EC:6.4.1.2 - FACTA Search

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Query: EC:6.4.1.2 (acetyl-CoA carboxylase)
2,876 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. Synthesis de novo of fatty acids in the rat liver, measured per g wet wt. of tissue, was increased by a factor of about two, between 1 and 4 days after partial hepatectomy, compared with rates in sham-operated control rat livers. 2. There were no associated changes in the rates of liver cholesterol synthesis or of adipose-tissue fatty acid synthesis in rats after partial hepatectomy, compared with rates in sham-operated rats. 3. In regenerating livers, perfused under three different conditions, there was no alteration in the capacity for fatty acid synthesis compared with that of control rats. 4. The increased synthesis of fatty acids in regenerating liver was associated with insignificant increases in plasma concentrations of tricylglycerols and free fatty acids, with a decrease in content of liver glycogen, and with no change in hepatic activity of acetyl-CoA carboxylase. 5. The accelerated rate of synthesis of fatty adids in regenerating liver appears not to be due to any intrinsic alteration in hepatic capacity for fatty acid synthesis, but it may be caused by the continuous action on liver of unidentified circulating factors.
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PMID:Fatty acid synthesis in the regenerating liver of the rat. 2 43

Digitonin treatment of chick liver cells in monolayer culture perforates the plasma membrane, causing release of acetyl-CoA carboxylase and other cytosolic enzymes. The rate of carboxylase release is affected by conditions known to alter the position of the protomer-polymer (filament) equilibrium of the enzyme. Citrate, an allosteric activator of the carboxylase, induces polymerization of the protomeric avidin-sensitive form giving rise to the avidin-insensitive polymeric filamentous form. When cells are exposed to N6,O2-dibutyryl cyclic adenosine 3':5'-monophosphate which lowers intracellular citrate levels, the rate of carboxylase release from digitonin-treated cells is greatly accelerated. The presence of avidin, which rapidly enters the cell during digitonin treatment, inactivates carboxylase under conditions that promote depolymerization and rapid release, but not under conditions which promote polymerization and slow release. These findings indicate that carboxylase filaments exist in the intact chick liver cell when the cytoplasmic citrate level is high and undergo depolymerization when citrate levels fall.
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PMID:Acetyl-CoA carboxylase. Evidence for polymeric filament to protomer transition in the intact avian liver cell. 2 87

Acetyl-CoA carboxylase in rat liver homogenates was activated in vitro in a time- and temperature-dependent manner. The activity of acetyl-CoA carboxylase in rat liver preparations was determined in a 1-min assay to preclude the possibility of citrate activation of the enzyme during the assay period. Activation of the enzyme occurred more rapidly in liver preparations continuously maintained at ambient or greater temperatures than in homogenates of liver which had been chilled. High speed supernatant (105,000 X g, 60 min) did not heat-activate, and reconstitution of the heat-activatable 27,000 X g, 20-min, fraction by recombining the high speed pellet with the high speed supernatant only partially restored the heat activatability. Elution of the 105,000 X g supernatant from Sephadex G-25 resulted in an enzyme preparation which was heat-activatable. Addition of boiled 105,000 X g supernatant to the Sephadex G-25-treated enzyme again prevented heat activation. Dilution of the enzyme 5-fold did not prevent heat activation.
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PMID:Heat activation of rat liver acetyl-CoA carboxylase in vitro. 2 6

When chick liver cells in monolayer culture were incubated with 32Pi in the presence of insulin, acetyl-CoA carboxylase became extensively labeled with 32Pi reaching a stoichiometry of 9 to 10 mol of phosphoryl group per mol of 240,000-dalton enzyme subunit. The covalently bound phosphate was found to be metabolically labile, turning over with a t1/2 of approximately 2 h (enzyme t1/2 approximately equal to 24 h). Addition of Bt2cAMP altered neither the rate nor extent of phosphorylation. Contrary to other reports, the fully phosphorylated acetyl-CoA carboxylase appears to be catalytically active.
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PMID:Multiple phosphorylation of acetyl-CoA carboxylase in chick liver cells. A cyclic AMP-independent process. 2 15

