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 digitonin method for the study of cellular compartmentation in mitochondrial and cytosolic fractions was applied to Ehrlich ascites tumor cells. The volume of mitochondrial and cytosolic water spaces are calculated to be 1.62 microliter/30 x 10(6) cells respectively, by the technique of 3H2O permeable and (14C)-sucrose impermeable spaces. The validity of the methods was tested by the distribution of cytosolic (lactate dehydrogenase) and mitochondrial (citrate synthase and glutamate dehydrogenase) marker enzymes. As occurs in normal hepatic cells, an asymmetric distribution of ATP and ADP was observed. The ATP/ADP ratio in the cytosolic fraction was 7 times higher than in the mitochondrial fraction.
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PMID:Cellular compartmentation of Ehrlich ascites tumor cells. 653 6

It is commonly observed that during acclimatization to altitude oxidative enzyme activities increase per g wet weight of tissue. To examine this problem in long-term adapted animals we measured citrate synthase (CS), hydroxyacylCoA dehydrogenase (HOAD), pyruvate kinase (PK), and lactate dehydrogenase (LDH) activities/g of myocardium in two domestic species (llama and alpaca) and a high altitude deer, the taruca. In all these species, we found an upward scaling of oxidative capacity (indicated by absolute activities of CS and HOAD) but a downward scaling of anaerobic/aerobic metabolic potentials of the heart (indicated by low ratios of LDH/CS, and LDH/HOAD, but high ratios of PK/LDH). As the direction and magnitude of these long-term adaptations are the same as in shorter-term acclimatizations, we wondered why a similar pattern at the enzyme level correlates with the right shift of the O2 dissociation curve (ODC) in the latter case, but with a left shifted ODC in the former. We hypothesize that in the long term, increased oxidative enzyme activities allow increased maximum flux capacity of aerobic metabolism. This in turn calls for physiological adjustments in O2 transfer systems; flux limits of the former must be matched by flux limits of the latter. Only then can an acceptably high scope for aerobic activity be achieved despite reduced O2 availability in inspired air. Such long-term match-up invariably calls for a left-shifted ODC plus other well known adjustments in O2 transport. In the short term, right shifting the ODC may increase the total amount of aerobic work possible (by favoring O2 unloading and thus raising tissue O2 concentration), yet maximum flux capacity cannot be changed much because mitochondrial metabolism is designed for maintaining stable rates of ATP synthesis even at widely varying O2 tensions. That is why even in short-term acclimatization, in order to increase flux capacity, the activities of oxidative enzymes also must be increased.
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PMID:Metabolic meaning of elevated levels of oxidative enzymes in high altitude adapted animals: an interpretive hypothesis. 661 4

Some mechanism studies on chicken and pig citrate synthase are described. Gibacron Blue F3GA apparently binds into both the oxaloacetate and the acetyl-CoA subsites of the enzyme. Protection by ligands against urea-induced denaturation indicates that several di(tri)-carboxylic acids bind into the oxaloacetate subsite, whereas ATP, but not Mg2+ ATP, binds into the acetyl-CoA subsite. Oxaloacetate, citrate and D-malate induce a transconformation in the enzyme, whereas alpha-ketoglutarate, L-malate and succinate do not.
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PMID:Chicken heart citrate synthase: some mechanism studies. 661 56

The behavior of a computer model of metabolism in glucose- and palmitate-perfused rat hearts was interpreted by sensitivity analysis to explain why the heart preferentially utilizes fatty acids as fuel even in the presence of substantial exogenous glucose. The sensitivity functions identified those metabolites and enzymes which were most important in regulating the metabolic rate and determined which enzymes set the levels of the critical metabolites. Control of the mitochondrial redox potential and the distribution of coenzyme A thioesters regulated the rate of fatty acid utilization while strong inhibition of citrate synthetase resulted in accumulation of acetyl CoA and suppression of pyruvate oxidation. Glycolysis was limited by the cytosolic ATP/ADP ratio set largely by the creatine shuttle. Metabolic control appears to be widely distributed rather than localized at "key" enzymes. Metabolite levels are usually set by enzymes controlled by modifiers whereas metabolic flux is regulated by the enzymes that produce ligands for the modifier-controlled enzymes.
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PMID:Computer simulation of metabolism in palmitate-perfused rat heart. III. Sensitivity analysis. 668 Feb 74

