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1.
1. Mitochondria isolated from porcine adrenal cortex under State 3 conditions oxidized succinate with a rate of 47 +/- 4.48 na oxygen/min/mg/protein and with ADP:O ratio 0.98 +/- 0.09. In the presence of 15 microM deoxycorticosterone the rate of succinate oxidation was 36.8 +/- 3.08 na oxygen/min/mg/protein. 2. Under the same conditions the rate of glutamate oxidation was 22.8 +/- 2.21 and 16.8 +/- 0.65 na oxygen/min/mg/protein, respectively. ADP:O ratio was 1.45 +/- 0.14. 3. Introduction of trace amounts of malate into the mitochondria oxidizing glutamate only slightly increased the rate of O2 uptake. 4. The glutamate dehydrogenase activity in these mitochondria was 12.5 +/- 0.69 nmol/min/mg.  相似文献   

2.
Comparative studies of 11 beta-, 18-, and 19-hydroxylation activities of 11-deoxycorticosterone (DOC) by bovine adrenal mitochondria revealed that an appreciable level of hydroxylation rate was observed in 19-hydroxylation (0.32 nmol/min/mg mitochondrial protein), as well as in 11 beta- and 18-hydroxylations (4.7 and 0.27 nmol/min/mg mitochondrial protein, respectively), at saturated substrate concentration in vitro. Also, the rates of the oxidation reactions of 19-hydroxy-11-deoxycorticosterone (19-OH-DOC) and 19-oxo-11-deoxycorticosterone (19-oxo-DOC) at the 19-position were about 5 times higher than the 19-hydroxylation rate of DOC. Although the affinities of 19-OH-DOC and 19-oxo-DOC for the enzyme(s) involved in the C-19 oxidation were about one-fifth those of DOC, these results strongly suggest the presence of the following pathway in bovine adrenal in vitro: DOC----19-OH-DOC----19-oxo-DOC----19-oic-DOC. This was further confirmed by a dynamic study of the formation and subsequent decay of the C-19 oxidized metabolites produced from DOC. At maximum concentrations of 19-OH-DOC and 19-oxo-DOC, the rates of production of, respectively, 19-oxo-DOC and 19-oic-DOC reached maximum. Furthermore, at the beginning of the incubation (1-4 min), an induction period in the formation of 19-oxo-DOC and 19-oic-DOC was observed and the formation of 19-oxo-DOC always preceded the appearance of 19-oic-DOC. These observations strongly support the existence of the pathway of the C-19 oxidation of DOC as mentioned above. It was also established that reduced pyridine nucleotide (NADPH) and molecular oxygen were required for these oxidation reactions. In addition, these three oxidation reactions were uniformly inhibited by the presence of carbon monoxide or metyrapone (0.01-1.0 microM), which is known to bind specifically with cytochrome P-450, while potassium cyanide (0.01-0.1 mM) did not affect them. These results suggest the possibility of the involvement of cytochrome P-450 in the C-19 oxidation reactions of DOC, 19-OH-DOC, and 19-oxo-DOC. We also showed that 19-oic-DOC is not further metabolized to other steroids such as 19-nor-11-deoxycorticosterone in bovine adrenal cortex.  相似文献   

3.
The effect of long-chain acyl-CoA on glutamate dehydrogenase activity was studied in uncoupled rabbit kidney cortex mitochondria incubated with glutamate and palmitoylcarnitine in the presence of arsenite. The mitochondrial long-chain acyl-CoA (about 2 nmol/mg of protein) accumulated in the presence of arsenite resulted in an inhibition of ammonia production from 4.1 to 1.2 nmol/min per mg of protein. Leucine and ADP, activators of glutamate dehydrogenase, did not release the inhibitory effect of long-chain acyl-CoA on glutamate deamination. In view of the presented data it seems that inhibitory effect of long-chain acyl-CoA on glutamate dehydrogenase activity may have a physiological significance.  相似文献   

