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

The authors improved Hershey's measurement of succinic dehydrogenase in the shin. Liquid paraffin was used to replace nitrogen gas sealing. The values of succinic dehydrogenase of guinea pig skin which was kept at 4 degrees C for 2, 4, 6, 8, 10 days were measured by two methods. There were no significant differences between the values measured by two methods (P greater than 0.05). Our method is simpler, more convenient and have good correlation with Hershey's method (r = 0.929).
 ...
PMID:[Improvement in the method of determination of succinic dehydrogenase in skin]. 227 68

In order to supply the tetrazolium salt procedure to flow cytometry we have synthesized monotetrazolium salts which are converted into fluorescent formazans on reduction. In this preliminary study we investigated the "oxygen sensitivity" of four of our compounds and compared them to the commercially available nitrotetrazole blue (NBT). The amount of formazan produced by Ehrlich ascites tumour cells via the succinic dehydrogenase reaction during oxic and anoxic incubations was determined by elution technique. Under oxic conditions no NBT formazan but much cyano-di-chlorophenyl formazan (==CCPC) was generated. The yields of this formazan differed only slightly between oxic and anoxic incubations. Twice as much of the amount of the other three formazans cyano-ditolyl- (==CTC, Stellmach 1984), cyanodiphenyl- (==CPC), and cyano-dianisyl tetrazolium chloride (==CAC), were produced in nitrogen atmosphere as in oxygen. The amount of all formazans investigated increased both in oxic and in anoxic conditions if cyanide was present. All cyano-aryl formazans have the maximum of absorbance between 430 and 470 nm and fluoresce in the spectral range above 580 nm with CTC formazan being the brightest. The tetrazolium salts, i.e. in unreduced state, did not fluoresce in the visible part of the spectrum. The formazans could be applied to flow cytometry. After staining the nuclear DNA with the fluorochrome DAPI, we obtained detailed two-parametric distributions correlating the amount of formazan per cell with the DNA content. The results are a step to establish a method for automated identification of malignant cells.
 ...
PMID:[Fluorescent formazans in flow cytometry. Studies of their oxygen sensitivity]. 250 18

Surgical cardiac denervation was carried out in dogs under halothane anaesthesia. In a paired experimental design control biopsy specimens were obtained before surgical denervation. The dogs were allowed to recover and three weeks to elapse before the second biopsy specimen was taken. Both right and left ventricular specimens had higher in vitro oxygen consumption after denervation than before. Other specimens were immediately cooled in hexane at -60 degrees C and stored under liquid nitrogen until analysed. Succinate dehydrogenase and cytochrome oxidase activities were then measured histochemically in sequential 10 or 12 microns sections. There was no significant difference between the enzyme activities measured before or after cardiac denervation (succinate dehydrogenase 20.3(6.3) before, 19.4(4.02) pmol.H2.cm-2.s-1, after; cytochrome oxidase 223(73.4) before, 263(61.6) (measured as extinction coefficient) after). Thus the changes in oxygen consumption in the chronically denervated dog heart are not due to any lack of these mitochondrial enzymes.
 ...
PMID:Effect of lack of noradrenaline on myocardial oxygen consumption in denervated dog hearts. 282 57

The effect of freeze-thawing on the yeast respiratory system was studied at rapid rates of cooling. Freezing of whole cells with liquid nitrogen induced decrease of respiratory activity to under 20% of that of original cells. Mitochondria harvested from freeze-thawed cells have markedly decreased succinate oxidizing activity. Activity of succinate cytochrome c reductase was reduced significantly after freeze-thawing of whole cells while activities of succinate dehydrogenase and cytochrome c oxidase were reduced slightly. By spectrophotometric analysis it was found that about one-half the amount of cytochrome c + c1 was eluted from mitochondria to cytosol after freeze-thawing of cells. The activities of succinate oxidation in mitochondria from freeze-thawed cells were restored to normal levels by the addition of cytochrome c. Freeze-thawing of isolated mitochondria did not induce deactivation of succinate oxidizing activities and succinate cytochrome c reductase, and no elution of cytochrome c was observed. It was concluded that the decreased respiratory activities of yeast cells by freezing of cells with liquid nitrogen can be attributed primarily to the elution of cytochrome c from mitochondria.
 ...
PMID:Freezing injury in the yeast respiratory system. 300 28

