UMLS:C0027960 - FACTA Search

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Query: UMLS:C0027960 (mole)
21,279 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. Adenine nucleotide exchange-transport was reconstituted in vesicles prepared from phospholipids and protein fractions derived from bovine heart submitochondrial particles. The transport, which was specific for ATP and ADP was measured either as ADP/ADP, ATP/ATP, or ADP/ATP exchange. The highest specific activity (370 nanomoles of ADP/ADP exchange/min/mg of protein at room temperature) was obtained with a protein fraction prepared by cholate extraction of partly resolved submitochondrial particles followed by ammonium sulfate fractionation. 2. At 200 muM external nucleotide, the exchange reactions were inhibited by low concentrations of bongkrekate, atractyloside, and palmitoyl-CoA, with Ki values of 1.8, 3.0, and 7.5 muM, respectively. The ADP/ADP nucleotide exchange was stimulated about 5-fold by 500 muM MgCl2 or MnCl2(km of 40 muM) and about 3-fold by 500 muM CaCl2(Km of 90 muM). It was optimal between pH 6.0 and 7.0 and decreased rapidly above pH 7.5. Arrhenius plots between 0 degrees and 40 degrees showed a break point at 15 degrees with soybean phospholipids and an activation energy of 29.5 kcal/mole from 0 degrees-15 degrees and 9.0 kcal/mole from 15 degrees-40 degrees. With mitochondrial phospholipids the break point was at 9 degrees and activation energies were 42.4 kcal/mole from 0 degrees-9 degrees and 7.6 kcal/mole from 9 degrees-40 degrees. 3. The phospholipid requirements for adenine nucleotide exchange were similar to those of oxidative phosphorylation. Optimal rates were observed with a phosphatidylethanolamine to phosphatidylcholine ratio of 4:1. Cardiolipin had a slight stimulatory effect. 4. The uptake of ADP into vesicles containing ATP was stimulated by KCl or by KPi as well as by hexafluoracetonylacetone, and uncoupler of oxidative phosphorylation. The uptake of ATP into vesicles containing ADP was inhibited by KCl or by KPi, but was also stimulated by hexafluoracetonylacetone. In both cases valinomycin reversed the effects of KCl, while mersalyl or N-ethylmaleimide prevented the effects of KPi. In contrast, none of these salts nor hexafluoracetonylactone affected the ADP/ADP or ATP/ATP exchange. These findings suggest that in the reconstituted system the ADP/ATP exchange is electrogenic.
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PMID:Reconstitution and characterization of the adenine nucleotide transporter derived from bovine heart mitochondria. 0 48

D-Erythrulose reductase of beef liver was crystallized from ammonium sulfate solution at pH 8.17. The crystals are needle-shaped. The enzyme protein contains 851 amino acid residues per mole of the enzyme: Lys28, His11, Arg52, Asp79, Thr58, Ser56, Glu68, Pro20, Gly80, Ala107, Val112, Met24, Ile31, Leu88, Tyr7, Phe22, Trp4, and Cys4. The enzyme is inactivated by exposure to temperatures below 12degrees. The inactivation is accelerated by increasing the salt concentration and decreasing the enzyme concentration. The pH of the medium also has a pronounced effect, the maximum stability of the enzyme is obtained at pH 8.5. NADP+ protected the enzyme from cold inactivation at all stages of the process and also afforded protection against inactivation by heat and pH. The cold inactivation of the enzyme is accompanied by dissociation of the enzyme protein to subunits.
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PMID:Studies on D-tetrose metabolism. VI. Crystallization and some properties of D-erythrulose reducatase from beef liver. 0 10

Michaelis-Menten kinetics are observed in studies of highly purified bovine adrenal glucose-6-phosphate dehydrogenase at pH8.0 in 0.1 M bicine. The Km for NADP+ is 3.8 muM and for glucose-6-phosphate, 61 muM. At pH 6.9 Km for NADP+ increases to 6.5 muM. The enzyme is inhibited by NADPH both at pH 6.8 and at 8.0 with a Kip of 2.36 muM at pH 8.0. Inhibition is competitive with respect to both substrates implying that addition of substrates is random ordered. The data are also interpreted in terms of "reducing charge", the mole fraction of coenzyme in the reduced form. This appears to be the major mechanism for regulation of the pentose shunt. D-glucose, oxidized by the enzyme at a very slow rate, is also a competitive inhibitor for the natural substrate with a Ki of 0.29 M. Phosphate is a competitive inhibitor for glucose-6-phosphate oxidation but both phosphate and sulfate accelerate glucose oxidation suggesting a common binding site for the two anions and the phosphate of the natural substrate. While binding of ACTH to our enzyme preparations has been observed, we have not been able, in spite of repeated attempts, to demonstrate augmentation of the activity of the enzyme by the addition of ACTH.
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PMID:Kinetics and control of bovine adrenal glucose-6-phosphate dehydrogenase. 0 67