4.
We have investigated the role of the Coenzyme Q pool in glycerol-3-phosphate oxidation in hamster brown adipose tissue mitochondria. Antimycin A and myxothiazol inhibit glycerol-3-phosphate cytochromec oxidoreductase in a sigmoidal fashion, indicating that CoQ behaves as a homogeneous pool between glycerol-3-phosphate dehydrogenase and complex III. The inhibition of ubiquinol cytochromec reductase is linear at low concentrations of both inhibitors, indicating that sigmoidicity of antimycin A and myxothiazol inhibition is not a direct property of antimycin A and myxothiazol binding. Glycerol-3-phosphate cytochromec oxidoreductase is strongly stimulated by added CoQ3, indicating that endogenous CoQ is not saturating. Application of the pool equation for nonsaturating ubiquinone allows calculation of theK m for endogenous CoQ of glycerol-3-phosphate dehydrogenase of 3.14mM. The results of this investigations reveal that CoQ behaves as a homogeneous pool between glycerol-3-phosphate dehydrogenase and complex III in brown adipose tissue mitochondria; moreover, its concentration is far below saturation for maximal electron transfer activity in comparison with other branches of the respiratory chain connected with the CoQ pool. HPLC analysis revealed a lower amount of CoQ in brown adipose mitochondria (0.752 nmol/mg protein) in comparison with mitochondria from other tissues and the presence of both CoQ9 and CoQ10.  相似文献   

5.
1. Uncoupled oxidative phosphorylation in isolated guinea pig brown-adipose-tissue mitochondria is reflected by a low phosphorylation state of adenosine phosphates in the mitochondrial matrix and in the extramitochondrial space during oxidation of succinate or glycerol 1-phosphate in the presence of serum albumin and 100 muM ADP. Recoupling of respiration and phosphorylation in the mitochondria is indicatdd by a dramatic increase in the phosphorylation state of adenine nucleotides in both compartments, when substrates inducing substrate level phosphorylation are respired. In this case ATP/ADP ratios in the extramitochondrial compartment are 10-15 times higher than in the mitochondrial matrix. 2. Recoupling mediated by substrate level phosphorylation depends on the presence of extramitochondrial adenosine phosphate and on intact adenine nucleotide translocation. In the presence of substrate level phosphorylation the amount of extramitochondrial ADP required to restore energy coupling can be extremely low (20 muM ADP or 10 nmol ADP/mg mitochondrial protein respectively). If substrate level phosphorylation is prevented by rotenone or in the presence of atractyloside, 20-50 times higher amounts of extramitochondrial adenine nucleotides are necessary to cause coupled oxidative phosphorylation. The recoupling effect of ATP is significantly stronger than that of ADP. 3. GDP (100 muM) causes a rapid increase of the ATP/ADP ratio in both compartments which is independent of substrate level phosphorylation as well as of the extramitochondrial adenosine phosphate concentration and the adenine nucleotide carrier. 4. The amount of extramitochondrial adenosine phosphate in guinea pig brown-adipose-tissue (18 nmol/mg mitochondrial protein or 2.5 mM respectively) would suffice for recoupling of oxidative phosphorylation mediated by substrate level phosphorylation under conditions in vitro; this suggests that substrate level phosphorylation is of essential importance in brown fat in vivo with respect to energy conditions in the tissue during different states of thermogenesis.  相似文献   

6.
1. Adipose tissue from Angus and Brahman steers incubated with [1-14C]palmitate in the absence and presence of glucose exhibited a greater rate of lipid production than liver (P < 0.05). 2. Homogenates of adipose tissue used in the glycerol-3-phosphate acyltransferase assay exhibited a greater glycerolipid specific activity (nmol lipid/mg protein/30 min) when compared to liver (P < 0.05). 3. The inverse was true for liver homogenates when calculated for tissue activity (nmol lipid/g tissue/30 min). 4. Lysophosphatidate was produced in greater (P < 0.05) amounts than all other glycerolipids in the glycerol-3-phosphate acyltransferase assay. 5. The activity of phosphatidate phosphohydrolase in liver homogenates displayed greater rates than their respective adipose tissue homogenates. 6. Diacylglycerol acyltransferase activity was greater in adipose tissue homogenates compared to liver homogenates.  相似文献   

7.
Rat liver peroxisomes oxidized palmitate in the presence of ATP, CoA and NAD+, and the rate of palmitate oxidation exceeded that of palmitoyl-CoA oxidation. Acyl-CoA synthetase [acid: CoA ligase (AMP-forming); EC 6.2.1.3] was found in peroxisomes. The substrate specificity of the peroxisomal synthetase towards fatty acids with various carbon chain lengths was similar to that of the microsomal enzyme. The peroxisomal synthetase activity toward palmitate (40--100 nmol/min per mg protein) was higher than the rate of palmitate oxidation by the peroxisomal system (0.7--1.7 nmol/min per mg protein). The data show that peroxisomes activate long chain fatty acids and oxidize their acyl-CoA derivatives.  相似文献   

