Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.3.5.1 (succinate dehydrogenase)
 8,177 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of chloramphenicol on S. cerevisiae and on a cytoplasmic respiratory-deficient mutant derived from the same strain are compared. In the normal yeast, high concentrations of chloramphenicol in the growth medium completely inhibit the formation of cytochromes a, a(3), b, and c(1) and partially inhibit succinate dehydrogenase formation, whereas they do not affect cytochrome c synthesis. This has been correlated with the marked reduction of mitochondrial cristae formation in the presence of the drug. In glucose-repressed normal yeast, chloramphenicol has little effect on the formation of outer mitochondrial membrane, or on the synthesis of malate dehydrogenase and fumarase. However, both these enzymes, as well as the number of mitochondrial profiles, are markedly decreased when glucose de-repressed yeast is grown in the presence of chloramphenicol. The antibiotic did not appear to affect the cytoplasmic respiratory-deficient mutant. The results have been interpreted to indicate that chloramphenicol inhibits the protein-synthesizing system characteristic of the mitochondria. Since the drug does not prevent the formation of cytochrome c, of several readily solubilized mitochondrial enzymes, or of outer mitochondrial membrane, it is suggested that these are synthesized by nonmitochondrial systems.
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PMID:The biogenesis of mitochondria in Saccharomyces cerevisiae. A comparison between cytoplasmic respiratory-deficient mutant yeast and chlormaphenicol-inhibited wild type cells. 603 31

The linear sequence of steps involved in the oxidation of extramitochondrial succinate by O2 in bovine heart mitochondria was examined by a steady-state kinetic method to determine whether or not freely diffusible intermediates occur between the various inhibitor-sensitive steps. The kinetic method is based on the facts (1) that if two inhibitor-sensitive steps within a sequence are linked by a freely diffusible intermediate, inhibition of one will make the other less rate limiting in the overall reaction and thus will increase the amount of inhibitor of the other step required for half-maximal inhibition of the overall reaction, and (2) that if the two steps are not linked in this manner, inhibition of one will make the other more rate limiting and thus will decrease the amount of inhibitor of the other required for half-maximal inhibition. These two types of "coupling relationships" between steps were designated as "sequential" and "fixed," respectively. The results indicate the existence of freely diffusible intermediates (sequential coupling relationships) between the succinate transport and succinate dehydrogenase reactions, between the succinate dehydrogenase and cytochrome bc1 reactions, and between the cytochromes bc1 and aa3 reactions. Uncoupling respiration from phosphorylation results in the coupling relationship between the bc1 and aa3 reactions becoming partially fixed. This change is accompanied by marked decreases in the degrees to which the bc1 and aa3 reactions limit the overall reaction and appears to account for the large uncoupler-induced releases of inhibition at the levels of the bc1 and aa3 reactions observed previously by others. It is suggested that cytochrome c is the freely diffusible intermediate between the bc1 and aa3 reactions and that the uncoupler-induced changes occur as a result of formation of functional and highly efficient supercomplexes between cytochrome c and the cytochromes bc1 and aa3 complexes.
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PMID:Steady-state kinetics of the overall oxidative phosphorylation reaction in heart mitochondria. Determination of the coupling relationships between the respiratory reactions and miscellaneous observations concerning rate-limiting steps. 610 Feb 96

Cell suspensions of Campylobacter fetus subsp. intestinalis grown microaerophilically in complex media consumed oxygen in the presence of formate, succinate, and DL-lactate, and membranes had the corresponding dehydrogenase activities. The cells and membranes also had ascorbate-N,N,N',N'-tetramethyl-p-phenylenediamine oxidase activity which was cyanide sensitive. The fumarate reductase activity in the membranes was inhibited by p-chloromercuriphenylsulfonate, and this enzyme was probably responsible for the succinate dehydrogenase activity. Cytochrome c was predominant in the membranes, and a major proportion of this pigment exhibited a carbon monoxide-binding spectrum. Approximately 60% of the total membrane cytochrome c, measured with dithionite as the reductant, was also reduced by ascorbate-N,N,N',N'-tetramethyl-p-phenylenediamine. A similar proportion of the membrane cytochrome c was reduced by succinate under anaerobic conditions, whereas formate reduced more than 90% of the total cytochrome under these conditions. 2-Heptyl-4-hydroxyquinoline-N-oxide inhibited reduction of cytochrome c with succinate, and the reduced spectrum of cytochrome b became evident. The inhibitor delayed reduction of cytochrome c with formate, but the final level of reduction was unaffected. We conclude that the respiratory chain includes low- and high-potential forms of cytochromes c and b; the carbon monoxide-binding form of cytochrome c might function as a terminal oxidase.
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PMID:Respiratory systems and cytochromes in Campylobacter fetus subsp. intestinalis. 625 51