The dihydrofolate synthetase (EC 6.3.2.12) responsible for catalyzing the synthesis of dihydrofolic acid from dihydropteroic acid and L-glutamic acid was purified about 130-fold from extracts of Serratia indica IFO 3759 by ammonium sulfate fractionation, DEAE-Sephadex column chromatography, Sephadex G-200 gel filtration, and DEAE-cellulose column chromatography. The enzyme preparation obtained was shown to be homogeneous by DEAE-cellulose column chromatography and ultracentrifugal analysis. The sedimentation coefficient of this enzyme was 3.9 S, and the molecular weight was determined to be about 47,000 by Sephadex G-100. The optimum pH for the reaction was 9.0. The enzymatic reaction required dihydropteroate, L-glutamate and ATP as substrates, and Mg2+ and K+ as cofactors. gamma-L-Glutamyl-L-glutamic acid cannot replace L-glutamic acid as the substrate. Neither pteroic acid nor tetrahydropteroic acid can be used as the substrate. ATP was partially replaced by ITP or GTP. The enzyme reaction was inhibited by the addition of AD, but not by AMP. One mole of dihydrofolate, 1 mole of ADP and 1 mole of orthophosphate were produced from each 1 mole of dihydropteroic acid, L-glutamic acid, and ATP by the following equation: 7,8-Dihydropteroic acid ml-Glutamic acid matp Mg2+, K+ leads to Dihydrofolic acid + ADP + Pi. These results suggest that the systematic name for the dihydrofolate synthetase is 7,8-dihydropteroate: L-glutamate ligase (ADP).
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PMID:Purification and properties of the dihydrofolate synthetase from Serratia indica. 0 96

The alkaline phosphatase (orthophosphoric monoester phosphydrolase, EC 3.1.3.1) of Bacillus licheniformis MC14 was studied in an attempt to determine the number of subunits contained in the 120,000-molecular-weight native enzyme. Two moles of arginine was liberated per mole of native enzyme by carboxypeptidases A and B in the presence of sodium dodecyl sulfate. The effect on the native enzyme of progressively lowering the solvent buffer pH was monitored by determining the molecular weight by sedimentation equilibrium analysis, the sedimentation coefficient, the frictional coefficient, and the percent alpha-helix content of the enzyme. The alkaline phosphatase dissociates into two subunits around pH 4. At pH 2.8 a further decrease in S value, but no change in molecular weight, is observed, indicating a change in conformation. The frictional coefficients and percent alpha-helix content agree with this interpretation. A subunit molecular weight of 59,000 was calculated from sodium dodecyl sulfate gels.
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PMID:Subunits of the alkaline phosphatase of Bacillus licheniformis: chemical, physicochemical, and dissociation studies. 1 Feb 80

The S-adenosyl-methionine: catechol-O-methyltransferase (EC 2.1.1.6) from rat kidney was purified about 650 fold as compared with the homogenate and the result of disc electrophoresis presented. The purification involved extraction, precipitation at pH 5, ammonium sulfate fractionation, Chromatographies on Biogel 0.5 m, Ultrogel AcA 44 and DE Sephadex A 50. Affinity chromatography was tried but unsuccessful. The enzyme exhibited two pH optima at 7.9 and 9.6 with a minimum at about 8.9. The COMT had a temperature optimum of 50 degrees C, with activation energy of 23.1 Kcal/Mole between 25-35 degrees C, 18.9 Kcal/mole between 35-45 degrees C and the Q10 within the range of 25-35 degrees amounted to 3.5. The molecular weight was estimated to be 21500+/-1000 daltons from its behavior on Ultrogel AcA 44 and the pH1 determined by electrofocalisation was near 5.50. The time of half life of the best purified enzymatic extract was found to be 2 h 10 min. at -20 degrees C. At basic pH the instability of the enzyme was increased. Since O-methylation required the presence of divalent cations, our results show that apparent Michaelis constants for Mg++ and Mn++ were respectively 0.50 X 10(-3) M and 0.33 X 10(-5) M. The study of their Hill's number indicated that there was only one point of fixation on the enzyme. The Km value determined by Florini and Vestling's method were 2.5 X 10(-4) M and 11.9 X 10(-5) M for epinephrine and S-adenosyl-methionine respectively. All results were discussed with respect to other investigations.
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PMID:[Purification and properties of rat kidney catechol-O-methyltransferase]. 1 36