The binding of two similar spin-labeled fatty acyl-CoA analogues, one short chain, 6-doxyloctanoyl-CoA (S-(2-(5-carboxybutyl)-2-ethyl-4, 4-dimethyl-3-oxazolidinyl-N-oxyl)-CoA) and one long chain, 6-doxylstearoyl-CoA (S-(2-(5-carboxybutyl)-2-dodecyl-4, 4-dimethyl-3-oxazolidinyl-N-oxyl)-CoA) to pig heart citrate synthase (citrate oxaloacetate-lyase (pro-3S-CH2COO- leads to acetyl-CoA) EC 4.1.3.7) has been compared. The binding of the short chain analogue could be satisfactorily fit by a classical treatment (independent, noninteracting sites) with well defined stoichiometry: 2 mol of spin label bound per mol of dimeric enzyme. Binding of the long chain analogue was complex and in excess of 2 mol/dimer. Competitive binding experiments using either analogue in the presence of various nucleotides and substrates revealed differences in the binding of the long and short chain analogues. These additional studies, together with kinetic measurements, implied isosteric binding of acyl-CoA, ATP, NADPH, NADH, NADP+, acetyl-CoA, and partial isosteric binding of the long chain acyl-CoA. Binding of NADPH and NADP+ to the same form of the enzyme, perhaps through overlapping sites, was kinetically verified even though these nucleotides had differing effects on the binding of the spin-labeled analogues. Oxalacetate was shown to decrease the binding of the long chain analogue but to have no effect on the binding of the short chain. This result was supported by kinetic measurements. The competitive binding experiments with the long chain analogue suggested that its complex isotherm resulted from binding in two classes of sites, i.e. two cooperative nucleotide sites and other sites. An empirical mathematical model employing this rationale provided a satisfactory fit for the binding of fatty acyl-CoA to citrate synthase. A spin-labeled fatty acid which was not bound by the native enzyme was appreciably bound in the presence of additional palmitoyl-CoA. This binding might be identified with one of the two sets of binding sites proposed in the model. These and previous results on acyl-CoA binding were correlated with the properties of the CoA binding site defined crystallographically (Remington, S., Wiegand, G., and Huber, R. (1982) J. Mol. Biol. 158, 111-152).
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PMID:Regulation of enzymes by fatty acyl coenzyme A. Interactions of short and long chain spin-labeled acyl-CoA with the acetyl-CoA site on pig heart citrate synthase. 669 13

The subcellular distribution of high-energy phosphates in various types of skeletal muscle of the rat was analysed by subfractionation of tissues in non-aqueous solvents. Different glycolytic and oxidative capacities were calculated from the ratio of phosphoglycerate kinase and citrate synthase activities, ranging from 25 in m. soleus to 130 in m. tensor fasciae latae. In the resting state, the subcellular contents of ATP, creatine phosphate and creatine were similar in m. soleus, m. vastus intermedius, m. gastrocnemius and m. tensor fasciae latae but, significantly, a higher extramitochondrial ADP-content was found in m. soleus. A similar observation was made in isometrically and isotonically working m. gastrocnemius. The extramitochondrial, bound ADP accounted fully for actin-binding sites in resting fast-twitch muscles, but an excess of bound ADP was found in m. soleus and working m. gastrocnemius. The amount of non-actin-bound ADP reached maximal values of approx. 1.2 nmol/mg total protein. It could not be enhanced further by prolonged isotonic stimulation or by increased isometric force development. It is suggested that non-actin-bound ADP is accounted for by actomyosin-ADP complexes generated during the contraction cycle. Binding of extramitochondrial ADP to actomyosin complexes in working muscles thus acts as a buffer for cytosolic ADP in addition to the creatine system, maintaining a high cytosolic phosphorylation potential also at increasing rates of ATP hydrolysis during muscle contraction.
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PMID:Compartmentation of high-energy phosphates in resting and working rat skeletal muscle. 669 84

Data from numerous laboratories show that mitochondria isolated from livers treated acutely with glucagon have higher rates of state 3 respiration than control mitochondria. The purpose of the present study was to learn whether this phenomenon is an isolation artifact resulting from a stabilization of the mitochondrial membrane or whether it represents a real increase in the maximal respiratory capacity of liver cells due to glucagon treatment. Electron transport was measured through different spans of the electron transport chain by using ferricyanide as an alternate electron acceptor to O2. With isolated intact liver mitochondria, pretreatment with glucagon was found to cause an increase in electron flow, through both Complex I and Complex III, suggesting that the effect of glucagon was not specific for a single site in the electron transport chain. Using intact isolated hepatocytes, different results are obtained. Respiration was measured in isolated hepatocytes after quantitation of the hepatocyte mitochondrial content by assay of citrate synthase. Hepatocyte respiration could therefore be reported per mg of mitochondrial protein. By providing durohydroquinone to the cells, it was possible to measure electron flow from coenzyme Q to O2 in the absence of the physiological regulation of substrate supply. Likewise, the addition of carbonyl cyanide p-trifluoromethoxyphenylhydrazone released the in situ mitochondria from control by the cytosolic ATP/ADP ratio and it was possible to measure maximal electron flow rates through Complex III. In the presence of carbonyl cyanide p-trifluoromethoxyphenylhydrazone, electron flow was higher in mitochondria in the cell than in isolated mitochondria. Glucagon caused no increase in mitochondrial respiration in situ either in the presence of the physiological substrates or in the presence of durohydroquinone. The data obtained do not support a role for the electron transport chain as a target of glucagon action in hepatocytes.
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PMID:The effect of glucagon on hepatic respiratory capacity. 670 94