8.
Glycerol-3-phosphate oxidoreductase (sn-glycerol 3-phosphate: NAD+ 2-oxidoreductase, EC 1.1.1.8) from human placenta has been purified by chromatography on 2,4,6-trinitrobenzenehexamethylenediamine-Sepharose, DEAE-Sephadex A-50 and 5'-AMP-Sepharose 4B approximately 15800-fold with an overall yield of about 19%. The final purified material displayed a specific activity of about 88 mumol NADH min-1 mg protein-1 and a single protein band on polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulphate. The native molecular mass, determined by Ultrogel AcA 44 filtration, was 62000 +/- 2000 whereas the subunit molecular mass, established on polyacrylamide gel in the presence of 0.1% sodium dodecyl sulphate, was 38000 +/- 500. The isoelectric point of the enzyme protein, determined by column isoelectric focusing, was found to be 5.29 +/- 0.09. The pH optimum of the placental enzyme was in the range 7.4-8.1 for dihydroxyacetone phosphate reduction and 8.7-9.2 for sn-glycerol 3-phosphate oxidation. The apparent Michaelis constants (Km) for dihydroxyacetone phosphate, NADH, sn-glycerol 3-phosphate and NAD+ were 26 microM, 5 microM, 143 microM and 36 microM respectively. The activity ratio of cytoplasmic glycerol-3-phosphate oxidoreductase to mitochondrial glycerol-3-phosphate dehydrogenase in human placental tissue was 1:2. The consumption of oxygen by human placental mitochondria incubated with the purified glycerol-3-phosphate oxidoreductase, NADH and dihydroxyacetone phosphate was similar to that observed in the presence of sn-glycerol 3-phosphate. The possible physiological role of glycerol-3-phosphate oxidoreductase in placental metabolism is discussed.  相似文献   

9.
The pathway of glutamate metabolism in rat brain mitochondria   总被引:9,自引:2,他引:7       下载免费PDF全文
1. The pathway of glutamate metabolism in non-synaptic rat brain mitochondria was investigated by measuring glutamate, aspartate and ammonia concentrations and oxygen uptakes in mitochondria metabolizing glutamate or glutamine under various conditions. 2. Brain mitochondria metabolizing 10mm-glutamate in the absence of malate produce aspartate at 15nmol/min per mg of protein, but no detectable ammonia. If amino-oxyacetate is added, the aspartate production is decreased by 80% and ammonia production is now observed at a rate of 6.3nmol/min per mg of protein. 3. Brain mitochondria metabolizing glutamate at various concentrations (0-10mm) in the presence of 2.5mm-malate produce aspartate at rates that are almost stoicheiometric with glutamate disappearance, with no detectable ammonia production. In the presence of amino-oxyacetate, although the rate of aspartate production is decreased by 75%, ammonia production is only just detectable (0.3nmol/min per mg of protein). 4. Brain mitochondria metabolizing 10mm-glutamine and 2.5mm-malate in States 3 and 4 were studied by using glutamine as a source of intramitochondrial glutamate without the involvement of mitochondrial translocases. The ammonia production due to the oxidative deamination of glutamate produced from the glutamine was estimated as 1nmol/min per mg of protein in State 3 and 3nmol/min per mg of protein in State 4. 5. Brain mitochondria metabolizing 10mm-glutamine in the presence of 1mm-amino-oxyacetate under State-3 conditions in the presence or absence of 2.5mm-malate showed no detectable aspartate production. In both cases, however, over the first 5min, ammonia production from the oxidative deamination of glutamate was 21-27nmol/min per mg of protein, but then decreased to approx. 1-1.5nmol/min per mg. 6. It is concluded that the oxidative deamination of glutamate by glutamate dehydrogenase is not a major route of metabolism of glutamate from either exogenous or endogenous (glutamine) sources in rat brain mitochondria.  相似文献   

