EC:6.4.1.2 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

The biotin carboxyl carrier protein (BCCP) component of Escherichia coli acetyl coenzyme A carboxylase and three peptides derived from BCCP by proteolytic digestion have been examined by circular dichroism spectroscopy. BCCP, which has a peptide molecular weight of 22,500, has a spectrum typical of globular proteins with negative extrema at 222 nm and 208 nm. The two smallest peptides, BCCP(SC) and BCCP(9,100), with molecular weights of 8,900 and 9,100, respectively, exhibit unusual positive CD bands centered at 237 nm and 220 nm. BCCP(10,400), with a molecular weight of 10,400, has a CD spectrum intermediate between BCCP and that of the smallest peptides. Since d-biotin exhibits a positive CD band at 233 nm, it was suspected that the biotin prosthetic group might be the chromophore responsible for the 237 nm CD band seen in BCCP(SC) and BCCP(9,100). Enzymatic carboxylation of BCCP(SC) to form CO2-BCCP(SC) caused the CD spectrum to change with a shift of the 237 nm band to 232 nm. The positive CD band at 220 nm was unaffected by carboxylation of the biotin prosthetic group. These date suggest that the 237 nm signal may be due either to the biotin which acts as a chromophore directly or to a chromophore that is perturbed by the carboxylation of biotin. A spectropolarimetric titration was carried out to investigate the possible contribution of the single tyrosine residue of BCCP(SC) to the CD spectrum of this peptide. At pH values over 9 the CD spetrum changed with the disappearance of the 237 nm band, suggesting that tyrosine might contribute to this CD band. Denaturation of BCCP(SC) or BCCP(9,100) with 8 M urea of 6 M guanidine HCl abolished the positive CD bands and resulted in spectra typical of a random coil, whereas treatment of BCCP(SC) with 1% sodium dodecyl sulfate abolished the positive bands and left a spectrum exhibiting a shoulder at 222 nm and a negative band at 205 nm, suggestive of a high degree of ordered structure. It is concluded that the CD band at 237 nm in BCCP(SC) and BCCP(9,100) is prabably due to a noncovalent interaction of biotin with an amino acid residue(s) of the protein. It is suggested that the biotin prosthetic group is partially buried in the surface of the protein, rather than swinging free at the end of the lysine side chain through which it is covalently linked to the protein, to permit this interaction to occur.
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PMID:Acetyl coenzyme A carbosylase. Circular dichroism studies of Escherichia coli biotin carboxyl carrier protein. 0 38

Metabolism of perfused livers from control and ventromedial hypothalamus (VMH)-lesioned rats has been studied. To eliminate the possibility that observed metabolic abnormalities could be realted to hyperphagia, VMH-lesioned rats were placed on restricted diet matching that of controls. Ten days postoperatively, VMH-lesioned rats had hyperinsulinemia, hypertriglyceridemia, increased blood urea nitrogen levels, together with decreased plasma free fatty acid (FFA) and glucose levels. Insulin release produced in vivo by a glucose load was much higher in VMH-lesioned than in control rats. Perfused livers from VMH-lesioned rats secreted more triglycerides and produced more urea than controls, whereas production of glucose and ketone bodies was reduced. Lipogenesis, newly synthesized triglyceride secretion, and the activity of acetyl-CoA carboxylase and fatty acid synthetase were greatest in livers from VMH-lesioned rats. Fasting abolished hyperinsulinemia and most of these observed metabolic alterations. After treatment with anti-insulin serum, the high rate of lipogenesis observed in livers from VMH-lesioned rats was restored toward normal. It is suggested that hyperinsulinemia may be partly responsible for the metabolic disorders observed in livers from nonhyperphagic VMH-lesioned rats.
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PMID:Consequences of ventromedial hypothalamic lesions on metabolism of perfused rat liver. 1 11

Biotin localized in barley chloroplast lamellae is covalently bound to a single protein with an approximate molecular weight of 21 000. It contains one mole of biotin per mole of protein and functions as a carboxyl carrier in the acetyl-CoA carboxylase reaction. The protein was obtained by solubilization of the lamellae in phenol/acetic acid/8 M urea. Feeding barley seedlings with [14C]-biotin revealed that the vitamin is not degraded into respiratory substrates by the plant, but is specifically incorporated into biotin carboxyl carrier protein.
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PMID:Biotin carboxyl carrier protein in barley chloroplast membranes. 23 45

1. The metabolic response of livers to perfusion with ethanol with and without avenaciolide, has been followed by measuring the perfusate levels of glucose, lactate, pyruvate, beta-hydroxybutyrate, ethanol, amino acids, urea and lipid. 2. Analysis of the perfused livers showed changes in the activities of some of the key enzymes of glycolysis, gluconeogenesis and lipogenesis. Ethanol perfusion decreased the levels of phosphofructokinase, glucokinase and cytosolic isocitrate dehydrogenase, while avenaciolide lowered pyruvate carboxylase and phosphoenolpyruvate carboxykinase as well as glucokinase. Isocitrate dehydrogenase and phosphofructokinase were unchanged, but the ionophore increased the level of fructose-1,6-diphosphatase. Ethanol plus avenaciolide showed the same pattern as ethanol alone, together with the decrease in phosphoenolpyruvate carboxykinase found with avenaciolide. 3. Neither ethanol nor avenaciolide had any effect on kexokinase, pyruvate kinase or acetyl-CoA carboxylase. There were small changes in glucose-6-phosphatase and malic enzyme, and a tendency for citrate lyase levels to decline in avenaciolide perfusions.
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PMID:The actions of avenaciolide and ethanol on glucose metabolism and on related enzyme activities in the isolated perfused rat liver. 94 10

