EC:2.3.3.1 - FACTA Search

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Query: EC:2.3.3.1 (citrate synthase)
4,488 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The activity of eight acid hydrolases and two energy metabolism enzymes were assayed from homogenates of predominantly red (proximal heads of m. vastus lateralis, m. vastus medialis, and m. vastus intermedius) and predominantly white (distal head of m. vastus lateralis) skeletal muscle of mice belonging to one of the following groups: 1) sedentary controls, never trained or exhausted; 2) exhausted controls, exhausted once by running on a treadmill 5, 10, or 20 days before killing; 3) trained mice, exercising until killed; 4) exhausted trained mice, exercising until exhausted 5, 10 or 20 days before killing, not exercising during that period; and 5) detrained mice, terminating training 5, 10, or 20 days before killing. In untrained but not in trained animals, exhaustive exercise caused, 5 days afterward, fiber necrosis and a marked increase in the activities of beta-glucuronidase, beta-N-acetylglucosaminidase, arylsulphatase, ribonuclease, deoxyribonuclease, cathepsin D, and cathepsin C, especially in red muscle fibers. Training increased the activities of citrate synthase, beta-glucuronidase, and cathepsin D in both muscle types and those of beta-N-acetylglucosaminidase, arylsulphatase, and cathepsin C in red muscle. Effects of detraining were minor. Exhaustive exercise causes lethal and evidently also sublethal fiber injuries manifesting themselves as an activation of the lysosomal system of muscle fibers 5 days later. Training affects cellular homeostasis by causing an apparent resistance to the damaging effects of exhaustive exercise. Moderately increased hydrolase activities may reflect increased turnover in endurance-trained muscles.
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PMID:Exhaustive exercise, endurance training, and acid hydrolase activity in skeletal muscle. 22 20

A realistic metabolic model of the tricarboxylic acid cycle in the perfused rat heart was constructed to help explain the sequence of biochemical events regulating the metabolism of exogenous pyruvate following a large increase in work load. The unchelated Mg2+ level was the most important controlling factor. The resulting mixture of chelated and unchelated nucleotides and tribasic acids effected coordinated control of citrate synthase, aconitase, isocitrate dehydrogenase, succinyl CoA synthetase, fumarase, and nucleoside diphosphokinase, because Mg2+-chelates are generally substrates whereas unchelated species are inhibitors. Succinate dehydrogenase is largely controlled by the ubiquinone redox potential. The fluxes through alpha-ketoglutarate and malate dehydrogenases are largely dependent on thepyridine nucleotide redox potential, but the succinyl CoA-to-CoASH ratio strongly affects the former enzyme as well. The model predicts an accumulation of succinate during the transition to higher work output.
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PMID:Computer simulation of metabolism in pyruvate-perfused rat heart. II. Krebs cycle. 22 18

Electron paramagnetic resonance studies have indicated that nitrosodisulfonate binds to pig heart citrate synthase. Titration of the enzyme with nitrosodisulfonate revealed several binding sites for the probe per subunit with one site (KD approximately 0.1 mM) having a greater affinity than the others. The substrate, oxaloacetate, competed very effectively for one of the nitrosodisulfonate binding sites (KD less than 10(-2) mM) at the same time eliminating the weaker probe binding sites. Citrate and (R)- and (S)-malates also displaced the probe. Failure to resolve low- and high-field shoulder in the high gain--high modulation electron paramagnetic resonance spectra of the enzyme--nitrosodisulfonate system indicated that the bound probe was "weakly immobilized". However, the electron paramagnetic resonance spectrum of the bound probe changed to one typical of a "strongly immobilized" nitroxide upon the addition of a saturating concentration of the substrate acetyl coenzyme A (acetyl-CoA) to the enzyme--nitrosodisulfonate system, indicating the formation of a ternary acetyl-CoA-enzyme-probe complex. Titration of the acetyl-CoA saturated enzyme with the probe indicated one binding site per subunit (KD = 0.37 mM). Thus, nitrosodisulfonate may be considered as a paramagnetic analogue of oxaloacetate in its interaction with citrate synthase. These results are compared with our previous studies with this enzyme, employing a spin-labeled acyl coenzyme A (acyl-CoA) derivative [Weidman, S. W., Drysdale, G. R., & Mildvan, A. S. (1973) Biochemistry 12, 1874--1883].
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PMID:Interaction of a paramagnetic analogue of oxaloacetate with citrate synthase. 22 20

