EC:1.3.5.1 - FACTA Search

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)

Transverse cryostat sections of skeletal muscle were fixed in a solution containing 1.5% glutaraldehyde and 1.5% sulfosalicylic acid and stained in a solution containing equal volumes of 3% hydrogen peroxide and 50% ethanol saturated with o-tolidine. Myoglobin in the sarcoplasm of muscle fibers was precipitated and stained blue. Applicability of this method to cryostat sections, without glutaraldehyde fixations prior to freezing, allowed the myoglobin content of individual muscle fibers to be correlated with other histochemical characteristics of the same fibers seen in serial sections. In the dark red bovine sternomandibularis muscle, fibers with weak adenosine triphosphatase (ATPase) and strong succinate dehydrogenase (SDH) activity always exhibited strong myoglobin staining. An equal degree of staining was found in many fibers with strong ATPase and intermediate to strong SDH activity. Fibers with strong ATPase and weak SDH activity were less strongly stained than the preceding types.
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PMID:A method for myoglobin in cryostat sections of muscle by precipitation with sulfosalicylic acid. 9 25

(1) The histochemical staining pattern of succinic dehydrogenase (SDH) does not show unequivocal differentiation between the type I red and type II red fibres in mammalian striated muscles. (2) Since high biochemical activity of beta-hydroxybutyric dehydrogenase (beta-HOBDH) occurs in mitochondria of the type I red fibres, the histochemical localization of this enzyme may show a pattern of staining reciprocal to that seen for myofibrillar ATPase. (3) It remains to be confirmed that the type I red fibres, which are possibly slow-twitch physiologically, possess the highest concentration of myoglobin. The histochemical correlation of myoglobin and myofibrillar ATPase in serial sections should be studied. (4) In order to achieve a more realistic picture, various glycolytic and glycogenolytic enzymes should be incubated according to the gelatin film technique, or semipermeable membrane technique or collagen polypeptide technique. A histochemical correlation of phosphorylase, LDH, PFK, alpha-glycerophosphate dehydrogenase, and myofibrillar ATPase in adjacent muscle sections may throw light on the histochemical characteristics of the different fibre-types. (5) The specific histochemical demonstration of AMPase is achieved following preincubation of tissue sections. (6) ADPase has been demonstrated by the calcium precipitation technique only (GUTH and YELLIN, 1971). A number of studies claim, however, that ADPase is not demonstrable histochemically in muscle fibres. (7) The presence of magnesium ions is a prerequisite for the adequate histochemical demonstration of mitochondrial ATPase. The latter is inhibited almost completely by 40 mM Ca++ (when Mg++ is not added) at both neutral and alkaline pH values. (8) The histochemical activity of SR-AT-Pase seen as continuous reticula but without punctuate and sub-sarcolemmal staining possibly represents the extra ATPase of SR. (9) On the basis of myofibrillar ATPase reaction, an inherent heterogeneity, between the type II red and type II white may be recognized. In addition, the above fibre-types possess their respective sub-populations. (10) Following diK+ EDTA preincubation, some type II red fibres show selective lability. These are the mitochondria-rich fibres. Thus in the total absence of both punctuate and subsarcolemmal staining, the presence of mitochondrial ATPase activity under the histochemical conditions for myofibrillar ATPase is unlikely. (11) The reaction pattern of CK/ATPase (coupled reaction) at pH 6.9 is distinctly intermyofibrillar and unlike SDH-pattern. This reticular reaction is associated mainly with the SR and hence the importance of transphosphorylation in this organelle for the Ca++ uptake and muscle relaxation. (12) The CK/ATPase reaction at pH8.0 has shown important histoenzymatic characteristics. At this pH value the type I red fibres and slow-twitch soleus show myofibrillar reaction pattern. This identical histochemical behaviour suggests that type I red fibres are possibly slow-contracting...
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PMID:Histochemical characteristics of vertebrate striated muscle: a review. 18 61

In 175 dogs myocardial infarction was produced by high ligation of descending branch of left coronary artery. At various intervals after the intervention (1, 3, 5, 10, 30, 180 days), the activities and levels of NAD, NADH, FAD, riboflavin, cytochrome C, myoglobin, some NAD-dependent Krebs cycle enzymes, and mitochondrial succinate dehydrogenase and cytochrome oxidase were determined in the infarcted zone. It was found that in the infarcted zone there occurred substantial disturbances of various links constituting the tissue oxidative chain, in the stages of substrate dehydrogenation, electron transport to oxygen molecule, and myocardial oxygen uptake. The greatest disturbances took place in the systems of NAD and NAD-dependent enzymes, whereas the succinate oxidation system sustained substantially lesser damage. The decrease inlevels of flavonoids, which was likewise observed, participated also in the mechanism inhibiting succinate dehydrogenase. The cytochrome system activity was limited by the level of cytochrome C, whose deep decrease persisted considerably long in the infarcted zone. A certain role in disturbances of oxidative processes may have been played by the decreased concentration of myoglobin, an important myocardial reservoir of oxygen.
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PMID:Some myocardial factors of biological oxidation in experimental myocardial infarction. 19 79