Acetyl coenzyme A (CoA) carboxylase (EC 6.4.1.2), an enzyme catalyzing the synthesis of malonyl-CoA, was cytochemically localized in endoplasmic reticulum (ER) of sclerotia-like cells of submerged Claviceps purpurea Tul. producing clavine alkaloids. The enzymic activity was structurally bound in unit membranes of ER strands which, later on, evolved into vacuoles containing lipoprotein material. The reaction product was absent from ER in nonvacuolized filamentous hyphae and ovoid asexual spores containing numerous lipid globules; it was also absent from ER in the mycelium of submerged C. purpurea strain producing no alkaloids. In view of our previous morphogenetic observations and the available biochemical evidence, the observed localization of acetyl-CoA carboxylase was assumed not to coincide with fatty acid biosynthesis but to represent sites of alkaloid synthesis.
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PMID:Fine structural localization of alkaloid synthesis in endoplasmic reticulum of submerged Claviceps purpurea. 2 85

The effects of citrate and cyclic AMP on the rate and degree of phosphorylation and inactivation of rat liver acetyl-CoA carboxylase were examined. High citrate concentrations (10 to 20 mM), which are generally used to stabilize and activate the enzyme, inhibit phosphorylation and inactivation of carboxylase. At lower concentrations of citrate, the rate and degree of phosphorylation are increased. Furthermore, phosphorylation and enzyme inactivation are affected by cyclic AMP under these conditions. At high citrate concentrations, cyclic AMP has little or no effect on inactivation and phosphorylation of acetyl-CoA carboxylase. Phosphorlation and inactivation of carboxylase is accompanied by depolymerization of the polymeric form of the enzyme into intermediate and protomeric forms. Depolymerization of carboxylase requires the transfer of the gamma-phosphate group from ATP to carboxylase. Inactivation occurs in the absence of CO2, which indicates that phosphorylation of the enzyme is the cause of inactivation and depolymerization, i.e. carboxylation of the enzyme is not responsible for inactivation of the enzyme.
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PMID:Regulation of rat liver acetyl-CoA carboxylase. Stimulation of phosphorylation and subsequent inactivation of liver acetyl-CoA carboxylase by cyclic 3':5'-monophosphate and effect on the structure of the enzyme. 3 Jul 74

If acetyl-CoA carboxylase in epididymal fat tissue is subject to control by convalent modification as in the case of the liver enzyme, catalytically different forms of carboxylase should exist, independent of polymerization. By treating epididymal fat tissue in culture with epinephrine, we have demonstrated catalytically less active forms of acetyl-CoA carboxylase. The catalytically less active forms of the enzyme reacted to antibody with the same efficiency as the active form of carboxylase. However, the less active enzyme formed by epinephrine treatment of tissues has a sedimentation constant of 30 to 35 S, whereas that of the enzyme from control tissue is 45 S. Incubation of the less active forms of the carboxylase with 10 mM citrate and up to 10 mg/ml of bovine serum albumin activated the enzyme without any change in the sedimentation constant. Therefore, the less active forms of the carboxylase formed as a result of epinephrine treatment are not due to the depolymerization of polymeric forms (45 S) to the protomeric forms (17 to 20 S), but to the formation of intermediate species of carboxylase which cannot form polymeric enzyme (45 S) in the presence of high concentrations of citrate.
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PMID:Effect of epinephrine on acetyl-CoA carboxylase in rat epididymal fat tissue. 3 Jul 75

1. Rapid effects of hormones on glycogen metabolism and fatty acid synthesis in the perfused liver of the mouse were studied. 2. In perfusions lasting 2h, of livers from normal mice, glucagon in successive doses, each producing concentrations of 10(-10) or 10(-9)M, inhibited fatty acid and cholesterol synthesis. In perfusions lasting 40--50 min, in which medium was not recycled, inhibition of fatty acid synthesis was only observed with glucagon at concentrations greater than 10(-9)M. This concentration was about two orders of magnitude higher than that required for the stimulation of glycogen breakdown. Glucagon did not inhibit the activity of acetyl-CoA carboxylase, assayed 10 or 20 min after addition of glucagon (10(-9) or 10(-10)M). It is proposed that the action of glucagon on hepatic fatty acid biosynthesis could be secondary in time to depletion of glycogen. Insulin prevented the effect of glucagon (10(-10)M) on glycogenolysis, but not that of vasopressin. 3. Livers of genetically obese (ob/ob) mice did not show significant inhibition of lipid biosynthesis in response to glucagon, although there was normal acceleration of glycogen breakdown. This resistance to glucagon action was not reversed by food deprivation. Livers of obese mice exhibited resistance to the counteraction by insulin of glucagon-stimulated glycogenolysis, which was reversible by partial food deprivation.
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PMID:Effects of glucagon and insulin on fatty acid synthesis and glycogen degradation in the perfused liver of normal and genetically obese (ob/ob) mice. 3 66

