EC:1.3.1.8 - FACTA Search

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Query: EC:1.3.1.8 (acyl-CoA dehydrogenase)
785 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

An enzyme system of Mycobacterium smegmatis catalyzing the elongation of medium-chain fatty acids with acetyl-CoA was obtained free from de novo fatty acid synthetase by ammonium sulfate fractionation. The system was resolved by gel filtration and DEAE-cellulose chromatography into three fractions, all of which were required for reconstitution of the elongation activity. The three fractions were highly purified enoyl-CoA hydratase, highly purified 3-hydroxyacyl-CoA dehydrogenase, and a fraction containing both enoyl-CoA reductase and thiolase. The reconstituted system was avidin-insenstive, required NADH as a sole hydrogen donor, and was sensitive to pCMB, but not to N-ethylmaleimide or monoiodoacetate. Decanoyl-CoA and octanoyl-CoA were the best primers for the elongation system. When decanoyl-CoA was used as the primer, the major product was found to be a lauroyl derivative (probably lauroyl-CoA). Evidence was obtained suggesting that acyl-CoA dehydrogenase, catalyzing the first step of beta-oxidation, was not functional in the elongation system.
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PMID:Acetyl-CoA-dependent elongation of fatty acids in Mycobacterium smegmatis. 2 Nov 75

Butyrivibrio fibrisolvens is a major butyrate-forming species in the bovine and ovine rumen. The enzymology of butyrate formation from pyruvate was investigated in cell-free extracts of B. fibrisolvens D1. Pyruvate owas oxidized to acetylcoenzyme A (CoA) in the presence of CoA.SH and benzyl viologen or flavin nucleotides. The bacterium uses thiolase, beta-hydroxybutyryl-CoA dehydrogenase, crotonase, and crotonyl-CoA reductase to form butyryl-CoA from acetyl-CoA. Reduction of acetoacetyl-CoA to beta-hydroxybutyryl-CoA was faster with NADH than with NADPH. Crotonyl-CoA was reduced to butyryl-CoA by NADH, but not by NADPH, only in the presence of flavin nucleotides. Reduction of flavin nucleotides by NADH was much slower than the flavin-dependent reduction of crotonyl-CoA. This indicates that flavoproteins rather than free flavin participated in the reduction of crotonyl-CoA. Butyryl-CoA was converted to butyrate by phosphate butyryl transferase and butyrate kinase.
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PMID:Enzymology of butyrate formation by Butyrivibrio fibrisolvens. 3 24

A case of severe hypoglycaemia precipitated by fasting in a child is described. As a result of the hypoglycaemia, the patient became brain damaged. The mechanism causing the hypoglycaemia was a defect in the fatty acid beta-oxidation enzyme, the connecting link acyl-CoA dehydrogenase. During a prolonged fast, fatty acids are not converted to acetyl-CoA and ketone bodies which participate in Kreb's cycle for production of energy to a sufficient extent. This result in non-ketotic hypoglycaemia with excretion of organic acids in the urine. As a rule, the symptoms occur for the first time during the first to second years of life in connection with common infectious diseases, with vomiting followed by clouding of consciousness and possibly coma, but the condition may also present with sudden unexpected death. Treatment consists of intravenous glucose. The diagnosis is established by testing the urine for hexanoylglycin and other substances and is confirmed by culture of skin fibroblasts and measurement of beta-oxidation activity. The disease is an autosomally recessive inherited condition. In families where there have been cases of unexplained hypoglycaemia and clouding of consciousness and cases of unexplained death in infancy or "near misses", all of the family members should be offered examination for the above mentioned enzyme deficiency.
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PMID:[Severe hypoglycemia and clouding of consciousness caused by deficiency of the connecting link acyl CoA dehydrogenase]. 200 Jun 54

Inactivation of five distinct acyl-CoA dehydrogenases by (methylenecyclopropyl)acetyl-CoA (MCPA-CoA), the toxic metabolite of hypoglycin from unripe ackee fruit, was investigated using purified enzyme preparations. Short-chain acyl-CoA (SCADH), medium-chain acyl-CoA (MCADH) and isovaleryl-CoA (IVDH) dehydrogenases were severely and irreversibly inactivated by MCPA-CoA, while 2-methyl-branched chain acyl-CoA dehydrogenase (2-meBCADH) was only slowly and mildly inactivated. Long-chain acyl-CoA dehydrogenase (LCADH) was not significantly inactivated, even after prolonged incubation with MCPA-CoA. Inactivation of SCADH, MCADH and IVDH was effectively prevented by the addition of substrate. This mode of inactivation by MCPA-CoA explains the urinary metabolite profile in hypoglycin treated-rats, which includes large amounts of metabolites from fatty acids and leucine, and relatively small amounts of those from valine and isoleucine. Spectrophotometric titration of SCADH and MCADH with MCPA-CoA, together with the protective effects of substrate, indicates that MCPA-CoA is acted upon by, and exerts in turn irreversible inactivation of, SCADH and MCADH, confirming that MCPA-CoA is a suicide inhibitor (Wenz et al. (1981) J. Biol. Chem. 256, 9809-9812). Spectrophotometric titration data of LCADH and MCPA-CoA is typical of non-reacting CoA ester.
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PMID:Selective inactivation of various acyl-CoA dehydrogenases by (methylenecyclopropyl)acetyl-CoA. 233 85