Whole cells, homogenates and mitochondrial obtained from the livers of albino rats which were starved for 6 days or more showed a 50% decrease in oxidative activity. The decrease could be corrected by the addition of cytochrome c in vitro. The phosphorylative activity of mitochondria remained unaffected. The decrease in oxidative rate was not observed when starving animals were given the anti-hypercholesterolaemic drug clofibrate. The total cellular concentration of cytochrome c was not affected by starvation. However, the concentration of the pigment in hepatic mitochondria isolated from starving animals was less than half that in normal mitochondria. Clofibrate-treated animals did not show a decreased concentration of cytochrome c in hepatic mitochondria. Mitochondria isolated from starving animals, though deficient in cytochrome c, did not show any decrease in succinate dehydrogenase activity or in the rate of substrate-dependent reduction of potassium ferricyanide or attendant phosphorylation. In coupled mitochondria, ferricyanide may not accept electrons from the cytochrome c in the respiratory chain. Starvation decreases the concentration of high-affinity binding sites for cytochrome c on the mitochondrial membrane. The dissociation constant increases in magnitude.
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PMID:Influence of starvation and clofibrate administration on oxidative phosphorylation by rat liver mitochondria. 625 42

One of us has previously reported that treatment of the Keilin and Hartree heart-muscle preparation with 2,3-dimercaptopropanol (BAL), in the presence of air, leads to the complete inactivation of the succinate oxidase system with little if any effect on the activities of succinate dehydrogenase (until more than half the BAL was oxidized) or cytochrome c oxidase. The inactivation of the complete succinate oxidase system requires the oxidation of BAL by air in the presence of the enzyme. It is not caused by H2O2 or BAL disulphides produced during the oxidation of BAL. Spectroscopic studies identified the block as lying between cytochromes b and c. It was suggested that a BAL-labile factor is present which transfers electrons from cytochrome b to cytochrome c and which is destroyed by coupled oxidation with BAL. The factor is also required for NADH oxidation. Subsequent work showed it is not identical with cytochrome c1 (ref. 4), myoglobin present in the preparation or the antimycin-binding site. We report here that this factor is identical to the iron-sulphur protein in the central portion of the respiratory chain first identified by Rieske.
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PMID:Identification of the BAL-labile factor. 625 40

This study examined the effects of acute dietary restriction on aerobic and anaerobic metabolic capacity of skeletal and cardiac muscles. Male weanling Sprague-Dawley rats were fed a 28% casein diet to a body weight of 100 g. The control group was killed at 100 g and the experimental groups were starved to 70 g body weight by either 4-day total restriction (TR) or 9-day partial restriction (PR). The heart, soleus, extensor digitorum longus (EDL), biceps brachii, psoas and red and white portions of the gastrocnemius (GR and GW) were assayed for oxygen uptake and succinic dehydrogenase (SDH) and pyruvate kinase (PK) activity. Cytochrome c was also measured in the gastrocnemius and psoas. The decrease in muscle weight was similar to the 30% decrease in body weight with the exception of the soleus which decreased by only 10% due to either TR or PR. PK, an estimate of anaerobic capacity, appeared to increase per unit weight in all tissues after both TR and PR; however, total muscle PK remained unchanged. Total cytochrome c and SDH activity, estimate of aerobic capacity, decreased in all muscles after either treatment. The largest decreases in SDH were 38% in the soleus and 51% in the heart after TR and 50% in the GR and 48% in the GW after PR. Oxygen uptake increased in the soleus (20%) and heart (70%) but decreased in all other skeletal muscles with the greatest effect after PR (50%). This study has shown that there is a decrease in aerobic capacity during acute starvation and that total muscle anaerobic metabolic capacity remains near normal.
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PMID:Changes in aerobic and anaerobic metabolism in rat cardiac and skeletal muscles after total or partial dietary restrictions. 626 53