Fatty acid synthetase was purified 13-fold from lactating rabbit mammary glands by a procedure which involved chromatography on DEAE-cellulose, ammonium sulphate precipitation and gel filtration on Sepharose 4B. The preparation was completed within two days and over 100 mg of enzyme was isolated from 100--150 g of mammary tissue, which represented a yield of over 40%. The preparation was homogeneous by the criteria of polyacrylamide gel electrophoresis and ultracentrifugal analysis. The sedimentation constant, S20,w was 13.3 S, the absorption coefficient, A280nm1%, measured refractometrically was 10.0 +/- 0.1, and the amino acid composition was determined. The subunit molecular weight determined by gel electrophoresis in the presence of sodium dodecyl sulphate was 252,000 +/- 6,000, and the molecular weight of the native enzyme measured by sedimentation equilibrium was 515,000. These experiments indicate that at the concentrations which exist in mammary tissue (2--4 mg/ml) fatty acid synthetase is a dimer. The purified enzyme did however show a tendency to dissociate to a monomeric 9-9S species on storage for several days or following exposure to a low ionic strength buffer at pH 8.3. There was only a small quantity of alkali labile phosphate (0.2 molecules per subunit) bound covalently to the purified enzyme. Acetyl-CoA carboxylase was purified 300-fold in a 50% yield within 24 h by ammonium sulphate and polyethylene glycol precipitations [Hardie, D.G. and Cohen, P. (1978) FEBS Lett. 91, 1--7]. The preparation was in a state approaching homogeneity as judged by polyacrylamide gel electrophoresis, gel filtration on Sepharose 4B and ultracentrifugal analysis. The sedimentation constant, S20,w, was 50.5 S, the absorption index, A280nm1%, was 14.5 +/- 0.7, and the amino acid composition was determined. The subunit molecular weight of acetyl-CoA carboxylase determined by gel electrophoresis in the presence of sodium dodecyl sulphate was identical to that of fatty acid synthetase (252,000) as shown by electrophoresis of a mixture of the two proteins. The preparations also contained two minor components of molecular weight 235,000 and 225,000, which appear to be derived from the major species of mol. wt 252,000. A large emount of phosphate (3.2 molecules per subunit) was found to be bound covalently to the purified enzyme. The properties of fatty acid synthetase and acetyl-CoA carboxylase are compared to those obtained by other workers.
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PMID:Purification and physicochemical properties of fatty acid synthetase and acetyl-CoA carboxylase from lactating rabbit mammary gland. 3 36

When Mycobacterium convolutum R22 was grown on the n-alkanes C13 through C16, the predominant fatty acids were of the same chain length as the growth substrate. Cells grown on C13 through C16 n-alkanes incorporated between 15 and 85 pmol of acetate per microgram of lipid into the fatty acids, whereas acetate- or propane-grown cells incorporated 280 and 255 pmol of acetate per microgram of lipid, respectively. In vivo experiments demonstrated that hexadecane, hexadecanoic acid, and hexadecanoylcoenzyme A (CoA) all inhibited de novo fatty acid synthesis. Hexadecanoyl-CoA was the most potent inhibitor. Hexadecane and hexadecanoic acid inhibited acetyl-CoA carboxylase by up to 37 and 39%, respectively, at 1 mM. Hexadecanoyl-CoA inhibited the enzyme activity by 65% at 50 micrometer. Cells that were grown on C14 through C16 n-alkanes had about 25 times less acetyl-CoA carboxylase activity than did cells grown on acetate or propane, suggesting repressed levels of the enzyme. Hexadecane- or pentadecane-grown cells were found to have 5 to 10 times more intracellular free fatty acid than cells grown on acetate, propane, or ethane.
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PMID:Regulation of fatty acid biosynthesis by hydrocarbon substrates in Mycobacterium convolutum. 3 51

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