10.
Summary Heart tissue contains appreciable amounts of fatty acid-binding protein (FABP). FABP is thought to play a crucial role in the transport of fatty acids from the cellular membrane to the intracellular site of oxidation and also, in case of endothelial cells, in the transfer of fatty acids from the vascular to the interstitial compartment through the endothelial cytoplasm. The present study was designed to delineate a possible quantitative relationship between the capacity of different cell types in the heart to oxidize fatty acids and the presence of FABP. Palmitate oxidation capacity, measured in homogenates of cells isolated from adult rat hearts, was 2 nmol/min per mg tissue protein in freshly isolated cardiomyocytes (CMC), but only 0.09 and 0.31 nmol/min per mg tissue protein in cultivated endothelial (CEC) and fibroblast-like cells (CFLC), respectively. Palmitate oxidation rates were closely related to the cytochrome C oxidase activity and, hence, to the mitochondrial density in the cells under investigation. In CMC the content of cytosolic H-FABP (H-FABPc) was about 4.51 µg/mg tissue protein. However, in CEC and CFLC the FABP content was less than 0.01 and 0.004 µg/mg tissue protein, respectively, corresponding to at maximum 0.2% of the FABP content of CMC. These findings indicate a marked difference between CMC and non-myocytal cells in the heart regarding their capacity to oxidize fatty acids, and a marked disproportion between the fatty acid oxidation capacity and immunochemically determined FABP content in both CEC and CFLC. The functional implication of these observations remains to be elucidated.  相似文献   

11.
Auer M  Kim MJ  Lemieux MJ  Villa A  Song J  Li XD  Wang DN 《Biochemistry》2001,40(22):6628-6635
The glycerol-3-phosphate (G3P) transporter, GlpT, from Escherichia coli mediates G3P and inorganic phosphate exchange across the bacterial inner membrane. It possesses 12 transmembrane alpha-helices and is a member of the Major Facilitator Superfamily. Here we report overexpression, purification, and characterization of GlpT. Extensive optimization applied to the DNA construct and cell culture has led to a protocol yielding approximately 1.8 mg of the transporter protein per liter of E. coli culture. After purification, this protein binds substrates in detergent solution, as measured by tryptophan fluorescence quenching, and its dissociation constants for G3P, glycerol-2-phosphate, and inorganic phosphate at neutral pH are 3.64, 0.34, and 9.18 microM, respectively. It also shows transport activity upon reconstitution into proteoliposomes. The phosphate efflux rate of the transporter in the presence of G3P is measured to be 29 micromol min(-1) mg(-1) at pH 7.0 and 37 degrees C, corresponding to 24 mol of phosphate s(-1) (mol of protein)(-1). In addition, the glycerol-3-phosphate transporter is monomeric and stable over a wide pH range and in the presence of a variety of detergents. This preparation of GlpT provides ideal material for biochemical, biophysical, and structural studies of the glycerol-3-phosphate transporter.  相似文献   

12.
The hydrolysis of ATP to ADP and P(i) is an integral part of all substrate reduction reactions catalyzed by nitrogenase. In this work, evidence is presented that nitrogenases isolated from Azotobacter vinelandii and Clostridium pasteurianum can hydrolyze MgGTP, MgITP, and MgUTP to their respective nucleoside diphosphates at rates comparable to those measured for MgATP hydrolysis. The reactions were dependent on the presence of both the iron (Fe) protein and the molybdenum-iron (MoFe) protein. The oxidation state of nitrogenase was found to greatly influence the nucleotide hydrolysis rates. MgATP hydrolysis rates were 20 times higher under dithionite reducing conditions (approximately 4,000 nmol of MgADP formed per min/mg of Fe protein) as compared with indigo disulfonate oxidizing conditions (200 nmol of MgADP formed per min/mg of Fe protein). In contrast, MgGTP, MgITP, and MgUTP hydrolysis rates were significantly higher under oxidizing conditions (1,400-2,000 nmol of MgNDP formed per min/mg of Fe protein) as compared with reducing conditions (80-230 nmol of MgNDP formed per min/mg of Fe protein). The K(m) values for MgATP, MgGTP, MgUTP, and MgITP hydrolysis were found to be similar (330-540 microM) for both the reduced and oxidized states of nitrogenase. Incubation of Fe and MoFe proteins with each of the MgNTP molecules and AlF(4)(-) resulted in the formation of non-dissociating protein-protein complexes, presumably with trapped AlF(4)(-) x MgNDP. The implications of these results in understanding how nucleotide hydrolysis is coupled to substrate reduction in nitrogenase are discussed.  相似文献   

