Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:1.3.99.3 (acyl-CoA dehydrogenase)
1,425 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A man with a painful proximal myopathy had excess lipid deposition in skeletal muscle, excretion of dicarboxylic acids in urine and low acyl-CoA dehydrogenase activities in skeletal muscle mitochondria. In addition he had little immunoreactive short-chain and medium-chain acyl-CoA dehydrogenase enzyme protein compared with normal controls. Following treatment with riboflavin there was considerable improvement in his clinical condition which was confirmed by further biochemical and morphological investigations.
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PMID:Lipid storage myopathy associated with low acyl-CoA dehydrogenase activities. 304 86

Metabolic defects resulting in hypoketotic hypoglycemia can lead to hepato-encephalopathy and can be lethal. Recognition of the association of hypoglycemia with hypoketonemia is essential for efficient diagnostic and therapeutic procedures. The pattern of urinary excretion of organic acids is useful in differential diagnosis between the possible metabolic defects, viz. carnitine deficiency, carnitine palmitoyl transferase deficiency, medium-chain, long-chain and multiple acyl-CoA dehydrogenase deficiencies, and HMG-CoA lyase deficiency. These (except for carnitine deficiency) can be confirmed by enzyme activity measurements in cultured fibroblasts and tissue biopsies and prenatally. Treatment is available for all of them except some cases of multiple acyl-CoA dehydrogenase deficiency. Genetic counselling of the families must be based on a precise biochemical diagnosis.
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PMID:[Metabolic defects with hypoketotic hypoglycemia]. 307 Mar 67

The interaction between pig liver mitochondrial electron-transfer flavoprotein (ETF) and general acyl-CoA dehydrogenase (GAD) was investigated by means of the heterobifunctional reagent N-succinimidyl 3-(2-pyridyldithio)propionate. Neither ETF or GAD contained reactive thiol groups. The substitution of 9.4 lysine residues/FAD group in GAD with pyridyl disulphide structures did not affect the catalytic activity of the enzyme. Thiol groups were introduced into ETF by thiolation with methyl 4-mercaptobutyrimidate. ETF containing 10.5 reactive thiol groups/FAD group showed undiminished electron-acceptor activity with respect to GAD. The reaction of thiolated ETF and GAD containing pyridyl disulphide structures resulted in a decreased staining intensity of the small subunit of ETF on SDS/polyacrylamide-gel electrophoresis. Preferential cross-linking of the smaller subunit of ETF to GAD did not take place when ETF was first treated with SDS, but was unaffected by reduction of GAD by octanoyl-CoA.
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PMID:Preferential cross-linking of the small subunit of the electron-transfer flavoprotein to general acyl-CoA dehydrogenase. 311 54

The mitochondrial electron-transfer flavoprotein (ETF) is a heterodimer containing only one FAD. In previous work on the structure-function relationships of ETF, its interaction with the general acyl-CoA dehydrogenase (GAD) was studied by chemical cross-linking with heterobifunctional reagents [D. J. Steenkamp (1987) Biochem. J. 243, 519-524]. GAD whose lysine residues were substituted with 3-(2-pyridyldithio)propionyl groups was preferentially cross-linked to the small subunit of ETF, the lysine residues of which had been substituted with 4-mercaptobutyramidine (MBA) groups. This work was extended to the interaction of ETF with ETF-ubiquinone oxidoreductase (ETF-Q ox). ETF-Q ox was partially inactivated by modification with N-succinimidyl 3-(2-pyridyldithio)propionate to introduce pyridyl disulphide structures. A similar modification of ETF caused a large increase in the apparent Michaelis constant of ETF-Q ox for modified ETF owing to the loss of positive charge on some critical lysines of ETF. When ETF-Q ox was modified with 2-iminothiolane to introduce 4-mercaptobutyramidine groups, only a minor effect on the activity of the enzyme was observed. To retain the positive charges on the lysine residues of ETF, pyridyl disulphide structures were introduced by treating ETF with 2-iminothiolane in the presence of 2,2'-dithiodipyridyl. The electron-transfer activity of the resultant ETF preparation containing 4-(2-pyridyldithio)butyramidine (PDBA) groups was only slightly affected. When ETF-Q ox substituted with MBA groups was mixed with ETF bearing PDBA groups, at least 70% of the cross-links formed between the two proteins were between the small subunit of ETF and ETF-Q ox. ETF-Q ox, therefore, interacts predominantly with the same subunit of ETF as GAD. Variables which affect the selectivity of ETF-Q ox cross-linking to the subunits of ETF are considered.
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PMID:Cross-linking of the electron-transfer flavoprotein to electron-transfer flavoprotein-ubiquinone oxidoreductase with heterobifunctional reagents. 314 38

