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)

1. Activities of a glycolytic enzyme--lactate dehydrogenase, LDH, and two oxidative enzymes--citrate synthase (CS), a marker for TCA cycle entry, and 3-hydroxyacyl-CoA dehydrogenase (HAD), which indicates the capacity for beta-oxidation of endogenous lipids, were measured in fast (tibialis anterior, TA, and extensor digitorum longus, EDL) and slow (soleus, SOL) muscles of Sprague-Dawley rats with intact and limited blood supply, and following treatment with the xanthine derivative torbafylline (Hoechst, Werk Albert, Wiesbaden). 2. Limitation of blood supply by unilateral ligation of the common iliac artery increased activity of LDH in fast muscles, and activity of CS and HAD in soleus. 3. Torbafylline treatment caused an increased LDH activity in intact fast muscles and decreased it in soleus, although the relative capacity for anaerobic and aerobic metabolism (indicated by the ratio of LDH and CS activities) remained unchanged in all cases. 4. Whilst having little effect on oxidative enzyme activity of fast muscles, torbafylline decreased the activity of CS but increased activity of HAD in soleus, suggesting a greater reliance on lipid metabolism. 5. The effect of arterial ligation on enzyme activity was ameliorated by treatment with torbafylline, possibly due to its effect on the microcirculation.
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PMID:The effect of torbafylline on enzyme activities in fast and slow muscles with limited blood supply. 167 66

We studied mechanism(s) by which adaptations of renal TCA cycle metabolism abet ammoniagenesis from glutamine in altered acid-base states. Renal tubules from control, acidotic, or alkalotic rats were incubated at pH 7.4 with 1 mM [3-13C,5-15N]glutamine or 2 mM [3-13C]pyruvate. In acidosis there was a significantly higher flux through glutaminase and through glutamate, 2-oxoglutarate, succinate and malate dehydrogenases as well as markedly enhanced 13C-glucose formation. Alkalosis was associated with little change in 13C flux from glutamine to TCA cycle intermediates compared with control but production of 15NH3 and 13C glucose was significantly diminished. The current studies indicate that renal ammoniagenesis might be regulated at the sites of citrate synthetase (CS) and/or alpha-ketoglutarate dehydrogenase (KGDH). Thus, in chronic metabolic acidosis decreased flux through CS and increased flux through KGDH resulted in enhanced flux through glutamate dehydrogenase and glutaminase pathway. The opposite occurred in alkalosis. The data suggest that in various acid-base states the rate of renal gluconeogenesis is linearly correlated with malate efflux from the mitochondria. In renal tissue, inhibition occurs at one site of the TCA cycle there is an augmentation of fluxes through pathways beyond that site in order to maintain the respiratory process and the redox state in the mitochondria.
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PMID:Adaptation of renal tricarboxylic acid cycle metabolism to various acid-base states: study with [3-13C,5-15N]glutamine. 177 Sep 13

Our aim was to delineate the effect(s) of chronic metabolic acidosis on renal TCA-cycle metabolism. Renal tubules isolated from control and chronically acidotic rats were incubated at pH 7.4 with either 2 mM [2,3-13C]pyruvate or [2-13C]acetate. GC-MS and/or 13C-NMR were utilized to monitor the flux of 13C through pyruvate dehydrogenase, pyruvate carboxylase and the TCA-cycle. With either, precursor acidosis was associated with significantly decreased formation of 13C-labelled citrate, malate, aspartate and alanine and increased formation of glucose, lactate and acetyl-CoA as compared with the control. The results indicate that adaptation of renal metabolism to chronic metabolic acidosis is associated with diminished flux through citrate synthetase and concomitantly increased flux through pyruvate carboxylase. The data suggest that depletion of TCA-cycle intermediates and enhanced ammoniagenesis in the kidney of chronically acidotic rats may be regulated at the site of mitochondrial citrate-condensing enzyme.
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PMID:Carbon flux through tricarboxylic acid cycle in rat renal tubules. 230 65