Male albino mice were pair-fed a torula yeast-based selenium-deficient (Se-) diet containing 10 ppb selenium for 4 months, while a control group (Se+) received a similar diet supplemented with 330 ppb selenium as Na2SeO3. In addition to previously observed modulations of drug-metabolizing enzymes (Reiter, R. and Wendel, A. (1985) Biochem. Pharmacol. 34, 2287-2290), an increase of 6-phosphogluconate dehydrogenase activity and succinate dehydrogenase activity in liver by about 60% was found. In vivo, an increased 14CO2 exhalation from a tracer dose of glucose either labeled in the C-1- or C-6 position was observed in selenium-deficient mice. However, no difference in the total CO2 exhalation of Se(-)- as compared to Se+-mice was detectable. In line with the assumption that Se(-)-mice have an increased glucose turnover, Se(-)-mice exhibited a greater glucose tolerance when treated with an oral glucose load of 2.5 mg glucose/kg body weight. Also, the Se(-)-mice had a lower blood glucose level as compared to Se+-controls (89 +/- 3 versus 110 +/- 12 mg glucose/100 ml blood). Further in vitro experiments with red blood cells from Se(-)-mice showed that erythrocytes did not contribute to an increased CO2 formation from glucose via the pentose phosphate shunt. No significant differences between Se(-)- and Se+-animals were found in the profile of urinary metabolites, including ketone bodies and nitrogen excretion. These findings suggest a hitherto unknown involvement of selenium in specific regulatory sites of intermediary metabolism.
 ...
PMID:Alterations in the intermediary metabolism of selenium-deficient mice. 311 95

When baker's yeast grown aerobically on ethanol as a carbon source was anaerobically cultured in a medium containing glucose, the activity of a cytoplasmic fumarate reductase irreversibly catalyzing the conversion of fumarate to succinate increased, reaching about 3 times the original activity after 12 h, while the activity of succinate dehydrogenase was almost lost after 10 h. These results indicate that the citrate cycle is partially modified to become a reductive pathway leading to succinate during the anaerobic cultivation. In non-proliferating cells grown anaerobically on glucose, the rates of accumulating succinate and pyruvate were decreased and increased, respectively, with increasing concentrations of L-aspartate or NH4Cl in the medium containing glucose as a substrate. These changes were accompanied with increase in the cellular content of aspartate, an inhibitor of pyruvate carboxylase that is involved in supplying the intermediates of the citrate cycle, and pyruvate, a substrate of the enzyme. The aminotransferase inhibitor, aminooxyacetate, prevented the changes in succinate accumulation and cellular aspartate following the addition of NH4Cl. The addition of L-glutamate caused a marked increase in the rate of succinate accumulation without changing the cellular content of aspartate. Neither L-glutamate nor L-aspartate had the ability to produce succinate. The rate of glucose consumption was not changed upon adding these nitrogen compounds. Similar findings were also observed in experiments using proliferating cells. This report presents evidence that in cells containing a large amount of the fumarate reductase, the production of succinate from glucose is regulated by the cellular level of aspartate through the pyruvate carboxylase reaction and that glutamate regulates the succinate production by a mechanism distinct from that involved in the regulation by L-aspartate.
 ...
PMID:Regulation of reductive production of succinate under anaerobic conditions in baker's yeast. 332 98

Transmission electron microscopy was used to study the cellular morphologies of a wild-type Rhizobium meliloti strain (L5-30), a nitrogen fixation-ineffective (Fix-) succinate dehydrogenase mutant (Sdh-) strain, and a Fix+ Sdh+ revertant strain within alfalfa nodules and after free-living growth in a minimal medium containing 27 mM mannitol plus 20 mM succinate. The results showed a requirement of succinate dehydrogenase activity for symbiotic differentiation and maintenance of R. meliloti bacteroids within alfalfa nodules and for succinate-induced cellular pleomorphism in free-living cultures. Also, the Sdh- strain had a 3.5-fold lower rate of oxygen consumption in the defined medium than did the wild type.
 ...
PMID:Requirement of succinate dehydrogenase activity for symbiotic bacteroid differentiation of Rhizobium meliloti in alfalfa nodules. 366 21