Extracts of 3T3-L1 cells prepared after labelling the monolayer cultures with [3H]biotin contained numerous protein bands that were detected by fluorography of dried SDS/polyacrylamide electrophoresis gels. All labelled proteins in the extracts could be removed by avidin affinity chromatography. The biotin-containing subunits of acetyl-CoA carboxylase, pyruvate carboxylase, methylcrotonyl-CoA carboxylase and propionyl-CoA carboxylase, with molecular masses of approx. 220, 120, 75 and 72 kDa respectively, were detected together with minor bands at 100, 85 and 37 kDa that did not appear to be partial degradation products. Additional labelled bands increased in amount during incubation of cell extracts or did not occur in extracts prepared with trichloroacetic acid, 9.5 M-urea or proteolytic inhibitors, and were tentatively classified as partial degradation products. The unknown bands were not removed by incubation of cell monolayers for 24 h, a treatment that gave degradation rate constants of 0.47 day-1 for acetyl-CoA carboxylase and 0.28 day-1 for pyruvate carboxylase. Upon two-dimensional electrophoresis, pyruvate carboxylase, methylcrotonyl-CoA carboxylase and propionyl-CoA carboxylase had isoelectric points of 6.4, 7.2 and 6.4 respectively. Several additional discrete spots with isoelectric points below 6.2 were also present. All the unknown biotin-containing proteins banded with intact mitochondria during density-gradient centrifugation. We conclude that several unknown biotin-containing proteins are present in the mitochondria of 3T3-L1 cells, whereas others are partial breakdown products of mitochondrial proteolysis.
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PMID:Multiple biotin-containing proteins in 3T3-L1 cells. 380 Aug 73

Metabolic alterations in ventromedial hypothalamus (VMH)-lesioned rats were investigated by examining daily changes of enzyme activities and urea concentrations three weeks after the operation. VMH-lesions in female adult rats caused a significant elevation in the activity of acetyl-CoA carboxylase in the liver and parametrial adipose tissue. These changes suggest an increased lipogenesis. VMH-lesions also elicited an increase in activities of glucokinase (GK), pyruvate kinase (PK) and fructose 1,6-bisphosphatase (FBPase), and a decrease in activities of phosphofructokinase (PFK), glucose-6-phosphatase (G6Pase) and phosphoenolpyruvate carboxykinase (PEPCK) in the liver. The apparently inconsistent changes in activities of key glycolytic enzymes, GK, PK and PFK, and key gluconeogenic enzymes, G6Pase, PEPCK and FBPase in the liver may be explained by the fact that they were favorable for glucose oxidation through pentose phosphate cycle and provide NADPH for lipogenesis in the liver. Furthermore, VMH-lesions induced an increase in urea contents of the liver and serum, and elicited an increase in activity of liver tyrosine aminotransferase (TAT) and a decrease in activity of liver histidase. These changes suggest an accelerated amino acid and protein catabolism, and favor an increment in the supply of the substrate for lipogenesis. Daily rhythms of TAT, histidase activities and serum urea concentration observed in the control rats were abolished by VMH-lesions. These findings suggest that VMH-lesions elicit the loss of these daily rhythms, probably through the disturbance of the circadian rhythm of feeding behavior at this dynamic phase (three weeks after operation) of obesity.
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PMID:Shift of metabolism in rats with ventromedial hypothalamic lesions with respect to changes in daily rhythms of enzyme activity. 614 67

Acetyl-CoA carboxylase phosphatase has been purified from the rat epididymal fat pad. The phosphatase occurs in a complex with the carboxylase. In the purification of the phosphatase, the high molecular weight complex was initially separated by sucrose gradient centrifugation, and the phosphatase was isolated from the complex by adjusting to 80% saturation with ethanol and by chromatography on Sephadex G-75. The molecular weight of the phosphatase is 71,000 as determined by sodium dodecyl sulfate gel electrophoresis and gel chromatography on Sephacryl-200 in the presence of 6 M urea. The Km for acetyl-CoA carboxylase and glycogen phosphorylase a are 1.5 microM and 37 microM, respectively. The phosphatase has a broad substrate specificity, being active toward glycogen synthase, 3-hydroxy-3-methylglutaryl-CoA reductase, phosphorylase a, phosphoprotamine, and p-nitrophenyl phosphate, in addition to acetyl-CoA carboxylase from fat tissue and liver. Acetyl-CoA carboxylase inhibits the dephosphorylation of phosphoprotamine, indicating that the same activity is responsible for dephosphorylating both substrates. The phosphatase requires no metal ion for activity and is not inhibited by the rat liver phosphorylase phosphatase inhibitor protein. The significance of these findings is discussed in relation to the regulation of acetyl-CoA carboxylase, and the phosphatase is compared to other phosphoprotein phosphatases.
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PMID:Purification and properties of acetyl-CoA carboxylase phosphatase. 625 18