Studies on the tricarboxylic acid cycle (TCA cycle) enzymes of Penetrocephalus ganapatii reveal that the TCA cycle is only partially operative, as some of the enzymes at the start of the cycle viz. citrate synthase, aconitase and isocitrate dehydrogenase are found to be low in their activities. The high activities of malate dehydrogenase and fumarase, showing affinity towards a reverse direction, indicate that the TCA cycle operates in the reverse direction resulting in the formation of fumarate. The low succinate dehydrogenase/fumarate reductase ratio suggests that ATP generation may occur at site I of the respiratory chain during the reduction of fumarate into succinate.
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PMID:Tricarboxylic acid cycle enzymes of a pseudophyllid cestode Penetrocephalus ganapatii. 233 84

We isolated a cDNA clone from Arabidopsis thaliana encoding the TCA cycle enzyme, citrate synthase. The plant enzyme displays 48% and 44% amino acid residue similarity with the pig, and yeast polypeptides, respectively. Many proteins, including citrate synthase, which are destined to reside in organelles such as mitochondria and chloroplasts, are the products of the nucleocytoplasmic protein synthesizing machinery and are imported post-translationally to the site of function. We present preliminary investigations toward the establishment of an in vitro plant mitochondrial import system allowing for future studies to dissect this process in plants where the cell must differentiate between mitochondria and chloroplast and direct their polypeptides appropriately.
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PMID:Isolation of a cDNA encoding mitochondrial citrate synthase from Arabidopsis thaliana. 249 64

The effect of chronic administration for 6 weeks of an anabolic steroid, nandrolone phenylpropionate (Durabolin), was studied in three predominantly glycolytic muscles, and three oxidative muscles of sedentary female rats. Mean blood pressure and resting heart rate (HR) were lower in the anabolic-treated group, while the increase in HR during stimulation of EDL was reduced. No change was noted in the aerobic capacity of ventricular myocardium, although there was an increase in skeletal muscles due to a combination of increased capillary supply and/or TCA cycle enzyme activity. Capillary:fibre ratio (C:F) increased around 10% in glycolytic muscle with little effect on resting blood flow (BF). In EDL C:F was 1.1 +/- 0.02 vs. 1.2 +/- 0.01 and BF was 7.0 +/- 1.45 vs. 6.2 +/- 1.82 ml min-1 100 g-1 for control and Durabolin treated animals, respectively (means +/- SEM, n = 7). No increase in citrate synthase (CS) activity was evident. In soleus, where C:F was not significantly different between groups, CS activity increased from 3.9 +/- 0.34 to 5.9 +/- 0.40 microM g-1 min-1 (means +/- SEM, n = 7). Glycolytic capacity, indicated by pyruvate kinase activity, increased only in diaphragm. These data demonstrate that total oxidative metabolism of striated muscle does not necessarily increase with greater proportion of FOG fibres, nor is it always correlated with capillary supply. The positive myotrophic effect of Durabolin represents the sum of modest changes at different levels of organisation.
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PMID:Effects of an anabolic hormone on aerobic capacity of rat striated muscle. 343 43

The aim of the present study was to investigate enzyme levels of the malate-aspartate and alpha-glycerophosphate shuttles in type I (slow-twitch) and type II (fast-twitch) fibres of human skeletal muscle. The influence of endurance training on these levels was also elucidated. Biopsy specimens were obtained from the lateral part of the quadriceps femoris muscle of six untrained and six endurance-trained subjects. Type I vs. type II. In both groups the type I fibres exhibited higher levels of the TCA cycle marker enzyme citrate synthase (CS), as well as of the malate-aspartate shuttle enzymes (cytoplasmic and mitochondrial malate dehydrogenase (cMDH, mMDH), and aspartate aminotransferase (cASAT, mASAT]. A more pronounced difference between type I and type II fibres was noted for cMDH (58%) than for mMDH (16%), cASAT (20%), mASAT (18%) and CS (25%). In contrast to these enzymes, the levels of cytoplasmic glycerol-3-phosphate dehydrogenase (cGPDH), the enzyme representative of the alpha-glycerophosphate shuttle, were higher (25%) in the type II fibres. Endurance-trained vs. untrained. In the endurance-trained group, both fibre types were characterized by higher levels of CS (mean for both fibre types: 48%) as well as of mitochondrial malate-aspartate shuttle enzymes (mMDH: 47%, mASAT: 48%) than in the corresponding fibre types in the untrained group, while the differences in the levels of cytoplasmic malate-aspartate shuttle enzymes (cMDH: 13%, cASAT: 16%) were not statistically significant. Nor were the differences in cGPDH levels (8%) between the untrained and endurance-trained groups statistically significant. It is concluded that in human skeletal muscle, malate-aspartate shuttle enzymes are expressed to a higher degree in type I (slow) fibres than in type II (fast) fibres, with cMDH exhibiting the most marked difference. The single fibre analysis indicated that the muscle's activity level might exert a greater influence on the mitochondrial isoenzymes than on the cytoplasmic ones. In contrast to the malate-aspartate shuttle enzymes, the alpha-glycerophosphate shuttle is expressed to a higher degree in type II fibres and its capacity appears to not be influenced by endurance training. The present studies demanded considerable methodological investigations which also are presented in this paper.
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PMID:Enzyme levels of the NADH shuttle systems: measurements in isolated muscle fibres from humans of differing physical activity. 359 72