Naturally occurring citrate synthases fall into distinct molecular and catalytic types. Gram-negative bacteria produce a 'large' enzyme, allosterically inhibited by NADH and, in the facultative anaerobes such as Escherichia coli, also by 2-oxoglutarate. On the other hand, Gram-positive bacteria and all eukaryotes produce a 'small' citrate synthase which is insensitive to these metabolites. As a complement to structure-function studies we have explored the possibility of genetically altering one type of citrate synthase to the other. By mutagenesis and suitable selection we have succeeded in isolating a mutant of E. coli whose citrate synthase is both 'small' and insensitive to NADH and 2-oxoglutarate. Some characteristics of the enzyme are described. Such mutant enzymes offer a novel approach to the study of citrate synthase, its regulation and its natural diversity.
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PMID:Studies on a mutant form of Escherichia coli citrate synthase desensitised to allosteric effectors. 23 33

The changes induced by phenobarbital in cerebral enzymatic activities of the Krebs' cycle (citrate synthase, malate dehydrogenase) and electron transfer chain (total NADH-cytochrome c reductase and cytochrome oxidase) were studied. In addition, the activity of lactate dehydrogenase of acetylcholine esterase and of glutamate dehydrogenase was also studied. These enzymatic activities were evaluated in the homogenate in toto and in a crude mitochondrial fraction from rat brain. The modifications in some of these activities indicate that several new metabolic situations occur in brain tissue after phenobarbital treatment.
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PMID:Effect of phenobarbital on cerebral energy state and metabolism. Enzymatic activities. 23 Jun 18

Kinetics of utilization of acetyl coenzyme A by citrate synthase of a sea anemone, an osmoconformer, were compared with those of citrate synthases of various osmoregulators. The Kms of the latter enzymes were substantially increased by higher concentrations of salt and the enzyme exhibited hyperbolic substrate saturation curves. Citrate synthase from sea anemone, on the other hand, exhibited allosteric kinetics and minimal effects of salt on its Km. We suggest that the adaptive advantage of this enzymic property to a sedentary osmoconforming organism such as sea anemone is obvious since the osmoregulating creatures are apparently unable to maintain an appropriate low ionic environment in situ and thus probably the Km of their citrate synthases at a low level.
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PMID:Influence of possible in situ ionic environment on kinetics of purified citrate synthase from an osmoconformer sea anemone, Bunedosoma cavernata. 23 4

Two forms of beta-ketoacyl-acyl carrier protein (ACP) synthetase (designated I and II) have been identified in extracts of Escherichia coli. Synthetase I corresponds to the condensing enzyme that was studied earlier (GREENSPAN, M.D., ALBERTS, A.W., and VAGELOS, P.R. (1969) J. Biol. Chem. 244, 6477-6485); synthetase II represents a new form of the enzyme. Synthetase II was isolated as a homogeneous protein. It differs from synthetase I in having a higher molecular weight (76,999 versus 66,000), a lower pH optimum (5.5 to 6.1 versus 7.2), and a greater resistance to denaturation by heat. Synthetase II is similar to synthetase I in that both are inactivated by iodoacetamide, and prior incubation of the enzymes with fatty acyl thioesters prevents the inhibitory effect of iodoacetamide. Both also react with a fatty acyl thioester to form an acyl-enzyme intermediate, and the latter reacts with malonyl-ACP to form a beta-ketoacyl thioester. Specificity studies indicated that synthetase II, like synthetase I, has similar affinities with saturated and cis unsaturated fatty acyl thioesters of ACP that are intermediates in the synthesis of saturated and unsaturated fatty acids, respectively. The two synthetases differ only with respect to reactivity with palmitoleyl thioesters: synthetase II has a lower Km and higher Vmax than synthetase I with palmitoleyl-ACP. This finding suggests that synthetase II functions specifically in the elongation of palmitoleyl-ACP to form cis-vaccenyl-ACP. An investigation of synthetases I and II in two classes of unsaturated fatty acid auxotrophs revealed that synthetase I is absent in one class, fabB. Addition of wild type synthetase I to fabB fatty acid synthetase, which synthesizes only saturated fatty acids, permitted this fatty acid synthetase to synthesize unsaturated fatty acids. These experiments indicate that synthetase I plays a critical role in the synthesis of unsaturated fatty acids.
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PMID:Multiple forms of beta-ketoacyl-acyl carrier protein synthetase in Escherichia coli. 23 14