A morphometric analysis was performed on horse muscle tissue to quantify mitochondrial distribution relative to capillaries. Samples of M. vastus medialis, M. semitendinosus, M. masseter and M. cutaneus thoracicus were preserved in a glutaraldehyde fixative for electron microscopy, or frozen for biochemical and histochemical analysis. These four muscles varied from highly oxidative in type, consisting nearly completely of type I fibres, in masseter, to highly glycolytic, primarily type IIb fibres, in cutaneus. In all four muscles, mitochondria were found in highest volume density near capillaries at the fibre border, with a sharp decline in volume density towards the fibre centre. This distribution was independent of myoglobin concentration, muscle fibre type and the activities of three key metabolic enzymes, citrate synthase, 3-OH-acyl-CoA dehydrogenase and lactate dehydrogenase.
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PMID:The similarity of mitochondrial distribution in equine skeletal muscles of differing oxidative capacity. 320 68

Pig kidney general acyl-CoA dehydrogenase (GAD) can be reduced by butyryl-CoA to form reduced enzyme and crotonyl-CoA. This reaction is reversible. Stopped-flow, kinetic investigations on GAD have been made, using the following reaction pairs: oxidized GAD/butyryl-CoA, oxidized GAD/crotonyl-CoA, oxidized GAD/alpha,beta-dideuteriobutyryl-CoA, reduced GAD/butyryl-CoA, and reduced GAD/crotonyl-CoA (in 50 mM potassium phosphate buffer, pH 7.6 at 4 degrees C). Reduction of GAD by butyryl-CoA is triphasic. The slowest phase is 100-fold slower than the preceding phase and appears to represent a secondary process not directly related to the primary reduction events. The first two fast phases are responsible for reduction of GAD. Reduction proceeds via a reduced enzyme/crotonyl-CoA charge-transfer complex. alpha, beta-Dideuteriobutyryl-CoA elicits a major deuterium isotope effect (15-fold) on the reduction reaction. Oxidation of GAD by crotonyl-CoA is biphasic. Oxidation proceeds via the same reduced enzyme/crotonyl-CoA charge-transfer complex seen during reduction. The oxidation reaction ends in a mixture composed largely of oxidized GAD species. From the data, we constructed a mechanism for the reduction/oxidation of GAD by butyryl-CoA/crotonyl-CoA. This mechanism was then used to simulate all of the observed kinetic time course data, using a single set of kinetic parameters. A close correspondence between the observed and simulated data was obtained.
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PMID:Oxidation-reduction of general acyl-CoA dehydrogenase by the butyryl-CoA/crotonyl-CoA couple. A new investigation of the rapid reaction kinetics. 321 56

Evidence is presented that Saccharomyces cerevisiae can metabolize fatty acids via the inducible peroxisomal beta-oxidation pathway even when these acids are not the sole carbon source. The fatty acids of chain length of C10-C18 induce acyl-CoA oxidase simultaneously with catalase A but have no effect on catalase T and acyl-CoA dehydrogenase. The coinduction of both acyl-CoA oxidase and catalase A is recorded in strains with both active catalase A and T or displaying only catalase A activity. In mutants lacking catalase A, the induction of acyl-CoA oxidase is observed without a concomitant increase in catalase activity. After centrifugation in a linear Ficoll gradient of the particulate fraction from the cells grown on ethanol and oleate the activity of acyl-CoA oxidase cosediments with catalase A. The relationship of catalase A to acyl-CoA oxidase is discussed.
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PMID:Study of the coinduction by fatty acids of catalase A and acyl-CoA oxidase in standard and mutant Saccharomyces cerevisiae strains. 328 21