Binding of enzymes of the Krebs TCA cycle to biological membranes was characterized with respect to intracellular location, susceptibility to various chemical and physical treatments, and extractability as a macromolecular component of the mitochondrial inner membrane. It was shown that citrate synthase and malate dehydrogenase bind to the inner membrane in an ionic strength-sensitive, saturable, and specific manner to a relatively thermostabile component manifested on the inner (matrix) surface of the inner membrane of the mitochondrion. From these data several arguments in support of the physiological applicability of these processes were deduced, and the question of whether these two enzymes bind to the same or different membrane components was considered. Also, experiments preliminary to purification of the citrate synthase binding component were presented.
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PMID:Organization of Krebs tricarboxylic acid cycle enzymes. 400 18

Commonly the TCA cycle fulfils an anabolic and a catabolic function in case of aerobic chemoorganoheterotrophic nutrition. In methylotrophic growth the TCA cycle is dispensable as a bioenergetic pathway. This is reflected by properties of citrate synthase in facultative methylotrophic bacteria. Two citrate synthases, a "chemoorganoheterotrophic" one, which is inhibited by NADH (or ATP in Acetobacter MB 58), and a "methylotrophic" one, which is not or less affected by energy indicators, were found in Pseudomonas oleovorans, Pseudomonas MS, Pseudomonas MA, and Acetobacter MB 58. The concentration of these citrate synthases depends on the manner of nutrition. Bacteria with ICL-negative-variant of the serine pathway and with ribulosebisphosphate pathway seem to possess only a "chemoorganoheterotrophic" citrate synthase. Possibly the anabolic function of this citrate synthase can be realized by metabolites.
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PMID:[Regulation of citrate synthase in facultative methylotrophic bacteria]. 688 Feb 50

The results from the experiments performed with a mutant deficient in citrate synthase activity can be summarized as follows. (1) Totally blocking entry into the TCA cycle did not appreciably alter the cellular ATP yield. The unchanged yield suggests that for growth on abundant glucose, the sensitivity of ATP yield to TCA cycle flux is low. ATP production in the mutant is altered, in part, by modulating the relative amounts of formate and acetate produced. (2) The in vivo operation of pyruvate-formate lyase and malic enzyme corresponds to proposals developed from in vitro studies. Namely, pyruvate activates the former, and acetyl CoA inhibits the latter. Overall, the diversion of pyruvate to formate under aerobic conditions constitutes an adaptation of the mutant to the enzymatic lesion. The low alpha-ketoglutarate dehydrogenase flux estimated for the mutant indicates that the enzyme is highly repressed in cells growing rapidly on glucose, which is in accord with prior induction-repression studies. Moreover, the lack of a change in uptake flux during the bulk of batch growth is consistent with prior induction-repression studies. (3) The mutant exhibits a heightened sensitivity to CO2 as compared to wild-type counterparts. Growth rate is increased, and the production of formate, malate, glycerate, and pyruvate is reduced. This sensitivity illustrates that citrate synthase is more than an expendable component in an amphibolic pathway. Its presence in wild-type cells "immunizes" against the effect of CO2 fluctuations. (4) The effects of CO2 can be tentatively explained by assuming that the PEP carboxylase-catalyzed reaction is stimulated.
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PMID:Flux adaptations of citrate synthase-deficient Escherichia coli. 783 22

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