UNIPROT:P06889 - FACTA Search

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Plasma membranes have been prepared from porcine thyroid glands using sucrose gradients. The fractions having a density in sucrose of 1.18 g/ml mainly contained plasma membranes and were moderately contaminated with other subcellular components as shown by marker enzyme data. Purified plasma membranes incubated in the presence of [32-P]gamma ATP incorporated 32-P. Kinetics of incorporation of 32-P into endogenous substrates studied in various buffers and with increasing ATP concentration suggest a phosphodephosphorylating system related to cAMP-dependent protein kinase and phosphoprotein phosphatase activities. The two enzymatic activities associated with plasma membranes have been demonstrated using exogenous substrates. cAMP increases and fluoride ions decrease the extent of membrane phosphorylation. The specific activity of protein kinase was 10-12 times higher than in the initial homogenate and was only slightly enhanced in the presence of 0.5% Nonidet as compared to microsomal fraction. cAMP binding to membrane proteins was 3 times higher than to the other particulate fractions. TSH present in the incubating medium or added after 5 min of 32-P labelling induced a rapid stimulation of endogenous phosphorylation followed by a rapid decrease. Phosphorylated membrane substrates were analyzed: high voltage paper electrophoresis after partial hydrolysis indicated that [32-P]phosphate is incorporated into serine and threonine residues as o-phosphate derivatives. SDS-polyacrylamide gel electrophoresis showed several 32--labelled fractions. When enhanced by cAMP, no specific phosphorylation of protein components was observed.
Mol Cell Endocrinol 1975 May
PMID:Phosphorylation of purified thyroid plasma membranes incubated with [32-P]ATP. 16 13

Added free fatty acids inhibit oxidation of glycerol 3-phosphate, succinate and NADH in brown-adipose tissue mitochondria from 10-day-old rats. The most pronounced is the inhibitory effect of glycerol 3-phosphate cytochrome c reductase (GP-cyto. c reductase). Contrary to other reductases, GP-cyto. c reductase activity of freshly isolated mitochondria is already inhibited by the fraction of endogenous free fatty acids. Both added and endogenous free fatty acids inhibition of GP-cyto. c reductase is fully reversible by the removal of free fatty acids by bovine serum albumine treatment. The inhibition of GP-cyto. c reductase is of strictly non-competitive type. The most inhibitory are unsaturated long-chain free fatty acids-oleic and linoleic acid. Results are discussed with regards to the regulatory importance of free fatty acids in brown-adiposetissue during intensive non-shivering thermogenesis.
Mol Cell Biochem 1975 Apr 30
PMID:The regulation of glycerol 3-phosphate oxidase of rate brownadipose tissue mitochondria by long-chain free fatty acids. 16 98

An investigation was made of changes in subunit interactions in glyceraldehyde 3-phosphate dehydrogenase on binding NAD+, NADH and other substrates by using the previously developed method of measurement of rates and extent of subunit exchange between the rabbit enzyme (R4), yeast enzyme (Y4) and rabbit-yeast hybrid (R2Y2) [Osborne & Hollaway (1974) Biochem. J. 143, 651-662]. The free energy of activation for the conversion of tetramer into dimer for the rabbit enzyme (R4 leads to 2R2) is increased by at least 12kJ/mol in the presence of NAD+. This increase is interpreted in terms of an NAD+-induced 'tightening' of the tetrameric structure probably involving increased interaction at the subunit interfaces across the QR plane of the molecule [see Buehner et al. (1974) J. Mol. Biol. 82, 563-585]. This tightening of the structure only occurs on binding the third NAD+ molecule to a given enzyme molecule. Conversely, binding of NADH causes a decrease in the free energy of activation for the R4 leads to 2R2 and Y4 leads to 2Y2 conversions by at least 10kJ/mol. This is interpreted as a NADH-induced 'loosening' of the structures arising from decreased interactions across the subunit interfaces involving the QR dissociation plane. In the presence of NADH the increase in the rate of subunit exchange is such that it is not possible to separate the hybrid from the other species if electrophoresis is carried out with NADH in the separation media. In the presence of a mixture of NADH and NAD+ the effect of NAD+ on subunit exchange is dominant. The results are discussed in terms of the known co-operativty between binding sites in glyceraldehyde 3-phosphate dehydrogenases.
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PMID:The investigation of substrate-induced changes in subunit interactions in glyceraldehyde 3-phosphate dehydrogenases by measurement of the kinetics and thermodynamics of subunit exchange. 17 55