13.
Mitochondria isolated from the heart of cod (Gadus morrhua callarias) oxidized malate as the only exogenous substrate very rapidly. Pyruvate only slightly increased malate oxidation by these mitochondria. This is in contrast with the mitochondria isolated from rat and rabbit heart which oxidized malate very slowly unless pyruvate was added. Arsenite and hydroxymalonate (an inhibitor of malic enzyme) inhibited the respiration rate of mitochondria isolated from cod heart, when malate was the only exogenous substrate. Inhibition caused by hydroxymalonate was reversed by the addition of pyruvate. In the presence of arsenite, malate was converted to pyruvate by cod heart mitochondria. Cod heart mitochondria incubated in the medium containing Triton X-100 catalyzed the reduction of NADP+ in the presence of L-malate and Mn2+ at relatively high rate (about 160 nmoles NADPH formed/min/mg mitochondrial protein). The oxidative decarboxylation of malate was also taking place when NADP+ was replaced by NAD+ (about 25 nmol NADH formed per min per mg mitochondrial protein). These results suggest that the mitochondria contain both NAD+- and NADP+-linked malic enzymes. These two activities were eluted from DEAE-Sephacel as two independent peaks. It is concluded that malic enzyme activity (presumably both NAD+- and NADP+-linked) is responsible for the rapid oxidation of malate (as the only external substrate) by cod heart mitochondria.  相似文献   

14.
Further evidence that there is more than one adrenal 21-hydroxylase system   总被引:1,自引:0,他引:1  
The 21-hydroxylase activity of microsomes isolated from bovine adrenal cortex have been assayed using [21-3H]17-hydroxypregnenolone and [1,2-3H]17-hydroxyprogesterone as substrates. When the assays are performed in the presence of an NADH regenerating system, to inhibit steroid 3 beta-hydroxy isomerase-dehydrogenase activity, the microsomes oxidize the 3 beta-hydroxy-5-ene steroid at a rate of 0.37 nmol/min.nmol cytochrome P-450 and the 3-keto-4-ene steroid at a rate of 6.4 nmol/min.nmol. When the microsomes are solubilized with Triton CF-54 they lose the ability to oxidize the 3-hydroxy-5-ene steroid, while the specific activity of the microsomes for the 3-keto-4-ene steroid is enhanced 3-fold. In contrast, when the microsomes are solubilized with sodium cholate, their specific activity towards the 4-ene steroid is decreased by 50% while the specific activity for a low concentration of the 5-ene steroid, 1 microM, is unchanged. In addition, when the oxidations of the labeled steroids (at 1 microM) by the microsomes, are examined in the presence of unlabeled 17-hydroxyprogesterone (at 20 microM) the oxidation of the 3-keto-4-ene steroid is inhibited by 92% while the oxidation of the 3 beta-hydroxy-5-ene steroid is only inhibited by 20%. These results all suggest that there are at least two 21-hydroxylases in bovine adrenal tissue, one of which can utilize the 3-keto-4-ene steroids only, the other of which, in addition, can utilize the 3 beta-hydroxy-5-ene steroids as substrates.  相似文献   

15.
1. The fixation of CO(2) by pyruvate carboxylase in isolated rat brain mitochondria was investigated. 2. In the presence of pyruvate, ATP, inorganic phosphate and magnesium, rat brain mitochondria fixed H(14)CO(3) (-) into tricarboxylic acid-cycle intermediates at a rate of about 250nmol/30min per mg of protein. 3. Citrate and malate were the main radioactive products with citrate containing most of the radioactivity fixed. The observed rates of H(14)CO(3) (-) fixation and citrate formation correlated with the measured activities of pyruvate carboxylase and citrate synthase in the mitochondria. 4. The carboxylation of pyruvate by the mitochondria had an apparent K(m) for pyruvate of about 0.5mm. 5. Pyruvate carboxylation was inhibited by ADP and dinitrophenol. 6. Malate, succinate, fumarate and oxaloacetate inhibited the carboxylation of pyruvate whereas glutamate stimulated it. 7. The results suggest that the metabolism of pyruvate via pyruvate carboxylase in brain mitochondria is regulated, in part, by the intramitochondrial concentrations of pyruvate, oxaloacetate and the ATP:ADP ratio.  相似文献   

16.
Mitochondria isolated from adrenal cortex of beef do oxidize glutamate if the amino group acceptor-oxaloacetate (or its precursor-malate) is present in the incubation medium. The glutamate (plus oxaloacetate) oxidation was enhanced by ADP or deoxycorticosterone, indicating that this respiration can support both oxidative phosphorylation and 11 beta-hydroxylation of deoxycorticosterone to corticosterone. Avenaciolide (inhibitor of glutamate entry into the mitochondria), aminooxyacetate (inhibitor of aspartate aminotransferase activity) and arsenite (inhibitor of 2-oxoglutarate dehydrogenase) when introduced into the incubation media before respirating substrates, inhibited the ability of ADP or deoxycorticosterone to stimulate the rate of glutamate (plus oxaloacetate) oxidation.  相似文献   