Certain key enzymes of alternative pathways of glucose metabolism, of amino acid metabolism and of redox systems have been measured in hydra and this profile compared with mammalian differentiated tissues with a view to locating pathways of specific importance in hydra. There was a marked constant proportionality in the major part of the enzymes investigated, the profile suggested a metabolic pattern geared to utilization of amino acids as a carbon source for biosynthesis and energy production and to the production and conservation of pyruvate. The importance of conversion to ionized forms was noted. The most notable specific proportion changes were the exceptionally low lactate dehydrogenase, malic enzyme and the relatively high citrate synthase. The proximal-distal gradients in hydra were examined and these gradients suggested a switch to a more anaerobic type of metabolism and an elevation of the pentose phosphate pathway as the basal region was approached. Measurements of the formation of 14CO2 from specifically labelled glucose provided additional evidence for the functional activity and polarity of the pentose phosphate pathway in hydra. The effect of oligomycin, which can reverse polarity in hydra, had a significant effect on gradients of enzymes eliminating all except that observed for G6P dehydrogenase. The profile suggested a movement towards a more anaerobic type of metabolism, in keeping with the known biochemical action of this inhibitor. It is suggested that redox states and/or phosphorylation states may be featured in the positional information of cells in hydra.
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PMID:Positional information and pattern regulation in hydra: enzyme profiles. 24 Sep 2

The isolation of cell organelles from Dictyostelium discoideum was attempted using a variety of techniques. Cell homogenization (e.g. Potter-Elvehjem, glass beads) gave poor yields of organelles which were, in addition, exceptionally fragile and unstable in density gradients. An isolation method was developed using Triton X-100 in buffered sorbitol/Ficoll solutions at concentrations optimal for plasma membrane rupture. Immediately following cell lysis the solutions were diluted to sub-optimal Triton X-100 concentrations. Sedimentabilities of malate dehydrogenase, citrate synthetase, urate oxidase and catalase of around 55%, 40%, 35% and 55% respectively could be demonstrated using this method. The organelles were more resistant to breakage during resuspension following differential centrifugation and remained largely intact during density gradient centrifugation. The distribution of adenylate kinase activity in gradients showed that at least half the mitochondria retained an intact outer membrane. The mitochondria and peroxisomes could not be clearly separated using conventional sucrose-Ficoll density gradients. Separation was achieved by incubating the cell homogenate with succinate and a tetrazolium dye (2-p-iodophenyl-3-p-nitrophenyl-5-phenyl monotetrazolium chloride). Succinate dehydrogenase activity of mitochondria reduced the tetrazolium dye and the product (formazan) was deposited on the mitochondrial membranes ("heavy-labelling"). The mitochondria then sedimented to denser regions of the gradient while catalase distribution remained unchanged. The treatment left both organelles intact. The mitochondria (1.21 g/ml) were slightly denser than the peroxisomes (1.19 g/ml). The peroxisomes contained catalase and urate oxidase; no other hydrogen-peroxide-producing oxidases were detected. The slime mould urate oxidase resembled the mammalian enzyme. It had an apparent Km value of 12.5 muM, an optimum of activity at pH 8.5 in borate buffer and was competitively inhibited by trichloropurine.
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PMID:Mitochondria and peroxisomes from the cellular slime mould Dictyostelium discoideum. Isolation techniques and urate oxidase association with peroxisomes. 24 46

Peroxisomes were isolated form derepressed (lactose grown) Saccharomyces cerevisiae cells following homogenization with a "Merkenschlager" cell mill (at 0 degrees C using glass beads). Catalase and urate oxidase, along with low activities of D-amino acid oxidase and L-alpha-hydroxyacid oxidase (glycollate oxidase), were associated with the peroxisomes. No catalase activity was present in glucose repressed cells. When protoplasts prepared from derepressed cells were used for peroxisome isolation, catalase activity was not sedimentable through gradients. Apparently peroxisomes were destroyed as the cells became fermentative during protoplast preparation. The distribution of glyoxylate cycle enzymes was examined. Isocitrate lyase was not sedimentable, suggesting that, if the enzyme is peroxisome-associated, it is either readily released of present in a labile second class of peroxisomes. Low activities of malate dehydrogenase and citrate synthetase were found in peroxisome fractions from gradients, but may represent mitochondrial contamination. Citrate synthetase was not found associated with a low-density particle as had been previously reported.
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PMID:The isolation and characterization of peroxisomes (microbodies) from baker's yeast, Saccharomyces cerevisiae. 24 96

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