The production of corticosterone from 25-hydroxycholesterol by isolated rat adrenal cells is inhibited by aminoglutethimide phosphate (AGI); half-maximal inhibition is obtained at ca. 10 muM. AGI also inhibits ACTH-stimulated steroid production from endogeneous substrates; here half-maximal inhibition is obtained with ca. 40 muM AGI. In the presence of ACTH + AGI, 25-hydroxycholesterol causes additive inhibition. This effect of 25-hydroxycholesterol is dose-dependent. ACTH-stimulated steroid production from endogeneous substrates is partially inhibited by 5-cholene-3 beta,24-diol. These results may just reflect substrate competition for the side-chain cleaving system or may be due to some seocndary toxic effect on the cells.
Mol Cell Endocrinol 1976 Jan
PMID:Effects of 25-hydroxycholesterol and aminoglutethimide in isolated rat adrenal cells. A model for congenital lipoid adrenal hyperplasia? 17 62

Spin-labeled analogues of vitamin B6: 2, 2, 6, 6-tetramethyl-N-oxylpiperydinyl-4-(5' phosphopyridoxyl)-amine (1) and 2, 2, 6, 6-tetramethyl-N-oxyl-piperydinyl-4-(pyridoxal-5')-phosphate (II) are synthesized. There analogues were shown to interact in the equimolar ratio with the active site of cytosol aspartate transaminase. It was proved by CD-titration of apotransaminase with I and II and by competition between the coenzyme and synthesized analogues. The free valency of spin-labeled coenzymes immediately disappears after interaction with the apoenzyme due to iminoxyl group reduction. The binding of I and II with the apoenzyme is accompanied by oxidation of one of the inner cysteine residues. The reactivation of the modified apoenzyme with PLP is not less than 65% of original transaminase activity. The analysis of space-filling atomic models of synthesized compounds allows to conclude that the distance between the centre of pyridine ring of the coenzyme and the modified thiol group is not more than 8 A.
Mol Biol (Mosk)
PMID:[Interaction of spin-labeled analogues of vitamin B 6 with the active site of apotransaminase]. 17 69

The URA2 locus codes for a multifunctional enzyme complex carrying aspartate transcarbamylase (ATCase) and carbamyly phosphate synthetase (CPSase) activities. Three different types of ura2 mutants were tested in meiotic and mitotic recombination experiments: ura2A mutants devoid of ATCase activity, ura2C mutants devoid of CPSase activity and ura2B mutants devoid of both activities. All the ura2A mutations were found to be clustered at one end of the URA2 locus, called zone A, while the ura2C mutations were localized in a region at the other end, called zone C. All but two ura2B mutations (most of them suppressible) were distributed throughout zone C; the two ura2B exceptions which are small deletions, mapped in zone A. On the meiotic as well as on the mitotic map an intermediary or dead-space zone is located between zones A and C. No mutation has yet been found to map in this zone. The relative lengths of the three zones A, intermediary and C are 1 :2-3 :3-4, respectively. These data are consistent with the hypothesis that the URA2 locus consisting of at least two cistrons: C (CPSase) and A (ATCase), is transcribed into a single polycistronic message in the direction C to A. However, alternative hypotheses in reference to Peterson and MacLaughlin's observations (1973) are discussed.
Mol Gen Genet 1976 Jun 15
PMID:Fine structure of the URA2 locus in Saccharomyces cerevisiae. II. Meiotic and mitotic mapping studies. 18 68

A rapid procedure for the purification of the hepatic glucocorticoid receptor has been developed which exploits the observation that "activation" of this complex enables it to bind to anionic substances such as DNA and phosphocellulose. The procedure consists of two phosphocellulose columns operated in sequence. The first column removes from unfractionated cytosol all basic proteins which adhere to the immobilized phosphate residues; the steroid - receptor complex elutes in the flow-through of this first column. This complex is then thermally activated and applied to a second phosphocellulose column where it is retained, washed, and eluted by a salt gradient. This simple procedure is capable of purifying the steroid - receptor complex over 1000-fold.
Mol Cell Endocrinol
PMID:Partial purification of the activated hepatic glucocorticoid - receptor complex. 18 73