17.
The synthesis of the enzymes of the glycerophosphate pathway in Neurospora has been examined during exponential growth of cells on acetate as the sole carbon source. After the addition of glycerol to the media, increases in the levels of both glycerokinase and a mitochondrial glycerol-3-phosphate dehydrogenase are observed within 1 h and fully induced levels are reached within one and a half mass doublings for glycerokinase and two and a half mass doublings for glycerol-3-phosphate dehydrogenase. The increase in glycerokinase activity represents de novo synthesis of enzyme as evidenced by the absence of immunologically related protein in uninduced cell extracts. The synthesis of both glycerokinase and glycerol-3-phosphate dehydrogenase can be totally inhibited by treatment of cells with 20 μg/ml cycloheximide. During incubation with 4 mg/ml chloramphenicol, there is normal synthesis of glycerokinase but a 30–50% inhibition of mitochondrial glycerol-3-phosphate dehydrogenase synthesis. However, under these conditions, in the cytosol fraction there is a significant increase in glycerol-3-phosphate dehydrogenase specific activity, suggesting that precursors are synthesized and accumulated in the cytosol prior to incorporation into mitochondria. Upon removal of chloramphenicol, the rate of appearance of glycerol-3-phosphate dehydrogenase into the mitochondria is up to four times greater than observed in untreated controls. It is concluded that both glycerokinase and glycerol-3-phosphate dehydrogenase are synthesized on cytoplasmic ribosomes, but that final assembly of glycerol-3-phosphate dehydrogenase into mitochondria is dependent on concomitant synthesis of mitochondrial inner membrane.  相似文献   

18.
Schizosaccharomyces pombe yeast cells grown on either fermentable or respiratory media were efficiently converted to stable spheroplasts by the -(1 3)-glucanase Novozym 234 in the presence of 1.2M sorbitol. Lysis of spheroplasts by gentle homogenization in dilute sorbitol resulted in the preparation of mitochondria with a structure similar to that observed within the starting yeast cells. The isolated mitochondria exhibited high oxidation rates with various respiratory substrates, NADH being the most efficient. The mitochondria appeared well coupled since the second State 4 rate observed after ADP consumption was identical to the initial one. The State 3 rate in the presence of ADP was completely inhibited by low oligomycin concentrations, similarly to the concomitant ATP synthesis of 900 nmol/min × mg protein. These NADH oxidation and dependent ATP-synthesis activities are much higher than those previously described for mitochondria isolated fromSchizosaccharomyces pombe, and similar to the highest values reported forSaccharomyces cerevisiae.  相似文献   

19.
To determine how starvation affects adrenal steroidogenesis we measured the activities of 3 adrenal enzymes involved in corticosterone biosynthesis in a group of adult female rats. The animals were either starved for 7 days or fed ad libitum for the same period. Relative adrenal weight and plasma corticosterone levels were increased in the experimental group of animals compared to the control group (40 +/- 2 vs 27 +/- 1 mg/100 g body weight, P less than 0.001, and 45 +/- 4 vs 30 +/- 5 ng/dl, P less than 0.05 respectively). There were no differences in plasma ACTH levels between the groups (34 +/- 5 vs 26 +/- 4 pg/ml). 11-Hydroxylase activity was increased in the starved group of animals (18 +/- 3 vs 8 +/- 2 nmol/mg protein/min, P less than 0.01). 3 beta-Hydroxysteroid dehydrogenase and 21-hydroxylase activities were not different between the groups (19 +/- 2 vs 16 +/- 1 nmol/mg protein/min, and 100 +/- 10 vs 110 +/- 10 pmol/mg protein/min respectively). These results suggest that acute starvation in rats produces an increase in adrenal 11-hydroxylase activity.  相似文献   

20.
[14C]Pyruvate was rapidly non-oxidatively decarboxylated by Ehrlich tumor mitochondria at a rate of 40 nmol/min/mg of protein in the presence or absence of ADP. A search for decarboxylation products led to significant amounts of acetoin formed when Ehrlich tumor mitochondria were incubated with 1 mM [14C] pyruvate in the presence of ATP. Added acetoin to aerobic tumor mitochondria was rapidly utilized in the presence of ATP at a rate of 65 nmol/min/mg of protein. Citrate has been found as a product of acetoin utilization and was exported from the tumor mitochondria. Acetoin has been found in the ascitic liquid of Ehrlich and AS30-D tumor-bearing animals. These unusual reactions were not observed in control rat liver mitochondria.  相似文献   

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