The adaptation to repeated periods of intermittent normobaric hypoxia (oxygen:nitrogen = 10:90, 12 hr daily for 5 days) of some specific enzymatic activities related to energy metabolism has been observed in different rat brain areas (cerebral cortex, hippocampus, corpus striatum, hypothalamus, cerebellum, and medulla oblongata). The evaluation of the maximum rate (Vmax) of the enzymes was carried out on: the homogenate "in toto," the nonsynaptic mitochondrial fraction, and the crude synaptosomal fraction. The adaptation to intermittent normobaric hypoxic exposure was characterized by significant modifications of some enzyme activities in the homogenate "in toto" (decrease of hexokinase activity in cerebellum), in the nonsynaptic mitochondrial fraction (increase of succinate dehydrogenase activity in corpus striatum and decrease of cytochrome oxidase activity in cerebral cortex), and, particularly, in the synaptosomal fraction (decrease of cytochrome oxidase activity in cerebral cortex, hippocampus, corpus striatum, and cerebellum, and decrease of malate dehydrogenase and lactate dehydrogenase activity in cerebellum). The adaptation to normobaric intermittent hypoxia differs according to the brain area, subcellular fraction, and enzyme activity tested.
 ...
PMID:Brain enzyme adaptation to mild normobaric intermittent hypoxia. 376 87

Glutamine is utilized at a high rate (fourfold higher than that of glucose) by isolated incubated lymphocytes and produces glutamate, aspartate, lactate and ammonia. The pathway for glutamine metabolism includes the reactions catalysed by glutaminase, aspartate aminotransferase, oxoglutarate dehydrogenase, succinate dehydrogenase, fumarase, malate dehydrogenase and phosphoenolpyruvate carboxykinase. In fact little if any of the carbon of the glutamine that is used is converted to acetyl-CoA for complete oxidation. For this reason, the oxidation of glutamine is only partial and, in an analogous manner to the terminology used to describe the partial oxidation of glucose to lactate as glycolysis, the term glutaminolysis is used to describe the process of partial glutamine oxidation. The role of glutaminolysis in lymphocytes and perhaps other rapidly dividing cells is to provide both nitrogen and carbon for precursors for synthesis of macromolecules (e.g. purines and pyrimidines for DNA and RNA) and also energy. However, the rate of glutamine utilization by lymphocytes is markedly in excess of the precursor requirements (which are at most 4%) and if glutamine was vitally important in energy production it would be expected that more would be converted to acetyl-CoA for complete oxidation via the Krebs cycle. Indeed most of the energy for lymphocytes may be obtained by the complete oxidation of fatty acids and ketone bodies. Consequently the role of the high rate of glutaminolysis in lymphocytes and other rapidly dividing cells may be identical to that of glycolysis: the high rates provide ideal conditions for the precise and sensitive control of the rate of use of the intermediates of these pathways for biosynthesis when required. High rates of glycolysis and glutaminolysis can be seen as part of a mechanism of control to permit synthesis of macromolecules when required without any need for extracellular signals to make more glucose or glutamine available for these cells. In order to maintain a high rate of glutaminolysis despite fluctuation in the plasma level of glutamine, the flux through the glutaminolytic pathway can be controlled and the key processes in the lymphocyte that may play a role in this process include glutamine transport across the cell and mitochondrial membranes, glutaminase and oxoglutarate dehydrogenase. Changes in the intracellular concentration of Ca2+ may play a role in control of one or more of these reactions.(ABSTRACT TRUNCATED AT 400 WORDS)
 ...
PMID:Glutamine metabolism in lymphocytes: its biochemical, physiological and clinical importance. 390 97

Pd(II) complexes of two anthracyclines, adriamycin and daunorubicin, have been studied. Using potentiometric absorption, fluorescence, and circular dichroism measurements, we have shown that adriamycin can form two complexes with Pd(II). The first complex (I) involves two molecules of drug per Pd(II) ion; one of the molecules is chelated to Pd(II) through the carbonyl oxygen on C12 and the phenolate oxygen on C11, and the other one is bound to Pd(II) through the nitrogen of the amino sugar. This complexation induces a stacking of the two molecules of drug. In the second complex (II), two Pd(II) ions are bound to two molecules of drug (A1 and A2). One Pd(II) is bound to the oxygen on the carbons C11 and C12 of molecule A1 and the amino sugar of molecule A2 whereas the second Pd(II) ion is bound to the oxygen on C11 and C12 of molecule A2 and the amino sugar of molecule A1. The same complexes are formed between Pd(II) and daunorubicin. The stability constant for complex II is beta = (1.3 +/- 0.5) X 10(22). Interaction with DNA has been studied, showing that almost no modification of the complex occurred. This complex displays antitumor activity against P-388 leukemia that compares with that of the free drug. Complex II, unlike adriamycin, does not catalyze the flow of electrons from NADH to molecular oxygen through NADH dehydrogenase.
 ...
PMID:Metal anthracycline complexes as a new class of anthracycline derivatives. Pd(II)-adriamycin and Pd(II)-daunorubicin complexes: physicochemical characteristics and antitumor activity. 396 54


<< Previous 1 2 3 4 5 6 7 8 9 Next >>