By the immunohistochemical demonstration of SR calcium ATPase and myoglobin a fibre classification method was developed. Fast fibres showed intense, while slow fibres weak SR calcium ATPase reactivity. Immunohistochemical reaction of myoglobin characterized the oxidative metabolic state of fibres similar to the succinate dehydrogenase (SDH) reaction. By means of SR calcium ATPase and myoglobin immunohistochemistry fibres were classified as slow oxidative (SO), fast oxidative glycolytic (FOG) and fast glycolytic (Fg) groups. The SR calcium ATPase activity of the different fibres varied in the FG greater than FOG greater than SO order, while myoglobin immunoreactivity in the FOG greater than SO greater than FG order. Both proteins studied preserved their antigenicities in Bouin's fixative or in formol-acetate and paraffin embedding. The light microscopic immunogold-silver method was found suitable also for electron microscopy. The silver intensification of small particle-size (5 nm) gold conjugate results in a reaction with the joint advantages of high sensitivity and optimal visibility. The described immunohistochemical method proved to be suitable for the retrospective differentiation of human biopsy materials.
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PMID:[Characterization of striated muscle fiber types by Ca2+-ATPase and myoglobin immunohistochemistry of the sarcoplasmic reticulum]. 252 95

We compared the histochemical activity of succinate dehydrogenase (SDH) and the intensity of reaction to the presence of myoglobin (Mb) in the same muscle fibres m. longissimus thoracis (MLT), m. semimembranosus (MSM), m. rectus femoris (MRF) and caput longum m. tricipitis brachii (MTB). At the same time we also ascertained the myoglobin content of one gram of fresh muscle. We found that the muscle fibre in all the muscles studied in which there is the most intensive reaction in the test for SDH are also the most intensively coloured in the test for Mb. There is also the same relationship in intermediary and white fibres. The reaction in testing for SDH on a cross section is greatest in the subsarcolemmic area. Similar tendencies appear in the distribution of Mb, although they are less marked and only in fibres with intensive reaction. Different muscles have different myoglobin levels. Muscles with a higher proportion of red and intermediary fibres contain more myoglobin than muscles with a high proportion of white fibres. The quantitative values of the levels of Mb (g/fresh muscle) are not, however, proportional to the share of individual types of muscle fibres in the muscles studied.
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PMID:[Relation between myoglobin levels and succinate dehydrogenase activity in muscle fibers]. 312 87

This report describes a quantitative histochemical study of myoglobin in skeletal muscle fibres. The muscle fibres were classified as fast or slow on the basis of their quantitative myofibrillar ATPase histochemistry. A large range of myoglobin absorbance values was found among fast skeletal muscle fibres. This range was relatively small among slow fibres. The concentrations of myoglobin and the activities of succinate dehydrogenase in individual muscle fibres in serial sections are weakly correlated in both the mouse soleus and plantaris muscle. The myoglobin concentration is higher in fast and slow oxidative soleus muscle fibres and the succinate dehydrogenase activity in these fibres is lower than in oxidative plantaris muscle fibres in the same range of cross-sectional area.
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PMID:Relationship between myoglobin and succinate dehydrogenase in mouse soleus and plantaris muscle fibres. 315 65

Samples of diaphragm and pectoralis profundus were taken from nine calves with a range of blood haemoglobin levels of 4 to 8.5 g/100 ml. In both muscles, fibres with strong succinate dehydrogenase activity contained myoglobin, but in the pectoralis there were many fibres with strong alkaline ATPase activity and weak succinate dehydrogenase activity that had low or undetected levels of myoglobin. The whole cross-sectional area of individual fibres was scanned to map the distribution of succinate dehydrogenase activity. Among fibres with similar levels of ATPase activity, those from the diaphragm had greater succinate dehydrogenase activity than those from the pectoralis. Subsarcolemmal succinate dehydrogenase activity was greater than the axial succinate dehydrogenase activity, and radial gradients of succinate dehydrogenase activity were steepest in the diaphragm. For pectoralis fibres with weak ATPase, the mean and the axial succinate dehydrogenase activities were correlated with blood haemoglobin levels (r = 0.62 and r = 0.61, respectively; P less than 0.05 with a Student's t-test). Muscle colour was measured directly by fibre-optic spectrophotometry and correlations of absorbance with succinate dehydrogenase activity were obtained. Absorbance at 620 nm 24 h post-mortem was correlated with succinate dehydrogenase activity in pectoralis fibres with weak ATPase (r = 0.81; P less than 0.005).
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PMID:Fibre-optic spectrophotometry of immature bovine skeletal muscles and the cellular distribution of myoglobin and succinate dehydrogenase. 316 49

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

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

The effect of endurance training on skeletal muscle myoglobin concentration in man was investigated. 8 healthy sedentary males (20-31 yrs) trained on cycle ergometers 40 min/day, 4 days a week for 8 weeks. The work consisted of continuous exercise at a work load that during the last 5 weeks corresponded to 75% of the pretraining maximal oxygen uptake (VO2 max). The training program resulted in a 7% increase in VO2 max (p less than 0.01). The activities of the mitochondrial enzymes citrate synthase (CS), succinate dehydrogenase (SDH) and cytochrome c oxidase (Cyt-c-ox) in the quadriceps femoris muscle, as indicators of muscle respiratory capacity, increased by 62-82% (p less than 0.01). The metabolic adaptation of skeletal muscle was further indicated by a 17% increase in the work load corresponding to a blood lactate concentration of 4 mmol/l, as determined by a progressive exercise test (p less than 0.05). There was, however, no change in the myoglobin concentration of the thigh muscle with training (-1%, NS). It is suggested that endurance exercise in man at 75% of the maximal oxygen uptake does not severely tax the functions of myoglobin in skeletal muscle.
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PMID:Dissociation of training effects on skeletal muscle mitochondrial enzymes and myoglobin in man. 630 98

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