We have studied the apo (unbiotinylated) and holo (biotinylated) forms of BCCP87, an 87-residue COOH-terminal peptide comprising the biotin carrier domain of the biotin carboxyl carrier protein subunit of Escherichia coli acetyl-CoA carboxylase. The apo protein spontaneously formed disulfide-linked dimers and was modified readily by sulfhydryl reagents, whereas the holo protein remained monomeric and was unreactive toward sulfhydryl reagents unless a protein denaturant was present. These data indicated that the single cysteine residue of the domain (Cys-116) was much more reactive in the apo form of the protein. Incubation of apoBCCP87 with biotin ligase for different times, followed by reaction with fluorescein-5-maleimide, clearly showed that the loss of Cys-116 reactivity was the result of modification with biotin. In addition, reaction of Cys-116 with 5,5'-dithiobis(2-nitrobenzoic acid) showed that apoBCCP87 denatured at lower urea concentrations than holoBCCP87. We also found that apoBCCP87 was at least 10-fold more sensitive than the holo form to proteolysis by a range of proteases. Identification of the cleavage sites indicated that the differences in protease sensitivity could not be attributed to shielding of susceptible bonds by the biotin moiety of the holo protein. These data indicate that a conformational change accompanies biotinylation of the biotin domain. Thus, modification of a beta-turn protruding from the protein surface results in alteration of the overall structure of this protein domain.
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PMID:Covalent modification of an exposed surface turn alters the global conformation of the biotin carrier domain of Escherichia coli acetyl-CoA carboxylase. 932 38

Herbicide-resistant Lolium multiflorum (Italian rye-grass) was first reported in the UK in 1993 and had been confirmed on 25 farms by 1999. In this study, resistance to five herbicides belonging to the aryloxyphenoxypropionate, cyclohexanedione and phenyl-urea classes was determined in six populations of L multiflorum from the UK under glasshouse and simulated field conditions. Glasshouse conditions tended to exaggerate the degree of resistance, but experiments performed in both environments detected resistance in four populations of L multiflorum. Four populations (Essex A1, Lincs A1, Wilts B1, Yorks A2) were resistant to diclofop-methyl, fluazifop-P-butyl, tralkoxydim and partially resistant to isoproturon, but only the population from Yorkshire (Yorks A2) showed resistance to cycloxydim. Biochemical analyses of acetyl coenzyme A carboxylase (ACCase) activity, oxygen consumption by thylakoids, diclofop metabolism and glutathione S-transferase activity showed that, in three of the resistant populations, an enhanced rate of herbicide metabolism conferred resistance. This is the first report world-wide of an enhanced metabolism mechanism of diclofop resistance in L multiflorum. In the Yorks A2 population, an insensitive ACCase was detected (target-site resistance) which also conferred cross-resistance to all of the other ACCase inhibitors investigated.
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PMID:Resistance to ACCase-inhibiting herbicides and isoproturon in UK populations of Lolium multiflorum: mechanisms of resistance and implications for control. 1146 89

Twenty-six multiparous Holstein cows were used to examine the effects of prepartum energy and protein intake on periparturient metabolism and lactation performance. Two levels of energy, 1.65 Mcal/kg of net energy for lactation (NEL) and 1.30 Mcal/kg of NEL, and two levels of protein, 17.0% CP and 12.5% CP, were tested according to a factorial arrangement in a randomized block design. Dietary treatments were fed ad libitum from 21 d before expected calving date to the day of calving. After calving, all cows were fed the same diet. Increased nutrient density did not affect prepartum feed intake, but postpartum intake was higher for cows fed the high-energy diets. Treatment had no effect on cow body weight and body condition score, however, cows fed the high-energy diets were in greater energy balance throughout the study. Milk and milk component yields were unaffected by treatment. Cows fed the high-energy diets had lower plasma nonesterified fatty acid concentrations than cows fed the low energy diets (354.3 vs. 439.9 mumol/L). Hepatic triglyceride concentrations were lower for cows on the high-energy diets than for those on the low-energy diets. Liver glycogen was unaffected by treatment. Acetyl-CoA carboxylase and fatty acid synthase abundance was significantly lower at calving than pretreatment, and higher for cows on the high-energy diets relative to those on the low-energy diets. The activity of acetyl-CoA carboxylase and lipoprotein lipase was greatly decreased with the onset of lactation. Increased protein intake prepartum resulted in elevated plasma beta-hydroxybutyrate concentrations postpartum. Prepartum plasma urea nitrogen was increased and 3-methylhistidine decreased by the high protein treatments. Overall, increased energy density of prepartum diets had beneficial effects on feed intake and lipid metabolism but did not improve lactation performance. Increasing the protein content of the prepartum diet did not appear to confer any advantages to cow productivity.
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PMID:Peripartum performance and metabolism of dairy cows in response to prepartum energy and protein intake. 1236 65

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