Urinary organic acid profiles in patients with inherited defects of fatty acid metabolism and ketogenesis are described. Medium-chain acyl-CoA dehydrogenase, short-chain acyl-CoA dehydrogenase, multiple acyl-CoA dehydrogenase, and 3-hydroxy-3-methyl-glutaryl-CoA lyase deficiencies can be recognized at the metabolite level. Data on long-chain acyl-CoA dehydrogenase and systemic carnitine deficiencies are scarce. In the latter disorders, dicarboxylic aciduria is rather nonspecific and points to a modest omega-oxidation of long chain fatty acids.
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PMID:Chemical diagnosis of inherited defects of fatty acid metabolism and ketogenesis. 332 28

Our early study of isovaleric acidemia (IVA) indicated that isovaleryl-CoA is dehydrogenated by an enzyme that is specific for isovaleryl-CoA. We subsequently identified and purified isovaleryl-CoA dehydrogenase (IVD) and 2-methyl-branched chain acyl-CoA dehydrogenase, which were previously unknown. We also purified and characterized three previously known acyl-CoA dehydrogenases. Five acyl-CoA dehydrogenases share similar molecular features and reaction mechanisms, indicating a close evolutionary relationship. Using the tritium release assay and [35S]methionine labeling/immunoprecipitation, we showed that IVA is due to a mutation of IVD. We also demonstrated that there are at least 5 distinct forms of mutant IVD, indicating an extensive molecular heterogeneity. Furthermore, we cloned cDNAs encoding IVD and medium-chain acyl-CoA dehydrogenases. The comparison of their complete primary sequences revealed a high degree of homology, indicating that these enzymes belong to a gene family, the acyl-CoA dehydrogenase family.
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PMID:Molecular basis of isovaleric acidemia and medium-chain acyl-CoA dehydrogenase deficiency. 332 38

Genetic deficiency of short-chain acyl-coenzyme A (CoA) dehydrogenase activity was demonstrated in cultured fibroblasts from a 2-yr-old female whose early postnatal life was complicated by poor feeding, emesis, and failure to thrive. She demonstrated progressive skeletal muscle weakness and developmental delay. Her plasma total carnitine level (35 nmol/ml) was low-normal, but was esterified to an abnormal degree (55% vs. control of less than 10%). Her skeletal muscle total carnitine level was low (7.6 nmol/mg protein vs. control of 14 +/- 2 nmol/mg protein) and was 75% esterified. Mild lipid deposition was noted in type I muscle fibers. Fibroblasts from this patient had 50% of control levels of acyl-CoA dehydrogenase activity towards butyryl-CoA as substrate at a concentration of 50 muM in a fluorometric assay based on the reduction of electron transfer flavoprotein. All of this residual activity was inhibited by an antibody against medium-chain acyl-CoA dehydrogenase. These data demonstrated that medium-chain acyl-CoA dehydrogenase accounted for 50% of the activity towards the short-chain substrate, butyryl-CoA, under these conditions, but that antibody against that enzyme could be used to unmask the specific and virtually complete deficiency of short-chain acyl-CoA dehydrogenase in this patient. Fibroblasts from her parents had intermediate levels of activity towards butyryl-CoA, consistent with the autosomal recessive inheritance of this metabolic defect.
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PMID:Genetic deficiency of short-chain acyl-coenzyme A dehydrogenase in cultured fibroblasts from a patient with muscle carnitine deficiency and severe skeletal muscle weakness. 333 34


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