Studies of the spectral (UV/vis and resonance Raman) and electrochemical properties of the FAD-containing enzyme glutaryl-CoA dehydrogenase (GCD) from Paracoccus denitrificans reveal that the properties of the oxidized enzyme (GCDox) appear to be invariant from those properties known for other acyl-CoA dehydrogenases such as mammalian general acyl-CoA dehydrogenase (GACD) and butyryl-CoA dehydrogenase (BCD) from Megasphaera elsdenii. However, when either free or complexed GCD is reduced, its spectral and electrochemical behavior differs from that of both GACD and BCD. Free GCD does not stabilize any form of one-electron-reduced GCD, but when GCD is complexed to its inhibitor, aceto-acetyl-CoA, the enzyme stabilizes 20% of the blue neutral radical form of FAD (FADH.) upon reduction. Like GACD, when crotonyl-CoA- (CCoA) bound GCD is reduced, the red anionic form of FAD radical (FAD.-) is stabilized, and excess reduction equivalents are necessary to effect full reduction of the complex. A comproportionation reaction is proposed between fully reduced crotonyl-CoA-bound GCD (GCD2e-CCoA) and GCDox-CCoA to partially explain the stabilization of GCD-bound FAD.- by CCoA. When GCD is reduced by its optimal substrate, glutaryl-CoA, a two-electron reduction is observed with concomitant formation of a long-wavelength charge-transfer band. It is proposed that the ETF specific for GCD abstracts one electron from this charge-transfer species and this is followed by the decarboxylation of the oxidized substrate. At pH 6.4, potential values measured for free GCD and GCD bound to acetoacetyl-CoA are -0.085 and -0.129 V, respectively. Experimental evidence is given for a positive shift in the reduction potential of GCD when the enzyme is bound to a 1:1 mixture of butyryl-CoA and CCoA. However, significant GCD hydratase activity is observed, preventing quantitation of the potential shift.
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PMID:Spectral and electrochemical properties of glutaryl-CoA dehydrogenase from Paracoccus denitrificans. 234 Feb 66

Syntrophomonas wolfei is an anaerobic fatty acid degrader that can only be grown in coculture with H2-using bacteria such as Methanospirillum hungatei. Cells of S. wolfei were selectively lysed by lysozyme treatment, and unlysed cells of M. hungatei were removed by centrifugation. The cell extract of S. wolfei obtained with this method had low levels of contamination by methanogenic cofactors. However, lysozyme treatment was not efficient in releasing S. wolfei protein; only about 15% of the L-3-hydroxyacyl-coenzyme A (CoA) dehydrogenase activity was found in the lysozyme supernatant. Cell extracts of S. wolfei obtained with this method had high specific activities of acyl-CoA dehydrogenase, enoyl-CoA hydratase, L-3-hydroxyacyl-CoA dehydrogenase, and 3-ketoacyl-CoA thiolase. These activities were not detected in cell extracts of M. hungatei grown alone, confirming that these activities were present in S. wolfei. The acyl-CoA dehydrogenase activity was high when a C4 but not a C8 or C16 acyl-CoA derivative served as the substrate. S. Wolfei cell extracts had high CoA transferase specific activities and no detectable acyl-CoA synthetase activity, indicating that fatty acid activation occurred by transfer of CoA from acetyl-CoA. Phosphotransacetylase and acetate kinase activities were detected in cell extracts of S. wolfei, indicating that S. wolfei is able to perform substrate-level phosphorylation.
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PMID:Preparation of cell-free extracts and the enzymes involved in fatty acid metabolism in Syntrophomonas wolfei. 345 26

The peroxisomal beta-oxidation of omega-phenyl fatty acids (PFAs) as model compounds for xenobiotic acyl compounds was investigated. In isolated hepatocytes, omega-phenyllauric acid (PFA12) was chain-shortened to PFAs having an even number of carbon atoms in the acyl side chain. Associated with this reaction, H2O2 generation was observed, the rate of which was markedly enhanced by clofibrate treatment of rats. Also when using isolated peroxisomes, such a chain-shortening of PFA12 occurred, associated with stoichiometrical production of NADH and acetyl-CoA. The CoA-ester form of PFA12 as a substrate and NAD as a cofactor were required in this reaction, indicating the participation of peroxisomal beta-oxidation in the chain-shortening of PFA12. When using PFAs with various chain lengths, the rates of H2O2 generation measured as the peroxisomal beta-oxidation in isolated hepatocytes were similar to those with the corresponding fatty acids, whereas the rates of ketone body production measured as the mitochondrial beta-oxidation were much lower than that with any fatty acid examined. From the study with isolated mitochondria and purified enzymes, it was found that the mitochondrial beta-oxidation of PFAs was carnitine-dependent, and that the activities of carnitine palmitoyltransferase for PFA-CoAs are low. Moreover, the activities of acyl-CoA dehydrogenase for PFA-CoAs were lower than those for fatty acyl-CoAs, while the activities of acyl-CoA oxidase for PFA-CoAs were comparable to those for fatty acyl-CoAs. As a result, relatively long chain PFAs were hardly subjected to mitochondrial beta-oxidation. Based on the maximum enzyme activities of the beta-oxidation, which were measured by following acyl-CoA-dependent NAD reduction in isolated peroxisomes and O2 consumption in isolated mitochondria, about 60% of the beta-oxidation of PFA12 in the rat liver was peroxisomal. In clofibrate-treated rats, the value reached about 85%. From these results it is concluded that the peroxisome is one of the important sites of degradation of xenobiotic acyl compounds.
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PMID:Participation of peroxisomes in the metabolism of xenobiotic acyl compounds: comparison between peroxisomal and mitochondrial beta-oxidation of omega-phenyl fatty acids in rat liver. 365 89