Citrate synthase and malate dehydrogenase bind to mitochondrial membrane preparations obtained from various species of animals and lemon fruit. The amount of enzyme bound per mg mitochondrial protein was comparable in all tissues studied. The effect of various substrates, products, and substrate analogs on citrate synthase binding to rat liver mitochondrial inner membrane was examined. OAA was the most effective inhibitor of binding followed by AcCoA , CoA, citrate, ATP, and MgATP. Neither D- nor L- malate were effective in blocking binding. The wide distribution of binding of citrate synthase and malate dehydrogenase to the inner membrane and specificity of substrate effects on the binding of citrate synthase are discussed in relation to the possible physiologic nature of these phenomena.
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PMID:Binding of citrate synthase and malate dehydrogenase to mitochondrial inner membranes: tissue distribution and metabolite effects. 673 28

Pig heart citrate synthase was subjected to limited proteolytic attack by subtilisin, chymotrypsin, and trypsin in the presence of palmitoyl-CoA. Initial proteolysis by all three proteolytic enzymes resulted in cleavage of the monomeric subunit (Mr 45 000 +/- 3000) into a large (Mr 35 000-38 500) and a small (Mr 9000 +/- 3000) into a large (Mr 35 000-38 500) and a small (Mr 9000-12 000) fragment. Further proteolysis of the large subunit produced a secondary fragment (Mr 31 000-36 000). The small (Mr 9000-12 000) fragment was stable in the presence of subtilisin but was substantially degraded by both chymotrypsin and trypsin. The actual molecular weight of fragments varied with the choice of the proteolytic enzyme. Limited proteolysis was absolutely dependent on the presence of palmitoyl-CoA and resulted in complete inhibition of the catalytic activity of the enzyme. Citrate, ammonium sulfate, and especially oxaloacetate provided complete protection against proteolysis whereas acetyl-CoA, CoASH, NADH, and ATP were ineffective. Reaction of rabbit anti-citrate synthase with citrate synthase and its proteolytic fragments indicated that the main antigenic region lay primarily in the small fragment. The products of subtilisin cleavage were isolated by gel filtration under denaturing conditions. The large (Mr 35 000-38 500) fragment contained the amino-terminal (approximately)336 amino acids and the small fragment contained the remaining carboxyl-terminal amino acids. The results are discussed in relation to the structure of citrate synthase.
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PMID:Limited proteolysis of pig heart citrate synthase by subtilisin, chymotrypsin, and trypsin. 677 58

Citrate synthase [citrate (si)-synthase] (EC 4.1.3.7) was partially purified from extracts of highly purified typhus rickettsiae (Rickettsia prowazekii). Molecular exclusion and affinity column chromatography were used to prepare 200-fold-purified citrate synthase that contained no detectable malate dehydrogenase (EC 1.1.1.37) activity. Rickettsial malate dehydrogenase also was partially purified (200-fold) via this purification procedure. Catalytically active citrate synthase exhibited a relative molecular weight of approximately 62,000 after elution from a calibrated Sephacryl S-200 column. Acetyl coenzyme A saturation of partially purified enzyme was sensitive to strong competitive inhibition with adenylates (ATP greater than ADP much greater than AMP). [beta,gamma-methylene]ATP, dATP, and dADP also caused strong inhibition, but guanosine and cytosine nucleotides were significantly less inhibitory. Adenylates had no effect on oxalacetate saturation kinetics when acetyl coenzyme A was present in high concentration (greater than or equal to 50 microM). Neither NADH nor alpha-ketoglutarate affected the saturation kinetics of rickettsial citrate synthase. Thus, citrate synthase from R. prowazekii exhibits greater similarity to the eucaryotic and gram-positive procaryotic enzymes than to citrate synthase from free-living gram-negative bacteria. These results represent the first characterization of a highly purified key regulatory enzyme from these obligate intracellular parasitic bacteria.
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PMID:Regulatory properties of citrate synthase from Rickettsia prowazekii. 679 96

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