We have proposed that glucose-6-phosphatase (EC 3.1.3.9) is a two-component system consisting of (a) a glucose-6-P-specific transporter which mediates the movement of the hexose phosphate from the cytosol to the lumen of the endoplasmic reticulum (or cisternae of the isolated microsomal vesicle), and (b) a nonspecific phosphohydrolase-phosphotransferase localized on the luminal surface of the membrane (Arion, W.J., Wallin, B.K., Lange, A.J., and Ballas, L.M. (1975) Mol. Cell. Biochem. 6, 75-83). Additional support for this model has been obtained by studying the interactions of D-mannose-6-P and D-mannose with the enzyme of untreated (i.e. intact) and taurocholate-disrupted microsomes. An exact correspondence was shown between the mannose-6-P phosphohydrolase activity at low substrate concentrations and the permeability of the microsomal membrane to EDTA. The state of intactness of the membrane influenced the kinetics of mannose inhibition of glucose-6-P hydrolysis; uncompetitive and noncompetitive inhibitions were observed for intact and disrupted microsomes, respectively. The apparent Km for glucose-6-P was smaller with intact preparations at mannose concentrations above 0.3 M. Mannose significantly inhibited total glucose-6-P utilization by intact microsomes, whereas D-glucose had a stimulatory effect. Both hexoses markedly enhanced the rate of glucose-6-P utilization by disrupted microsomes. The actions of mannose on the glucose-6-phosphatase of intact microsomes fully support the postulated transport model. They are predictable consequences of the synthesis and accumulation of mannose-6-P in the cisternae of microsomal vesicles which possess a nonspecific, multifunctional enzyme on the inner surface and a limiting membrane permeable to D-glucose, D-mannose, glucose-6-P, but impermeable to mannose-6-P. The latency of the mannose-6-P phosphohydrolase activity is proposed as a reliable, quantitative index of microsomal membrane integrity. The inherent limitations of the use of EDTA permeability for this purpose are discussed.
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PMID:Microsomal membrane permeability and the hepatic glucose-6-phosphatase system. Interactions of the system with D-mannose 6-phosphate and D-mannose. 18 83

The kinetic method and selective chemical modification have been used in studies of the kinetic manifestations of active site interactions in D-glyceraldehyde-3-phosphate dehydrogenase (GAP dehydrogenase). The reactions of glyceraldehyde and glyceraldehyde-3-phosphate oxidation were studied in the absence of substrate excess. In support of the data obtained previously it was shown that only a part of the tightly bound NAD molecules can be reduced after substrate addition. "Partial reducibility" is observed at various degrees of saturation of the enzyme with NAD involving a single NAD molecule per tetrametric enzyme. These facts can hardly be explained by assumption of functional non-equivalence of active sites, whether induced by coenzyme or preexisting in the apoenzyme. It was proven by selective alkylation of the catalytic SH groups that "partial reducibility" is due to the circumstance that equilibrium in the system under investigation is established at nearly equal NAD and NADH concentrations. A plot of initial reaction rates versus NAD concentration (at non-saturating substrate concentrations) gives S-shaped curves; this is explained by considerable enzyme activation upon saturation of the fourth site with coenzyme. After modification of three active sites with iodoacetate the S-shape of the curve disappeared. This fact leads to the conclusion that active site interactions are required for formation of the S-shaped curves. The activity of a single site functioning in the modified enzyme reached values equal to those of the active sites in the native enzyme in the fully activated state. A model is proposed which can explaine the variations in mode of enzyme activation in the native and modified states. It is suggested that the surroundings of all four SH groups must be altered in order to activate the enzyme; such changes can be induced either by alkylation of the SH groups or by NAD binding. Evidence is presented that important functional properties of GAP dehydrogenase cannot be elucidated at low enzyme concentrations and with excess of substrates: three active sites are saturated under such conditons and practically inactive, and the fourth site obeys Michaelis - Menten kinetics.
Mol Biol (Mosk)
PMID:[Kinetic manifestations of the interaction of active centers in swine skeletal muscle D-glyceraldehyde-3-phosphate dehydrogenase]. 18 4

An investigation was made of the effect of NAD+ analogues on subunit interactions in yeast and rabbit muscle glyceraldehyde 3-phosphate dehydrogenases by using the subunit exchange (hybridization) method described previously [e.g. see Osborne & Hollaway (1975) Biochem. J. 151, 37-45]. The ligands ATP, ITP, ADP, AMP, cyclic AMP and ADP-ribose like NADH, all caused an apparent weakening of intramolecular subunit interactions, whereas NAD+ caused an apparent increase in the stability of the tetrameric enzyme molecules. A mixture of NMN and AMP, although it did not simulate completely the NAD+-induced 'tightening' of the enzyme structure, did result in a more than 20-fold decrease in the rate of subunit exchange compared with that in the presence of AMP alone. These results show that occupancy of the NMN subsite of the enzyme NAD+-binding site is insufficient in itself to give the marked tightening of the enzyme structure induced by NAD+. The 'tightening' effect is specific in that it seems to require a phosphodiester link between NMN and ADP-ribose. These effects are discussed in terms of the detailed X-ray structure of the lobster holoenzyme [Buehner et al. (1974) J. Mol. Biol. 90, 25-49].
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PMID:An investigation of the nicotinamide-adenine dinucleotide-induced 'tightening' of the structure of glyceraldehyde 3-phosphate dehydrogenase. 18 44

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