions of increasing density when applied to a Percoll gradient. NADH-ubiquinone oxidoreductase, succinate dehydrogenase and cytochrome-c oxidase but not F1-ATPase activities increased with density as well as respiratory rate in state 3 and the respiratory control index. Flow cytometry of mitochondrial density fractions stained with rhodamine-123 revealed the occurrence in each density fraction of two distinct mitochondrial populations with different fluorescence intensity. The high fluorescence population was minor and its proportion decreased with density. The extent of high fluorescence population staining depended on the deenergized state of the mitochondria suggesting that this population represents an immature form of the mitochondria which may develop into a fully functional organelle by the incorporation of structural and/or functional proteins.
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PMID:Identification by flow cytometry of two distinct rhodamine-123-stained mitochondrial populations in rat liver. 247 32

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