A FAD-containing monooxygenase isolated from pig liver microsomes migrates as a single band upon electrophoresis in polyacrylamide gels in the presence of dodecyl sulfate. The minimum molecular weight based on mass of amino acids per mole of flavin is 64,000. However, the catalytically active enzyme exists as aggregating units of the monomer. Neither oxygen nor organic substrates perturbed the spectrum of the oxidized flavoprotein and their binding to this form of the enzyme could not be detected. Anaerobically NADPH bleaches the flavoprotein, and in the presence of both NADPH and oxygen a remarkably stable intermediate form of the enzyme, with an absorption band at 375 nm, is observed. The spectrum of the intermediate resembles that of a peroxyflavin. The monooxygenase catalyzes NADPH- and oxygen-dependent oxygenations of nucleophilic nitrogen- or sulfur-containing compounds. Kinetic studies carried out with a model organic nitrogen substrate (trimethylamine) and a sulfur substrate (methimazole) gave similar patterns. The kinetic data are consistent with an ordered Ter-Bi mechanism with an irreversible step between the second and third substrate where NADPH is added first, followed by oxygen, and the oxidizable organic substrate is added last. If NADPH is the first substrate added, then NADP+ must be the last product released since NADP+ is competitive with NADPH.
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PMID:The liver microsomal FAD-containing monooxygenase. Spectral characterization and kinetic studies. 3 96

The demonstrated role of proton translocation and resulting electrochemical activity gradients (protonmotive force) in ATP synthesis by chloroplasts is noted. Evidence for the participation of conformational changes in the terminal ATPase (coupling factor, or CF1) is reviewed. Hydrogen exchange into ordinarily cyptic groups of the molecule occurs only when the subtending membranes are put under the stress of a protonmotive force. Since up to 100 hydrogen atoms per mole are involved in the energy-dependent exchange the conformational change permitting tham access to the medium must be a major one. Chemical reagents are beginning to be used to attack groups on CF1 that are exposed only when the membranes are energized. N-ethylmaleimide binds covalently, sulfate causes as yet unspecified damage, and permanganate leads to oxidative damage to CF1 under energized conditions. The last two reagents are analogues of phosphate, and ADP must be added for them to inhibit. On the basis of this and other differences between the conditions needed for inhibition by permanganate or sulfate, and that by N-ethylmaleimide or the hydrogen exchange, a somewhat complex scheme involving several successive or alternative conformations of CF1 can be postulated. Questions are raised as to the way in which a conformational change in a bound protein could be caused by a proton activity gradient across its supporting membrane, and as to whether the altered conformations might constitute a part of the energy transformations leading to ATP synthesis.
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PMID:Chloroplast membranes and coupling factor conformations. 12 71

Articular cartilage from 6-month-old calves was maintained in organ culture in Eagle's minimum essential medium at different oxygen tensions between 20 and 50%. When well standardized cartilage pieces of about 1 mm thickness were used the results showed a high degree of reproducibility. The glycosaminoglycans were studied using the cetylpyridinium chloride cellulose and epichlorohydrin triethanolamine (ECTEOLA) column techniques on a microscale. In some experiments the cartilage was labelled with [35S]sulfate. Small alterations of the concentrations and distribution of different glycosaminoglycans were found and were not affected by various oxygen tensions for up to 4 weeks. A small increase was found in the fractions containing low molecular weight chondroitin sulfate. Devitalized cartilage, maintained under identical conditions, remained largely unaltered during the 4 weeks. The [35S]sulfate activity calculated per mole of hexosamine showed a general decrease during culture maintenance. High specific activities in the fractions containing low molecular weight chondroitin sulfate and keratan sulfate were found between 1 and 3 weeks of maintenance in 20% oxygen. Maintenance in 50% oxygen resulted in severely disturbed synthesis of glycoaminoglycans. The results are interpreted as showing that the synthesis pattern of glycosaminoglycans in articular cartilage can be altered by other factors and without the prior loss of glycosaminoglycans.
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PMID:Calf articular cartilage in organ culture in a chemically defined medium. 2. Concentrations of glycosaminoglycans and [35S]-sulfate incorporation at different oxygen tensions. 12 46

Mitochondrial ATPase from rat liver mitochondria contains multiple nucleotide binding sites. At low concentrations ADP binds with high affinity (1 mole/mole ATPase, KD = 1-2 muM). At high concentrations, ADP inhibits ATP hydrolysis presumably by competing with ATP for the active site (KI = 240-300 muM). As isolated, mitochondrial ATPase contains between 0.6 and 2.5 moles ATP/mole ATPase. This "tightly bound" ATP can be removed by repeated precipitations with ammonium sulfate without altering hydrolytic activity of the enzyme. However, the ATP-depleted enzyme must be redissolved in high concentrations of phosphate to retain activity. AMP-PNP (adenylyl imidodiphosphate) replaces tightly bound ATP removed from the enzyme and inhibits ATP hydrolysis. AMP-PNP has little effect on high affinity binding of ADP. Kinetics studies of ATP hydrolysis reveal hyperbolic velocity vs. ATP plots, provided assays are done in bicarbonate buffer or buffers containing high concentrations of phosphate. Taken together, these studies indicate that sites on the enzyme not directly associated with ATP hydrolysis bind ATP or ADP, and that in the absence of bound nucleotide, Pi can maintain the active form of the enzyme.
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PMID:Interaction of homogeneous mitochondrial ATPase from rat liver with adenine nucleotides and inorganic phosphate. 12 85

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