The flavoprotein medium-chain acyl coenzyme A (acyl-CoA) dehydrogenase from pig kidney exhibits an intrinsic hydratase activity toward crotonyl-CoA yielding L-3-hydroxybutyryl-CoA. The maximal turnover number of about 0.5 min-1 is 500-1000-fold slower than the dehydrogenation of butyryl-CoA using electron-transferring flavoprotein as terminal acceptor. trans-2-Octenoyl- and trans-2-hexadecenoyl-CoA are not hydrated significantly. Hydration is not due to contamination with the short-chain enoyl-CoA hydratase crotonase. Several lines of evidence suggest that hydration and dehydrogenation reactions probably utilize the same active site. These two activities are coordinately inhibited by 2-octynoyl-CoA and (methylenecyclopropyl)acetyl-CoA [whose targets are the protein and flavin adenine dinucleotide (FAD) moieties of the dehydrogenase, respectively]. The hydration of crotonyl-CoA is severely inhibited by octanoyl-CoA, a good substrate of the dehydrogenase. The apoenzyme is inactive as a hydratase but recovers activity on the addition of FAD. Compared with the hydratase activity of the native enzyme, the 8-fluoro-FAD enzyme exhibits a roughly 2-fold increased activity, whereas the 5-deaza-FAD dehydrogenase is only 20% as active. A mechanism for this unanticipated secondary activity of the acyl-CoA dehydrogenase is suggested.
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PMID:Medium-chain acyl coenzyme A dehydrogenase from pig kidney has intrinsic enoyl coenzyme A hydratase activity. 375 34

A malonyl-CoA-independent fatty acid synthetic system, different from the systems in other subcellular fractions, occurred in mitochondria of Euglena gracilis. The system had ability to synthesize fatty acids directly from acetyl-CoA as both primer and C2 donor using NADH as an electron donor. Fatty acids were synthesized by reversal of beta-oxidation with the exception that enoyl-CoA reductase functioned instead of acyl-CoA dehydrogenase in degradation system. A fairly high activity of enoyl-CoA reductase was found on various enoyl-CoA substrates (C4-C12) with NADH or NADPH. Three species of enoyl-CoA reductase, distinct from each other by their chain-length specificity, were found in Euglena mitochondria, and one of them was highly specific for crotonyl-CoA. It is also discussed that the mitochondrial fatty-acid synthetic system contributes to wax ester fermentation, the anaerobic energy-generating system found in the organism.
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PMID:Fatty acid synthesis in mitochondria of Euglena gracilis. 614 25

Fatty acid beta-oxidation was studied in organellar fractions from maize root tips by h.p.l.c. and radiometric analysis of the products of incubations with [1-14C]octanoate and [1-14C]palmitate. In crude organellar fractions containing both mitochondria and peroxisomes, octanoate and palmitate beta-oxidation, as determined by the production of acetyl-CoA, was functional and, for palmitate, was activated 4-12-fold after subjecting the root tips to 48 h of glucose starvation. The sensitivity to a 'cocktail' of respiratory-chain inhibitors containing cyanide, azide and salicylhydroxamate depended on the conditions of incubation, with no inhibition in a medium facilitating peroxisomal beta-oxidation and a significant inhibition in a medium potentially facilitating mitochondrial beta-oxidation. Indeed, preparations of highly purified mitochondria from glucose-starved root tips were able to oxidize octanoate and palmitate to give organic acids of the tricarboxylic acid cycle. This activity was inhibited 5-10-fold by the above cocktail of respiratory-chain inhibitors, with no parallel accumulation of acetyl-CoA, thus showing that the inhibition affected beta-oxidation rather than the pathway from acetyl-CoA to the organic acids. This provides the first evidence that the complete beta-oxidation pathway from fatty acids to citrate was functional in mitochondria from a higher plant. Moreover, an acyl-CoA dehydrogenase activity was shown to be present in the purified mitochondria. In contrast with the peroxisomal activity, mitochondrial beta-oxidation showed the same efficiency with octanoate and palmitate and was strictly dependent on glucose starvation.
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PMID:Effects of glucose starvation on the oxidation of fatty acids by maize root tip mitochondria and peroxisomes: evidence for mitochondrial fatty acid beta-oxidation and acyl-CoA dehydrogenase activity in a higher plant. 825 Aug 43

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