Local anesthetics and alcohols were found to inhibit mitochondrial electron transport at several points along the chain. THe anesthetics employed were the tertiary amines procaine, tetracaine, dibucaine, and chlorpromazine, and the alcohols were n-butamol, n-pentanol, n-hexanol, and benzyl alcohol. Uncoupled sonic submitochondrial particles from beef heart and rat liver were studied. We report the following: (1) All of the anesthetics were found to inhibit each of the segments of the electron transport chain assayed; these included cytochrome c oxidase, durohydroquinone oxidase, succinate oxidase, NADH oxidase, succinate dehydrogenase, succinate-cytochrome c oxidoreductase, and NADH-cytochrome c oxidoreductase. (2) NADH oxidase and NADH-cytochrome c oxidoreductase required the lowest concentration of anesthetic for inhibition, and cytochrome c oxidase required the highest concentrations. (3) We conclude that there are several points along the chain at which inhibition occurs, the most sensitive being in the region of Complex I (NADH dehydrogenase). (4) Beef heart submitochondrial particles are less sensitive to inhibition than are rat liver particles. (5) Low concentrations of several of the anesthetics gave enhancement of electron transport activity, whereas higher concentrations of the same agents caused inhibition. (6) The concentrations of anesthetics (alcohol and tertiary amine) which gave 50% inhibition of NADH oxidase were lower than the reported concentrations required for blockage of frog sciatic nerve.
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PMID:Multiple sites of inhibition of mitochondrial electron transport by local anesthetics. 626 99

Measurements of succinate dehydrogenase and mitochondrial glycerol-3-phosphate dehydrogenase activities, iron, cytochrome c and myoglobin, were made on various hind-leg muscles, fast-twitch red and white muscle and heart and liver of male Wistar rats fed an iron-deficient diet on weaning. Rats fed the same diet and given 20 mg iron intraperitoneally as iron-dextran (Imferon) served as controls. For iron-repletion studies anemic rats (hemoglobin less than 7 g/dl) were given a single injection of 10 mg iron (Imferon) and the time course of change in the above parameters was followed up to 22 days after injection. The iron concentration of most iron-deficient muscles dropped to approx. 35% of control, the heart to 60% and liver to 13%. On repletion, the iron concentration of all tissues increase significantly by 4 days. While the levels of cytochrome c and myoglobin approximated the iron levels in muscle, they did not change significantly in the heart. Succinate dehydrogenase activity dropped profoundly in muscle, to 10-30% of control; on repletion, the activity increased significantly. Mitochondrial glycerol-3-phosphate dehydrogenase activity showed only small changes in iron-deficient tissues.
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PMID:Tissue effects of iron deficiency in the rat. 630 41

Rat enterocyte mitochondria were prepared with respiratory control ratios of 4 or 5 and occasionally 6. When EGTA was excluded from the mitochondrial incubation medium the calculated P/O ratios were high, especially those based on the first addition of ADP. These ratios were lowered by increasing the EGTA concentration from 1 mM to 2 mM in the mitochondrial preparation medium and including 1 mM-EGTA in the incubation medium. The use of EDTA in the enterocyte isolation medium led to the mitochondria requiring added cytochrome c. Substituting EGTA for EDTA abolished this requirement. The mitochondrial fraction consisted of two components, an upper cream-coloured layer rich in DNA and a lower brown-coloured layer poor in DNA. Both components were capable of oxidative phosphorylation with succinate or the glutamate/malate couple as substrates. The mitochondrial yield was assessed by assaying succinate dehydrogenase activity, and the contamination of the mitochondrial fraction by other cell organelles was assessed by assays for appropriate marker enzymes.
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PMID:Preparation of rat enterocyte mitochondria. 642 61

Rats were given a daily injection of L-epinephrine, 100 micrograms/100 g body wt, for 6 wk. The hearts of the epinephrine-treated animals were heavier (11.5%), and blood glucose and plasma insulin concentrations were lower than those of control rats. Acute responses to epinephrine were compared in the two groups. An increase in blood glucose and decreases in plasma insulin, liver glycogen, and muscle glycogen occurred in both groups. The magnitude of these responses were similar in the two groups except for the decrease in muscle glycogen, which was smaller in the chronic epinephrine-treatment group. There were no changes in respiratory capacity, citrate synthase or succinate dehydrogenase activities, or in cytochrome c concentration in skeletal muscle in response to 6 wk of epinephrine treatment. These results are compatible with the suggestion that catecholamines may play a role in some of the metabolic and cardiac adaptations to exercise training. However, they argue strongly against the hypothesis that catecholamines are responsible for inducing the increase in muscle mitochondria that occurs in response to exercise training.
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PMID:Adaptive responses of rats to prolonged treatment with epinephrine. 645 52


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